==>runtrx start: date: Thu May 29 18:53:41 EDT 2025 ( mccune010.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = NSTU.16 ==========(runtrx)====================== date: Thu May 29 18:53:41 EDT 2025 ( mccune010.pppl.gov ) args: 204112R76 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Thu May 29 18:53:41 EDT 2025 ( mccune010.pppl.gov ) --> copy_expert_for: standard expert source copied to: 204112R76ex.for --> copy_expert_for: up-to-date expert object copied to: 204112R76ex.o **** uplink 204112R76tr nolib check_xlibvars: setenv L_NAG (null) check_xlibvars: setenv L_MDESCR (null) check_xlibvars: setenv LMPI_FRANTIC(null) make: `/local/tr_rraman/transp_compute/NSTU/204112R76/204112R76ex.o' is up to date. csh -f /local/tr_rraman/transp_compute/NSTU/204112R76/204112R76tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Thu May 29 18:57:23 EDT 2025 ( mccune010.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 204112R76 %shell_server_exec: dir0 = /local/tr_rraman/transp_compute/NSTU/204112R76 %shell_server_exec: dirN = /local/tr_rraman/transp_compute/NSTU/204112R76 %shell_server_exec: testfile = 204112R76_27634_test.dat %shell_server_exec: not a parallel file system, did not find mccune011.pppl.gov:/local/tr_rraman/transp_compute/NSTU/204112R76/204112R76_27634_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/mccune010/tr_rraman/transp_compute/NSTU/204112R76/204112R76TR.EXE 204112R76 ... %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: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 trmpi_init: NBI_NPROCS = 32 32 %initcpl: MDS_CACHE enabled. %trmpi_openlog: LOGFILE_LEVEL = warn DATE: Thu May 29 18:57:28 2025 TRANSP Version: 24.5.0 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2025/01/27 ------------- %splitn_rhs: warning: namelist assign spans multiple rows of array. NIGCX=2,0,2,0,2,0,2,0,2,0,1,0,1,0,1,0 ! WHICH SPECIES ------------- %splitn_rhs: warning: namelist assign spans multiple rows of array. CXLMLO=10*500., 2160.,0.,2820.,0.,2380.,0. ------------- %splitn_rhs: warning: namelist assign spans multiple rows of array. CXLMHI=10*2500., 8780.,0.,8470.,0.,8000.,0. ------------- %splitn_rhs: warning: namelist assign spans multiple rows of array. CXMULO=10*0.1, 6*1.5 ------------- %splitn_rhs: warning: namelist assign spans multiple rows of array. CXMUHI=10*2.0, 6*20.0 %splitn_module: update block detected, t= 8.000000000000000E-002 %splitn_module: update block detected, t= 0.180000000000000 %splitn_module: update block detected, t= 0.280000000000000 %splitn_module: update block detected, t= 0.380000000000000 %splitn_module: update block detected, t= 0.480000000000000 %splitn_module: update block detected, t= 0.580000000000000 %splitn_module: update block detected, t= 0.680000000000000 %splitn_module: update block detected, t= 0.780000000000000 %splitn_module: update block detected, t= 0.880000000000000 namelist elements assigned the same value more than once: XYBAPA XYBSCA namelist element value field(s): decimal point(s) inserted: APROF_COEFFS_NER APROF_EDGE_VALUE_D2F %NLIST: open namelist file204112R76TR.ZDA %trcom_static_box: loading static data %trgdat: NLBCCW= F from PH.CDF file %trgdat: NLJCCW= T from PH.CDF file %trcom_allocate: reallocate: RLIM_PTS %trcom_allocate: reallocate: YLIM_PTS %get_mhd_free_grid: loading ISOLVER state file iso_nstx-upgrade.nc %refresh_dual: refreshing internal dual memory %green_points: cpu time = 0.249 %refresh_dual: done %isobox_setup::regrid: a regrid is not needed !set_active_feedbacks: cleared source for feedback ihor !set_active_feedbacks: cleared source for feedback iver !set_active_feedbacks: cleared source for feedback ioh %setup_mhd_free: nr= 129, nz= 129 %check_rzfs_data: RFS and ZFS flux surface data has 41 radial grid points: mapped to TRANSP run with 21 radial grid points. %trgdat: NMOM= 64 %DATCHK_MPI: NBI_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: reset MRSTRT to 0 %datchk: time dependent output resolution (sedit,stedit vs. time: "DTX") detected. %datchk: time dependent geometry timestep (dtmaxg vs. time: "DTG") detected. %datchk: time dependent source timestep (dt_sources vs. time: "DTS") detected. %DATCHK: ISOLVER, free-boundary DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC %TIME DEPENDENT FAST ION ANOM. DIFFUSION CONTROLS DETECTED! %DATCHK: NYXINV incremented to be odd: 101 161 %DATCHK: no ECH/ECCD, NLECH=F, %DATCHK: no Lower Hybrid, NLLH=F TIDXSW defaulted: value of 0.05 assigned. %DATCHK warning: RFRAC defaulted. %DATCKICH -- NLICRF=F so force NICHA=0 %DATCKA: ACfile times pre-screen... %DATCKA -- CHECKING NON-DEFAULT SPECIFICATIONS FOR AC FILE I/O GIVEN IN NAMELIST CHARACTER DATA ARRAYS "SELOUT" AND "SELAVG" %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %LH_ONOFF: no LH on/off times found. %EC_ONOFF: no ECH on/off times found. %ICRF_ONOFF: no ICRF on/off times found. %NB_ONOFF: NBI on/off times (s): 7.5000E-02 1.2000E+00 ps_init_tag: Plasma State v3.000 f90 module initialization. AUXVAL-- INITITIALIZE shared data structures. %DATCKA: ACfile times pre-screen... arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init MCINIT: RANDOM NUMBER GEN INITIALIZED - 1364976769 1364976769 %tabort_update: no namelist TABORT requests after t= 5.000000000000000E-002 AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM %AUXVAL: tbon & nb_next_ontime mismatch: tbon: 7.5000E-02 tbon_int: 1.0000E+34 AUXVAL-- INITIALIZE TEMPERATURE AND DENSITY PROFILES AUXVAL-- GEOMETRY INITIALIZATION PART 2. GFRAM0: bdy curvature ratio OK at t= 5.2200E-02 seconds: 8.3037E-02 GFRAM0: bdy curvature ratio OK at t= 5.0000E-02 seconds: 8.3037E-02 dmg_datbuf_expand call from dmgini_sized: isize= 0 ...reading TF.PLN header data... *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-5.00000E-02 CPU TIME= 2.07040E-02 SECONDS. DT= 1.00000E-04 %INITAL: pseudo time advanced to -4.887412E-02 %INITAL: pseudo time advanced to -4.741977E-02 %INITAL: pseudo time advanced to -4.574339E-02 %INITAL: pseudo time advanced to -4.457923E-02 %INITAL: pseudo time advanced to -4.312404E-02 %INITAL: pseudo time advanced to -4.130505E-02 %INITAL: pseudo time advanced to -3.930505E-02 %INITAL: pseudo time advanced to -3.730505E-02 %INITAL: pseudo time advanced to -3.530505E-02 %INITAL: pseudo time advanced to -3.330505E-02 %INITAL: pseudo time advanced to -3.130505E-02 %INITAL: pseudo time advanced to -2.930505E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** %treqbox_init_tr: clearing eqbox and loading tr attributes %treqbox_init_iso: loading iso attributes for isolver %isobox_ncloadTok: state file for nstu, config "shot: 204112" is iso_nstx-upgrade.nc %isom_deallocate: deallocated variable data %isog_deallocate: deallocated variable data %isoc_deallocate: deallocated variable data %taint_dual: internal data is tainted %dual_mod::free_int_memory: freeing internal dual memory %isod_deallocate: deallocated variable data %isop_deallocate: deallocated variable data %isol_deallocate: deallocated variable data %ref_mod::free_int_memory: freeing internal reference memory %isor_deallocate: deallocated variable data %isoi_deallocate: deallocated variable data %isos_deallocate: deallocated variable data %isof_deallocate: deallocated variable data %isob_deallocate: deallocated variable data %isow_deallocate: deallocated variable data %isoq_deallocate: deallocated variable data %refresh_dual: refreshing internal dual memory %green_points: cpu time = 0.253 %refresh_dual: done !set_active_feedbacks: cleared source for feedback ihor !set_active_feedbacks: cleared source for feedback iver !set_active_feedbacks: cleared source for feedback ioh %meq_resize: allocating meq storage of size = 5 ?loop_step: no convergence, max_iter = 2000 ?loop: solution failure !isolver_loop: loop convergence failure !isolver_loop: iretry=1, hot start, omega->omega/2., accept near convergence ?loop_step: no convergence, max_iter = 2000 ?loop: solution failure !isolver_loop: loop convergence failure !isolver_loop: iretry=2, hot start, iteration filter, additional q mode pcur,f smoothing, kopt=3 for q,Edge mode Avg. GS error: 5.513E-03 Plasma Current: 2.573E+05, target: 2.438E+05, error: 5.552% Edge Q: 25.710, target: 16.830, error: 52.769% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.0867E+02 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.6628E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** ?loop_step: no convergence, max_iter = 2000 ?loop: solution failure !isolver_loop: loop convergence failure !isolver_loop: iretry=1, hot start, omega->omega/2., accept near convergence ?loop_step: no convergence, max_iter = 2000 ?loop: solution failure !isolver_loop: loop convergence failure !isolver_loop: iretry=2, hot start, iteration filter, additional q mode pcur,f smoothing, kopt=3 for q,Edge mode Avg. GS error: 5.548E-03 Plasma Current: 2.571E+05, target: 2.479E+05, error: 3.716% Edge Q: 25.755, target: 16.830, error: 53.031% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.0584E+02 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.6334E-02 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-2.93051E-02 CPU TIME= 4.60000E-03 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to -2.730505E-02 %INITAL: pseudo time advanced to -2.530505E-02 %INITAL: pseudo time advanced to -2.330505E-02 %INITAL: pseudo time advanced to -2.130505E-02 %INITAL: pseudo time advanced to -1.930505E-02 %INITAL: pseudo time advanced to -1.730505E-02 %INITAL: pseudo time advanced to -1.530505E-02 %INITAL: pseudo time advanced to -1.330505E-02 %INITAL: pseudo time advanced to -1.130505E-02 %INITAL: pseudo time advanced to -9.305053E-03 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 7.529E-03 Plasma Current: 1.875E+05, target: 2.438E+05, error: 23.093% Edge Q: 19.126, target: 28.376, error: 32.596% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9498E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4337E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5011612517758 34.6558541805193 R2(t%rmajmp, data): 146.210901947365 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5011612517758 34.6558541805193 R2(t%rmajmp, data): 146.210901947365 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5011612517758 34.6558541805193 R2(t%rmajmp, data): 146.210901947365 146.512661871317 (fixup applied). % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5011612517758 34.6558541805193 R2(t%rmajmp, data): 146.210901947365 146.512661871317 (fixup applied). Avg. GS error: 7.324E-03 Plasma Current: 2.062E+05, target: 2.479E+05, error: 16.802% Edge Q: 19.121, target: 28.376, error: 32.615% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9153E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4786E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012447732065 34.6558541805193 R2(t%rmajmp, data): 146.686349397488 146.512661871317 (fixup applied). *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-9.30505E-03 CPU TIME= 4.55300E-03 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to -7.305053E-03 %INITAL: pseudo time advanced to -5.305053E-03 %INITAL: pseudo time advanced to -3.305053E-03 %INITAL: pseudo time advanced to -1.305053E-03 %INITAL: pseudo time advanced to 6.949470E-04 %INITAL: pseudo time advanced to 2.694947E-03 %INITAL: pseudo time advanced to 4.694947E-03 %INITAL: pseudo time advanced to 6.694947E-03 %INITAL: pseudo time advanced to 8.694947E-03 %INITAL: pseudo time advanced to 1.069495E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.697E-03 Plasma Current: 2.438E+05, target: 2.438E+05, error: 0.002% Edge Q: 16.378, target: 15.914, error: 2.914% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.4385E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5733E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.590E-03 Plasma Current: 2.479E+05, target: 2.479E+05, error: 0.004% Edge Q: 15.832, target: 15.914, error: 0.520% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4564E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5199E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.06949E-02 CPU TIME= 4.55700E-03 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 1.269495E-02 %INITAL: pseudo time advanced to 1.469495E-02 %INITAL: pseudo time advanced to 1.669495E-02 %INITAL: pseudo time advanced to 1.869495E-02 %INITAL: pseudo time advanced to 2.069495E-02 %INITAL: pseudo time advanced to 2.269495E-02 %INITAL: pseudo time advanced to 2.469495E-02 %INITAL: pseudo time advanced to 2.669495E-02 %INITAL: pseudo time advanced to 2.869495E-02 %INITAL: pseudo time advanced to 3.069495E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.657E-03 Plasma Current: 2.438E+05, target: 2.438E+05, error: 0.000% Edge Q: 16.009, target: 15.962, error: 0.291% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3729E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5260E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.634E-03 Plasma Current: 2.479E+05, target: 2.479E+05, error: 0.003% Edge Q: 15.894, target: 15.962, error: 0.428% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3719E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5262E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.06949E-02 CPU TIME= 4.56800E-03 SECONDS. DT= 2.00000E-03 %INITAL: pseudo time advanced to 3.269495E-02 %INITAL: pseudo time advanced to 3.469495E-02 %INITAL: pseudo time advanced to 3.669495E-02 %INITAL: pseudo time advanced to 3.869495E-02 %INITAL: pseudo time advanced to 4.069495E-02 %INITAL: pseudo time advanced to 4.269495E-02 %INITAL: pseudo time advanced to 4.469495E-02 %INITAL: pseudo time advanced to 4.669495E-02 %INITAL: pseudo time advanced to 4.869495E-02 sce_equil_init: Equilibration feature not active (noption_equil <= 0 in namelist). %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1 TA= 5.00000E-02 CPU TIME= 7.51900E-03 SECONDS. DT= 1.00000E-03 %check_save_state: SLURM_JOB_ID = 6930767 %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 = 6.680444444464229E-002 %check_save_state: izleft hours = 79.8655555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.0000000E-02 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.951E+03 MB. --> plasma_hash("gframe"): TA= 5.000000E-02 NSTEP= 1 Hash code: 19876111 ->PRGCHK: bdy curvature ratio at t= 5.0397E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.050397 ; DTG= 3.968E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Avg. GS error: 2.703E-03 Plasma Current: 2.445E+05, target: 2.445E+05, error: 0.002% Edge Q: 15.925, target: 16.090, error: 1.025% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2600E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5478E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050000 TO TG2= 0.050397 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 3.3130404006475D+03 GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal GASFL called from sbrtn pbal %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %nclass_driver: Allocating module variables %nclass_driver_mod: replacing geometry module variables in the ncbox %nclass_geometry: Deallocating module variables %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %nclass_driver: Deallocating module variables %nclass_driver: Allocating module variables %nclass_driver_mod: replacing geometry module variables in the ncbox %MFRCHK - LABEL "BALE0_SGF", # 19= -2.16669E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.039683E-02 NSTEP= 2 Hash code: 37041768 ->PRGCHK: bdy curvature ratio at t= 5.0633E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050397 ; TG2= 0.050633 ; DTG= 2.366E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.280E-07 FluxDiff MaxDT: 2.895E-04 Avg. GS error: 2.964E-03 Plasma Current: 2.449E+05, target: 2.449E+05, error: 0.001% Edge Q: 16.082, target: 15.894, error: 1.185% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5386E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5412E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050397 TO TG2= 0.050633 @ NSTEP 2 GFRAME TG2 MOMENTS CHECKSUM: 3.3194641250700D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2 TA= 5.03968E-02 CPU TIME= 7.68700E-03 SECONDS. DT= 2.36569E-04 --> plasma_hash("gframe"): TA= 5.063339E-02 NSTEP= 3 Hash code: 77210913 ->PRGCHK: bdy curvature ratio at t= 5.0893E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050633 ; TG2= 0.050893 ; DTG= 2.592E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.186E-07 FluxDiff MaxDT: 5.661E-04 Avg. GS error: 3.631E-03 Plasma Current: 2.454E+05, target: 2.454E+05, error: 0.001% Edge Q: 16.417, target: 16.345, error: 0.441% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5402E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5275E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050633 TO TG2= 0.050893 @ NSTEP 3 GFRAME TG2 MOMENTS CHECKSUM: 3.3313927209902D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3 TA= 5.06334E-02 CPU TIME= 7.67700E-03 SECONDS. DT= 2.59219E-04 --> plasma_hash("gframe"): TA= 5.089261E-02 NSTEP= 4 Hash code: 18529176 ->PRGCHK: bdy curvature ratio at t= 5.1453E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050893 ; TG2= 0.051453 ; DTG= 5.606E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.013E-08 FluxDiff MaxDT: 1.304E-03 Avg. GS error: 3.233E-03 Plasma Current: 2.465E+05, target: 2.465E+05, error: 0.001% Edge Q: 16.388, target: 16.245, error: 0.877% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4368E+00 SECONDS DATA R*BT AT EDGE: 5.9045E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5243E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050893 TO TG2= 0.051453 @ NSTEP 4 GFRAME TG2 MOMENTS CHECKSUM: 3.3355672851838D+03 --> plasma_hash("gframe"): TA= 5.145325E-02 NSTEP= 5 Hash code: 65375594 ->PRGCHK: bdy curvature ratio at t= 5.2294E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.051453 ; TG2= 0.052294 ; DTG= 8.410E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.460E-08 FluxDiff MaxDT: 1.028E-03 Avg. GS error: 3.162E-03 Plasma Current: 2.481E+05, target: 2.481E+05, error: 0.002% Edge Q: 16.292, target: 16.610, error: 1.913% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5304E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5356E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.051453 TO TG2= 0.052294 @ NSTEP 5 GFRAME TG2 MOMENTS CHECKSUM: 3.3368017898376D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5 TA= 5.14533E-02 CPU TIME= 7.67500E-03 SECONDS. DT= 8.40955E-04 --> plasma_hash("gframe"): TA= 5.229421E-02 NSTEP= 6 Hash code: 114706974 ->PRGCHK: bdy curvature ratio at t= 5.3281E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.052294 ; TG2= 0.053281 ; DTG= 9.872E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.286E-07 FluxDiff MaxDT: 8.969E-04 Avg. GS error: 3.108E-03 Plasma Current: 2.499E+05, target: 2.499E+05, error: 0.001% Edge Q: 16.181, target: 16.242, error: 0.375% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3914E+00 SECONDS DATA R*BT AT EDGE: 5.9049E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5448E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.052294 TO TG2= 0.053281 @ NSTEP 6 GFRAME TG2 MOMENTS CHECKSUM: 3.3381206783105D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6 TA= 5.22942E-02 CPU TIME= 7.69100E-03 SECONDS. DT= 9.87208E-04 --> plasma_hash("gframe"): TA= 5.328141E-02 NSTEP= 7 Hash code: 846412 ->PRGCHK: bdy curvature ratio at t= 5.4150E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.053281 ; TG2= 0.054150 ; DTG= 8.687E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.219E-07 FluxDiff MaxDT: 8.508E-04 Avg. GS error: 3.346E-03 Plasma Current: 2.515E+05, target: 2.515E+05, error: 0.001% Edge Q: 16.102, target: 16.351, error: 1.517% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3337E+00 SECONDS DATA R*BT AT EDGE: 5.9049E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5502E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.053281 TO TG2= 0.054150 @ NSTEP 7 GFRAME TG2 MOMENTS CHECKSUM: 3.3395974343706D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7 TA= 5.32814E-02 CPU TIME= 7.69400E-03 SECONDS. DT= 8.68743E-04 --> plasma_hash("gframe"): TA= 5.415016E-02 NSTEP= 8 Hash code: 24236193 ->PRGCHK: bdy curvature ratio at t= 5.4984E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.054150 ; TG2= 0.054984 ; DTG= 8.340E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.160E-07 FluxDiff MaxDT: 8.373E-04 Avg. GS error: 3.198E-03 Plasma Current: 2.531E+05, target: 2.531E+05, error: 0.001% Edge Q: 16.023, target: 16.072, error: 0.308% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2778E+00 SECONDS DATA R*BT AT EDGE: 5.9048E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5561E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.054150 TO TG2= 0.054984 @ NSTEP 8 GFRAME TG2 MOMENTS CHECKSUM: 3.3407722412804D+03 --> plasma_hash("gframe"): TA= 5.498415E-02 NSTEP= 9 Hash code: 21423196 ->PRGCHK: bdy curvature ratio at t= 5.5818E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.054984 ; TG2= 0.055818 ; DTG= 8.340E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.795E-07 FluxDiff MaxDT: 8.495E-04 Avg. GS error: 3.153E-03 Plasma Current: 2.547E+05, target: 2.547E+05, error: 0.001% Edge Q: 15.954, target: 16.179, error: 1.390% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3041E+00 SECONDS DATA R*BT AT EDGE: 5.9046E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5598E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.054984 TO TG2= 0.055818 @ NSTEP 9 GFRAME TG2 MOMENTS CHECKSUM: 3.3419356316148D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9 TA= 5.49842E-02 CPU TIME= 7.66000E-03 SECONDS. DT= 8.33994E-04 --> plasma_hash("gframe"): TA= 5.581815E-02 NSTEP= 10 Hash code: 72093241 ->PRGCHK: bdy curvature ratio at t= 5.6652E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.055818 ; TG2= 0.056652 ; DTG= 8.340E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.987E-07 FluxDiff MaxDT: 8.634E-04 Avg. GS error: 3.015E-03 Plasma Current: 2.562E+05, target: 2.562E+05, error: 0.001% Edge Q: 15.879, target: 15.930, error: 0.320% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2894E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5649E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.055818 TO TG2= 0.056652 @ NSTEP 10 GFRAME TG2 MOMENTS CHECKSUM: 3.3429267529046D+03 --> plasma_hash("gframe"): TA= 5.665214E-02 NSTEP= 11 Hash code: 48360306 ->PRGCHK: bdy curvature ratio at t= 5.7486E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.056652 ; TG2= 0.057486 ; DTG= 8.340E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.909E-07 FluxDiff MaxDT: 8.789E-04 Avg. GS error: 3.022E-03 Plasma Current: 2.578E+05, target: 2.578E+05, error: 0.001% Edge Q: 15.811, target: 16.029, error: 1.356% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2972E+00 SECONDS DATA R*BT AT EDGE: 5.9039E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5682E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.056652 TO TG2= 0.057486 @ NSTEP 11 GFRAME TG2 MOMENTS CHECKSUM: 3.3439976174761D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 11 TA= 5.66521E-02 CPU TIME= 7.68600E-03 SECONDS. DT= 8.33994E-04 --> plasma_hash("gframe"): TA= 5.748613E-02 NSTEP= 12 Hash code: 59562108 ->PRGCHK: bdy curvature ratio at t= 5.8362E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.057486 ; TG2= 0.058362 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.318E-07 FluxDiff MaxDT: 8.908E-04 Avg. GS error: 2.955E-03 Plasma Current: 2.594E+05, target: 2.594E+05, error: 0.001% Edge Q: 15.733, target: 15.793, error: 0.382% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3016E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5732E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.057486 TO TG2= 0.058362 @ NSTEP 12 GFRAME TG2 MOMENTS CHECKSUM: 3.3450145161671D+03 --> plasma_hash("gframe"): TA= 5.836183E-02 NSTEP= 13 Hash code: 108093481 ->PRGCHK: bdy curvature ratio at t= 5.9238E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.058362 ; TG2= 0.059238 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.079E-06 FluxDiff MaxDT: 9.025E-04 Avg. GS error: 2.982E-03 Plasma Current: 2.611E+05, target: 2.611E+05, error: 0.001% Edge Q: 15.663, target: 15.878, error: 1.357% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3058E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5768E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.058362 TO TG2= 0.059238 @ NSTEP 13 GFRAME TG2 MOMENTS CHECKSUM: 3.3460178523871D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 13 TA= 5.83618E-02 CPU TIME= 7.66100E-03 SECONDS. DT= 8.75693E-04 --> plasma_hash("gframe"): TA= 5.923752E-02 NSTEP= 14 Hash code: 59521033 ->PRGCHK: bdy curvature ratio at t= 6.0113E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.059238 ; TG2= 0.060113 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.061E-06 FluxDiff MaxDT: 9.140E-04 Avg. GS error: 2.954E-03 Plasma Current: 2.627E+05, target: 2.627E+05, error: 0.001% Edge Q: 15.586, target: 15.649, error: 0.404% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3098E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5812E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.059238 TO TG2= 0.060113 @ NSTEP 14 GFRAME TG2 MOMENTS CHECKSUM: 3.3469886904904D+03 --> plasma_hash("gframe"): TA= 6.011321E-02 NSTEP= 15 Hash code: 123176262 ->PRGCHK: bdy curvature ratio at t= 6.0989E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.060113 ; TG2= 0.060989 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.186E-06 FluxDiff MaxDT: 9.259E-04 Avg. GS error: 2.981E-03 Plasma Current: 2.644E+05, target: 2.644E+05, error: 0.001% Edge Q: 15.516, target: 15.727, error: 1.341% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3156E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5778E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.060113 TO TG2= 0.060989 @ NSTEP 15 GFRAME TG2 MOMENTS CHECKSUM: 3.3480000408349D+03 --> plasma_hash("gframe"): TA= 6.098891E-02 NSTEP= 16 Hash code: 13295495 ->PRGCHK: bdy curvature ratio at t= 6.1865E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.060989 ; TG2= 0.061865 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.234E-06 FluxDiff MaxDT: 9.358E-04 Avg. GS error: 2.964E-03 Plasma Current: 2.660E+05, target: 2.660E+05, error: 0.001% Edge Q: 15.441, target: 15.507, error: 0.425% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2922E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5818E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.060989 TO TG2= 0.061865 @ NSTEP 16 GFRAME TG2 MOMENTS CHECKSUM: 3.3488522140361D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 16 TA= 6.09889E-02 CPU TIME= 7.65100E-03 SECONDS. DT= 8.75693E-04 --> plasma_hash("gframe"): TA= 6.186460E-02 NSTEP= 17 Hash code: 31280481 ->PRGCHK: bdy curvature ratio at t= 6.2740E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.061865 ; TG2= 0.062740 ; DTG= 8.757E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.320E-06 FluxDiff MaxDT: 9.477E-04 Avg. GS error: 2.956E-03 Plasma Current: 2.676E+05, target: 2.676E+05, error: 0.001% Edge Q: 15.371, target: 15.577, error: 1.324% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2889E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5833E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.061865 TO TG2= 0.062740 @ NSTEP 17 GFRAME TG2 MOMENTS CHECKSUM: 3.3497157865091D+03 --> plasma_hash("gframe"): TA= 6.274029E-02 NSTEP= 18 Hash code: 19161660 ->PRGCHK: bdy curvature ratio at t= 6.3683E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.062740 ; TG2= 0.063683 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.371E-06 FluxDiff MaxDT: 9.600E-04 Avg. GS error: 2.925E-03 Plasma Current: 2.694E+05, target: 2.694E+05, error: 0.001% Edge Q: 15.290, target: 15.366, error: 0.493% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2891E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5877E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.062740 TO TG2= 0.063683 @ NSTEP 18 GFRAME TG2 MOMENTS CHECKSUM: 3.3505192909638D+03 --> plasma_hash("gframe"): TA= 6.368335E-02 NSTEP= 19 Hash code: 83124195 ->PRGCHK: bdy curvature ratio at t= 6.4626E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.063683 ; TG2= 0.064626 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.812E-06 FluxDiff MaxDT: 9.686E-04 Avg. GS error: 2.936E-03 Plasma Current: 2.712E+05, target: 2.712E+05, error: 0.001% Edge Q: 15.216, target: 15.423, error: 1.341% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2903E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5898E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.063683 TO TG2= 0.064626 @ NSTEP 19 GFRAME TG2 MOMENTS CHECKSUM: 3.3513685533623D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 19 TA= 6.36833E-02 CPU TIME= 7.67500E-03 SECONDS. DT= 9.43054E-04 --> plasma_hash("gframe"): TA= 6.462640E-02 NSTEP= 20 Hash code: 53186173 ->PRGCHK: bdy curvature ratio at t= 6.5569E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.064626 ; TG2= 0.065569 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.716E-06 FluxDiff MaxDT: 9.806E-04 Avg. GS error: 2.911E-03 Plasma Current: 2.729E+05, target: 2.729E+05, error: 0.001% Edge Q: 15.137, target: 15.213, error: 0.496% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2876E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5940E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.064626 TO TG2= 0.065569 @ NSTEP 20 GFRAME TG2 MOMENTS CHECKSUM: 3.3521798553791D+03 --> plasma_hash("gframe"): TA= 6.556946E-02 NSTEP= 21 Hash code: 65401845 ->PRGCHK: bdy curvature ratio at t= 6.6513E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.065569 ; TG2= 0.066513 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.837E-06 FluxDiff MaxDT: 9.925E-04 Avg. GS error: 2.936E-03 Plasma Current: 2.747E+05, target: 2.747E+05, error: 0.001% Edge Q: 15.064, target: 15.267, error: 1.330% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2896E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5962E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.065569 TO TG2= 0.066513 @ NSTEP 21 GFRAME TG2 MOMENTS CHECKSUM: 3.3529415297838D+03 --> plasma_hash("gframe"): TA= 6.651251E-02 NSTEP= 22 Hash code: 92102372 ->PRGCHK: bdy curvature ratio at t= 6.7456E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.066513 ; TG2= 0.067456 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.843E-06 FluxDiff MaxDT: 1.005E-03 Avg. GS error: 2.912E-03 Plasma Current: 2.765E+05, target: 2.765E+05, error: 0.000% Edge Q: 14.986, target: 15.063, error: 0.508% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2904E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6003E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.066513 TO TG2= 0.067456 @ NSTEP 22 GFRAME TG2 MOMENTS CHECKSUM: 3.3536491283617D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 22 TA= 6.65125E-02 CPU TIME= 7.66600E-03 SECONDS. DT= 9.43054E-04 --> plasma_hash("gframe"): TA= 6.745556E-02 NSTEP= 23 Hash code: 2440530 ->PRGCHK: bdy curvature ratio at t= 6.8399E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.067456 ; TG2= 0.068399 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.887E-06 FluxDiff MaxDT: 1.018E-03 Avg. GS error: 2.947E-03 Plasma Current: 2.782E+05, target: 2.782E+05, error: 0.001% Edge Q: 14.913, target: 15.112, error: 1.320% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2864E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6025E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.067456 TO TG2= 0.068399 @ NSTEP 23 GFRAME TG2 MOMENTS CHECKSUM: 3.3543872634747D+03 --> plasma_hash("gframe"): TA= 6.839862E-02 NSTEP= 24 Hash code: 40028168 ->PRGCHK: bdy curvature ratio at t= 6.9342E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.068399 ; TG2= 0.069342 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.909E-06 FluxDiff MaxDT: 1.030E-03 Avg. GS error: 2.919E-03 Plasma Current: 2.800E+05, target: 2.800E+05, error: 0.001% Edge Q: 14.836, target: 14.913, error: 0.518% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2636E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6064E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.068399 TO TG2= 0.069342 @ NSTEP 24 GFRAME TG2 MOMENTS CHECKSUM: 3.3550433842353D+03 --> plasma_hash("gframe"): TA= 6.934167E-02 NSTEP= 25 Hash code: 8393103 ->PRGCHK: bdy curvature ratio at t= 7.0285E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.069342 ; TG2= 0.070285 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.939E-06 FluxDiff MaxDT: 1.042E-03 Avg. GS error: 2.957E-03 Plasma Current: 2.818E+05, target: 2.818E+05, error: 0.001% Edge Q: 14.763, target: 14.959, error: 1.312% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2883E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6086E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.069342 TO TG2= 0.070285 @ NSTEP 25 GFRAME TG2 MOMENTS CHECKSUM: 3.3556682903648D+03 --> plasma_hash("gframe"): TA= 7.028473E-02 NSTEP= 26 Hash code: 41189787 ->PRGCHK: bdy curvature ratio at t= 7.1228E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.070285 ; TG2= 0.071228 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.965E-06 FluxDiff MaxDT: 1.054E-03 Avg. GS error: 2.926E-03 Plasma Current: 2.836E+05, target: 2.836E+05, error: 0.001% Edge Q: 14.686, target: 14.765, error: 0.530% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2667E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6124E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.070285 TO TG2= 0.071228 @ NSTEP 26 GFRAME TG2 MOMENTS CHECKSUM: 3.3562587952828D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 26 TA= 7.02847E-02 CPU TIME= 7.63200E-03 SECONDS. DT= 9.43054E-04 --> plasma_hash("gframe"): TA= 7.122778E-02 NSTEP= 27 Hash code: 109511193 ->PRGCHK: bdy curvature ratio at t= 7.2171E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.071228 ; TG2= 0.072171 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.990E-06 FluxDiff MaxDT: 1.066E-03 Avg. GS error: 2.969E-03 Plasma Current: 2.853E+05, target: 2.853E+05, error: 0.001% Edge Q: 14.613, target: 14.806, error: 1.303% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2944E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6145E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.071228 TO TG2= 0.072171 @ NSTEP 27 GFRAME TG2 MOMENTS CHECKSUM: 3.3568256619030D+03 --> plasma_hash("gframe"): TA= 7.217084E-02 NSTEP= 28 Hash code: 83480014 ->PRGCHK: bdy curvature ratio at t= 7.3114E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.072171 ; TG2= 0.073114 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.014E-06 FluxDiff MaxDT: 1.077E-03 Avg. GS error: 2.936E-03 Plasma Current: 2.871E+05, target: 2.871E+05, error: 0.001% Edge Q: 14.537, target: 14.616, error: 0.542% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2694E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6180E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.072171 TO TG2= 0.073114 @ NSTEP 28 GFRAME TG2 MOMENTS CHECKSUM: 3.3573502074849D+03 --> plasma_hash("gframe"): TA= 7.311389E-02 NSTEP= 29 Hash code: 96875340 ->PRGCHK: bdy curvature ratio at t= 7.4057E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.073114 ; TG2= 0.074057 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.036E-06 FluxDiff MaxDT: 1.089E-03 Avg. GS error: 2.981E-03 Plasma Current: 2.889E+05, target: 2.889E+05, error: 0.001% Edge Q: 14.464, target: 14.654, error: 1.295% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2734E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6201E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.073114 TO TG2= 0.074057 @ NSTEP 29 GFRAME TG2 MOMENTS CHECKSUM: 3.3578836996901D+03 --> plasma_hash("gframe"): TA= 7.405695E-02 NSTEP= 30 Hash code: 100936297 ->PRGCHK: bdy curvature ratio at t= 7.5000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.074057 ; TG2= 0.075000 ; DTG= 9.431E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.059E-06 FluxDiff MaxDT: 1.099E-03 Avg. GS error: 2.949E-03 Plasma Current: 2.906E+05, target: 2.906E+05, error: 0.001% Edge Q: 14.388, target: 14.469, error: 0.555% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2794E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6234E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.074057 TO TG2= 0.075000 @ NSTEP 30 GFRAME TG2 MOMENTS CHECKSUM: 3.3583701757657D+03 cpu time (sec) in nubeam_ctrl_init: 9.9700E-04 %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): 4.7196E+19 nbi_getprofiles ne*dvol sum (ions): 4.7196E+19 nbstart... % nbi_alloc2_init: nbi_alloc2 done % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %fi_finish: enter %fimain: eflux cpu time = 7.999999979801942E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 31 TA= 7.50000E-02 CPU TIME= 8.83300E-03 SECONDS. DT= 9.43054E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 8.915111111173246E-002 %check_save_state: izleft hours = 79.8433333333333 --> plasma_hash("gframe"): TA= 7.500000E-02 NSTEP= 31 Hash code: 56458237 ->PRGCHK: bdy curvature ratio at t= 7.6053E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.075000 ; TG2= 0.076053 ; DTG= 1.053E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.365E-06 FluxDiff MaxDT: 1.111E-03 Avg. GS error: 2.978E-03 Plasma Current: 2.926E+05, target: 2.926E+05, error: 0.001% Edge Q: 14.304, target: 14.502, error: 1.364% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3037E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6260E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.075000 TO TG2= 0.076053 @ NSTEP 31 GFRAME TG2 MOMENTS CHECKSUM: 3.3587734854327D+03 --> plasma_hash("gframe"): TA= 7.605263E-02 NSTEP= 33 Hash code: 77989184 ->PRGCHK: bdy curvature ratio at t= 7.7105E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.076053 ; TG2= 0.077105 ; DTG= 1.053E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.876E-06 FluxDiff MaxDT: 1.138E-03 Avg. GS error: 2.923E-03 Plasma Current: 2.946E+05, target: 2.946E+05, error: 0.001% Edge Q: 14.251, target: 14.310, error: 0.412% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2969E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6277E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.076053 TO TG2= 0.077105 @ NSTEP 33 GFRAME TG2 MOMENTS CHECKSUM: 3.3609272989167D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 34 TA= 7.69957E-02 CPU TIME= 9.00000E-03 SECONDS. DT= 1.09577E-04 --> plasma_hash("gframe"): TA= 7.710526E-02 NSTEP= 35 Hash code: 65631199 ->PRGCHK: bdy curvature ratio at t= 7.8224E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.077105 ; TG2= 0.078224 ; DTG= 1.118E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.802E-06 FluxDiff MaxDT: 1.211E-03 Avg. GS error: 2.955E-03 Plasma Current: 2.967E+05, target: 2.967E+05, error: 0.001% Edge Q: 14.192, target: 14.366, error: 1.211% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2983E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6270E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.077105 TO TG2= 0.078224 @ NSTEP 35 GFRAME TG2 MOMENTS CHECKSUM: 3.3632914939022D+03 --> plasma_hash("gframe"): TA= 7.822368E-02 NSTEP= 37 Hash code: 64564916 ->PRGCHK: bdy curvature ratio at t= 7.9422E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.078224 ; TG2= 0.079422 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.436E-06 FluxDiff MaxDT: 1.230E-03 Avg. GS error: 2.936E-03 Plasma Current: 2.989E+05, target: 2.989E+05, error: 0.001% Edge Q: 14.131, target: 14.195, error: 0.454% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3237E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6268E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.078224 TO TG2= 0.079422 @ NSTEP 37 GFRAME TG2 MOMENTS CHECKSUM: 3.3662931127325D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 38 TA= 7.91667E-02 CPU TIME= 8.95100E-03 SECONDS. DT= 2.55254E-04 --> plasma_hash("gframe"): TA= 7.942199E-02 NSTEP= 39 Hash code: 94360651 ->PRGCHK: bdy curvature ratio at t= 8.0620E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.079422 ; TG2= 0.080620 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.579E-06 FluxDiff MaxDT: 1.240E-03 Avg. GS error: 3.003E-03 Plasma Current: 3.012E+05, target: 3.012E+05, error: 0.001% Edge Q: 14.082, target: 14.246, error: 1.151% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3294E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6243E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.079422 TO TG2= 0.080620 @ NSTEP 39 GFRAME TG2 MOMENTS CHECKSUM: 3.3700715823259D+03 %splitn_update_check: writing update: 204112R76TR.TMP @ t= 8.000000000000000E-002 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 5.00000000E+12 to 7.00000000E+12 namelist update changed APROF_EDGE_VALUE_NER from 2.00000000E+12 to 1.25000000E+12 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 19= -1.60893E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.062030E-02 NSTEP= 42 Hash code: 7917406 ->PRGCHK: bdy curvature ratio at t= 8.1819E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.080620 ; TG2= 0.081819 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.585E-06 FluxDiff MaxDT: 1.251E-03 Avg. GS error: 2.974E-03 Plasma Current: 3.034E+05, target: 3.034E+05, error: 0.001% Edge Q: 14.038, target: 14.086, error: 0.341% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2995E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6163E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.080620 TO TG2= 0.081819 @ NSTEP 42 GFRAME TG2 MOMENTS CHECKSUM: 3.3744297968489D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 43 TA= 8.11983E-02 CPU TIME= 8.94900E-03 SECONDS. DT= 5.78008E-04 --> plasma_hash("gframe"): TA= 8.181861E-02 NSTEP= 45 Hash code: 88359900 ->PRGCHK: bdy curvature ratio at t= 8.3017E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.081819 ; TG2= 0.083017 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.657E-06 FluxDiff MaxDT: 1.265E-03 Avg. GS error: 3.025E-03 Plasma Current: 3.057E+05, target: 3.057E+05, error: 0.001% Edge Q: 14.006, target: 14.152, error: 1.038% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3033E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6032E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.081819 TO TG2= 0.083017 @ NSTEP 45 GFRAME TG2 MOMENTS CHECKSUM: 3.3793406149492D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 46 TA= 8.23966E-02 CPU TIME= 8.95800E-03 SECONDS. DT= 5.78008E-04 --> plasma_hash("gframe"): TA= 8.301692E-02 NSTEP= 48 Hash code: 39361685 ->PRGCHK: bdy curvature ratio at t= 8.4215E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.083017 ; TG2= 0.084215 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.722E-06 FluxDiff MaxDT: 1.280E-03 Avg. GS error: 3.031E-03 Plasma Current: 3.079E+05, target: 3.079E+05, error: 0.000% Edge Q: 13.980, target: 14.011, error: 0.222% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2980E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5904E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.083017 TO TG2= 0.084215 @ NSTEP 48 GFRAME TG2 MOMENTS CHECKSUM: 3.3848488829144D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 49 TA= 8.35949E-02 CPU TIME= 8.99100E-03 SECONDS. DT= 5.78008E-04 --> plasma_hash("gframe"): TA= 8.421523E-02 NSTEP= 51 Hash code: 109870187 ->PRGCHK: bdy curvature ratio at t= 8.5414E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.084215 ; TG2= 0.085414 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.804E-06 FluxDiff MaxDT: 1.301E-03 Avg. GS error: 3.129E-03 Plasma Current: 3.102E+05, target: 3.102E+05, error: 0.000% Edge Q: 13.967, target: 14.093, error: 0.898% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3081E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5764E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.084215 TO TG2= 0.085414 @ NSTEP 51 GFRAME TG2 MOMENTS CHECKSUM: 3.3909152986294D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52 TA= 8.47932E-02 CPU TIME= 9.00000E-03 SECONDS. DT= 5.78008E-04 --> plasma_hash("gframe"): TA= 8.541353E-02 NSTEP= 54 Hash code: 113274159 ->PRGCHK: bdy curvature ratio at t= 8.6612E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.085414 ; TG2= 0.086612 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.874E-06 FluxDiff MaxDT: 1.330E-03 Avg. GS error: 3.163E-03 Plasma Current: 3.124E+05, target: 3.124E+05, error: 0.000% Edge Q: 13.959, target: 13.973, error: 0.099% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3125E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5566E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.085414 TO TG2= 0.086612 @ NSTEP 54 GFRAME TG2 MOMENTS CHECKSUM: 3.3974824097294D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 55 TA= 8.59915E-02 CPU TIME= 8.99400E-03 SECONDS. DT= 5.78008E-04 --> plasma_hash("gframe"): TA= 8.661184E-02 NSTEP= 57 Hash code: 19488278 ->PRGCHK: bdy curvature ratio at t= 8.7810E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.086612 ; TG2= 0.087810 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.945E-06 FluxDiff MaxDT: 1.362E-03 Avg. GS error: 3.259E-03 Plasma Current: 3.146E+05, target: 3.146E+05, error: 0.000% Edge Q: 13.962, target: 14.074, error: 0.795% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3261E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5495E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.086612 TO TG2= 0.087810 @ NSTEP 57 GFRAME TG2 MOMENTS CHECKSUM: 3.4044115489103D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 59 TA= 8.77679E-02 CPU TIME= 9.00600E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 8.781015E-02 NSTEP= 60 Hash code: 33427930 ->PRGCHK: bdy curvature ratio at t= 8.9008E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.087810 ; TG2= 0.089008 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.017E-06 FluxDiff MaxDT: 1.394E-03 Avg. GS error: 3.324E-03 Plasma Current: 3.169E+05, target: 3.169E+05, error: 0.000% Edge Q: 13.969, target: 13.969, error: 0.001% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4010E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5413E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.087810 TO TG2= 0.089008 @ NSTEP 60 GFRAME TG2 MOMENTS CHECKSUM: 3.4117917265678D+03 --> plasma_hash("gframe"): TA= 8.900846E-02 NSTEP= 63 Hash code: 84278476 ->PRGCHK: bdy curvature ratio at t= 9.0207E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.089008 ; TG2= 0.090207 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.099E-06 FluxDiff MaxDT: 1.428E-03 Avg. GS error: 3.472E-03 Plasma Current: 3.191E+05, target: 3.191E+05, error: 0.001% Edge Q: 13.986, target: 14.085, error: 0.705% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4352E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5289E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.089008 TO TG2= 0.090207 @ NSTEP 63 GFRAME TG2 MOMENTS CHECKSUM: 3.4196735769291D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64 TA= 8.95865E-02 CPU TIME= 9.29300E-02 SECONDS. DT= 5.78008E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65 TA= 9.01645E-02 CPU TIME= 1.50950E-01 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 9.020677E-02 NSTEP= 66 Hash code: 64164841 ->PRGCHK: bdy curvature ratio at t= 9.1405E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.090207 ; TG2= 0.091405 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.976E-06 FluxDiff MaxDT: 1.437E-03 Avg. GS error: 3.440E-03 Plasma Current: 3.214E+05, target: 3.214E+05, error: 0.001% Edge Q: 13.981, target: 13.993, error: 0.079% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2824E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5087E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.090207 TO TG2= 0.091405 @ NSTEP 66 GFRAME TG2 MOMENTS CHECKSUM: 3.4273616738078D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= 3.05178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 1.50518E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 1.54660E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 9.140508E-02 NSTEP= 69 Hash code: 10946413 ->PRGCHK: bdy curvature ratio at t= 9.2603E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.091405 ; TG2= 0.092603 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.049E-06 FluxDiff MaxDT: 1.389E-03 Avg. GS error: 3.574E-03 Plasma Current: 3.236E+05, target: 3.236E+05, error: 0.002% Edge Q: 13.976, target: 14.094, error: 0.838% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2653E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4982E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.091405 TO TG2= 0.092603 @ NSTEP 69 GFRAME TG2 MOMENTS CHECKSUM: 3.4348968148043D+03 --> plasma_hash("gframe"): TA= 9.260338E-02 NSTEP= 72 Hash code: 103685363 ->PRGCHK: bdy curvature ratio at t= 9.3802E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.092603 ; TG2= 0.093802 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.242E-06 FluxDiff MaxDT: 1.370E-03 Avg. GS error: 3.741E-03 Plasma Current: 3.259E+05, target: 3.259E+05, error: 0.002% Edge Q: 13.979, target: 13.986, error: 0.053% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2468E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4809E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.092603 TO TG2= 0.093802 @ NSTEP 72 GFRAME TG2 MOMENTS CHECKSUM: 3.4426225197790D+03 --> plasma_hash("gframe"): TA= 9.380169E-02 NSTEP= 75 Hash code: 2838421 ->PRGCHK: bdy curvature ratio at t= 9.5000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.093802 ; TG2= 0.095000 ; DTG= 1.198E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.365E-06 FluxDiff MaxDT: 1.373E-03 Avg. GS error: 3.985E-03 Plasma Current: 3.281E+05, target: 3.281E+05, error: 0.002% Edge Q: 13.991, target: 14.089, error: 0.694% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2503E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4597E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.093802 TO TG2= 0.095000 @ NSTEP 75 GFRAME TG2 MOMENTS CHECKSUM: 3.4504825438845D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76 TA= 9.43797E-02 CPU TIME= 9.04300E-03 SECONDS. DT= 5.78008E-04 %fi_finish: enter %fimain: eflux cpu time = 3.999999989900971E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78 TA= 9.50000E-02 CPU TIME= 8.91600E-03 SECONDS. DT= 4.22932E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.105700277777942 %check_save_state: izleft hours = 79.8266666666667 --> plasma_hash("gframe"): TA= 9.500000E-02 NSTEP= 78 Hash code: 84808115 ->PRGCHK: bdy curvature ratio at t= 9.6333E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.095000 ; TG2= 0.096333 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.052E-06 FluxDiff MaxDT: 1.379E-03 Avg. GS error: 4.261E-03 Plasma Current: 3.306E+05, target: 3.306E+05, error: 0.002% Edge Q: 13.993, target: 14.004, error: 0.079% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2993E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4437E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.095000 TO TG2= 0.096333 @ NSTEP 78 GFRAME TG2 MOMENTS CHECKSUM: 3.4583554710564D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 105 TA= 9.61419E-02 CPU TIME= 9.04800E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 9.633333E-02 NSTEP= 110 Hash code: 49101184 ->PRGCHK: bdy curvature ratio at t= 9.7667E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.096333 ; TG2= 0.097667 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.991E-06 FluxDiff MaxDT: 1.514E-03 Avg. GS error: 4.455E-03 Plasma Current: 3.331E+05, target: 3.331E+05, error: 0.000% Edge Q: 14.108, target: 14.104, error: 0.032% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3723E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4195E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.096333 TO TG2= 0.097667 @ NSTEP 110 GFRAME TG2 MOMENTS CHECKSUM: 3.4724492612460D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 123 TA= 9.68831E-02 CPU TIME= 9.04900E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 9.766667E-02 NSTEP= 142 Hash code: 109385207 ->PRGCHK: bdy curvature ratio at t= 9.9111E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.097667 ; TG2= 0.099111 ; DTG= 1.444E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.363E-06 FluxDiff MaxDT: 1.733E-03 Avg. GS error: 4.552E-03 Plasma Current: 3.358E+05, target: 3.358E+05, error: 0.000% Edge Q: 14.195, target: 14.128, error: 0.475% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3792E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3965E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.097667 TO TG2= 0.099111 @ NSTEP 142 GFRAME TG2 MOMENTS CHECKSUM: 3.4842600860553D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 154 TA= 9.81742E-02 CPU TIME= 9.25400E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 9.911111E-02 NSTEP= 177 Hash code: 108610269 ->PRGCHK: bdy curvature ratio at t= 1.0070E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.099111 ; TG2= 0.100700 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.527E-06 FluxDiff MaxDT: 1.867E-03 Avg. GS error: 4.646E-03 Plasma Current: 3.388E+05, target: 3.388E+05, error: 0.001% Edge Q: 14.261, target: 14.316, error: 0.383% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4468E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3684E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.099111 TO TG2= 0.100700 @ NSTEP 177 GFRAME TG2 MOMENTS CHECKSUM: 3.4960447107601D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 191 TA= 9.97032E-02 CPU TIME= 1.45833E-01 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.007000E-01 NSTEP= 215 Hash code: 93556037 ->PRGCHK: bdy curvature ratio at t= 1.0229E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.100700 ; TG2= 0.102289 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.025E-06 FluxDiff MaxDT: 1.985E-03 Avg. GS error: 4.742E-03 Plasma Current: 3.418E+05, target: 3.418E+05, error: 0.001% Edge Q: 14.300, target: 14.281, error: 0.133% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5231E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3509E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.100700 TO TG2= 0.102289 @ NSTEP 215 GFRAME TG2 MOMENTS CHECKSUM: 3.5071992957285D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 227 TA= 1.01208E-01 CPU TIME= 8.23660E-02 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.022889E-01 NSTEP= 253 Hash code: 42771604 ->PRGCHK: bdy curvature ratio at t= 1.0388E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.102289 ; TG2= 0.103878 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.500E-06 FluxDiff MaxDT: 2.000E-03 Avg. GS error: 4.829E-03 Plasma Current: 3.448E+05, target: 3.448E+05, error: 0.001% Edge Q: 14.338, target: 14.423, error: 0.586% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5171E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3251E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.102289 TO TG2= 0.103878 @ NSTEP 253 GFRAME TG2 MOMENTS CHECKSUM: 3.5171344228885D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 268 TA= 1.02923E-01 CPU TIME= 2.39330E-02 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.038778E-01 NSTEP= 291 Hash code: 80238887 ->PRGCHK: bdy curvature ratio at t= 1.0547E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.103878 ; TG2= 0.105467 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.983E-06 FluxDiff MaxDT: 2.077E-03 Avg. GS error: 4.856E-03 Plasma Current: 3.478E+05, target: 3.478E+05, error: 0.001% Edge Q: 14.355, target: 14.356, error: 0.013% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5279E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2895E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.103878 TO TG2= 0.105467 @ NSTEP 291 GFRAME TG2 MOMENTS CHECKSUM: 3.5260318880140D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 311 TA= 1.04724E-01 CPU TIME= 9.02000E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.054667E-01 NSTEP= 329 Hash code: 7781489 ->PRGCHK: bdy curvature ratio at t= 1.0706E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.105467 ; TG2= 0.107056 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.500E-06 FluxDiff MaxDT: 2.119E-03 Avg. GS error: 4.895E-03 Plasma Current: 3.507E+05, target: 3.507E+05, error: 0.002% Edge Q: 14.359, target: 14.477, error: 0.816% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5169E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2682E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.105467 TO TG2= 0.107056 @ NSTEP 329 GFRAME TG2 MOMENTS CHECKSUM: 3.5339519878786D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 356 TA= 1.06609E-01 CPU TIME= 9.87500E-02 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.070556E-01 NSTEP= 367 Hash code: 7201965 ->PRGCHK: bdy curvature ratio at t= 1.0864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.107056 ; TG2= 0.108644 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.213E-06 FluxDiff MaxDT: 2.173E-03 Avg. GS error: 4.941E-03 Plasma Current: 3.537E+05, target: 3.537E+05, error: 0.002% Edge Q: 14.353, target: 14.372, error: 0.135% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5252E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2478E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.107056 TO TG2= 0.108644 @ NSTEP 367 GFRAME TG2 MOMENTS CHECKSUM: 3.5409951505360D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 399 TA= 1.08409E-01 CPU TIME= 9.90060E-02 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.086444E-01 NSTEP= 405 Hash code: 85719079 ->PRGCHK: bdy curvature ratio at t= 1.1023E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.108644 ; TG2= 0.110233 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.710E-06 FluxDiff MaxDT: 2.289E-03 Avg. GS error: 5.088E-03 Plasma Current: 3.567E+05, target: 3.567E+05, error: 0.000% Edge Q: 14.327, target: 14.476, error: 1.027% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5719E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2323E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.108644 TO TG2= 0.110233 @ NSTEP 405 GFRAME TG2 MOMENTS CHECKSUM: 3.5474205234654D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 421 TA= 1.09321E-01 CPU TIME= 8.98400E-03 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.102333E-01 NSTEP= 443 Hash code: 121070031 ->PRGCHK: bdy curvature ratio at t= 1.1182E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.110233 ; TG2= 0.111822 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.622E-06 FluxDiff MaxDT: 2.381E-03 Avg. GS error: 5.296E-03 Plasma Current: 3.597E+05, target: 3.597E+05, error: 0.001% Edge Q: 14.309, target: 14.327, error: 0.124% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5447E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2170E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.110233 TO TG2= 0.111822 @ NSTEP 443 GFRAME TG2 MOMENTS CHECKSUM: 3.5535388019180D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 446 TA= 1.10360E-01 CPU TIME= 9.23920E-02 SECONDS. DT= 4.22932E-05 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. --> plasma_hash("gframe"): TA= 1.118222E-01 NSTEP= 481 Hash code: 93681735 ->PRGCHK: bdy curvature ratio at t= 1.1341E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.111822 ; TG2= 0.113411 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.220E-06 FluxDiff MaxDT: 2.494E-03 Avg. GS error: 5.451E-03 Plasma Current: 3.626E+05, target: 3.626E+05, error: 0.002% Edge Q: 14.286, target: 14.440, error: 1.068% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5413E+00 SECONDS DATA R*BT AT EDGE: 5.9021E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2014E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.111822 TO TG2= 0.113411 @ NSTEP 481 GFRAME TG2 MOMENTS CHECKSUM: 3.5590655942260D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 503 TA= 1.12753E-01 CPU TIME= 2.49924E-01 SECONDS. DT= 4.22932E-05 --> plasma_hash("gframe"): TA= 1.134111E-01 NSTEP= 519 Hash code: 47234442 ->PRGCHK: bdy curvature ratio at t= 1.1500E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.113411 ; TG2= 0.115000 ; DTG= 1.589E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.081E-06 FluxDiff MaxDT: 2.508E-03 Avg. GS error: 5.611E-03 Plasma Current: 3.656E+05, target: 3.656E+05, error: 0.002% Edge Q: 14.251, target: 14.271, error: 0.135% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4933E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1870E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.113411 TO TG2= 0.115000 @ NSTEP 519 GFRAME TG2 MOMENTS CHECKSUM: 3.5640817122805D+03 %fi_finish: enter %fimain: eflux cpu time = 3.999999989900971E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 557 TA= 1.15000E-01 CPU TIME= 9.10500E-03 SECONDS. DT= 2.40393E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.186968055556008 %check_save_state: izleft hours = 79.7455555555556 --> plasma_hash("gframe"): TA= 1.150000E-01 NSTEP= 557 Hash code: 12291342 ->PRGCHK: bdy curvature ratio at t= 1.1682E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.115000 ; TG2= 0.116818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.895E-06 FluxDiff MaxDT: 2.474E-03 Avg. GS error: 5.811E-03 Plasma Current: 3.690E+05, target: 3.690E+05, error: 0.001% Edge Q: 14.194, target: 14.382, error: 1.309% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5160E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1654E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.115000 TO TG2= 0.116818 @ NSTEP 557 GFRAME TG2 MOMENTS CHECKSUM: 3.5680804188933D+03 --> plasma_hash("gframe"): TA= 1.168182E-01 NSTEP= 633 Hash code: 28709502 ->PRGCHK: bdy curvature ratio at t= 1.1864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.116818 ; TG2= 0.118636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.792E-06 FluxDiff MaxDT: 2.536E-03 Avg. GS error: 5.944E-03 Plasma Current: 3.724E+05, target: 3.724E+05, error: 0.001% Edge Q: 14.147, target: 14.179, error: 0.223% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6697E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1291E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.116818 TO TG2= 0.118636 @ NSTEP 633 GFRAME TG2 MOMENTS CHECKSUM: 3.5738040868084D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 684 TA= 1.18044E-01 CPU TIME= 1.93350E-01 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.186364E-01 NSTEP= 709 Hash code: 70867898 ->PRGCHK: bdy curvature ratio at t= 1.2045E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.118636 ; TG2= 0.120455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.181E-06 FluxDiff MaxDT: 2.437E-03 Avg. GS error: 6.100E-03 Plasma Current: 3.759E+05, target: 3.759E+05, error: 0.000% Edge Q: 14.100, target: 14.277, error: 1.236% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6145E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0946E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.118636 TO TG2= 0.120455 @ NSTEP 709 GFRAME TG2 MOMENTS CHECKSUM: 3.5786667638461D+03 --> plasma_hash("gframe"): TA= 1.204545E-01 NSTEP= 785 Hash code: 35819896 ->PRGCHK: bdy curvature ratio at t= 1.2227E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.120455 ; TG2= 0.122273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.564E-06 FluxDiff MaxDT: 2.414E-03 Avg. GS error: 6.308E-03 Plasma Current: 3.793E+05, target: 3.793E+05, error: 0.000% Edge Q: 14.055, target: 14.091, error: 0.258% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6051E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0762E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.120455 TO TG2= 0.122273 @ NSTEP 785 GFRAME TG2 MOMENTS CHECKSUM: 3.5833783926429D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 19= -1.73414E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 1.53196E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 833 TA= 1.21608E-01 CPU TIME= 1.02984E-01 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.222727E-01 NSTEP= 861 Hash code: 122823681 ->PRGCHK: bdy curvature ratio at t= 1.2409E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.122273 ; TG2= 0.124091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.441E-06 FluxDiff MaxDT: 2.400E-03 Avg. GS error: 6.462E-03 Plasma Current: 3.827E+05, target: 3.827E+05, error: 0.001% Edge Q: 14.016, target: 14.182, error: 1.167% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5884E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0656E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.122273 TO TG2= 0.124091 @ NSTEP 861 GFRAME TG2 MOMENTS CHECKSUM: 3.5878611930708D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 920 TA= 1.23691E-01 CPU TIME= 2.57365E-01 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.240909E-01 NSTEP= 937 Hash code: 122803955 ->PRGCHK: bdy curvature ratio at t= 1.2591E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.124091 ; TG2= 0.125909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.633E-06 FluxDiff MaxDT: 2.406E-03 Avg. GS error: 6.714E-03 Plasma Current: 3.861E+05, target: 3.861E+05, error: 0.002% Edge Q: 13.987, target: 14.009, error: 0.153% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5542E+00 SECONDS DATA R*BT AT EDGE: 5.9019E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0514E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.124091 TO TG2= 0.125909 @ NSTEP 937 GFRAME TG2 MOMENTS CHECKSUM: 3.5923508352039D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 986 TA= 1.25269E-01 CPU TIME= 2.48938E-01 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.259091E-01 NSTEP= 1013 Hash code: 14961427 ->PRGCHK: bdy curvature ratio at t= 1.2773E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.125909 ; TG2= 0.127727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.641E-06 FluxDiff MaxDT: 2.454E-03 Avg. GS error: 7.153E-03 Plasma Current: 3.895E+05, target: 3.895E+05, error: 0.002% Edge Q: 13.975, target: 14.113, error: 0.977% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5373E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0356E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.125909 TO TG2= 0.127727 @ NSTEP 1013 GFRAME TG2 MOMENTS CHECKSUM: 3.5968446842844D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1048 TA= 1.26750E-01 CPU TIME= 6.79280E-02 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.277273E-01 NSTEP= 1089 Hash code: 11092152 ->PRGCHK: bdy curvature ratio at t= 1.2955E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.127727 ; TG2= 0.129545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.667E-06 FluxDiff MaxDT: 2.531E-03 Avg. GS error: 7.639E-03 Plasma Current: 3.929E+05, target: 3.929E+05, error: 0.002% Edge Q: 13.973, target: 13.959, error: 0.096% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4844E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0202E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.127727 TO TG2= 0.129545 @ NSTEP 1089 GFRAME TG2 MOMENTS CHECKSUM: 3.6013554244748D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1127 TA= 1.28641E-01 CPU TIME= 9.01900E-03 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.295455E-01 NSTEP= 1165 Hash code: 100349518 ->PRGCHK: bdy curvature ratio at t= 1.3136E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.129545 ; TG2= 0.131364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.549E-06 FluxDiff MaxDT: 2.633E-03 Avg. GS error: 8.177E-03 Plasma Current: 3.963E+05, target: 3.963E+05, error: 0.002% Edge Q: 13.973, target: 14.099, error: 0.891% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5102E+00 SECONDS DATA R*BT AT EDGE: 5.9020E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0003E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.129545 TO TG2= 0.131364 @ NSTEP 1165 GFRAME TG2 MOMENTS CHECKSUM: 3.6058111405836D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= 1.17589E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 5.21160E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 4.78805E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.313636E-01 NSTEP= 1241 Hash code: 22743128 ->PRGCHK: bdy curvature ratio at t= 1.3318E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.131364 ; TG2= 0.133182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.456E-06 FluxDiff MaxDT: 2.680E-03 Avg. GS error: 8.598E-03 Plasma Current: 3.997E+05, target: 3.997E+05, error: 0.002% Edge Q: 13.964, target: 13.953, error: 0.077% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5047E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9705E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.131364 TO TG2= 0.133182 @ NSTEP 1241 GFRAME TG2 MOMENTS CHECKSUM: 3.6099587351311D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1264 TA= 1.31917E-01 CPU TIME= 8.97800E-03 SECONDS. DT= 2.40393E-05 --> plasma_hash("gframe"): TA= 1.331818E-01 NSTEP= 1317 Hash code: 23349161 ->PRGCHK: bdy curvature ratio at t= 1.3500E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.133182 ; TG2= 0.135000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.457E-06 FluxDiff MaxDT: 2.704E-03 Avg. GS error: 9.130E-03 Plasma Current: 4.031E+05, target: 4.031E+05, error: 0.002% Edge Q: 13.954, target: 14.086, error: 0.940% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4998E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9367E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.133182 TO TG2= 0.135000 @ NSTEP 1317 GFRAME TG2 MOMENTS CHECKSUM: 3.6138812795853D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000000444648322E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1393 TA= 1.35000E-01 CPU TIME= 8.93500E-03 SECONDS. DT= 1.52370E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.296480833333362 %check_save_state: izleft hours = 79.6358333333333 --> plasma_hash("gframe"): TA= 1.350000E-01 NSTEP= 1393 Hash code: 30293747 ->PRGCHK: bdy curvature ratio at t= 1.3682E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.135000 ; TG2= 0.136818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.508E-06 FluxDiff MaxDT: 2.778E-03 Avg. GS error: 9.571E-03 Plasma Current: 4.065E+05, target: 4.065E+05, error: 0.003% Edge Q: 13.940, target: 13.939, error: 0.004% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4986E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9035E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.135000 TO TG2= 0.136818 @ NSTEP 1393 GFRAME TG2 MOMENTS CHECKSUM: 3.6175494791841D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.304926388889044 %check_save_state: izleft hours = 79.6275000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.3608182E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.212E+03 MB. --> plasma_hash("gframe"): TA= 1.368182E-01 NSTEP= 1513 Hash code: 29295538 ->PRGCHK: bdy curvature ratio at t= 1.3864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.136818 ; TG2= 0.138636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.022E-06 FluxDiff MaxDT: 2.751E-03 Avg. GS error: 9.470E-03 Plasma Current: 4.099E+05, target: 4.099E+05, error: 0.000% Edge Q: 13.982, target: 14.060, error: 0.550% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6457E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8717E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.136818 TO TG2= 0.138636 @ NSTEP 1513 GFRAME TG2 MOMENTS CHECKSUM: 3.6203956058139D+03 --> plasma_hash("gframe"): TA= 1.386364E-01 NSTEP= 1633 Hash code: 1271275 ->PRGCHK: bdy curvature ratio at t= 1.4045E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.138636 ; TG2= 0.140455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.454E-06 FluxDiff MaxDT: 2.889E-03 Avg. GS error: 9.356E-03 Plasma Current: 4.133E+05, target: 4.134E+05, error: 0.001% Edge Q: 14.006, target: 13.977, error: 0.201% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5634E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8497E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.138636 TO TG2= 0.140455 @ NSTEP 1633 GFRAME TG2 MOMENTS CHECKSUM: 3.6235785855574D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1653 TA= 1.38941E-01 CPU TIME= 6.96840E-02 SECONDS. DT= 1.52370E-05 --> plasma_hash("gframe"): TA= 1.404545E-01 NSTEP= 1753 Hash code: 7419181 ->PRGCHK: bdy curvature ratio at t= 1.4227E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.140455 ; TG2= 0.142273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.708E-06 FluxDiff MaxDT: 2.942E-03 Avg. GS error: 9.355E-03 Plasma Current: 4.168E+05, target: 4.168E+05, error: 0.003% Edge Q: 14.032, target: 14.123, error: 0.643% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5840E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8325E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.140455 TO TG2= 0.142273 @ NSTEP 1753 GFRAME TG2 MOMENTS CHECKSUM: 3.6265104366918D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= 1.87212E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= -1.24878E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= -1.24878E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.422727E-01 NSTEP= 1873 Hash code: 87983358 ->PRGCHK: bdy curvature ratio at t= 1.4409E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.142273 ; TG2= 0.144091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.497E-06 FluxDiff MaxDT: 3.015E-03 Avg. GS error: 9.378E-03 Plasma Current: 4.202E+05, target: 4.202E+05, error: 0.003% Edge Q: 14.053, target: 14.030, error: 0.160% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6185E+00 SECONDS DATA R*BT AT EDGE: 5.9019E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8115E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.142273 TO TG2= 0.144091 @ NSTEP 1873 GFRAME TG2 MOMENTS CHECKSUM: 3.6294148867118D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1947 TA= 1.43400E-01 CPU TIME= 1.66880E-02 SECONDS. DT= 1.52370E-05 --> plasma_hash("gframe"): TA= 1.440909E-01 NSTEP= 1993 Hash code: 111174757 ->PRGCHK: bdy curvature ratio at t= 1.4591E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.144091 ; TG2= 0.145909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.580E-06 FluxDiff MaxDT: 3.045E-03 Avg. GS error: 9.061E-03 Plasma Current: 4.236E+05, target: 4.236E+05, error: 0.004% Edge Q: 14.075, target: 14.165, error: 0.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6350E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7802E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.144091 TO TG2= 0.145909 @ NSTEP 1993 GFRAME TG2 MOMENTS CHECKSUM: 3.6321701847220D+03 --> plasma_hash("gframe"): TA= 1.459091E-01 NSTEP= 2113 Hash code: 88623889 ->PRGCHK: bdy curvature ratio at t= 1.4773E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.145909 ; TG2= 0.147727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.515E-06 FluxDiff MaxDT: 3.056E-03 Avg. GS error: 9.215E-03 Plasma Current: 4.270E+05, target: 4.270E+05, error: 0.003% Edge Q: 14.093, target: 14.077, error: 0.109% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6316E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7479E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.145909 TO TG2= 0.147727 @ NSTEP 2113 GFRAME TG2 MOMENTS CHECKSUM: 3.6348921222351D+03 --> plasma_hash("gframe"): TA= 1.477273E-01 NSTEP= 2233 Hash code: 100139594 ->PRGCHK: bdy curvature ratio at t= 1.4955E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.147727 ; TG2= 0.149545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.577E-06 FluxDiff MaxDT: 3.054E-03 Avg. GS error: 9.317E-03 Plasma Current: 4.304E+05, target: 4.304E+05, error: 0.001% Edge Q: 14.112, target: 14.197, error: 0.601% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6075E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7058E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.147727 TO TG2= 0.149545 @ NSTEP 2233 GFRAME TG2 MOMENTS CHECKSUM: 3.6375006619310D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2258 TA= 1.48108E-01 CPU TIME= 6.47600E-02 SECONDS. DT= 1.52370E-05 --> plasma_hash("gframe"): TA= 1.495455E-01 NSTEP= 2353 Hash code: 106098493 ->PRGCHK: bdy curvature ratio at t= 1.5136E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.149545 ; TG2= 0.151364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.566E-06 FluxDiff MaxDT: 3.066E-03 Avg. GS error: 9.311E-03 Plasma Current: 4.338E+05, target: 4.338E+05, error: 0.001% Edge Q: 14.129, target: 14.118, error: 0.082% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6478E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6588E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.149545 TO TG2= 0.151364 @ NSTEP 2353 GFRAME TG2 MOMENTS CHECKSUM: 3.6400671651952D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= -1.50135E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.28519E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.43206E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.513636E-01 NSTEP= 2473 Hash code: 1167518 ->PRGCHK: bdy curvature ratio at t= 1.5318E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.151364 ; TG2= 0.153182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.562E-06 FluxDiff MaxDT: 3.088E-03 Avg. GS error: 9.381E-03 Plasma Current: 4.372E+05, target: 4.372E+05, error: 0.002% Edge Q: 14.148, target: 14.228, error: 0.562% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6205E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6135E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.151364 TO TG2= 0.153182 @ NSTEP 2473 GFRAME TG2 MOMENTS CHECKSUM: 3.6425077845586D+03 --> plasma_hash("gframe"): TA= 1.531818E-01 NSTEP= 2593 Hash code: 40523552 ->PRGCHK: bdy curvature ratio at t= 1.5500E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.153182 ; TG2= 0.155000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.519E-06 FluxDiff MaxDT: 3.135E-03 Avg. GS error: 9.453E-03 Plasma Current: 4.406E+05, target: 4.406E+05, error: 0.003% Edge Q: 14.162, target: 14.159, error: 0.023% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6777E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.5735E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.153182 TO TG2= 0.155000 @ NSTEP 2593 GFRAME TG2 MOMENTS CHECKSUM: 3.6448688803003D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2596 TA= 1.53228E-01 CPU TIME= 1.69492E-01 SECONDS. DT= 1.52370E-05 %fi_finish: enter %fimain: eflux cpu time = 3.999999535153620E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2713 TA= 1.55000E-01 CPU TIME= 8.80300E-03 SECONDS. DT= 4.98405E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.499241388889232 %check_save_state: izleft hours = 79.4330555555556 --> plasma_hash("gframe"): TA= 1.550000E-01 NSTEP= 2713 Hash code: 56582484 ->PRGCHK: bdy curvature ratio at t= 1.5682E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.155000 ; TG2= 0.156818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.520E-06 FluxDiff MaxDT: 3.228E-03 Avg. GS error: 9.654E-03 Plasma Current: 4.440E+05, target: 4.440E+05, error: 0.004% Edge Q: 14.177, target: 14.258, error: 0.568% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6644E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.5395E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.155000 TO TG2= 0.156818 @ NSTEP 2713 GFRAME TG2 MOMENTS CHECKSUM: 3.6471493543657D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 0.510955555555711 %check_save_state: izleft hours = 79.4213888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.5536882E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.216E+03 MB. --> plasma_hash("gframe"): TA= 1.568182E-01 NSTEP= 3078 Hash code: 61086290 ->PRGCHK: bdy curvature ratio at t= 1.5864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.156818 ; TG2= 0.158636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.679E-06 FluxDiff MaxDT: 2.938E-03 Avg. GS error: 9.549E-03 Plasma Current: 4.475E+05, target: 4.474E+05, error: 0.002% Edge Q: 14.158, target: 14.197, error: 0.274% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8497E+00 SECONDS DATA R*BT AT EDGE: 5.9020E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4983E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.156818 TO TG2= 0.158636 @ NSTEP 3078 GFRAME TG2 MOMENTS CHECKSUM: 3.6468062997632D+03 --> plasma_hash("gframe"): TA= 1.586364E-01 NSTEP= 3443 Hash code: 27279492 ->PRGCHK: bdy curvature ratio at t= 1.6045E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.158636 ; TG2= 0.160455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.302E-06 FluxDiff MaxDT: 3.024E-03 Avg. GS error: 9.591E-03 Plasma Current: 4.509E+05, target: 4.509E+05, error: 0.000% Edge Q: 14.129, target: 14.244, error: 0.808% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8215E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4608E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.158636 TO TG2= 0.160455 @ NSTEP 3443 GFRAME TG2 MOMENTS CHECKSUM: 3.6468828244691D+03 --> plasma_hash("gframe"): TA= 1.604545E-01 NSTEP= 3808 Hash code: 84884218 ->PRGCHK: bdy curvature ratio at t= 1.6227E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.160455 ; TG2= 0.162273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.127E-06 FluxDiff MaxDT: 2.979E-03 Avg. GS error: 9.552E-03 Plasma Current: 4.543E+05, target: 4.543E+05, error: 0.002% Edge Q: 14.096, target: 14.155, error: 0.419% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8031E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4336E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.160455 TO TG2= 0.162273 @ NSTEP 3808 GFRAME TG2 MOMENTS CHECKSUM: 3.6467558355844D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 9= 1.27297E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 13= -1.42196E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.622727E-01 NSTEP= 4173 Hash code: 99315686 ->PRGCHK: bdy curvature ratio at t= 1.6409E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.162273 ; TG2= 0.164091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.432E-06 FluxDiff MaxDT: 2.951E-03 Avg. GS error: 9.616E-03 Plasma Current: 4.577E+05, target: 4.577E+05, error: 0.003% Edge Q: 14.061, target: 14.178, error: 0.826% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7780E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4251E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.162273 TO TG2= 0.164091 @ NSTEP 4173 GFRAME TG2 MOMENTS CHECKSUM: 3.6466840752411D+03 --> plasma_hash("gframe"): TA= 1.640909E-01 NSTEP= 4538 Hash code: 6208573 ->PRGCHK: bdy curvature ratio at t= 1.6591E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.164091 ; TG2= 0.165909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.481E-06 FluxDiff MaxDT: 2.934E-03 Avg. GS error: 9.771E-03 Plasma Current: 4.611E+05, target: 4.611E+05, error: 0.001% Edge Q: 14.025, target: 14.089, error: 0.451% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7729E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4070E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.164091 TO TG2= 0.165909 @ NSTEP 4538 GFRAME TG2 MOMENTS CHECKSUM: 3.6465868985706D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 4718 TA= 1.64988E-01 CPU TIME= 1.69746E-01 SECONDS. DT= 4.98405E-06 --> plasma_hash("gframe"): TA= 1.659091E-01 NSTEP= 4903 Hash code: 31215191 ->PRGCHK: bdy curvature ratio at t= 1.6773E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.165909 ; TG2= 0.167727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.654E-06 FluxDiff MaxDT: 2.923E-03 Avg. GS error: 1.001E-02 Plasma Current: 4.645E+05, target: 4.645E+05, error: 0.001% Edge Q: 13.992, target: 14.102, error: 0.776% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7474E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3856E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.165909 TO TG2= 0.167727 @ NSTEP 4903 GFRAME TG2 MOMENTS CHECKSUM: 3.6464738226717D+03 --> plasma_hash("gframe"): TA= 1.677273E-01 NSTEP= 5268 Hash code: 51979815 ->PRGCHK: bdy curvature ratio at t= 1.6955E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.167727 ; TG2= 0.169545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.736E-06 FluxDiff MaxDT: 2.942E-03 Avg. GS error: 1.009E-02 Plasma Current: 4.679E+05, target: 4.679E+05, error: 0.003% Edge Q: 13.962, target: 14.020, error: 0.411% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8012E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3544E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.167727 TO TG2= 0.169545 @ NSTEP 5268 GFRAME TG2 MOMENTS CHECKSUM: 3.6464445091481D+03 --> plasma_hash("gframe"): TA= 1.695455E-01 NSTEP= 5633 Hash code: 38501760 ->PRGCHK: bdy curvature ratio at t= 1.7136E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.169545 ; TG2= 0.171364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.819E-06 FluxDiff MaxDT: 2.969E-03 Avg. GS error: 1.017E-02 Plasma Current: 4.713E+05, target: 4.713E+05, error: 0.004% Edge Q: 13.937, target: 14.036, error: 0.705% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8224E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3302E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.169545 TO TG2= 0.171364 @ NSTEP 5633 GFRAME TG2 MOMENTS CHECKSUM: 3.6464693088961D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.38808E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= -1.20575E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= -1.24228E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.713636E-01 NSTEP= 5998 Hash code: 3898806 ->PRGCHK: bdy curvature ratio at t= 1.7318E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.171364 ; TG2= 0.173182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.875E-06 FluxDiff MaxDT: 3.015E-03 Avg. GS error: 1.012E-02 Plasma Current: 4.747E+05, target: 4.747E+05, error: 0.003% Edge Q: 13.914, target: 13.970, error: 0.400% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8281E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3038E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.171364 TO TG2= 0.173182 @ NSTEP 5998 GFRAME TG2 MOMENTS CHECKSUM: 3.6465962759928D+03 --> plasma_hash("gframe"): TA= 1.731818E-01 NSTEP= 6363 Hash code: 52916185 ->PRGCHK: bdy curvature ratio at t= 1.7500E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.173182 ; TG2= 0.175000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.911E-06 FluxDiff MaxDT: 3.051E-03 Avg. GS error: 1.044E-02 Plasma Current: 4.781E+05, target: 4.781E+05, error: 0.000% Edge Q: 13.893, target: 13.991, error: 0.700% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8221E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.2540E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.173182 TO TG2= 0.175000 @ NSTEP 6363 GFRAME TG2 MOMENTS CHECKSUM: 3.6467512480077D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6728 TA= 1.75000E-01 CPU TIME= 9.08600E-03 SECONDS. DT= 3.98875E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.04028750000020 %check_save_state: izleft hours = 78.8922222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.7500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.216E+03 MB. --> plasma_hash("gframe"): TA= 1.750000E-01 NSTEP= 6728 Hash code: 30730360 ->PRGCHK: bdy curvature ratio at t= 1.7682E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.175000 ; TG2= 0.176818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.981E-06 FluxDiff MaxDT: 3.101E-03 Avg. GS error: 1.075E-02 Plasma Current: 4.815E+05, target: 4.815E+05, error: 0.002% Edge Q: 13.873, target: 13.935, error: 0.445% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8515E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.1959E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.175000 TO TG2= 0.176818 @ NSTEP 6728 GFRAME TG2 MOMENTS CHECKSUM: 3.6469407780697D+03 --> plasma_hash("gframe"): TA= 1.768182E-01 NSTEP= 7184 Hash code: 5224369 ->PRGCHK: bdy curvature ratio at t= 1.7864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.176818 ; TG2= 0.178636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.903E-06 FluxDiff MaxDT: 3.120E-03 Avg. GS error: 1.072E-02 Plasma Current: 4.849E+05, target: 4.849E+05, error: 0.003% Edge Q: 13.847, target: 13.954, error: 0.765% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8510E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.1312E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.176818 TO TG2= 0.178636 @ NSTEP 7184 GFRAME TG2 MOMENTS CHECKSUM: 3.6470409420488D+03 --> plasma_hash("gframe"): TA= 1.786364E-01 NSTEP= 7640 Hash code: 49770070 ->PRGCHK: bdy curvature ratio at t= 1.8045E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.178636 ; TG2= 0.180455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.074E-06 FluxDiff MaxDT: 3.141E-03 Avg. GS error: 1.068E-02 Plasma Current: 4.883E+05, target: 4.884E+05, error: 0.004% Edge Q: 13.817, target: 13.893, error: 0.547% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7940E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.0662E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.178636 TO TG2= 0.180455 @ NSTEP 7640 GFRAME TG2 MOMENTS CHECKSUM: 3.6469602904784D+03 %splitn_update_check: writing update: 204112R76TR.TMP @ t= 0.180000000000000 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 7.00000000E+12 to 8.50000000E+12 namelist update changed APROF_EDGE_VALUE_NER from 1.25000000E+12 to 3.50000000E+12 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 1.804545E-01 NSTEP= 8113 Hash code: 37926204 ->PRGCHK: bdy curvature ratio at t= 1.8227E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.180455 ; TG2= 0.182273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.094E-06 FluxDiff MaxDT: 3.118E-03 Avg. GS error: 1.081E-02 Plasma Current: 4.917E+05, target: 4.918E+05, error: 0.003% Edge Q: 13.787, target: 13.893, error: 0.767% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7349E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.0269E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.180455 TO TG2= 0.182273 @ NSTEP 8113 GFRAME TG2 MOMENTS CHECKSUM: 3.6469303544709D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8164 TA= 1.80632E-01 CPU TIME= 9.01500E-03 SECONDS. DT= 3.47236E-06 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= 2.24045E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.90983E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.28550E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8355 TA= 1.81295E-01 CPU TIME= 2.60647E-01 SECONDS. DT= 3.47236E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8556 TA= 1.81993E-01 CPU TIME= 1.55569E-01 SECONDS. DT= 3.47236E-06 --> plasma_hash("gframe"): TA= 1.822727E-01 NSTEP= 8637 Hash code: 44282639 ->PRGCHK: bdy curvature ratio at t= 1.8409E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.182273 ; TG2= 0.184091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.225E-06 FluxDiff MaxDT: 3.078E-03 Avg. GS error: 1.125E-02 Plasma Current: 4.952E+05, target: 4.952E+05, error: 0.001% Edge Q: 13.746, target: 13.829, error: 0.598% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7148E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9853E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.182273 TO TG2= 0.184091 @ NSTEP 8637 GFRAME TG2 MOMENTS CHECKSUM: 3.6468494367757D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8767 TA= 1.82724E-01 CPU TIME= 2.91348E-01 SECONDS. DT= 3.47236E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8988 TA= 1.83492E-01 CPU TIME= 8.94400E-03 SECONDS. DT= 3.47236E-06 --> plasma_hash("gframe"): TA= 1.840909E-01 NSTEP= 9161 Hash code: 87762103 ->PRGCHK: bdy curvature ratio at t= 1.8591E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.184091 ; TG2= 0.185909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.380E-06 FluxDiff MaxDT: 3.043E-03 Avg. GS error: 1.151E-02 Plasma Current: 4.986E+05, target: 4.986E+05, error: 0.002% Edge Q: 13.709, target: 13.814, error: 0.760% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9374E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9525E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.184091 TO TG2= 0.185909 @ NSTEP 9161 GFRAME TG2 MOMENTS CHECKSUM: 3.6467621328687D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9221 TA= 1.84299E-01 CPU TIME= 1.42157E-01 SECONDS. DT= 3.47236E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9465 TA= 1.85147E-01 CPU TIME= 1.24809E-01 SECONDS. DT= 3.47236E-06 --> plasma_hash("gframe"): TA= 1.859091E-01 NSTEP= 9685 Hash code: 79453494 ->PRGCHK: bdy curvature ratio at t= 1.8773E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.185909 ; TG2= 0.187727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.526E-06 FluxDiff MaxDT: 3.034E-03 Avg. GS error: 1.179E-02 Plasma Current: 5.020E+05, target: 5.020E+05, error: 0.005% Edge Q: 13.676, target: 13.748, error: 0.527% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7194E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8904E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.185909 TO TG2= 0.187727 @ NSTEP 9685 GFRAME TG2 MOMENTS CHECKSUM: 3.6467463041256D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9722 TA= 1.86038E-01 CPU TIME= 9.02400E-03 SECONDS. DT= 3.47236E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 9991 TA= 1.86972E-01 CPU TIME= 9.01200E-03 SECONDS. DT= 3.47236E-06 --> plasma_hash("gframe"): TA= 1.877273E-01 NSTEP= 10209 Hash code: 41896067 ->PRGCHK: bdy curvature ratio at t= 1.8955E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.187727 ; TG2= 0.189545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.655E-06 FluxDiff MaxDT: 3.031E-03 Avg. GS error: 1.208E-02 Plasma Current: 5.054E+05, target: 5.054E+05, error: 0.007% Edge Q: 13.649, target: 13.741, error: 0.666% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7521E+00 SECONDS DATA R*BT AT EDGE: 5.9012E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8269E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.187727 TO TG2= 0.189545 @ NSTEP 10209 GFRAME TG2 MOMENTS CHECKSUM: 3.6467947612674D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10274 TA= 1.87953E-01 CPU TIME= 2.43225E-01 SECONDS. DT= 3.47236E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10571 TA= 1.88984E-01 CPU TIME= 1.06261E-01 SECONDS. DT= 3.47236E-06 --> plasma_hash("gframe"): TA= 1.895455E-01 NSTEP= 10733 Hash code: 122324094 ->PRGCHK: bdy curvature ratio at t= 1.9136E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.189545 ; TG2= 0.191364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.786E-06 FluxDiff MaxDT: 3.038E-03 Avg. GS error: 1.241E-02 Plasma Current: 5.088E+05, target: 5.088E+05, error: 0.006% Edge Q: 13.629, target: 13.692, error: 0.463% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7802E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7577E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.189545 TO TG2= 0.191364 @ NSTEP 10733 GFRAME TG2 MOMENTS CHECKSUM: 3.6469743325828D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.59509E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.90574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -7.65791E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.913636E-01 NSTEP= 11257 Hash code: 29835216 ->PRGCHK: bdy curvature ratio at t= 1.9318E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.191364 ; TG2= 0.193182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.908E-06 FluxDiff MaxDT: 3.062E-03 Avg. GS error: 1.268E-02 Plasma Current: 5.122E+05, target: 5.122E+05, error: 0.004% Edge Q: 13.621, target: 13.699, error: 0.570% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8542E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6950E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.191364 TO TG2= 0.193182 @ NSTEP 11257 GFRAME TG2 MOMENTS CHECKSUM: 3.6471780057141D+03 --> plasma_hash("gframe"): TA= 1.931818E-01 NSTEP= 11781 Hash code: 10673999 ->PRGCHK: bdy curvature ratio at t= 1.9500E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.193182 ; TG2= 0.195000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.968E-06 FluxDiff MaxDT: 3.081E-03 Avg. GS error: 1.294E-02 Plasma Current: 5.156E+05, target: 5.156E+05, error: 0.000% Edge Q: 13.618, target: 13.676, error: 0.423% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8092E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6426E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.193182 TO TG2= 0.195000 @ NSTEP 11781 GFRAME TG2 MOMENTS CHECKSUM: 3.6474781541094D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12305 TA= 1.95000E-01 CPU TIME= 8.84800E-03 SECONDS. DT= 2.13600E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.70625250000057 %check_save_state: izleft hours = 78.2261111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.9500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.216E+03 MB. --> plasma_hash("gframe"): TA= 1.950000E-01 NSTEP= 12305 Hash code: 11594305 ->PRGCHK: bdy curvature ratio at t= 1.9682E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.195000 ; TG2= 0.196818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.065E-06 FluxDiff MaxDT: 3.083E-03 Avg. GS error: 1.328E-02 Plasma Current: 5.190E+05, target: 5.190E+05, error: 0.003% Edge Q: 13.620, target: 13.696, error: 0.557% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7644E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5917E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.195000 TO TG2= 0.196818 @ NSTEP 12305 GFRAME TG2 MOMENTS CHECKSUM: 3.6478457863849D+03 --> plasma_hash("gframe"): TA= 1.968182E-01 NSTEP= 13157 Hash code: 106236655 ->PRGCHK: bdy curvature ratio at t= 1.9864E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.196818 ; TG2= 0.198636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.924E-06 FluxDiff MaxDT: 2.983E-03 Avg. GS error: 1.339E-02 Plasma Current: 5.224E+05, target: 5.224E+05, error: 0.005% Edge Q: 13.616, target: 13.683, error: 0.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8295E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6048E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.196818 TO TG2= 0.198636 @ NSTEP 13157 GFRAME TG2 MOMENTS CHECKSUM: 3.6471250093726D+03 --> plasma_hash("gframe"): TA= 1.986364E-01 NSTEP= 14009 Hash code: 112281511 ->PRGCHK: bdy curvature ratio at t= 2.0045E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.198636 ; TG2= 0.200455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.279E-06 FluxDiff MaxDT: 3.065E-03 Avg. GS error: 1.338E-02 Plasma Current: 5.258E+05, target: 5.259E+05, error: 0.005% Edge Q: 13.605, target: 13.693, error: 0.640% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7748E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6277E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.198636 TO TG2= 0.200455 @ NSTEP 14009 GFRAME TG2 MOMENTS CHECKSUM: 3.6465860548010D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.93883166666706 %check_save_state: izleft hours = 77.9936111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.9915968E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.216E+03 MB. --> plasma_hash("gframe"): TA= 2.004545E-01 NSTEP= 14861 Hash code: 102726933 ->PRGCHK: bdy curvature ratio at t= 2.0227E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.200455 ; TG2= 0.202273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.181E-06 FluxDiff MaxDT: 3.100E-03 Avg. GS error: 1.324E-02 Plasma Current: 5.292E+05, target: 5.293E+05, error: 0.003% Edge Q: 13.594, target: 13.672, error: 0.574% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7869E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5697E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.200455 TO TG2= 0.202273 @ NSTEP 14861 GFRAME TG2 MOMENTS CHECKSUM: 3.6459536600449D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= 2.47968E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.23984E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.23984E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 15535 TA= 2.01894E-01 CPU TIME= 1.11460E-01 SECONDS. DT= 2.13600E-06 --> plasma_hash("gframe"): TA= 2.022727E-01 NSTEP= 15713 Hash code: 6373351 ->PRGCHK: bdy curvature ratio at t= 2.0409E-01 seconds is: 8.2422E-02 % MHDEQ: TG1= 0.202273 ; TG2= 0.204091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.403E-06 FluxDiff MaxDT: 2.995E-03 Avg. GS error: 1.311E-02 Plasma Current: 5.327E+05, target: 5.327E+05, error: 0.001% Edge Q: 13.606, target: 13.678, error: 0.526% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8180E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4394E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.202273 TO TG2= 0.204091 @ NSTEP 15713 GFRAME TG2 MOMENTS CHECKSUM: 3.6471046293404D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.15984833333323 %check_save_state: izleft hours = 77.7725000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.0315489E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.216E+03 MB. --> plasma_hash("gframe"): TA= 2.040909E-01 NSTEP= 16565 Hash code: 93631469 ->PRGCHK: bdy curvature ratio at t= 2.0591E-01 seconds is: 8.1414E-02 % MHDEQ: TG1= 0.204091 ; TG2= 0.205909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.499E-06 FluxDiff MaxDT: 2.918E-03 Avg. GS error: 1.297E-02 Plasma Current: 5.361E+05, target: 5.361E+05, error: 0.000% Edge Q: 13.631, target: 13.687, error: 0.405% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8335E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3483E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.204091 TO TG2= 0.205909 @ NSTEP 16565 GFRAME TG2 MOMENTS CHECKSUM: 3.6491780566856D+03 --> plasma_hash("gframe"): TA= 2.059091E-01 NSTEP= 17417 Hash code: 115696442 ->PRGCHK: bdy curvature ratio at t= 2.0773E-01 seconds is: 7.8606E-02 % MHDEQ: TG1= 0.205909 ; TG2= 0.207727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.918E-06 FluxDiff MaxDT: 2.516E-03 Avg. GS error: 1.304E-02 Plasma Current: 5.395E+05, target: 5.395E+05, error: 0.000% Edge Q: 13.742, target: 13.731, error: 0.082% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8301E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2761E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.205909 TO TG2= 0.207727 @ NSTEP 17417 GFRAME TG2 MOMENTS CHECKSUM: 3.6571389181733D+03 --> plasma_hash("gframe"): TA= 2.077273E-01 NSTEP= 18269 Hash code: 120395395 ->PRGCHK: bdy curvature ratio at t= 2.0955E-01 seconds is: 7.5869E-02 % MHDEQ: TG1= 0.207727 ; TG2= 0.209545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.403E-06 FluxDiff MaxDT: 2.478E-03 Avg. GS error: 1.286E-02 Plasma Current: 5.429E+05, target: 5.429E+05, error: 0.004% Edge Q: 13.866, target: 13.846, error: 0.143% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.0237E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0332E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.207727 TO TG2= 0.209545 @ NSTEP 18269 GFRAME TG2 MOMENTS CHECKSUM: 3.6647497982297D+03 --> plasma_hash("gframe"): TA= 2.095455E-01 NSTEP= 19121 Hash code: 123085630 ->PRGCHK: bdy curvature ratio at t= 2.1136E-01 seconds is: 7.3161E-02 % MHDEQ: TG1= 0.209545 ; TG2= 0.211364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.669E-06 FluxDiff MaxDT: 2.484E-03 Avg. GS error: 1.296E-02 Plasma Current: 5.463E+05, target: 5.463E+05, error: 0.003% Edge Q: 14.027, target: 14.003, error: 0.173% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9338E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.1876E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.209545 TO TG2= 0.211364 @ NSTEP 19121 GFRAME TG2 MOMENTS CHECKSUM: 3.6728953578527D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.46666E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.47051E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= -1.21735E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.113636E-01 NSTEP= 19973 Hash code: 65271835 ->PRGCHK: bdy curvature ratio at t= 2.1318E-01 seconds is: 7.1801E-02 % MHDEQ: TG1= 0.211364 ; TG2= 0.213182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.680E-06 FluxDiff MaxDT: 2.651E-03 Avg. GS error: 1.354E-02 Plasma Current: 5.497E+05, target: 5.497E+05, error: 0.002% Edge Q: 14.154, target: 14.201, error: 0.331% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9184E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.7278E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.211364 TO TG2= 0.213182 @ NSTEP 19973 GFRAME TG2 MOMENTS CHECKSUM: 3.6765605087355D+03 --> plasma_hash("gframe"): TA= 2.131818E-01 NSTEP= 20825 Hash code: 78073250 ->PRGCHK: bdy curvature ratio at t= 2.1500E-01 seconds is: 7.1460E-02 % MHDEQ: TG1= 0.213182 ; TG2= 0.215000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.674E-06 FluxDiff MaxDT: 2.766E-03 Avg. GS error: 1.376E-02 Plasma Current: 5.531E+05, target: 5.531E+05, error: 0.004% Edge Q: 14.267, target: 14.382, error: 0.795% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9296E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5569E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.213182 TO TG2= 0.215000 @ NSTEP 20825 GFRAME TG2 MOMENTS CHECKSUM: 3.6776072759205D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 21677 TA= 2.15000E-01 CPU TIME= 8.89000E-03 SECONDS. DT= 4.49720E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.82974749999994 %check_save_state: izleft hours = 77.1027777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.1500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.150000E-01 NSTEP= 21677 Hash code: 61224368 ->PRGCHK: bdy curvature ratio at t= 2.1682E-01 seconds is: 7.6670E-02 % MHDEQ: TG1= 0.215000 ; TG2= 0.216818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.481E-06 FluxDiff MaxDT: 3.636E-03 Avg. GS error: 1.309E-02 Plasma Current: 5.565E+05, target: 5.565E+05, error: 0.000% Edge Q: 14.078, target: 14.534, error: 3.134% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8737E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.8188E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.215000 TO TG2= 0.216818 @ NSTEP 21677 GFRAME TG2 MOMENTS CHECKSUM: 3.6624547297128D+03 --> plasma_hash("gframe"): TA= 2.168182E-01 NSTEP= 23408 Hash code: 37881305 ->PRGCHK: bdy curvature ratio at t= 2.1864E-01 seconds is: 8.2282E-02 % MHDEQ: TG1= 0.216818 ; TG2= 0.218636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.927E-06 FluxDiff MaxDT: 3.837E-03 Avg. GS error: 1.258E-02 Plasma Current: 5.600E+05, target: 5.599E+05, error: 0.004% Edge Q: 13.827, target: 14.303, error: 3.331% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8139E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1682E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.216818 TO TG2= 0.218636 @ NSTEP 23408 GFRAME TG2 MOMENTS CHECKSUM: 3.6468584513922D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.05402583333398 %check_save_state: izleft hours = 76.8783333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.1699892E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.186364E-01 NSTEP= 24985 Hash code: 101071334 ->PRGCHK: bdy curvature ratio at t= 2.2045E-01 seconds is: 8.9124E-02 % MHDEQ: TG1= 0.218636 ; TG2= 0.220455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.272E-06 FluxDiff MaxDT: 3.722E-03 Avg. GS error: 1.189E-02 Plasma Current: 5.633E+05, target: 5.634E+05, error: 0.002% Edge Q: 13.578, target: 14.006, error: 3.052% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7970E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5444E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.218636 TO TG2= 0.220455 @ NSTEP 24985 GFRAME TG2 MOMENTS CHECKSUM: 3.6315959614111D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.27492805555562 %check_save_state: izleft hours = 76.6575000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.1921922E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.204545E-01 NSTEP= 26300 Hash code: 44926183 ->PRGCHK: bdy curvature ratio at t= 2.2227E-01 seconds is: 9.7570E-02 % MHDEQ: TG1= 0.220455 ; TG2= 0.222273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.291E-06 FluxDiff MaxDT: 3.611E-03 Avg. GS error: 1.104E-02 Plasma Current: 5.668E+05, target: 5.668E+05, error: 0.000% Edge Q: 13.362, target: 13.730, error: 2.682% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8738E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0036E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.220455 TO TG2= 0.222273 @ NSTEP 26300 GFRAME TG2 MOMENTS CHECKSUM: 3.6166230475645D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= -1.33047E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 2.24417E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 2.28096E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.50298833333363 %check_save_state: izleft hours = 76.4294444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.2204869E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.222727E-01 NSTEP= 27495 Hash code: 61773691 ->PRGCHK: bdy curvature ratio at t= 2.2409E-01 seconds is: 9.5617E-02 % MHDEQ: TG1= 0.222273 ; TG2= 0.224091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.596E-06 FluxDiff MaxDT: 3.416E-03 Avg. GS error: 1.115E-02 Plasma Current: 5.702E+05, target: 5.702E+05, error: 0.004% Edge Q: 13.153, target: 13.496, error: 2.541% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6595E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1471E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.222273 TO TG2= 0.224091 @ NSTEP 27495 GFRAME TG2 MOMENTS CHECKSUM: 3.6015189531671D+03 --> plasma_hash("gframe"): TA= 2.240909E-01 NSTEP= 28690 Hash code: 122220396 ->PRGCHK: bdy curvature ratio at t= 2.2591E-01 seconds is: 8.8034E-02 % MHDEQ: TG1= 0.224091 ; TG2= 0.225909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.026E-06 FluxDiff MaxDT: 3.331E-03 Avg. GS error: 1.087E-02 Plasma Current: 5.736E+05, target: 5.736E+05, error: 0.000% Edge Q: 12.981, target: 13.263, error: 2.130% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7391E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3112E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.224091 TO TG2= 0.225909 @ NSTEP 28690 GFRAME TG2 MOMENTS CHECKSUM: 3.5865829316440D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 28895 TA= 2.24403E-01 CPU TIME= 9.01000E-03 SECONDS. DT= 1.52258E-06 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.73492138888901 %check_save_state: izleft hours = 76.1975000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.2486895E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.259091E-01 NSTEP= 29885 Hash code: 95283894 ->PRGCHK: bdy curvature ratio at t= 2.2773E-01 seconds is: 8.2009E-02 % MHDEQ: TG1= 0.225909 ; TG2= 0.227727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.238E-06 FluxDiff MaxDT: 3.202E-03 Avg. GS error: 1.035E-02 Plasma Current: 5.770E+05, target: 5.770E+05, error: 0.000% Edge Q: 12.840, target: 13.095, error: 1.952% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8201E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3785E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.225909 TO TG2= 0.227727 @ NSTEP 29885 GFRAME TG2 MOMENTS CHECKSUM: 3.5719825398494D+03 --> plasma_hash("gframe"): TA= 2.277273E-01 NSTEP= 31080 Hash code: 81349262 ->PRGCHK: bdy curvature ratio at t= 2.2955E-01 seconds is: 7.6772E-02 % MHDEQ: TG1= 0.227727 ; TG2= 0.229545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.473E-06 FluxDiff MaxDT: 3.064E-03 Avg. GS error: 9.904E-03 Plasma Current: 5.804E+05, target: 5.804E+05, error: 0.002% Edge Q: 12.729, target: 12.951, error: 1.712% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7264E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2173E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.227727 TO TG2= 0.229545 @ NSTEP 31080 GFRAME TG2 MOMENTS CHECKSUM: 3.5577976989899D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 3.96147472222242 %check_save_state: izleft hours = 75.9708333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.2772880E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.295455E-01 NSTEP= 32275 Hash code: 86541411 ->PRGCHK: bdy curvature ratio at t= 2.3136E-01 seconds is: 7.1794E-02 % MHDEQ: TG1= 0.229545 ; TG2= 0.231364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.599E-06 FluxDiff MaxDT: 2.873E-03 Avg. GS error: 9.718E-03 Plasma Current: 5.838E+05, target: 5.838E+05, error: 0.000% Edge Q: 12.665, target: 12.852, error: 1.460% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7869E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0499E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.229545 TO TG2= 0.231364 @ NSTEP 32275 GFRAME TG2 MOMENTS CHECKSUM: 3.5482464533982D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= -3.57260E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= -1.76789E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 14= -1.80472E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.313636E-01 NSTEP= 33470 Hash code: 17653221 ->PRGCHK: bdy curvature ratio at t= 2.3318E-01 seconds is: 6.7706E-02 % MHDEQ: TG1= 0.231364 ; TG2= 0.233182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.760E-06 FluxDiff MaxDT: 2.741E-03 Avg. GS error: 9.631E-03 Plasma Current: 5.872E+05, target: 5.872E+05, error: 0.004% Edge Q: 12.618, target: 12.798, error: 1.407% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7273E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0119E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.231364 TO TG2= 0.233182 @ NSTEP 33470 GFRAME TG2 MOMENTS CHECKSUM: 3.5411296847899D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 34478 TA= 2.32898E-01 CPU TIME= 5.75090E-02 SECONDS. DT= 1.52258E-06 --> plasma_hash("gframe"): TA= 2.331818E-01 NSTEP= 34665 Hash code: 112071733 ->PRGCHK: bdy curvature ratio at t= 2.3500E-01 seconds is: 6.5071E-02 % MHDEQ: TG1= 0.233182 ; TG2= 0.235000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.003E-05 FluxDiff MaxDT: 2.525E-03 Avg. GS error: 9.516E-03 Plasma Current: 5.906E+05, target: 5.906E+05, error: 0.004% Edge Q: 12.582, target: 12.770, error: 1.470% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8313E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0117E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.233182 TO TG2= 0.235000 @ NSTEP 34665 GFRAME TG2 MOMENTS CHECKSUM: 3.5440759713962D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 35860 TA= 2.35000E-01 CPU TIME= 8.87800E-03 SECONDS. DT= 2.42413E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.52280055555593 %check_save_state: izleft hours = 75.4097222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.3500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.350000E-01 NSTEP= 35860 Hash code: 101362061 ->PRGCHK: bdy curvature ratio at t= 2.3682E-01 seconds is: 6.2312E-02 % MHDEQ: TG1= 0.235000 ; TG2= 0.236818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.022E-05 FluxDiff MaxDT: 2.507E-03 Avg. GS error: 9.481E-03 Plasma Current: 5.940E+05, target: 5.940E+05, error: 0.003% Edge Q: 12.537, target: 12.743, error: 1.614% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8153E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6618E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.235000 TO TG2= 0.236818 @ NSTEP 35860 GFRAME TG2 MOMENTS CHECKSUM: 3.5465512369597D+03 --> plasma_hash("gframe"): TA= 2.368182E-01 NSTEP= 37663 Hash code: 10895574 ->PRGCHK: bdy curvature ratio at t= 2.3864E-01 seconds is: 5.9099E-02 % MHDEQ: TG1= 0.236818 ; TG2= 0.238636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.040E-05 FluxDiff MaxDT: 2.459E-03 Avg. GS error: 9.391E-03 Plasma Current: 5.974E+05, target: 5.974E+05, error: 0.001% Edge Q: 12.519, target: 12.712, error: 1.516% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7967E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.7288E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.236818 TO TG2= 0.238636 @ NSTEP 37663 GFRAME TG2 MOMENTS CHECKSUM: 3.5487448382209D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.74547472222253 %check_save_state: izleft hours = 75.1869444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.3692653E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.386364E-01 NSTEP= 39459 Hash code: 115722061 ->PRGCHK: bdy curvature ratio at t= 2.4045E-01 seconds is: 5.8735E-02 % MHDEQ: TG1= 0.238636 ; TG2= 0.240455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.040E-05 FluxDiff MaxDT: 2.363E-03 Avg. GS error: 9.495E-03 Plasma Current: 6.009E+05, target: 6.009E+05, error: 0.001% Edge Q: 12.503, target: 12.709, error: 1.619% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7660E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.6774E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.238636 TO TG2= 0.240455 @ NSTEP 39459 GFRAME TG2 MOMENTS CHECKSUM: 3.5560505391815D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 4.98446305555558 %check_save_state: izleft hours = 74.9480555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.3890572E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.404545E-01 NSTEP= 41255 Hash code: 112963423 ->PRGCHK: bdy curvature ratio at t= 2.4227E-01 seconds is: 6.0420E-02 % MHDEQ: TG1= 0.240455 ; TG2= 0.242273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.071E-05 FluxDiff MaxDT: 2.294E-03 Avg. GS error: 9.548E-03 Plasma Current: 6.043E+05, target: 6.043E+05, error: 0.002% Edge Q: 12.495, target: 12.702, error: 1.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8865E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1582E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.240455 TO TG2= 0.242273 @ NSTEP 41255 GFRAME TG2 MOMENTS CHECKSUM: 3.5661883862393D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= -1.60058E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.52298E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= -1.19689E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.20870194444456 %check_save_state: izleft hours = 74.7236111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.4081605E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.422727E-01 NSTEP= 43051 Hash code: 26408512 ->PRGCHK: bdy curvature ratio at t= 2.4409E-01 seconds is: 7.1148E-02 % MHDEQ: TG1= 0.242273 ; TG2= 0.244091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.057E-05 FluxDiff MaxDT: 2.044E-03 Avg. GS error: 9.750E-03 Plasma Current: 6.077E+05, target: 6.077E+05, error: 0.002% Edge Q: 12.537, target: 12.702, error: 1.298% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9468E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0067E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.242273 TO TG2= 0.244091 @ NSTEP 43051 GFRAME TG2 MOMENTS CHECKSUM: 3.5872034159260D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.43522611111166 %check_save_state: izleft hours = 74.4972222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.4272334E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.440909E-01 NSTEP= 44781 Hash code: 82518968 ->PRGCHK: bdy curvature ratio at t= 2.4591E-01 seconds is: 8.0173E-02 % MHDEQ: TG1= 0.244091 ; TG2= 0.245909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.162E-05 FluxDiff MaxDT: 1.996E-03 Avg. GS error: 9.281E-03 Plasma Current: 6.111E+05, target: 6.111E+05, error: 0.001% Edge Q: 12.636, target: 12.753, error: 0.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8153E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.0870E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.244091 TO TG2= 0.245909 @ NSTEP 44781 GFRAME TG2 MOMENTS CHECKSUM: 3.6076888853619D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.66709777777805 %check_save_state: izleft hours = 74.2652777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.4479432E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45490 TA= 2.44914E-01 CPU TIME= 3.00048E-01 SECONDS. DT= 1.34779E-06 --> plasma_hash("gframe"): TA= 2.459091E-01 NSTEP= 46199 Hash code: 111659873 ->PRGCHK: bdy curvature ratio at t= 2.4773E-01 seconds is: 6.6769E-02 % MHDEQ: TG1= 0.245909 ; TG2= 0.247727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.288E-05 FluxDiff MaxDT: 2.123E-03 Avg. GS error: 8.540E-03 Plasma Current: 6.145E+05, target: 6.145E+05, error: 0.000% Edge Q: 12.848, target: 12.889, error: 0.313% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0564E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9655E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.245909 TO TG2= 0.247727 @ NSTEP 46199 GFRAME TG2 MOMENTS CHECKSUM: 3.6293251953551D+03 --> plasma_hash("gframe"): TA= 2.477273E-01 NSTEP= 47240 Hash code: 23826347 ->PRGCHK: bdy curvature ratio at t= 2.4955E-01 seconds is: 5.9477E-02 % MHDEQ: TG1= 0.247727 ; TG2= 0.249545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.296E-05 FluxDiff MaxDT: 2.781E-03 Avg. GS error: 8.741E-03 Plasma Current: 6.179E+05, target: 6.179E+05, error: 0.006% Edge Q: 12.207, target: 13.239, error: 7.793% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4642E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1318E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.247727 TO TG2= 0.249545 @ NSTEP 47240 GFRAME TG2 MOMENTS CHECKSUM: 3.6343606705216D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 5.88448333333349 %check_save_state: izleft hours = 74.0480555555555 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.4780943E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.495455E-01 NSTEP= 48192 Hash code: 59952321 ->PRGCHK: bdy curvature ratio at t= 2.5136E-01 seconds is: 5.5142E-02 % MHDEQ: TG1= 0.249545 ; TG2= 0.251364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.414E-05 FluxDiff MaxDT: 2.766E-03 Avg. GS error: 8.449E-03 Plasma Current: 6.213E+05, target: 6.213E+05, error: 0.006% Edge Q: 11.704, target: 12.527, error: 6.566% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6936E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0400E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.249545 TO TG2= 0.251364 @ NSTEP 48192 GFRAME TG2 MOMENTS CHECKSUM: 3.6403636129182D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= -1.52148E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 9.00797E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 9.90517E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.513636E-01 NSTEP= 49144 Hash code: 103686752 ->PRGCHK: bdy curvature ratio at t= 2.5318E-01 seconds is: 5.7846E-02 % MHDEQ: TG1= 0.251364 ; TG2= 0.253182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.334E-05 FluxDiff MaxDT: 2.932E-03 Avg. GS error: 8.062E-03 Plasma Current: 6.247E+05, target: 6.247E+05, error: 0.001% Edge Q: 11.324, target: 12.023, error: 5.816% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7855E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6548E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.251364 TO TG2= 0.253182 @ NSTEP 49144 GFRAME TG2 MOMENTS CHECKSUM: 3.6424082562623D+03 --> plasma_hash("gframe"): TA= 2.531818E-01 NSTEP= 50096 Hash code: 29268176 ->PRGCHK: bdy curvature ratio at t= 2.5500E-01 seconds is: 6.1684E-02 % MHDEQ: TG1= 0.253182 ; TG2= 0.255000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.378E-05 FluxDiff MaxDT: 2.987E-03 Avg. GS error: 7.761E-03 Plasma Current: 6.281E+05, target: 6.281E+05, error: 0.000% Edge Q: 10.972, target: 11.609, error: 5.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8060E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6058E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.253182 TO TG2= 0.255000 @ NSTEP 50096 GFRAME TG2 MOMENTS CHECKSUM: 3.6452330693048D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 50198 TA= 2.53377E-01 CPU TIME= 6.81920E-02 SECONDS. DT= 1.91070E-06 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51048 TA= 2.55000E-01 CPU TIME= 8.89000E-03 SECONDS. DT= 1.10235E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.38371333333362 %check_save_state: izleft hours = 73.5486111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.5500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.550000E-01 NSTEP= 51048 Hash code: 71618457 ->PRGCHK: bdy curvature ratio at t= 2.5682E-01 seconds is: 6.2801E-02 % MHDEQ: TG1= 0.255000 ; TG2= 0.256818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.426E-05 FluxDiff MaxDT: 2.965E-03 Avg. GS error: 7.563E-03 Plasma Current: 6.315E+05, target: 6.315E+05, error: 0.002% Edge Q: 10.638, target: 11.262, error: 5.548% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7008E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9715E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.255000 TO TG2= 0.256818 @ NSTEP 51048 GFRAME TG2 MOMENTS CHECKSUM: 3.6484486724369D+03 --> plasma_hash("gframe"): TA= 2.568182E-01 NSTEP= 52698 Hash code: 57618530 ->PRGCHK: bdy curvature ratio at t= 2.5864E-01 seconds is: 6.3802E-02 % MHDEQ: TG1= 0.256818 ; TG2= 0.258636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.568E-05 FluxDiff MaxDT: 3.020E-03 Avg. GS error: 7.537E-03 Plasma Current: 6.349E+05, target: 6.349E+05, error: 0.000% Edge Q: 10.452, target: 10.900, error: 4.111% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7121E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9831E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.256818 TO TG2= 0.258636 @ NSTEP 52698 GFRAME TG2 MOMENTS CHECKSUM: 3.6522853985366D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.61560111111135 %check_save_state: izleft hours = 73.3169444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.5712794E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.586364E-01 NSTEP= 54348 Hash code: 14142370 ->PRGCHK: bdy curvature ratio at t= 2.6045E-01 seconds is: 6.4030E-02 % MHDEQ: TG1= 0.258636 ; TG2= 0.260455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.451E-05 FluxDiff MaxDT: 2.498E-03 Avg. GS error: 7.665E-03 Plasma Current: 6.384E+05, target: 6.384E+05, error: 0.001% Edge Q: 10.340, target: 10.732, error: 3.650% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8379E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9866E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.258636 TO TG2= 0.260455 @ NSTEP 54348 GFRAME TG2 MOMENTS CHECKSUM: 3.6544574039063D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 6.84678250000070 %check_save_state: izleft hours = 73.0855555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.5926691E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.604545E-01 NSTEP= 55998 Hash code: 28529001 ->PRGCHK: bdy curvature ratio at t= 2.6227E-01 seconds is: 6.2497E-02 % MHDEQ: TG1= 0.260455 ; TG2= 0.262273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.520E-05 FluxDiff MaxDT: 1.648E-03 Avg. GS error: 7.641E-03 Plasma Current: 6.418E+05, target: 6.418E+05, error: 0.004% Edge Q: 10.414, target: 10.606, error: 1.808% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8321E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6655E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.260455 TO TG2= 0.262273 @ NSTEP 55998 GFRAME TG2 MOMENTS CHECKSUM: 3.6543501519493D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= 2.98497E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 1.28189E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 1.70308E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.08043611111134 %check_save_state: izleft hours = 72.8519444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.6139926E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.622727E-01 NSTEP= 57648 Hash code: 62461878 ->PRGCHK: bdy curvature ratio at t= 2.6386E-01 seconds is: 5.9584E-02 % MHDEQ: TG1= 0.262273 ; TG2= 0.263864 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.085E-05 FluxDiff MaxDT: 1.687E-03 Avg. GS error: 7.213E-03 Plasma Current: 6.448E+05, target: 6.447E+05, error: 0.002% Edge Q: 10.475, target: 10.692, error: 2.026% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9791E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6368E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.262273 TO TG2= 0.263864 @ NSTEP 57648 GFRAME TG2 MOMENTS CHECKSUM: 3.6529611555690D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.30655000000002 %check_save_state: izleft hours = 72.6258333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.6344012E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.638636E-01 NSTEP= 59092 Hash code: 106124 ->PRGCHK: bdy curvature ratio at t= 2.6545E-01 seconds is: 5.5743E-02 % MHDEQ: TG1= 0.263864 ; TG2= 0.265455 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.084E-05 FluxDiff MaxDT: 1.736E-03 Avg. GS error: 7.188E-03 Plasma Current: 6.477E+05, target: 6.477E+05, error: 0.002% Edge Q: 10.540, target: 10.748, error: 1.933% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9919E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6161E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.263864 TO TG2= 0.265455 @ NSTEP 59092 GFRAME TG2 MOMENTS CHECKSUM: 3.6525752838255D+03 --> plasma_hash("gframe"): TA= 2.654545E-01 NSTEP= 60536 Hash code: 5040581 ->PRGCHK: bdy curvature ratio at t= 2.6705E-01 seconds is: 5.4204E-02 % MHDEQ: TG1= 0.265455 ; TG2= 0.267045 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.079E-05 FluxDiff MaxDT: 1.828E-03 Avg. GS error: 7.345E-03 Plasma Current: 6.507E+05, target: 6.507E+05, error: 0.003% Edge Q: 10.601, target: 10.825, error: 2.071% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9323E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6299E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.265455 TO TG2= 0.267045 @ NSTEP 60536 GFRAME TG2 MOMENTS CHECKSUM: 3.6517014603892D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.53358361111168 %check_save_state: izleft hours = 72.3988888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.6551958E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.670455E-01 NSTEP= 61980 Hash code: 6629661 ->PRGCHK: bdy curvature ratio at t= 2.6864E-01 seconds is: 5.3832E-02 % MHDEQ: TG1= 0.267045 ; TG2= 0.268636 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.049E-05 FluxDiff MaxDT: 1.923E-03 Avg. GS error: 7.405E-03 Plasma Current: 6.537E+05, target: 6.537E+05, error: 0.002% Edge Q: 10.664, target: 10.885, error: 2.031% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9585E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6635E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.267045 TO TG2= 0.268636 @ NSTEP 61980 GFRAME TG2 MOMENTS CHECKSUM: 3.6510861118273D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.76799611111142 %check_save_state: izleft hours = 72.1644444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.6758892E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.686364E-01 NSTEP= 63424 Hash code: 11177534 ->PRGCHK: bdy curvature ratio at t= 2.7023E-01 seconds is: 5.6634E-02 % MHDEQ: TG1= 0.268636 ; TG2= 0.270227 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.961E-06 FluxDiff MaxDT: 2.086E-03 Avg. GS error: 7.451E-03 Plasma Current: 6.567E+05, target: 6.567E+05, error: 0.000% Edge Q: 10.709, target: 10.963, error: 2.320% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7133E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5623E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.268636 TO TG2= 0.270227 @ NSTEP 63424 GFRAME TG2 MOMENTS CHECKSUM: 3.6501741403690D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 7.99354583333343 %check_save_state: izleft hours = 71.9388888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.6966266E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.702273E-01 NSTEP= 64868 Hash code: 13747805 ->PRGCHK: bdy curvature ratio at t= 2.7182E-01 seconds is: 5.9800E-02 % MHDEQ: TG1= 0.270227 ; TG2= 0.271818 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.367E-06 FluxDiff MaxDT: 2.183E-03 Avg. GS error: 7.456E-03 Plasma Current: 6.597E+05, target: 6.597E+05, error: 0.001% Edge Q: 10.757, target: 11.009, error: 2.291% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6585E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7308E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.270227 TO TG2= 0.271818 @ NSTEP 64868 GFRAME TG2 MOMENTS CHECKSUM: 3.6484144963256D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64888 TA= 2.70249E-01 CPU TIME= 9.04800E-03 SECONDS. DT= 1.10235E-06 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= 1.54118E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.718182E-01 NSTEP= 66312 Hash code: 41059861 ->PRGCHK: bdy curvature ratio at t= 2.7341E-01 seconds is: 6.3472E-02 % MHDEQ: TG1= 0.271818 ; TG2= 0.273409 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.768E-06 FluxDiff MaxDT: 2.240E-03 Avg. GS error: 7.454E-03 Plasma Current: 6.627E+05, target: 6.626E+05, error: 0.003% Edge Q: 10.813, target: 11.065, error: 2.276% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7141E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7492E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.271818 TO TG2= 0.273409 @ NSTEP 66312 GFRAME TG2 MOMENTS CHECKSUM: 3.6473340214545D+03 --> plasma_hash("gframe"): TA= 2.734091E-01 NSTEP= 67571 Hash code: 105104141 ->PRGCHK: bdy curvature ratio at t= 2.7500E-01 seconds is: 6.7826E-02 % MHDEQ: TG1= 0.273409 ; TG2= 0.275000 ; DTG= 1.591E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.456E-06 FluxDiff MaxDT: 2.265E-03 Avg. GS error: 7.418E-03 Plasma Current: 6.656E+05, target: 6.656E+05, error: 0.001% Edge Q: 10.879, target: 11.122, error: 2.181% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6029E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7944E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.273409 TO TG2= 0.275000 @ NSTEP 67571 GFRAME TG2 MOMENTS CHECKSUM: 3.6464773094959D+03 %fi_finish: enter %fimain: eflux cpu time = 3.999972250312567E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 68559 TA= 2.75000E-01 CPU TIME= 8.86500E-03 SECONDS. DT= 1.40731E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.49504250000018 %check_save_state: izleft hours = 71.4375000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.7500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.750000E-01 NSTEP= 68559 Hash code: 13382243 ->PRGCHK: bdy curvature ratio at t= 2.7682E-01 seconds is: 7.3820E-02 % MHDEQ: TG1= 0.275000 ; TG2= 0.276818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.000E-05 FluxDiff MaxDT: 2.292E-03 Avg. GS error: 7.376E-03 Plasma Current: 6.690E+05, target: 6.690E+05, error: 0.001% Edge Q: 10.972, target: 11.199, error: 2.026% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7877E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9362E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.275000 TO TG2= 0.276818 @ NSTEP 68559 GFRAME TG2 MOMENTS CHECKSUM: 3.6463911912304D+03 --> plasma_hash("gframe"): TA= 2.768182E-01 NSTEP= 69531 Hash code: 17634560 ->PRGCHK: bdy curvature ratio at t= 2.7864E-01 seconds is: 8.1173E-02 % MHDEQ: TG1= 0.276818 ; TG2= 0.278636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.080E-05 FluxDiff MaxDT: 2.310E-03 Avg. GS error: 7.339E-03 Plasma Current: 6.725E+05, target: 6.724E+05, error: 0.002% Edge Q: 11.091, target: 11.305, error: 1.894% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8924E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0325E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.276818 TO TG2= 0.278636 @ NSTEP 69531 GFRAME TG2 MOMENTS CHECKSUM: 3.6467553598240D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.72753694444464 %check_save_state: izleft hours = 71.2050000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.7858641E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 2.786364E-01 NSTEP= 70502 Hash code: 74457619 ->PRGCHK: bdy curvature ratio at t= 2.8045E-01 seconds is: 8.0797E-02 % MHDEQ: TG1= 0.278636 ; TG2= 0.280455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.994E-06 FluxDiff MaxDT: 2.346E-03 Avg. GS error: 7.592E-03 Plasma Current: 6.759E+05, target: 6.759E+05, error: 0.002% Edge Q: 11.233, target: 11.449, error: 1.888% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8651E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0708E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.278636 TO TG2= 0.280455 @ NSTEP 70502 GFRAME TG2 MOMENTS CHECKSUM: 3.6473751825477D+03 %splitn_update_check: writing update: 204112R76TR.TMP @ t= 0.280000000000000 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 8.50000000E+12 to 1.50000000E+13 namelist update changed APROF_EDGE_VALUE_NER from 3.50000000E+12 to 8.00000000E+12 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 2.804545E-01 NSTEP= 71473 Hash code: 110340397 ->PRGCHK: bdy curvature ratio at t= 2.8227E-01 seconds is: 7.6184E-02 % MHDEQ: TG1= 0.280455 ; TG2= 0.282273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.053E-05 FluxDiff MaxDT: 2.386E-03 Avg. GS error: 8.002E-03 Plasma Current: 6.793E+05, target: 6.793E+05, error: 0.001% Edge Q: 11.412, target: 11.616, error: 1.758% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8675E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1135E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.280455 TO TG2= 0.282273 @ NSTEP 71473 GFRAME TG2 MOMENTS CHECKSUM: 3.6463969145524D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 71482 TA= 2.80471E-01 CPU TIME= 2.62388E-01 SECONDS. DT= 1.87288E-06 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= 1.44981E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.28497E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.50540E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 71747 TA= 2.80968E-01 CPU TIME= 1.29296E-01 SECONDS. DT= 1.87288E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72025 TA= 2.81488E-01 CPU TIME= 1.57325E-01 SECONDS. DT= 1.87288E-06 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 8.93946527777780 %check_save_state: izleft hours = 70.9930555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.8182924E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72317 TA= 2.82035E-01 CPU TIME= 2.74045E-01 SECONDS. DT= 1.87288E-06 --> plasma_hash("gframe"): TA= 2.822727E-01 NSTEP= 72444 Hash code: 30972847 ->PRGCHK: bdy curvature ratio at t= 2.8409E-01 seconds is: 7.2562E-02 % MHDEQ: TG1= 0.282273 ; TG2= 0.284091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.032E-05 FluxDiff MaxDT: 2.408E-03 Avg. GS error: 8.751E-03 Plasma Current: 6.827E+05, target: 6.827E+05, error: 0.004% Edge Q: 11.643, target: 11.832, error: 1.601% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6858E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1924E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.282273 TO TG2= 0.284091 @ NSTEP 72444 GFRAME TG2 MOMENTS CHECKSUM: 3.6479855202367D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72624 TA= 2.82610E-01 CPU TIME= 9.22400E-03 SECONDS. DT= 1.87288E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72946 TA= 2.83213E-01 CPU TIME= 8.97000E-03 SECONDS. DT= 1.87288E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73258 TA= 2.83846E-01 CPU TIME= 2.59076E-01 SECONDS. DT= 2.06017E-06 --> plasma_hash("gframe"): TA= 2.840909E-01 NSTEP= 73378 Hash code: 36475595 ->PRGCHK: bdy curvature ratio at t= 2.8591E-01 seconds is: 7.0409E-02 % MHDEQ: TG1= 0.284091 ; TG2= 0.285909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.078E-05 FluxDiff MaxDT: 3.995E-03 Avg. GS error: 8.872E-03 Plasma Current: 6.860E+05, target: 6.861E+05, error: 0.013% Edge Q: 11.381, target: 12.135, error: 6.211% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3870E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3417E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.284091 TO TG2= 0.285909 @ NSTEP 73378 GFRAME TG2 MOMENTS CHECKSUM: 3.6422914165096D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73568 TA= 2.84511E-01 CPU TIME= 9.46690E-02 SECONDS. DT= 2.26619E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 73848 TA= 2.85209E-01 CPU TIME= 1.58854E-01 SECONDS. DT= 2.74208E-06 --> plasma_hash("gframe"): TA= 2.859091E-01 NSTEP= 74090 Hash code: 21737728 ->PRGCHK: bdy curvature ratio at t= 2.8773E-01 seconds is: 6.9081E-02 % MHDEQ: TG1= 0.285909 ; TG2= 0.287727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.085E-05 FluxDiff MaxDT: 4.036E-03 Avg. GS error: 8.803E-03 Plasma Current: 6.894E+05, target: 6.895E+05, error: 0.017% Edge Q: 11.144, target: 11.826, error: 5.767% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4853E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4992E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.285909 TO TG2= 0.287727 @ NSTEP 74090 GFRAME TG2 MOMENTS CHECKSUM: 3.6384714627197D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.16524083333388 %check_save_state: izleft hours = 70.7672222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 2.8593232E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74100 TA= 2.85942E-01 CPU TIME= 9.09400E-03 SECONDS. DT= 3.31792E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74330 TA= 2.86712E-01 CPU TIME= 9.09000E-03 SECONDS. DT= 3.64971E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74551 TA= 2.87518E-01 CPU TIME= 9.09100E-03 SECONDS. DT= 3.64971E-06 --> plasma_hash("gframe"): TA= 2.877273E-01 NSTEP= 74609 Hash code: 55089215 ->PRGCHK: bdy curvature ratio at t= 2.8955E-01 seconds is: 6.8646E-02 % MHDEQ: TG1= 0.287727 ; TG2= 0.289545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.033E-05 FluxDiff MaxDT: 3.973E-03 Avg. GS error: 8.968E-03 Plasma Current: 6.928E+05, target: 6.929E+05, error: 0.019% Edge Q: 11.029, target: 11.539, error: 4.419% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5814E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6210E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.287727 TO TG2= 0.289545 @ NSTEP 74609 GFRAME TG2 MOMENTS CHECKSUM: 3.6375596339447D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74784 TA= 2.88366E-01 CPU TIME= 9.01100E-03 SECONDS. DT= 3.64971E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75028 TA= 2.89257E-01 CPU TIME= 9.09100E-03 SECONDS. DT= 3.64971E-06 --> plasma_hash("gframe"): TA= 2.895455E-01 NSTEP= 75108 Hash code: 75601880 ->PRGCHK: bdy curvature ratio at t= 2.9136E-01 seconds is: 6.8230E-02 % MHDEQ: TG1= 0.289545 ; TG2= 0.291364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.987E-06 FluxDiff MaxDT: 4.089E-03 Avg. GS error: 9.177E-03 Plasma Current: 6.962E+05, target: 6.963E+05, error: 0.022% Edge Q: 10.920, target: 11.413, error: 4.321% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5364E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5465E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.289545 TO TG2= 0.291364 @ NSTEP 75108 GFRAME TG2 MOMENTS CHECKSUM: 3.6367137630121D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75318 TA= 2.90474E-01 CPU TIME= 2.90957E-01 SECONDS. DT= 1.04131E-05 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= -1.39599E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -5.14261E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -5.76706E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.913636E-01 NSTEP= 75361 Hash code: 112296852 ->PRGCHK: bdy curvature ratio at t= 2.9318E-01 seconds is: 6.7834E-02 % MHDEQ: TG1= 0.291364 ; TG2= 0.293182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.834E-06 FluxDiff MaxDT: 4.136E-03 Avg. GS error: 9.415E-03 Plasma Current: 6.996E+05, target: 6.997E+05, error: 0.023% Edge Q: 10.822, target: 11.289, error: 4.136% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5557E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4865E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.291364 TO TG2= 0.293182 @ NSTEP 75361 GFRAME TG2 MOMENTS CHECKSUM: 3.6360197150421D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75383 TA= 2.92148E-01 CPU TIME= 1.25532E-01 SECONDS. DT= 3.59487E-05 --> plasma_hash("gframe"): TA= 2.931818E-01 NSTEP= 75412 Hash code: 59424441 ->PRGCHK: bdy curvature ratio at t= 2.9500E-01 seconds is: 6.7458E-02 % MHDEQ: TG1= 0.293182 ; TG2= 0.295000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.467E-06 FluxDiff MaxDT: 4.174E-03 Avg. GS error: 9.457E-03 Plasma Current: 7.030E+05, target: 7.031E+05, error: 0.023% Edge Q: 10.740, target: 11.181, error: 3.945% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5376E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4492E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.293182 TO TG2= 0.295000 @ NSTEP 75412 GFRAME TG2 MOMENTS CHECKSUM: 3.6355623392877D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999964635819197E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75463 TA= 2.95000E-01 CPU TIME= 8.91500E-03 SECONDS. DT= 2.28208E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 9.33204750000050 %check_save_state: izleft hours = 70.6002777777778 --> plasma_hash("gframe"): TA= 2.950000E-01 NSTEP= 75463 Hash code: 56661719 ->PRGCHK: bdy curvature ratio at t= 2.9682E-01 seconds is: 6.7100E-02 % MHDEQ: TG1= 0.295000 ; TG2= 0.296818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.999E-06 FluxDiff MaxDT: 4.233E-03 Avg. GS error: 9.496E-03 Plasma Current: 7.064E+05, target: 7.065E+05, error: 0.023% Edge Q: 10.664, target: 11.090, error: 3.842% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5725E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3835E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.295000 TO TG2= 0.296818 @ NSTEP 75463 GFRAME TG2 MOMENTS CHECKSUM: 3.6352620490176D+03 --> plasma_hash("gframe"): TA= 2.968182E-01 NSTEP= 75518 Hash code: 118671129 ->PRGCHK: bdy curvature ratio at t= 2.9864E-01 seconds is: 6.6760E-02 % MHDEQ: TG1= 0.296818 ; TG2= 0.298636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.088E-05 FluxDiff MaxDT: 4.893E-03 Avg. GS error: 9.572E-03 Plasma Current: 7.098E+05, target: 7.099E+05, error: 0.022% Edge Q: 10.604, target: 11.007, error: 3.664% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4978E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3661E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.296818 TO TG2= 0.298636 @ NSTEP 75518 GFRAME TG2 MOMENTS CHECKSUM: 3.6376243519099D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75527 TA= 2.97149E-01 CPU TIME= 2.02634E-01 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 2.986364E-01 NSTEP= 75568 Hash code: 48933659 ->PRGCHK: bdy curvature ratio at t= 3.0045E-01 seconds is: 6.6437E-02 % MHDEQ: TG1= 0.298636 ; TG2= 0.300455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.877E-06 FluxDiff MaxDT: 5.006E-03 Avg. GS error: 9.557E-03 Plasma Current: 7.132E+05, target: 7.134E+05, error: 0.021% Edge Q: 10.542, target: 10.956, error: 3.773% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5340E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3631E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.298636 TO TG2= 0.300455 @ NSTEP 75568 GFRAME TG2 MOMENTS CHECKSUM: 3.6379454961466D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75594 TA= 2.99592E-01 CPU TIME= 9.34500E-03 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 3.004545E-01 NSTEP= 75618 Hash code: 84737923 ->PRGCHK: bdy curvature ratio at t= 3.0227E-01 seconds is: 6.6132E-02 % MHDEQ: TG1= 0.300455 ; TG2= 0.302273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.539E-06 FluxDiff MaxDT: 5.077E-03 Avg. GS error: 9.431E-03 Plasma Current: 7.166E+05, target: 7.168E+05, error: 0.021% Edge Q: 10.471, target: 10.886, error: 3.805% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5295E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4033E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.300455 TO TG2= 0.302273 @ NSTEP 75618 GFRAME TG2 MOMENTS CHECKSUM: 3.6380977528567D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= -1.72684E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.35971E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= 1.21274E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.022727E-01 NSTEP= 75668 Hash code: 105182677 ->PRGCHK: bdy curvature ratio at t= 3.0409E-01 seconds is: 6.5844E-02 % MHDEQ: TG1= 0.302273 ; TG2= 0.304091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.660E-06 FluxDiff MaxDT: 5.094E-03 Avg. GS error: 9.318E-03 Plasma Current: 7.200E+05, target: 7.202E+05, error: 0.021% Edge Q: 10.407, target: 10.811, error: 3.736% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5261E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4328E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.302273 TO TG2= 0.304091 @ NSTEP 75668 GFRAME TG2 MOMENTS CHECKSUM: 3.6383964180927D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75669 TA= 3.02309E-01 CPU TIME= 2.11827E-01 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 3.040909E-01 NSTEP= 75718 Hash code: 80477492 ->PRGCHK: bdy curvature ratio at t= 3.0591E-01 seconds is: 6.5572E-02 % MHDEQ: TG1= 0.304091 ; TG2= 0.305909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.246E-06 FluxDiff MaxDT: 5.060E-03 Avg. GS error: 9.208E-03 Plasma Current: 7.234E+05, target: 7.236E+05, error: 0.021% Edge Q: 10.348, target: 10.740, error: 3.649% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5711E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4530E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.304091 TO TG2= 0.305909 @ NSTEP 75718 GFRAME TG2 MOMENTS CHECKSUM: 3.6387180297764D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75754 TA= 3.05414E-01 CPU TIME= 2.37162E-01 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 3.059091E-01 NSTEP= 75768 Hash code: 59090737 ->PRGCHK: bdy curvature ratio at t= 3.0773E-01 seconds is: 6.5316E-02 % MHDEQ: TG1= 0.305909 ; TG2= 0.307727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.789E-06 FluxDiff MaxDT: 4.983E-03 Avg. GS error: 9.130E-03 Plasma Current: 7.268E+05, target: 7.270E+05, error: 0.021% Edge Q: 10.292, target: 10.677, error: 3.602% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6011E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4609E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.305909 TO TG2= 0.307727 @ NSTEP 75768 GFRAME TG2 MOMENTS CHECKSUM: 3.6391135694415D+03 --> plasma_hash("gframe"): TA= 3.077273E-01 NSTEP= 75818 Hash code: 100225452 ->PRGCHK: bdy curvature ratio at t= 3.0955E-01 seconds is: 6.5076E-02 % MHDEQ: TG1= 0.307727 ; TG2= 0.309545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.539E-06 FluxDiff MaxDT: 4.906E-03 Avg. GS error: 9.099E-03 Plasma Current: 7.302E+05, target: 7.304E+05, error: 0.021% Edge Q: 10.240, target: 10.615, error: 3.524% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6303E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4558E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.307727 TO TG2= 0.309545 @ NSTEP 75818 GFRAME TG2 MOMENTS CHECKSUM: 3.6394811495169D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75852 TA= 3.08977E-01 CPU TIME= 9.07700E-03 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 3.095455E-01 NSTEP= 75868 Hash code: 42524749 ->PRGCHK: bdy curvature ratio at t= 3.1136E-01 seconds is: 6.4851E-02 % MHDEQ: TG1= 0.309545 ; TG2= 0.311364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.269E-06 FluxDiff MaxDT: 4.801E-03 Avg. GS error: 9.079E-03 Plasma Current: 7.337E+05, target: 7.338E+05, error: 0.021% Edge Q: 10.189, target: 10.559, error: 3.509% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6405E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4719E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.309545 TO TG2= 0.311364 @ NSTEP 75868 GFRAME TG2 MOMENTS CHECKSUM: 3.6397015043810D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= 1.28572E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 2.05707E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 1.91014E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.113636E-01 NSTEP= 75918 Hash code: 14066514 ->PRGCHK: bdy curvature ratio at t= 3.1318E-01 seconds is: 6.4641E-02 % MHDEQ: TG1= 0.311364 ; TG2= 0.313182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.118E-06 FluxDiff MaxDT: 4.703E-03 Avg. GS error: 9.065E-03 Plasma Current: 7.371E+05, target: 7.372E+05, error: 0.022% Edge Q: 10.135, target: 10.502, error: 3.494% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6297E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5205E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.311364 TO TG2= 0.313182 @ NSTEP 75918 GFRAME TG2 MOMENTS CHECKSUM: 3.6398172916174D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75966 TA= 3.13128E-01 CPU TIME= 9.06600E-03 SECONDS. DT= 3.67531E-05 --> plasma_hash("gframe"): TA= 3.131818E-01 NSTEP= 75968 Hash code: 64454859 ->PRGCHK: bdy curvature ratio at t= 3.1500E-01 seconds is: 6.4446E-02 % MHDEQ: TG1= 0.313182 ; TG2= 0.315000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.947E-06 FluxDiff MaxDT: 4.623E-03 Avg. GS error: 9.051E-03 Plasma Current: 7.405E+05, target: 7.406E+05, error: 0.023% Edge Q: 10.084, target: 10.445, error: 3.462% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6508E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5701E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.313182 TO TG2= 0.315000 @ NSTEP 75968 GFRAME TG2 MOMENTS CHECKSUM: 3.6399286511553D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999979864805937E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76018 TA= 3.15000E-01 CPU TIME= 8.93700E-03 SECONDS. DT= 1.72800E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.45049916666676 %check_save_state: izleft hours = 70.4819444444445 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 3.1500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 3.150000E-01 NSTEP= 76018 Hash code: 48856330 ->PRGCHK: bdy curvature ratio at t= 3.1682E-01 seconds is: 6.4265E-02 % MHDEQ: TG1= 0.315000 ; TG2= 0.316818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.938E-06 FluxDiff MaxDT: 4.542E-03 Avg. GS error: 9.026E-03 Plasma Current: 7.439E+05, target: 7.440E+05, error: 0.025% Edge Q: 10.035, target: 10.389, error: 3.400% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6609E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6169E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.315000 TO TG2= 0.316818 @ NSTEP 76018 GFRAME TG2 MOMENTS CHECKSUM: 3.6400337306736D+03 --> plasma_hash("gframe"): TA= 3.168182E-01 NSTEP= 76124 Hash code: 65041902 ->PRGCHK: bdy curvature ratio at t= 3.1864E-01 seconds is: 6.4099E-02 % MHDEQ: TG1= 0.316818 ; TG2= 0.318636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.695E-06 FluxDiff MaxDT: 4.419E-03 Avg. GS error: 9.209E-03 Plasma Current: 7.473E+05, target: 7.474E+05, error: 0.026% Edge Q: 9.993, target: 10.338, error: 3.342% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6564E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5002E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.316818 TO TG2= 0.318636 @ NSTEP 76124 GFRAME TG2 MOMENTS CHECKSUM: 3.6394187879780D+03 --> plasma_hash("gframe"): TA= 3.186364E-01 NSTEP= 76230 Hash code: 98696587 ->PRGCHK: bdy curvature ratio at t= 3.2045E-01 seconds is: 6.3946E-02 % MHDEQ: TG1= 0.318636 ; TG2= 0.320455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.874E-06 FluxDiff MaxDT: 4.351E-03 Avg. GS error: 9.171E-03 Plasma Current: 7.506E+05, target: 7.509E+05, error: 0.027% Edge Q: 9.949, target: 10.289, error: 3.307% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6857E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5633E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.318636 TO TG2= 0.320455 @ NSTEP 76230 GFRAME TG2 MOMENTS CHECKSUM: 3.6394623158557D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76234 TA= 3.18705E-01 CPU TIME= 4.68420E-02 SECONDS. DT= 1.72800E-05 --> plasma_hash("gframe"): TA= 3.204545E-01 NSTEP= 76336 Hash code: 38257163 ->PRGCHK: bdy curvature ratio at t= 3.2227E-01 seconds is: 6.3806E-02 % MHDEQ: TG1= 0.320455 ; TG2= 0.322273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.907E-06 FluxDiff MaxDT: 4.344E-03 Avg. GS error: 9.155E-03 Plasma Current: 7.540E+05, target: 7.543E+05, error: 0.028% Edge Q: 9.908, target: 10.243, error: 3.270% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6570E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6322E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.320455 TO TG2= 0.322273 @ NSTEP 76336 GFRAME TG2 MOMENTS CHECKSUM: 3.6405000952349D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= -1.76339E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 1.72566E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 1.79909E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.222727E-01 NSTEP= 76441 Hash code: 89400598 ->PRGCHK: bdy curvature ratio at t= 3.2409E-01 seconds is: 6.3679E-02 % MHDEQ: TG1= 0.322273 ; TG2= 0.324091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.955E-06 FluxDiff MaxDT: 4.340E-03 Avg. GS error: 9.169E-03 Plasma Current: 7.575E+05, target: 7.577E+05, error: 0.029% Edge Q: 9.871, target: 10.205, error: 3.273% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6533E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6393E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.322273 TO TG2= 0.324091 @ NSTEP 76441 GFRAME TG2 MOMENTS CHECKSUM: 3.6407586984934D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76468 TA= 3.22809E-01 CPU TIME= 2.02860E-01 SECONDS. DT= 2.09088E-05 --> plasma_hash("gframe"): TA= 3.240909E-01 NSTEP= 76530 Hash code: 92438366 ->PRGCHK: bdy curvature ratio at t= 3.2591E-01 seconds is: 6.3057E-02 % MHDEQ: TG1= 0.324091 ; TG2= 0.325909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.985E-06 FluxDiff MaxDT: 4.343E-03 Avg. GS error: 9.226E-03 Plasma Current: 7.609E+05, target: 7.611E+05, error: 0.029% Edge Q: 9.837, target: 10.167, error: 3.248% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8327E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7588E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.324091 TO TG2= 0.325909 @ NSTEP 76530 GFRAME TG2 MOMENTS CHECKSUM: 3.6402979009900D+03 --> plasma_hash("gframe"): TA= 3.259091E-01 NSTEP= 76617 Hash code: 86185824 ->PRGCHK: bdy curvature ratio at t= 3.2773E-01 seconds is: 6.2423E-02 % MHDEQ: TG1= 0.325909 ; TG2= 0.327727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.031E-06 FluxDiff MaxDT: 4.301E-03 Avg. GS error: 9.277E-03 Plasma Current: 7.643E+05, target: 7.645E+05, error: 0.030% Edge Q: 9.806, target: 10.127, error: 3.173% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7013E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7807E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.325909 TO TG2= 0.327727 @ NSTEP 76617 GFRAME TG2 MOMENTS CHECKSUM: 3.6407274801527D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76693 TA= 3.27498E-01 CPU TIME= 1.52944E-01 SECONDS. DT= 2.09088E-05 --> plasma_hash("gframe"): TA= 3.277273E-01 NSTEP= 76704 Hash code: 37995144 ->PRGCHK: bdy curvature ratio at t= 3.2955E-01 seconds is: 6.1811E-02 % MHDEQ: TG1= 0.327727 ; TG2= 0.329545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.130E-06 FluxDiff MaxDT: 4.254E-03 Avg. GS error: 9.356E-03 Plasma Current: 7.677E+05, target: 7.679E+05, error: 0.030% Edge Q: 9.778, target: 10.095, error: 3.142% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6942E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7554E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.327727 TO TG2= 0.329545 @ NSTEP 76704 GFRAME TG2 MOMENTS CHECKSUM: 3.6412176586348D+03 --> plasma_hash("gframe"): TA= 3.295455E-01 NSTEP= 76791 Hash code: 107109585 ->PRGCHK: bdy curvature ratio at t= 3.3136E-01 seconds is: 6.1220E-02 % MHDEQ: TG1= 0.329545 ; TG2= 0.331364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.242E-06 FluxDiff MaxDT: 4.207E-03 Avg. GS error: 9.460E-03 Plasma Current: 7.711E+05, target: 7.713E+05, error: 0.030% Edge Q: 9.754, target: 10.067, error: 3.109% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6701E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7326E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.329545 TO TG2= 0.331364 @ NSTEP 76791 GFRAME TG2 MOMENTS CHECKSUM: 3.6417783500298D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= -1.54128E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 4.33021E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.39448E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.313636E-01 NSTEP= 76878 Hash code: 42055295 ->PRGCHK: bdy curvature ratio at t= 3.3318E-01 seconds is: 6.0650E-02 % MHDEQ: TG1= 0.331364 ; TG2= 0.333182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.342E-06 FluxDiff MaxDT: 4.169E-03 Avg. GS error: 9.552E-03 Plasma Current: 7.745E+05, target: 7.747E+05, error: 0.029% Edge Q: 9.733, target: 10.042, error: 3.078% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7231E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7117E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.331364 TO TG2= 0.333182 @ NSTEP 76878 GFRAME TG2 MOMENTS CHECKSUM: 3.6424106986570D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 76948 TA= 3.32827E-01 CPU TIME= 9.04400E-03 SECONDS. DT= 2.09088E-05 --> plasma_hash("gframe"): TA= 3.331818E-01 NSTEP= 76965 Hash code: 21740632 ->PRGCHK: bdy curvature ratio at t= 3.3500E-01 seconds is: 6.0100E-02 % MHDEQ: TG1= 0.333182 ; TG2= 0.335000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.434E-06 FluxDiff MaxDT: 4.131E-03 Avg. GS error: 9.617E-03 Plasma Current: 7.779E+05, target: 7.781E+05, error: 0.028% Edge Q: 9.715, target: 10.020, error: 3.048% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7560E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6951E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.333182 TO TG2= 0.335000 @ NSTEP 76965 GFRAME TG2 MOMENTS CHECKSUM: 3.6431321859774D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77052 TA= 3.35000E-01 CPU TIME= 8.88600E-03 SECONDS. DT= 2.00246E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 9.61415027777798 %check_save_state: izleft hours = 70.3183333333333 --> plasma_hash("gframe"): TA= 3.350000E-01 NSTEP= 77052 Hash code: 110277281 ->PRGCHK: bdy curvature ratio at t= 3.3682E-01 seconds is: 5.9569E-02 % MHDEQ: TG1= 0.335000 ; TG2= 0.336818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.544E-06 FluxDiff MaxDT: 4.101E-03 Avg. GS error: 9.638E-03 Plasma Current: 7.813E+05, target: 7.815E+05, error: 0.027% Edge Q: 9.701, target: 10.002, error: 3.010% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7164E+00 SECONDS DATA R*BT AT EDGE: 5.9012E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6812E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.335000 TO TG2= 0.336818 @ NSTEP 77052 GFRAME TG2 MOMENTS CHECKSUM: 3.6439143644165D+03 --> plasma_hash("gframe"): TA= 3.368182E-01 NSTEP= 77143 Hash code: 65658918 ->PRGCHK: bdy curvature ratio at t= 3.3864E-01 seconds is: 5.9064E-02 % MHDEQ: TG1= 0.336818 ; TG2= 0.338636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.753E-06 FluxDiff MaxDT: 4.395E-03 Avg. GS error: 9.370E-03 Plasma Current: 7.847E+05, target: 7.849E+05, error: 0.025% Edge Q: 9.685, target: 9.989, error: 3.042% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7019E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6844E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.336818 TO TG2= 0.338636 @ NSTEP 77143 GFRAME TG2 MOMENTS CHECKSUM: 3.6453423506702D+03 --> plasma_hash("gframe"): TA= 3.386364E-01 NSTEP= 77234 Hash code: 79258980 ->PRGCHK: bdy curvature ratio at t= 3.4045E-01 seconds is: 5.8587E-02 % MHDEQ: TG1= 0.338636 ; TG2= 0.340455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.010E-06 FluxDiff MaxDT: 4.432E-03 Avg. GS error: 9.283E-03 Plasma Current: 7.882E+05, target: 7.884E+05, error: 0.024% Edge Q: 9.660, target: 9.977, error: 3.172% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7187E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6790E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.338636 TO TG2= 0.340455 @ NSTEP 77234 GFRAME TG2 MOMENTS CHECKSUM: 3.6474047906314D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.65509111111123 %check_save_state: izleft hours = 70.2775000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 3.4033845E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. --> plasma_hash("gframe"): TA= 3.404545E-01 NSTEP= 77325 Hash code: 107577616 ->PRGCHK: bdy curvature ratio at t= 3.4227E-01 seconds is: 5.8143E-02 % MHDEQ: TG1= 0.340455 ; TG2= 0.342273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.317E-06 FluxDiff MaxDT: 4.444E-03 Avg. GS error: 9.014E-03 Plasma Current: 7.916E+05, target: 7.918E+05, error: 0.023% Edge Q: 9.613, target: 9.948, error: 3.365% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6969E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5764E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.340455 TO TG2= 0.342273 @ NSTEP 77325 GFRAME TG2 MOMENTS CHECKSUM: 3.6515426065176D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77337 TA= 3.40695E-01 CPU TIME= 5.34210E-02 SECONDS. DT= 2.00246E-05 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 2.16700E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= -1.72626E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 13= 1.21205E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.422727E-01 NSTEP= 77416 Hash code: 76246929 ->PRGCHK: bdy curvature ratio at t= 3.4409E-01 seconds is: 5.7714E-02 % MHDEQ: TG1= 0.342273 ; TG2= 0.344091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.719E-06 FluxDiff MaxDT: 4.280E-03 Avg. GS error: 8.721E-03 Plasma Current: 7.950E+05, target: 7.952E+05, error: 0.022% Edge Q: 9.561, target: 9.900, error: 3.432% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6812E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5056E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.342273 TO TG2= 0.344091 @ NSTEP 77416 GFRAME TG2 MOMENTS CHECKSUM: 3.6551867094151D+03 --> plasma_hash("gframe"): TA= 3.440909E-01 NSTEP= 77507 Hash code: 85041424 ->PRGCHK: bdy curvature ratio at t= 3.4591E-01 seconds is: 5.7289E-02 % MHDEQ: TG1= 0.344091 ; TG2= 0.345909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.207E-06 FluxDiff MaxDT: 4.112E-03 Avg. GS error: 8.506E-03 Plasma Current: 7.984E+05, target: 7.986E+05, error: 0.023% Edge Q: 9.509, target: 9.841, error: 3.368% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7305E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5601E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.344091 TO TG2= 0.345909 @ NSTEP 77507 GFRAME TG2 MOMENTS CHECKSUM: 3.6579534886749D+03 --> plasma_hash("gframe"): TA= 3.459091E-01 NSTEP= 77598 Hash code: 25033056 ->PRGCHK: bdy curvature ratio at t= 3.4773E-01 seconds is: 5.7076E-02 % MHDEQ: TG1= 0.345909 ; TG2= 0.347727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.656E-06 FluxDiff MaxDT: 4.025E-03 Avg. GS error: 8.376E-03 Plasma Current: 8.018E+05, target: 8.020E+05, error: 0.025% Edge Q: 9.456, target: 9.781, error: 3.320% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7700E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5090E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.345909 TO TG2= 0.347727 @ NSTEP 77598 GFRAME TG2 MOMENTS CHECKSUM: 3.6614008324074D+03 --> plasma_hash("gframe"): TA= 3.477273E-01 NSTEP= 77689 Hash code: 106006684 ->PRGCHK: bdy curvature ratio at t= 3.4955E-01 seconds is: 5.7172E-02 % MHDEQ: TG1= 0.347727 ; TG2= 0.349545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.790E-06 FluxDiff MaxDT: 3.977E-03 Avg. GS error: 8.278E-03 Plasma Current: 8.052E+05, target: 8.054E+05, error: 0.027% Edge Q: 9.398, target: 9.724, error: 3.351% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8057E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4842E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.347727 TO TG2= 0.349545 @ NSTEP 77689 GFRAME TG2 MOMENTS CHECKSUM: 3.6647761571512D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77749 TA= 3.48929E-01 CPU TIME= 2.32439E-01 SECONDS. DT= 2.00246E-05 --> plasma_hash("gframe"): TA= 3.495455E-01 NSTEP= 77780 Hash code: 120968845 ->PRGCHK: bdy curvature ratio at t= 3.5136E-01 seconds is: 5.8052E-02 % MHDEQ: TG1= 0.349545 ; TG2= 0.351364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.752E-06 FluxDiff MaxDT: 4.005E-03 Avg. GS error: 8.322E-03 Plasma Current: 8.086E+05, target: 8.088E+05, error: 0.028% Edge Q: 9.330, target: 9.663, error: 3.450% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8730E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4070E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.349545 TO TG2= 0.351364 @ NSTEP 77780 GFRAME TG2 MOMENTS CHECKSUM: 3.6678089759255D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 10= 1.57485E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= 1.24473E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= -1.64733E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.513636E-01 NSTEP= 77871 Hash code: 76061010 ->PRGCHK: bdy curvature ratio at t= 3.5318E-01 seconds is: 5.9222E-02 % MHDEQ: TG1= 0.351364 ; TG2= 0.353182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.849E-06 FluxDiff MaxDT: 3.937E-03 Avg. GS error: 8.507E-03 Plasma Current: 8.120E+05, target: 8.122E+05, error: 0.027% Edge Q: 9.260, target: 9.592, error: 3.460% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8647E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3313E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.351364 TO TG2= 0.353182 @ NSTEP 77871 GFRAME TG2 MOMENTS CHECKSUM: 3.6707727731150D+03 --> plasma_hash("gframe"): TA= 3.531818E-01 NSTEP= 77962 Hash code: 63744827 ->PRGCHK: bdy curvature ratio at t= 3.5500E-01 seconds is: 6.0425E-02 % MHDEQ: TG1= 0.353182 ; TG2= 0.355000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.086E-06 FluxDiff MaxDT: 3.806E-03 Avg. GS error: 8.654E-03 Plasma Current: 8.154E+05, target: 8.156E+05, error: 0.024% Edge Q: 9.194, target: 9.518, error: 3.409% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7971E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2868E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.353182 TO TG2= 0.355000 @ NSTEP 77962 GFRAME TG2 MOMENTS CHECKSUM: 3.6738541517836D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78053 TA= 3.55000E-01 CPU TIME= 8.85000E-03 SECONDS. DT= 1.59688E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 9.78140722222224 %check_save_state: izleft hours = 70.1511111111111 --> plasma_hash("gframe"): TA= 3.550000E-01 NSTEP= 78053 Hash code: 44699891 ->PRGCHK: bdy curvature ratio at t= 3.5682E-01 seconds is: 6.1182E-02 % MHDEQ: TG1= 0.355000 ; TG2= 0.356818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.280E-06 FluxDiff MaxDT: 3.611E-03 Avg. GS error: 8.619E-03 Plasma Current: 8.189E+05, target: 8.190E+05, error: 0.021% Edge Q: 9.134, target: 9.448, error: 3.321% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7322E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2392E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.355000 TO TG2= 0.356818 @ NSTEP 78053 GFRAME TG2 MOMENTS CHECKSUM: 3.6773486611675D+03 --> plasma_hash("gframe"): TA= 3.568182E-01 NSTEP= 78167 Hash code: 108616481 ->PRGCHK: bdy curvature ratio at t= 3.5864E-01 seconds is: 6.1361E-02 % MHDEQ: TG1= 0.356818 ; TG2= 0.358636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.634E-06 FluxDiff MaxDT: 3.520E-03 Avg. GS error: 8.649E-03 Plasma Current: 8.223E+05, target: 8.224E+05, error: 0.022% Edge Q: 9.071, target: 9.381, error: 3.305% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7871E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2528E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.356818 TO TG2= 0.358636 @ NSTEP 78167 GFRAME TG2 MOMENTS CHECKSUM: 3.6810631223579D+03 --> plasma_hash("gframe"): TA= 3.586364E-01 NSTEP= 78281 Hash code: 37589828 ->PRGCHK: bdy curvature ratio at t= 3.6045E-01 seconds is: 5.9874E-02 % MHDEQ: TG1= 0.358636 ; TG2= 0.360455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.346E-06 FluxDiff MaxDT: 3.392E-03 Avg. GS error: 8.361E-03 Plasma Current: 8.257E+05, target: 8.259E+05, error: 0.023% Edge Q: 9.026, target: 9.313, error: 3.087% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9116E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2127E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.358636 TO TG2= 0.360455 @ NSTEP 78281 GFRAME TG2 MOMENTS CHECKSUM: 3.6866195034026D+03 --> plasma_hash("gframe"): TA= 3.604545E-01 NSTEP= 78395 Hash code: 6356644 ->PRGCHK: bdy curvature ratio at t= 3.6227E-01 seconds is: 5.8067E-02 % MHDEQ: TG1= 0.360455 ; TG2= 0.362273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.548E-06 FluxDiff MaxDT: 3.371E-03 Avg. GS error: 8.224E-03 Plasma Current: 8.290E+05, target: 8.293E+05, error: 0.027% Edge Q: 8.977, target: 9.263, error: 3.088% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0365E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2011E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.360455 TO TG2= 0.362273 @ NSTEP 78395 GFRAME TG2 MOMENTS CHECKSUM: 3.6921262067716D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 9.85904111111131 %check_save_state: izleft hours = 70.0733333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 3.6074198E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.220E+03 MB. !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.34038E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 4.04856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.22964E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.622727E-01 NSTEP= 78509 Hash code: 2769051 ->PRGCHK: bdy curvature ratio at t= 3.6409E-01 seconds is: 5.6359E-02 % MHDEQ: TG1= 0.362273 ; TG2= 0.364091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.729E-06 FluxDiff MaxDT: 3.333E-03 Avg. GS error: 8.389E-03 Plasma Current: 8.324E+05, target: 8.327E+05, error: 0.028% Edge Q: 8.933, target: 9.217, error: 3.091% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1070E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1683E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.362273 TO TG2= 0.364091 @ NSTEP 78509 GFRAME TG2 MOMENTS CHECKSUM: 3.6978134017522D+03 --> plasma_hash("gframe"): TA= 3.640909E-01 NSTEP= 78623 Hash code: 10556922 ->PRGCHK: bdy curvature ratio at t= 3.6591E-01 seconds is: 5.4377E-02 % MHDEQ: TG1= 0.364091 ; TG2= 0.365909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.018E-05 FluxDiff MaxDT: 3.297E-03 Avg. GS error: 8.437E-03 Plasma Current: 8.359E+05, target: 8.361E+05, error: 0.025% Edge Q: 8.881, target: 9.173, error: 3.185% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8467E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1600E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.364091 TO TG2= 0.365909 @ NSTEP 78623 GFRAME TG2 MOMENTS CHECKSUM: 3.7025302398956D+03 --> plasma_hash("gframe"): TA= 3.659091E-01 NSTEP= 78737 Hash code: 99091737 ->PRGCHK: bdy curvature ratio at t= 3.6773E-01 seconds is: 5.2732E-02 % MHDEQ: TG1= 0.365909 ; TG2= 0.367727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.068E-05 FluxDiff MaxDT: 3.253E-03 Avg. GS error: 8.197E-03 Plasma Current: 8.393E+05, target: 8.395E+05, error: 0.022% Edge Q: 8.824, target: 9.120, error: 3.238% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6998E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1797E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.365909 TO TG2= 0.367727 @ NSTEP 78737 GFRAME TG2 MOMENTS CHECKSUM: 3.7063414158998D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78843 TA= 3.67602E-01 CPU TIME= 1.38092E-01 SECONDS. DT= 1.59688E-05 --> plasma_hash("gframe"): TA= 3.677273E-01 NSTEP= 78851 Hash code: 120606678 ->PRGCHK: bdy curvature ratio at t= 3.6955E-01 seconds is: 5.2050E-02 % MHDEQ: TG1= 0.367727 ; TG2= 0.369545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.143E-05 FluxDiff MaxDT: 3.486E-03 Avg. GS error: 7.915E-03 Plasma Current: 8.427E+05, target: 8.429E+05, error: 0.020% Edge Q: 8.744, target: 9.056, error: 3.451% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7059E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2465E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.367727 TO TG2= 0.369545 @ NSTEP 78851 GFRAME TG2 MOMENTS CHECKSUM: 3.7068824204079D+03 --> plasma_hash("gframe"): TA= 3.695455E-01 NSTEP= 78965 Hash code: 29595121 ->PRGCHK: bdy curvature ratio at t= 3.7136E-01 seconds is: 5.1640E-02 % MHDEQ: TG1= 0.369545 ; TG2= 0.371364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.189E-05 FluxDiff MaxDT: 3.503E-03 Avg. GS error: 7.533E-03 Plasma Current: 8.461E+05, target: 8.463E+05, error: 0.019% Edge Q: 8.667, target: 8.972, error: 3.403% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7711E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3167E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.369545 TO TG2= 0.371364 @ NSTEP 78965 GFRAME TG2 MOMENTS CHECKSUM: 3.7070887506130D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.49826E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 9.10989E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 7.79806E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.713636E-01 NSTEP= 79079 Hash code: 79889016 ->PRGCHK: bdy curvature ratio at t= 3.7318E-01 seconds is: 5.1348E-02 % MHDEQ: TG1= 0.371364 ; TG2= 0.373182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.211E-05 FluxDiff MaxDT: 3.468E-03 Avg. GS error: 7.272E-03 Plasma Current: 8.495E+05, target: 8.497E+05, error: 0.021% Edge Q: 8.591, target: 8.890, error: 3.357% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8929E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4291E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.371364 TO TG2= 0.373182 @ NSTEP 79079 GFRAME TG2 MOMENTS CHECKSUM: 3.7072395060833D+03 --> plasma_hash("gframe"): TA= 3.731818E-01 NSTEP= 79193 Hash code: 122999906 ->PRGCHK: bdy curvature ratio at t= 3.7500E-01 seconds is: 5.1621E-02 % MHDEQ: TG1= 0.373182 ; TG2= 0.375000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.261E-05 FluxDiff MaxDT: 3.381E-03 Avg. GS error: 7.142E-03 Plasma Current: 8.529E+05, target: 8.531E+05, error: 0.023% Edge Q: 8.526, target: 8.813, error: 3.257% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8695E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5670E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.373182 TO TG2= 0.375000 @ NSTEP 79193 GFRAME TG2 MOMENTS CHECKSUM: 3.7072380945074D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79262 TA= 3.74284E-01 CPU TIME= 6.20200E-02 SECONDS. DT= 1.59688E-05 %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79307 TA= 3.75000E-01 CPU TIME= 8.87700E-03 SECONDS. DT= 1.37098E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 10.0456427777781 %check_save_state: izleft hours = 69.8866666666667 --> plasma_hash("gframe"): TA= 3.750000E-01 NSTEP= 79307 Hash code: 58680091 ->PRGCHK: bdy curvature ratio at t= 3.7682E-01 seconds is: 5.2304E-02 % MHDEQ: TG1= 0.375000 ; TG2= 0.376818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.307E-05 FluxDiff MaxDT: 3.281E-03 Avg. GS error: 7.067E-03 Plasma Current: 8.563E+05, target: 8.565E+05, error: 0.026% Edge Q: 8.468, target: 8.745, error: 3.167% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8656E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5993E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.375000 TO TG2= 0.376818 @ NSTEP 79307 GFRAME TG2 MOMENTS CHECKSUM: 3.7070616972902D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 10.0506175000000 %check_save_state: izleft hours = 69.8819444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 3.7531533E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 3.768182E-01 NSTEP= 79440 Hash code: 93515738 ->PRGCHK: bdy curvature ratio at t= 3.7864E-01 seconds is: 5.4530E-02 % MHDEQ: TG1= 0.376818 ; TG2= 0.378636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.169E-05 FluxDiff MaxDT: 2.882E-03 Avg. GS error: 6.806E-03 Plasma Current: 8.597E+05, target: 8.599E+05, error: 0.027% Edge Q: 8.432, target: 8.689, error: 2.953% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8705E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6312E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.376818 TO TG2= 0.378636 @ NSTEP 79440 GFRAME TG2 MOMENTS CHECKSUM: 3.7057397272288D+03 --> plasma_hash("gframe"): TA= 3.786364E-01 NSTEP= 79573 Hash code: 60608789 ->PRGCHK: bdy curvature ratio at t= 3.8045E-01 seconds is: 5.7099E-02 % MHDEQ: TG1= 0.378636 ; TG2= 0.380455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.306E-05 FluxDiff MaxDT: 2.831E-03 Avg. GS error: 6.632E-03 Plasma Current: 8.631E+05, target: 8.634E+05, error: 0.028% Edge Q: 8.402, target: 8.650, error: 2.867% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8890E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7217E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.378636 TO TG2= 0.380455 @ NSTEP 79573 GFRAME TG2 MOMENTS CHECKSUM: 3.7044771779789D+03 %splitn_update_check: writing update: 204112R76TR.TMP @ t= 0.380000000000000 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 1.50000000E+13 to 2.40000000E+13 namelist update changed RESIS_FACTOR from 1.40000000E+00 to 1.20000000E+00 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79702 TA= 3.80185E-01 CPU TIME= 1.28299E-01 SECONDS. DT= 6.36349E-06 --> plasma_hash("gframe"): TA= 3.804545E-01 NSTEP= 79745 Hash code: 89109718 ->PRGCHK: bdy curvature ratio at t= 3.8227E-01 seconds is: 5.9866E-02 % MHDEQ: TG1= 0.380455 ; TG2= 0.382273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.324E-05 FluxDiff MaxDT: 2.966E-03 Avg. GS error: 6.410E-03 Plasma Current: 8.665E+05, target: 8.668E+05, error: 0.029% Edge Q: 8.374, target: 8.623, error: 2.889% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8495E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8057E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.380455 TO TG2= 0.382273 @ NSTEP 79745 GFRAME TG2 MOMENTS CHECKSUM: 3.7032881360824D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= -2.11107E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79810 TA= 3.80868E-01 CPU TIME= 5.03690E-02 SECONDS. DT= 6.36349E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 79923 TA= 3.81587E-01 CPU TIME= 3.57000E-02 SECONDS. DT= 6.36349E-06 --> plasma_hash("gframe"): TA= 3.822727E-01 NSTEP= 80031 Hash code: 60347405 ->PRGCHK: bdy curvature ratio at t= 3.8409E-01 seconds is: 6.2265E-02 % MHDEQ: TG1= 0.382273 ; TG2= 0.384091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.449E-05 FluxDiff MaxDT: 3.150E-03 Avg. GS error: 6.180E-03 Plasma Current: 8.699E+05, target: 8.702E+05, error: 0.029% Edge Q: 8.352, target: 8.592, error: 2.799% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7843E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6736E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.382273 TO TG2= 0.384091 @ NSTEP 80031 GFRAME TG2 MOMENTS CHECKSUM: 3.7038162305144D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80042 TA= 3.82343E-01 CPU TIME= 9.08300E-03 SECONDS. DT= 6.36349E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80167 TA= 3.83138E-01 CPU TIME= 2.64481E-01 SECONDS. DT= 6.36349E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80298 TA= 3.83972E-01 CPU TIME= 1.55720E-02 SECONDS. DT= 6.36349E-06 --> plasma_hash("gframe"): TA= 3.840909E-01 NSTEP= 80317 Hash code: 1385883 ->PRGCHK: bdy curvature ratio at t= 3.8591E-01 seconds is: 6.4476E-02 % MHDEQ: TG1= 0.384091 ; TG2= 0.385909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.536E-05 FluxDiff MaxDT: 3.150E-03 Avg. GS error: 5.987E-03 Plasma Current: 8.733E+05, target: 8.736E+05, error: 0.027% Edge Q: 8.337, target: 8.573, error: 2.758% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7784E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6188E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.384091 TO TG2= 0.385909 @ NSTEP 80317 GFRAME TG2 MOMENTS CHECKSUM: 3.7057417401926D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80436 TA= 3.84848E-01 CPU TIME= 1.52051E-01 SECONDS. DT= 6.36349E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80580 TA= 3.85765E-01 CPU TIME= 9.13400E-03 SECONDS. DT= 6.36349E-06 --> plasma_hash("gframe"): TA= 3.859091E-01 NSTEP= 80603 Hash code: 70031680 ->PRGCHK: bdy curvature ratio at t= 3.8773E-01 seconds is: 6.5085E-02 % MHDEQ: TG1= 0.385909 ; TG2= 0.387727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.478E-05 FluxDiff MaxDT: 2.926E-03 Avg. GS error: 6.015E-03 Plasma Current: 8.768E+05, target: 8.770E+05, error: 0.027% Edge Q: 8.343, target: 8.559, error: 2.523% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9772E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6372E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.385909 TO TG2= 0.387727 @ NSTEP 80603 GFRAME TG2 MOMENTS CHECKSUM: 3.7133466694690D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80732 TA= 3.86730E-01 CPU TIME= 3.36760E-02 SECONDS. DT= 6.36349E-06 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center --> plasma_hash("gframe"): TA= 3.877273E-01 NSTEP= 80889 Hash code: 25833350 ->PRGCHK: bdy curvature ratio at t= 3.8955E-01 seconds is: 6.5881E-02 % MHDEQ: TG1= 0.387727 ; TG2= 0.389545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.502E-05 FluxDiff MaxDT: 2.985E-03 Avg. GS error: 6.049E-03 Plasma Current: 8.802E+05, target: 8.804E+05, error: 0.024% Edge Q: 8.353, target: 8.567, error: 2.504% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8910E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6356E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.387727 TO TG2= 0.389545 @ NSTEP 80889 GFRAME TG2 MOMENTS CHECKSUM: 3.7210659413759D+03 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 80891 TA= 3.87740E-01 CPU TIME= 9.20700E-03 SECONDS. DT= 6.36349E-06 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81058 TA= 3.88803E-01 CPU TIME= 1.24274E-01 SECONDS. DT= 6.36349E-06 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center --> plasma_hash("gframe"): TA= 3.895455E-01 NSTEP= 81175 Hash code: 10147777 ->PRGCHK: bdy curvature ratio at t= 3.9136E-01 seconds is: 6.6958E-02 % MHDEQ: TG1= 0.389545 ; TG2= 0.391364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.512E-05 FluxDiff MaxDT: 2.986E-03 Avg. GS error: 6.815E-03 Plasma Current: 8.838E+05, target: 8.838E+05, error: 0.004% Edge Q: 8.422, target: 8.577, error: 1.810% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8258E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7488E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.389545 TO TG2= 0.391364 @ NSTEP 81175 GFRAME TG2 MOMENTS CHECKSUM: 3.7296542596236D+03 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81234 TA= 3.89921E-01 CPU TIME= 9.10500E-03 SECONDS. DT= 6.36349E-06 ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center ?ncsmoo1 error: profile has negative value at the center !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 19= -3.15014E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.64833E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.50181E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.913636E-01 NSTEP= 81451 Hash code: 49294159 ->PRGCHK: bdy curvature ratio at t= 3.9318E-01 seconds is: 6.6961E-02 % MHDEQ: TG1= 0.391364 ; TG2= 0.393182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.570E-05 FluxDiff MaxDT: 3.153E-03 Avg. GS error: 6.615E-03 Plasma Current: 8.872E+05, target: 8.872E+05, error: 0.000% Edge Q: 8.409, target: 8.650, error: 2.785% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7936E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5623E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.391364 TO TG2= 0.393182 @ NSTEP 81451 GFRAME TG2 MOMENTS CHECKSUM: 3.7363873278221D+03 --> plasma_hash("gframe"): TA= 3.931818E-01 NSTEP= 81650 Hash code: 6318569 ->PRGCHK: bdy curvature ratio at t= 3.9500E-01 seconds is: 6.6498E-02 % MHDEQ: TG1= 0.393182 ; TG2= 0.395000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.649E-05 FluxDiff MaxDT: 3.290E-03 Avg. GS error: 6.461E-03 Plasma Current: 8.906E+05, target: 8.906E+05, error: 0.001% Edge Q: 8.397, target: 8.636, error: 2.773% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8950E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8982E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.393182 TO TG2= 0.395000 @ NSTEP 81650 GFRAME TG2 MOMENTS CHECKSUM: 3.7421388401696D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81755 TA= 3.94460E-01 CPU TIME= 9.19100E-03 SECONDS. DT= 1.36407E-05 %fi_finish: enter %fimain: eflux cpu time = 4.999979864805937E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81793 TA= 3.95000E-01 CPU TIME= 9.04500E-03 SECONDS. DT= 1.47131E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 10.4267663888888 %check_save_state: izleft hours = 69.5055555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % 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 = 4.226E+03 MB. --> plasma_hash("gframe"): TA= 3.950000E-01 NSTEP= 81793 Hash code: 43227202 ->PRGCHK: bdy curvature ratio at t= 3.9682E-01 seconds is: 6.5753E-02 % MHDEQ: TG1= 0.395000 ; TG2= 0.396818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.538E-05 FluxDiff MaxDT: 3.708E-03 Avg. GS error: 5.989E-03 Plasma Current: 8.940E+05, target: 8.940E+05, error: 0.001% Edge Q: 8.357, target: 8.625, error: 3.105% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8965E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9487E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.395000 TO TG2= 0.396818 @ NSTEP 81793 GFRAME TG2 MOMENTS CHECKSUM: 3.7445890223018D+03 --> plasma_hash("gframe"): TA= 3.968182E-01 NSTEP= 81971 Hash code: 54913248 ->PRGCHK: bdy curvature ratio at t= 3.9864E-01 seconds is: 6.4934E-02 % MHDEQ: TG1= 0.396818 ; TG2= 0.398636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.183E-05 FluxDiff MaxDT: 4.255E-03 Avg. GS error: 6.349E-03 Plasma Current: 8.971E+05, target: 8.971E+05, error: 0.002% Edge Q: 8.324, target: 8.583, error: 3.022% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8694E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1127E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.396818 TO TG2= 0.398636 @ NSTEP 81971 GFRAME TG2 MOMENTS CHECKSUM: 3.7466524913553D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82065 TA= 3.98057E-01 CPU TIME= 2.65150E-02 SECONDS. DT= 1.31745E-05 --> plasma_hash("gframe"): TA= 3.986364E-01 NSTEP= 82109 Hash code: 102864471 ->PRGCHK: bdy curvature ratio at t= 4.0045E-01 seconds is: 6.3510E-02 % MHDEQ: TG1= 0.398636 ; TG2= 0.400455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.697E-05 FluxDiff MaxDT: 4.597E-03 Avg. GS error: 6.213E-03 Plasma Current: 8.986E+05, target: 8.986E+05, error: 0.003% Edge Q: 8.309, target: 8.556, error: 2.885% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8053E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1650E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.398636 TO TG2= 0.400455 @ NSTEP 82109 GFRAME TG2 MOMENTS CHECKSUM: 3.7492679625949D+03 --> plasma_hash("gframe"): TA= 4.004545E-01 NSTEP= 82245 Hash code: 41748204 ->PRGCHK: bdy curvature ratio at t= 4.0227E-01 seconds is: 6.1848E-02 % MHDEQ: TG1= 0.400455 ; TG2= 0.402273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.585E-05 FluxDiff MaxDT: 4.796E-03 Avg. GS error: 6.269E-03 Plasma Current: 8.997E+05, target: 8.997E+05, error: 0.004% Edge Q: 8.305, target: 8.542, error: 2.768% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7256E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1404E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.400455 TO TG2= 0.402273 @ NSTEP 82245 GFRAME TG2 MOMENTS CHECKSUM: 3.7510679764182D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. --> plasma_hash("gframe"): TA= 4.022727E-01 NSTEP= 82349 Hash code: 29096266 ->PRGCHK: bdy curvature ratio at t= 4.0409E-01 seconds is: 6.0084E-02 % MHDEQ: TG1= 0.402273 ; TG2= 0.404091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.476E-05 FluxDiff MaxDT: 5.350E-03 Avg. GS error: 6.364E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.005% Edge Q: 8.316, target: 8.541, error: 2.628% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6184E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1277E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.402273 TO TG2= 0.404091 @ NSTEP 82349 GFRAME TG2 MOMENTS CHECKSUM: 3.7527968019147D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82350 TA= 4.02290E-01 CPU TIME= 9.14700E-03 SECONDS. DT= 1.76626E-05 --> plasma_hash("gframe"): TA= 4.040909E-01 NSTEP= 82452 Hash code: 7151058 ->PRGCHK: bdy curvature ratio at t= 4.0591E-01 seconds is: 5.7600E-02 % MHDEQ: TG1= 0.404091 ; TG2= 0.405909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.433E-05 FluxDiff MaxDT: 5.441E-03 Avg. GS error: 6.458E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 8.359, target: 8.555, error: 2.282% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5742E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0134E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.404091 TO TG2= 0.405909 @ NSTEP 82452 GFRAME TG2 MOMENTS CHECKSUM: 3.7535465184234D+03 --> plasma_hash("gframe"): TA= 4.059091E-01 NSTEP= 82555 Hash code: 19288839 ->PRGCHK: bdy curvature ratio at t= 4.0773E-01 seconds is: 5.5296E-02 % MHDEQ: TG1= 0.405909 ; TG2= 0.407727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.133E-05 FluxDiff MaxDT: 6.300E-03 Avg. GS error: 6.632E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 8.402, target: 8.603, error: 2.346% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5168E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9476E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.405909 TO TG2= 0.407727 @ NSTEP 82555 GFRAME TG2 MOMENTS CHECKSUM: 3.7545376755113D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82585 TA= 4.06439E-01 CPU TIME= 1.00640E-02 SECONDS. DT= 1.76626E-05 --> plasma_hash("gframe"): TA= 4.077273E-01 NSTEP= 82658 Hash code: 32355662 ->PRGCHK: bdy curvature ratio at t= 4.0955E-01 seconds is: 5.3157E-02 % MHDEQ: TG1= 0.407727 ; TG2= 0.409545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.613E-06 FluxDiff MaxDT: 6.905E-03 Avg. GS error: 6.599E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 8.442, target: 8.648, error: 2.386% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5246E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8668E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.407727 TO TG2= 0.409545 @ NSTEP 82658 GFRAME TG2 MOMENTS CHECKSUM: 3.7554312373290D+03 --> plasma_hash("gframe"): TA= 4.095455E-01 NSTEP= 82761 Hash code: 25439913 ->PRGCHK: bdy curvature ratio at t= 4.1136E-01 seconds is: 5.1924E-02 % MHDEQ: TG1= 0.409545 ; TG2= 0.411364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.097E-06 FluxDiff MaxDT: 8.379E-03 Avg. GS error: 6.617E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 8.472, target: 8.691, error: 2.519% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5320E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7944E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.409545 TO TG2= 0.411364 @ NSTEP 82761 GFRAME TG2 MOMENTS CHECKSUM: 3.7540858635678D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= -1.68768E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 2.72250E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 2.06027E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.113636E-01 NSTEP= 82864 Hash code: 4744229 ->PRGCHK: bdy curvature ratio at t= 4.1318E-01 seconds is: 5.1192E-02 % MHDEQ: TG1= 0.411364 ; TG2= 0.413182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.891E-06 FluxDiff MaxDT: 9.709E-03 Avg. GS error: 6.671E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 8.497, target: 8.724, error: 2.594% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5140E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7317E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.411364 TO TG2= 0.413182 @ NSTEP 82864 GFRAME TG2 MOMENTS CHECKSUM: 3.7515080000291D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82918 TA= 4.12317E-01 CPU TIME= 9.12700E-03 SECONDS. DT= 1.76626E-05 --> plasma_hash("gframe"): TA= 4.131818E-01 NSTEP= 82967 Hash code: 85337889 ->PRGCHK: bdy curvature ratio at t= 4.1500E-01 seconds is: 5.2270E-02 % MHDEQ: TG1= 0.413182 ; TG2= 0.415000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.097E-06 FluxDiff MaxDT: 1.619E-02 Avg. GS error: 6.618E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 8.499, target: 8.751, error: 2.874% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4921E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6414E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.413182 TO TG2= 0.415000 @ NSTEP 82967 GFRAME TG2 MOMENTS CHECKSUM: 3.7435833121352D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999979864805937E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83070 TA= 4.15000E-01 CPU TIME= 9.00800E-03 SECONDS. DT= 1.65968E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 10.6409830555558 %check_save_state: izleft hours = 69.2913888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % 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 = 4.229E+03 MB. --> plasma_hash("gframe"): TA= 4.150000E-01 NSTEP= 83070 Hash code: 70168411 ->PRGCHK: bdy curvature ratio at t= 4.1682E-01 seconds is: 5.3381E-02 % MHDEQ: TG1= 0.415000 ; TG2= 0.416818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.905E-06 FluxDiff MaxDT: 1.654E-02 Avg. GS error: 6.463E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 8.504, target: 8.753, error: 2.844% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5003E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5049E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.415000 TO TG2= 0.416818 @ NSTEP 83070 GFRAME TG2 MOMENTS CHECKSUM: 3.7360506778509D+03 --> plasma_hash("gframe"): TA= 4.168182E-01 NSTEP= 83180 Hash code: 40977046 ->PRGCHK: bdy curvature ratio at t= 4.1864E-01 seconds is: 5.4526E-02 % MHDEQ: TG1= 0.416818 ; TG2= 0.418636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.629E-06 FluxDiff MaxDT: 1.289E-02 Avg. GS error: 6.529E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 8.509, target: 8.753, error: 2.790% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4913E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6179E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.416818 TO TG2= 0.418636 @ NSTEP 83180 GFRAME TG2 MOMENTS CHECKSUM: 3.7287040478657D+03 --> plasma_hash("gframe"): TA= 4.186364E-01 NSTEP= 83290 Hash code: 17630302 ->PRGCHK: bdy curvature ratio at t= 4.2045E-01 seconds is: 5.5163E-02 % MHDEQ: TG1= 0.418636 ; TG2= 0.420455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.200E-06 FluxDiff MaxDT: 1.144E-02 Avg. GS error: 6.425E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.013% Edge Q: 8.527, target: 8.756, error: 2.613% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4879E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5553E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.418636 TO TG2= 0.420455 @ NSTEP 83290 GFRAME TG2 MOMENTS CHECKSUM: 3.7230940534773D+03 --> plasma_hash("gframe"): TA= 4.204545E-01 NSTEP= 83400 Hash code: 103739925 ->PRGCHK: bdy curvature ratio at t= 4.2227E-01 seconds is: 5.5468E-02 % MHDEQ: TG1= 0.420455 ; TG2= 0.422273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.884E-06 FluxDiff MaxDT: 1.100E-02 Avg. GS error: 6.383E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 8.554, target: 8.775, error: 2.521% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5156E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5336E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.420455 TO TG2= 0.422273 @ NSTEP 83400 GFRAME TG2 MOMENTS CHECKSUM: 3.7190401057594D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= -2.66495E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= -1.33248E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= -1.33248E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83484 TA= 4.21849E-01 CPU TIME= 9.15300E-03 SECONDS. DT= 1.65968E-05 --> plasma_hash("gframe"): TA= 4.222727E-01 NSTEP= 83510 Hash code: 43349902 ->PRGCHK: bdy curvature ratio at t= 4.2409E-01 seconds is: 5.4628E-02 % MHDEQ: TG1= 0.422273 ; TG2= 0.424091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.932E-06 FluxDiff MaxDT: 8.198E-03 Avg. GS error: 6.483E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 8.610, target: 8.803, error: 2.194% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5313E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5212E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.422273 TO TG2= 0.424091 @ NSTEP 83510 GFRAME TG2 MOMENTS CHECKSUM: 3.7195828138141D+03 --> plasma_hash("gframe"): TA= 4.240909E-01 NSTEP= 83620 Hash code: 90483579 ->PRGCHK: bdy curvature ratio at t= 4.2591E-01 seconds is: 5.3563E-02 % MHDEQ: TG1= 0.424091 ; TG2= 0.425909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.549E-06 FluxDiff MaxDT: 8.553E-03 Avg. GS error: 6.625E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 8.666, target: 8.861, error: 2.203% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5054E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4799E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.424091 TO TG2= 0.425909 @ NSTEP 83620 GFRAME TG2 MOMENTS CHECKSUM: 3.7199518453282D+03 --> plasma_hash("gframe"): TA= 4.259091E-01 NSTEP= 83730 Hash code: 39630317 ->PRGCHK: bdy curvature ratio at t= 4.2773E-01 seconds is: 5.2464E-02 % MHDEQ: TG1= 0.425909 ; TG2= 0.427727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.532E-06 FluxDiff MaxDT: 8.945E-03 Avg. GS error: 6.781E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 8.722, target: 8.919, error: 2.202% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4728E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4380E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.425909 TO TG2= 0.427727 @ NSTEP 83730 GFRAME TG2 MOMENTS CHECKSUM: 3.7204184147199D+03 --> plasma_hash("gframe"): TA= 4.277273E-01 NSTEP= 83840 Hash code: 76350502 ->PRGCHK: bdy curvature ratio at t= 4.2955E-01 seconds is: 5.1725E-02 % MHDEQ: TG1= 0.427727 ; TG2= 0.429545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.409E-06 FluxDiff MaxDT: 9.843E-03 Avg. GS error: 6.799E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 8.770, target: 8.976, error: 2.291% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4940E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3919E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.427727 TO TG2= 0.429545 @ NSTEP 83840 GFRAME TG2 MOMENTS CHECKSUM: 3.7203373716542D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 83937 TA= 4.29337E-01 CPU TIME= 9.12400E-03 SECONDS. DT= 1.65968E-05 --> plasma_hash("gframe"): TA= 4.295455E-01 NSTEP= 83950 Hash code: 24276974 ->PRGCHK: bdy curvature ratio at t= 4.3136E-01 seconds is: 5.1210E-02 % MHDEQ: TG1= 0.429545 ; TG2= 0.431364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.369E-06 FluxDiff MaxDT: 1.042E-02 Avg. GS error: 6.650E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 8.814, target: 9.023, error: 2.324% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0209E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3447E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.429545 TO TG2= 0.431364 @ NSTEP 83950 GFRAME TG2 MOMENTS CHECKSUM: 3.7199760515432D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= -1.43217E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= -1.57956E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= -1.50609E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.313636E-01 NSTEP= 84060 Hash code: 78740156 ->PRGCHK: bdy curvature ratio at t= 4.3318E-01 seconds is: 5.1330E-02 % MHDEQ: TG1= 0.431364 ; TG2= 0.433182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.270E-06 FluxDiff MaxDT: 1.267E-02 Avg. GS error: 6.563E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 8.840, target: 9.065, error: 2.483% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4518E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2956E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.431364 TO TG2= 0.433182 @ NSTEP 84060 GFRAME TG2 MOMENTS CHECKSUM: 3.7186258289542D+03 --> plasma_hash("gframe"): TA= 4.331818E-01 NSTEP= 84170 Hash code: 7544890 ->PRGCHK: bdy curvature ratio at t= 4.3500E-01 seconds is: 5.1472E-02 % MHDEQ: TG1= 0.433182 ; TG2= 0.435000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.135E-06 FluxDiff MaxDT: 1.286E-02 Avg. GS error: 6.521E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 8.866, target: 9.088, error: 2.453% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4286E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2586E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.433182 TO TG2= 0.435000 @ NSTEP 84170 GFRAME TG2 MOMENTS CHECKSUM: 3.7172962602278D+03 %fi_finish: enter %fimain: eflux cpu time = 3.999972250312567E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84280 TA= 4.35000E-01 CPU TIME= 8.99000E-03 SECONDS. DT= 9.13313E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 10.8178458333336 %check_save_state: izleft hours = 69.1147222222222 --> plasma_hash("gframe"): TA= 4.350000E-01 NSTEP= 84280 Hash code: 40842932 ->PRGCHK: bdy curvature ratio at t= 4.3682E-01 seconds is: 5.1558E-02 % MHDEQ: TG1= 0.435000 ; TG2= 0.436818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.979E-06 FluxDiff MaxDT: 1.328E-02 Avg. GS error: 6.568E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 8.892, target: 9.113, error: 2.435% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4281E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2325E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.435000 TO TG2= 0.436818 @ NSTEP 84280 GFRAME TG2 MOMENTS CHECKSUM: 3.7160074479381D+03 --> plasma_hash("gframe"): TA= 4.368182E-01 NSTEP= 84480 Hash code: 90307821 ->PRGCHK: bdy curvature ratio at t= 4.3864E-01 seconds is: 5.1782E-02 % MHDEQ: TG1= 0.436818 ; TG2= 0.438636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.593E-06 FluxDiff MaxDT: 2.168E-02 Avg. GS error: 6.651E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 8.933, target: 9.139, error: 2.253% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4279E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3259E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.436818 TO TG2= 0.438636 @ NSTEP 84480 GFRAME TG2 MOMENTS CHECKSUM: 3.7161535828617D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 10.8618613888889 %check_save_state: izleft hours = 69.0705555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.3814249E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.386364E-01 NSTEP= 84680 Hash code: 110363680 ->PRGCHK: bdy curvature ratio at t= 4.4045E-01 seconds is: 5.2132E-02 % MHDEQ: TG1= 0.438636 ; TG2= 0.440455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.726E-06 FluxDiff MaxDT: 2.322E-02 Avg. GS error: 7.033E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 8.977, target: 9.193, error: 2.346% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4345E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3625E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.438636 TO TG2= 0.440455 @ NSTEP 84680 GFRAME TG2 MOMENTS CHECKSUM: 3.7161282985395D+03 --> plasma_hash("gframe"): TA= 4.404545E-01 NSTEP= 84880 Hash code: 45609008 ->PRGCHK: bdy curvature ratio at t= 4.4227E-01 seconds is: 5.2517E-02 % MHDEQ: TG1= 0.440455 ; TG2= 0.442273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.730E-06 FluxDiff MaxDT: 2.216E-02 Avg. GS error: 7.288E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.037, target: 9.234, error: 2.129% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4663E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4365E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.440455 TO TG2= 0.442273 @ NSTEP 84880 GFRAME TG2 MOMENTS CHECKSUM: 3.7165209107024D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 15= 2.17162E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.84400E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.84400E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 85079 TA= 4.42272E-01 CPU TIME= 2.41354E-01 SECONDS. DT= 6.89466E-07 --> plasma_hash("gframe"): TA= 4.422727E-01 NSTEP= 85080 Hash code: 38926382 ->PRGCHK: bdy curvature ratio at t= 4.4409E-01 seconds is: 5.2960E-02 % MHDEQ: TG1= 0.442273 ; TG2= 0.444091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.524E-06 FluxDiff MaxDT: 2.700E-02 Avg. GS error: 7.638E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.098, target: 9.306, error: 2.236% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4597E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4856E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.442273 TO TG2= 0.444091 @ NSTEP 85080 GFRAME TG2 MOMENTS CHECKSUM: 3.7169077566333D+03 --> plasma_hash("gframe"): TA= 4.440909E-01 NSTEP= 85280 Hash code: 21247412 ->PRGCHK: bdy curvature ratio at t= 4.4591E-01 seconds is: 5.3461E-02 % MHDEQ: TG1= 0.444091 ; TG2= 0.445909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.356E-06 FluxDiff MaxDT: 2.956E-02 Avg. GS error: 7.892E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.158, target: 9.367, error: 2.230% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5490E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5288E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.444091 TO TG2= 0.445909 @ NSTEP 85280 GFRAME TG2 MOMENTS CHECKSUM: 3.7172212245935D+03 --> plasma_hash("gframe"): TA= 4.459091E-01 NSTEP= 85480 Hash code: 101308018 ->PRGCHK: bdy curvature ratio at t= 4.4773E-01 seconds is: 5.3553E-02 % MHDEQ: TG1= 0.445909 ; TG2= 0.447727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.083E-06 FluxDiff MaxDT: 3.356E-02 Avg. GS error: 8.064E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.207, target: 9.434, error: 2.409% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4332E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5639E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.445909 TO TG2= 0.447727 @ NSTEP 85480 GFRAME TG2 MOMENTS CHECKSUM: 3.7178652824979D+03 --> plasma_hash("gframe"): TA= 4.477273E-01 NSTEP= 85680 Hash code: 11072264 ->PRGCHK: bdy curvature ratio at t= 4.4955E-01 seconds is: 5.3343E-02 % MHDEQ: TG1= 0.447727 ; TG2= 0.449545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.772E-06 FluxDiff MaxDT: 4.198E-02 Avg. GS error: 8.213E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.247, target: 9.481, error: 2.464% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4403E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5884E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.447727 TO TG2= 0.449545 @ NSTEP 85680 GFRAME TG2 MOMENTS CHECKSUM: 3.7186108948796D+03 --> plasma_hash("gframe"): TA= 4.495455E-01 NSTEP= 85880 Hash code: 122836175 ->PRGCHK: bdy curvature ratio at t= 4.5136E-01 seconds is: 5.2467E-02 % MHDEQ: TG1= 0.449545 ; TG2= 0.451364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.483E-06 FluxDiff MaxDT: 4.571E-02 Avg. GS error: 8.399E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.005% Edge Q: 9.270, target: 9.523, error: 2.659% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3087E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6147E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.449545 TO TG2= 0.451364 @ NSTEP 85880 GFRAME TG2 MOMENTS CHECKSUM: 3.7197936133473D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= -1.28645E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 3.06222E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 2.91464E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.513636E-01 NSTEP= 86080 Hash code: 115033563 ->PRGCHK: bdy curvature ratio at t= 4.5318E-01 seconds is: 5.1616E-02 % MHDEQ: TG1= 0.451364 ; TG2= 0.453182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.274E-06 FluxDiff MaxDT: 4.815E-02 Avg. GS error: 8.515E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.291, target: 9.542, error: 2.628% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2904E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5162E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.451364 TO TG2= 0.453182 @ NSTEP 86080 GFRAME TG2 MOMENTS CHECKSUM: 3.7206210909783D+03 --> plasma_hash("gframe"): TA= 4.531818E-01 NSTEP= 86280 Hash code: 117632504 ->PRGCHK: bdy curvature ratio at t= 4.5500E-01 seconds is: 5.0790E-02 % MHDEQ: TG1= 0.453182 ; TG2= 0.455000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.229E-06 FluxDiff MaxDT: 5.015E-02 Avg. GS error: 8.633E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.311, target: 9.563, error: 2.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2876E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5319E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.453182 TO TG2= 0.455000 @ NSTEP 86280 GFRAME TG2 MOMENTS CHECKSUM: 3.7216537054275D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 86305 TA= 4.53410E-01 CPU TIME= 1.64384E-01 SECONDS. DT= 9.13313E-06 %fi_finish: enter %fimain: eflux cpu time = 3.999972250312567E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 86480 TA= 4.55000E-01 CPU TIME= 8.99900E-03 SECONDS. DT= 6.89466E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.1489333333338 %check_save_state: izleft hours = 68.7836111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.5500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.226E+03 MB. --> plasma_hash("gframe"): TA= 4.550000E-01 NSTEP= 86480 Hash code: 8725713 ->PRGCHK: bdy curvature ratio at t= 4.5682E-01 seconds is: 5.0348E-02 % MHDEQ: TG1= 0.455000 ; TG2= 0.456818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.200E-06 FluxDiff MaxDT: 4.958E-02 Avg. GS error: 8.763E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 9.339, target: 9.582, error: 2.537% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3103E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5455E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.455000 TO TG2= 0.456818 @ NSTEP 86480 GFRAME TG2 MOMENTS CHECKSUM: 3.7235582937420D+03 --> plasma_hash("gframe"): TA= 4.568182E-01 NSTEP= 88021 Hash code: 26337973 ->PRGCHK: bdy curvature ratio at t= 4.5864E-01 seconds is: 5.0177E-02 % MHDEQ: TG1= 0.456818 ; TG2= 0.458636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.714E-06 FluxDiff MaxDT: 3.791E-02 Avg. GS error: 8.638E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.364, target: 9.612, error: 2.581% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4732E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3151E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.456818 TO TG2= 0.458636 @ NSTEP 88021 GFRAME TG2 MOMENTS CHECKSUM: 3.7239302552280D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.3783986111114 %check_save_state: izleft hours = 68.5541666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.5735024E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.586364E-01 NSTEP= 89252 Hash code: 116274378 ->PRGCHK: bdy curvature ratio at t= 4.6045E-01 seconds is: 5.0571E-02 % MHDEQ: TG1= 0.458636 ; TG2= 0.460455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.647E-06 FluxDiff MaxDT: 2.693E-02 Avg. GS error: 8.737E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 9.402, target: 9.633, error: 2.405% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3472E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2559E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.458636 TO TG2= 0.460455 @ NSTEP 89252 GFRAME TG2 MOMENTS CHECKSUM: 3.7263960477319D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.5983194444450 %check_save_state: izleft hours = 68.3341666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.6015568E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.604545E-01 NSTEP= 90483 Hash code: 69993916 ->PRGCHK: bdy curvature ratio at t= 4.6227E-01 seconds is: 5.1070E-02 % MHDEQ: TG1= 0.460455 ; TG2= 0.462273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.548E-06 FluxDiff MaxDT: 2.696E-02 Avg. GS error: 8.846E-03 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.438, target: 9.678, error: 2.478% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3446E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1872E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.460455 TO TG2= 0.462273 @ NSTEP 90483 GFRAME TG2 MOMENTS CHECKSUM: 3.7284426949718D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= -1.42516E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= 1.27984E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 14= 1.24328E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.622727E-01 NSTEP= 91714 Hash code: 29746261 ->PRGCHK: bdy curvature ratio at t= 4.6409E-01 seconds is: 5.1654E-02 % MHDEQ: TG1= 0.462273 ; TG2= 0.464091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.490E-06 FluxDiff MaxDT: 2.914E-02 Avg. GS error: 8.899E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.474, target: 9.715, error: 2.483% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3639E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1549E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.462273 TO TG2= 0.464091 @ NSTEP 91714 GFRAME TG2 MOMENTS CHECKSUM: 3.7305755559838D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 11.8255005555561 %check_save_state: izleft hours = 68.1069444444445 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.6296588E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.640909E-01 NSTEP= 92945 Hash code: 121793129 ->PRGCHK: bdy curvature ratio at t= 4.6591E-01 seconds is: 5.1820E-02 % MHDEQ: TG1= 0.464091 ; TG2= 0.465909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.413E-06 FluxDiff MaxDT: 3.715E-02 Avg. GS error: 8.890E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.487, target: 9.755, error: 2.740% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4468E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1432E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.464091 TO TG2= 0.465909 @ NSTEP 92945 GFRAME TG2 MOMENTS CHECKSUM: 3.7303533605808D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 12.0575669444449 %check_save_state: izleft hours = 67.8750000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.6577427E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.659091E-01 NSTEP= 94176 Hash code: 77361990 ->PRGCHK: bdy curvature ratio at t= 4.6773E-01 seconds is: 5.1589E-02 % MHDEQ: TG1= 0.465909 ; TG2= 0.467727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.416E-06 FluxDiff MaxDT: 3.830E-02 Avg. GS error: 8.870E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.482, target: 9.767, error: 2.916% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3137E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1571E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.465909 TO TG2= 0.467727 @ NSTEP 94176 GFRAME TG2 MOMENTS CHECKSUM: 3.7283467538559D+03 --> plasma_hash("gframe"): TA= 4.677273E-01 NSTEP= 95407 Hash code: 24697030 ->PRGCHK: bdy curvature ratio at t= 4.6955E-01 seconds is: 5.0926E-02 % MHDEQ: TG1= 0.467727 ; TG2= 0.469545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.249E-06 FluxDiff MaxDT: 4.435E-02 Avg. GS error: 9.977E-03 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.015% Edge Q: 9.450, target: 9.764, error: 3.212% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3764E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2776E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.467727 TO TG2= 0.469545 @ NSTEP 95407 GFRAME TG2 MOMENTS CHECKSUM: 3.7221235100650D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 12.2814888888890 %check_save_state: izleft hours = 67.6508333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.6858152E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.695455E-01 NSTEP= 96638 Hash code: 69889698 ->PRGCHK: bdy curvature ratio at t= 4.7136E-01 seconds is: 5.0498E-02 % MHDEQ: TG1= 0.469545 ; TG2= 0.471364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.423E-06 FluxDiff MaxDT: 3.548E-02 Avg. GS error: 1.033E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.013% Edge Q: 9.418, target: 9.724, error: 3.144% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3944E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3523E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.469545 TO TG2= 0.471364 @ NSTEP 96638 GFRAME TG2 MOMENTS CHECKSUM: 3.7173607126949D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97278 TA= 4.70491E-01 CPU TIME= 2.24470E-02 SECONDS. DT= 1.47793E-06 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= -1.85532E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 13= 1.35933E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -3.89419E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.713636E-01 NSTEP= 97869 Hash code: 82701543 ->PRGCHK: bdy curvature ratio at t= 4.7318E-01 seconds is: 5.0306E-02 % MHDEQ: TG1= 0.471364 ; TG2= 0.473182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.434E-06 FluxDiff MaxDT: 3.504E-02 Avg. GS error: 1.003E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 9.388, target: 9.692, error: 3.135% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3953E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3883E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.471364 TO TG2= 0.473182 @ NSTEP 97869 GFRAME TG2 MOMENTS CHECKSUM: 3.7130852396470D+03 --> plasma_hash("gframe"): TA= 4.731818E-01 NSTEP= 99100 Hash code: 5612486 ->PRGCHK: bdy curvature ratio at t= 4.7500E-01 seconds is: 5.0266E-02 % MHDEQ: TG1= 0.473182 ; TG2= 0.475000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.197E-06 FluxDiff MaxDT: 4.833E-02 Avg. GS error: 1.011E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.382, target: 9.658, error: 2.859% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4415E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5636E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.473182 TO TG2= 0.475000 @ NSTEP 99100 GFRAME TG2 MOMENTS CHECKSUM: 3.7116843285423D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 100331 TA= 4.75000E-01 CPU TIME= 9.01100E-03 SECONDS. DT= 3.25143E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 12.8064222222229 %check_save_state: izleft hours = 67.1261111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.7500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.226E+03 MB. --> plasma_hash("gframe"): TA= 4.750000E-01 NSTEP=100331 Hash code: 28669692 ->PRGCHK: bdy curvature ratio at t= 4.7682E-01 seconds is: 5.0228E-02 % MHDEQ: TG1= 0.475000 ; TG2= 0.476818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.290E-07 FluxDiff MaxDT: 5.473E-02 Avg. GS error: 1.021E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.398, target: 9.648, error: 2.588% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4668E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5695E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.475000 TO TG2= 0.476818 @ NSTEP 100331 GFRAME TG2 MOMENTS CHECKSUM: 3.7137660584848D+03 --> plasma_hash("gframe"): TA= 4.768182E-01 NSTEP=101961 Hash code: 77257502 ->PRGCHK: bdy curvature ratio at t= 4.7864E-01 seconds is: 5.0261E-02 % MHDEQ: TG1= 0.476818 ; TG2= 0.478636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.314E-06 FluxDiff MaxDT: 2.233E-02 Avg. GS error: 1.041E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.013% Edge Q: 9.455, target: 9.660, error: 2.122% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6155E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4546E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.476818 TO TG2= 0.478636 @ NSTEP 101961 GFRAME TG2 MOMENTS CHECKSUM: 3.7222758827051D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.0399711111115 %check_save_state: izleft hours = 66.8925000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.7713891E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.786364E-01 NSTEP=103396 Hash code: 105469362 ->PRGCHK: bdy curvature ratio at t= 4.8045E-01 seconds is: 5.0442E-02 % MHDEQ: TG1= 0.478636 ; TG2= 0.480455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.067E-06 FluxDiff MaxDT: 2.239E-02 Avg. GS error: 1.051E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.507, target: 9.725, error: 2.239% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6298E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4671E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.478636 TO TG2= 0.480455 @ NSTEP 103396 GFRAME TG2 MOMENTS CHECKSUM: 3.7288497045129D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.2650216666671 %check_save_state: izleft hours = 66.6675000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.7955291E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. %splitn_update_check: writing update: 204112R76TR.TMP @ t= 0.480000000000000 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 2.40000000E+13 to 2.90000000E+13 namelist update changed APROF_EDGE_VALUE_NER from 8.00000000E+12 to 1.25000000E+13 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 4.804545E-01 NSTEP=104863 Hash code: 64492345 ->PRGCHK: bdy curvature ratio at t= 4.8227E-01 seconds is: 5.0791E-02 % MHDEQ: TG1= 0.480455 ; TG2= 0.482273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.094E-06 FluxDiff MaxDT: 2.714E-02 Avg. GS error: 1.086E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 9.556, target: 9.772, error: 2.211% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5466E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3529E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.480455 TO TG2= 0.482273 @ NSTEP 104863 GFRAME TG2 MOMENTS CHECKSUM: 3.7361686640278D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.46051E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= -1.38833E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 14= -1.64408E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 105519 TA= 4.81278E-01 CPU TIME= 7.64240E-02 SECONDS. DT= 1.37328E-06 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.4859263888889 %check_save_state: izleft hours = 66.4463888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.8189150E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.822727E-01 NSTEP=106244 Hash code: 72167298 ->PRGCHK: bdy curvature ratio at t= 4.8409E-01 seconds is: 5.1331E-02 % MHDEQ: TG1= 0.482273 ; TG2= 0.484091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.061E-06 FluxDiff MaxDT: 7.047E-02 Avg. GS error: 1.133E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.570, target: 9.830, error: 2.647% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3408E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3778E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.482273 TO TG2= 0.484091 @ NSTEP 106244 GFRAME TG2 MOMENTS CHECKSUM: 3.7400734329696D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 106477 TA= 4.82620E-01 CPU TIME= 1.80077E-01 SECONDS. DT= 1.51061E-06 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 107336 TA= 4.84028E-01 CPU TIME= 7.52780E-02 SECONDS. DT= 2.01062E-06 --> plasma_hash("gframe"): TA= 4.840909E-01 NSTEP=107368 Hash code: 31820997 ->PRGCHK: bdy curvature ratio at t= 4.8591E-01 seconds is: 5.2001E-02 % MHDEQ: TG1= 0.484091 ; TG2= 0.485909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.167E-06 FluxDiff MaxDT: 5.871E-02 Avg. GS error: 1.190E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.000% Edge Q: 9.555, target: 9.836, error: 2.858% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7515E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3395E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.484091 TO TG2= 0.485909 @ NSTEP 107368 GFRAME TG2 MOMENTS CHECKSUM: 3.7419307812057D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 13.7137961111112 %check_save_state: izleft hours = 66.2186111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.8496754E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 108072 TA= 4.85506E-01 CPU TIME= 9.20900E-03 SECONDS. DT= 2.01062E-06 --> plasma_hash("gframe"): TA= 4.859091E-01 NSTEP=108273 Hash code: 71304678 ->PRGCHK: bdy curvature ratio at t= 4.8773E-01 seconds is: 5.2897E-02 % MHDEQ: TG1= 0.485909 ; TG2= 0.487727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.262E-06 FluxDiff MaxDT: 2.951E-02 Avg. GS error: 1.238E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.509, target: 9.827, error: 3.233% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8464E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3532E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.485909 TO TG2= 0.487727 @ NSTEP 108273 GFRAME TG2 MOMENTS CHECKSUM: 3.7407699011746D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 108845 TA= 4.87059E-01 CPU TIME= 9.34200E-03 SECONDS. DT= 2.01062E-06 --> plasma_hash("gframe"): TA= 4.877273E-01 NSTEP=109178 Hash code: 32895711 ->PRGCHK: bdy curvature ratio at t= 4.8955E-01 seconds is: 5.3946E-02 % MHDEQ: TG1= 0.487727 ; TG2= 0.489545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.385E-06 FluxDiff MaxDT: 2.679E-02 Avg. GS error: 1.310E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.005% Edge Q: 9.466, target: 9.776, error: 3.176% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8958E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2969E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.487727 TO TG2= 0.489545 @ NSTEP 109178 GFRAME TG2 MOMENTS CHECKSUM: 3.7401960137716D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 109632 TA= 4.88691E-01 CPU TIME= 9.11400E-03 SECONDS. DT= 2.21168E-06 --> plasma_hash("gframe"): TA= 4.895455E-01 NSTEP=110019 Hash code: 49662773 ->PRGCHK: bdy curvature ratio at t= 4.9136E-01 seconds is: 5.5041E-02 % MHDEQ: TG1= 0.489545 ; TG2= 0.491364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.237E-06 FluxDiff MaxDT: 2.736E-02 Avg. GS error: 1.359E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.422, target: 9.736, error: 3.228% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9374E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3537E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.489545 TO TG2= 0.491364 @ NSTEP 110019 GFRAME TG2 MOMENTS CHECKSUM: 3.7391027746824D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.94748E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 1.65299E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 1.94686E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.913636E-01 NSTEP=110842 Hash code: 122977111 ->PRGCHK: bdy curvature ratio at t= 4.9318E-01 seconds is: 5.5707E-02 % MHDEQ: TG1= 0.491364 ; TG2= 0.493182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.324E-06 FluxDiff MaxDT: 3.743E-02 Avg. GS error: 1.424E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.397, target: 9.686, error: 2.988% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7746E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3128E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.491364 TO TG2= 0.493182 @ NSTEP 110842 GFRAME TG2 MOMENTS CHECKSUM: 3.7397102246562D+03 --> plasma_hash("gframe"): TA= 4.931818E-01 NSTEP=111665 Hash code: 82640324 ->PRGCHK: bdy curvature ratio at t= 4.9500E-01 seconds is: 5.5618E-02 % MHDEQ: TG1= 0.493182 ; TG2= 0.495000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.151E-06 FluxDiff MaxDT: 7.988E-02 Avg. GS error: 1.416E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 9.393, target: 9.674, error: 2.909% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3858E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3456E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.493182 TO TG2= 0.495000 @ NSTEP 111665 GFRAME TG2 MOMENTS CHECKSUM: 3.7410360407731D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000022843480110E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 112488 TA= 4.95000E-01 CPU TIME= 8.97700E-03 SECONDS. DT= 1.98076E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.2893286111112 %check_save_state: izleft hours = 65.6430555555555 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.9500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.226E+03 MB. --> plasma_hash("gframe"): TA= 4.950000E-01 NSTEP=112488 Hash code: 28843922 ->PRGCHK: bdy curvature ratio at t= 4.9682E-01 seconds is: 5.5514E-02 % MHDEQ: TG1= 0.495000 ; TG2= 0.496818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.114E-06 FluxDiff MaxDT: 1.144E-01 Avg. GS error: 1.396E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.403, target: 9.668, error: 2.743% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3875E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2655E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.495000 TO TG2= 0.496818 @ NSTEP 112488 GFRAME TG2 MOMENTS CHECKSUM: 3.7440744420647D+03 --> plasma_hash("gframe"): TA= 4.968182E-01 NSTEP=113629 Hash code: 111316021 ->PRGCHK: bdy curvature ratio at t= 4.9864E-01 seconds is: 5.5117E-02 % MHDEQ: TG1= 0.496818 ; TG2= 0.498636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.352E-07 FluxDiff MaxDT: 1.016E-01 Avg. GS error: 1.412E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.409, target: 9.685, error: 2.848% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3997E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3052E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.496818 TO TG2= 0.498636 @ NSTEP 113629 GFRAME TG2 MOMENTS CHECKSUM: 3.7450886562745D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.5154930555559 %check_save_state: izleft hours = 65.4169444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 4.9805811E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 4.986364E-01 NSTEP=114757 Hash code: 74336950 ->PRGCHK: bdy curvature ratio at t= 5.0045E-01 seconds is: 5.4769E-02 % MHDEQ: TG1= 0.498636 ; TG2= 0.500455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.579E-07 FluxDiff MaxDT: 1.022E-01 Avg. GS error: 1.435E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.003% Edge Q: 9.416, target: 9.680, error: 2.724% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3855E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2769E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.498636 TO TG2= 0.500455 @ NSTEP 114757 GFRAME TG2 MOMENTS CHECKSUM: 3.7473967910889D+03 --> plasma_hash("gframe"): TA= 5.004545E-01 NSTEP=115885 Hash code: 95310903 ->PRGCHK: bdy curvature ratio at t= 5.0227E-01 seconds is: 5.4551E-02 % MHDEQ: TG1= 0.500455 ; TG2= 0.502273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.742E-07 FluxDiff MaxDT: 7.397E-02 Avg. GS error: 1.390E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.418, target: 9.697, error: 2.881% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3927E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2859E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.500455 TO TG2= 0.502273 @ NSTEP 115885 GFRAME TG2 MOMENTS CHECKSUM: 3.7483072167875D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= 1.21042E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= -2.05747E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= -2.05747E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.7484552777778 %check_save_state: izleft hours = 65.1838888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.0111563E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.022727E-01 NSTEP=117013 Hash code: 105907049 ->PRGCHK: bdy curvature ratio at t= 5.0409E-01 seconds is: 5.4566E-02 % MHDEQ: TG1= 0.502273 ; TG2= 0.504091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.107E-07 FluxDiff MaxDT: 6.378E-02 Avg. GS error: 1.390E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 9.410, target: 9.690, error: 2.884% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4819E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2912E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.502273 TO TG2= 0.504091 @ NSTEP 117013 GFRAME TG2 MOMENTS CHECKSUM: 3.7488390760487D+03 --> plasma_hash("gframe"): TA= 5.040909E-01 NSTEP=118141 Hash code: 110966270 ->PRGCHK: bdy curvature ratio at t= 5.0591E-01 seconds is: 5.4461E-02 % MHDEQ: TG1= 0.504091 ; TG2= 0.505909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.615E-07 FluxDiff MaxDT: 5.884E-02 Avg. GS error: 1.362E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 9.394, target: 9.688, error: 3.030% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2215E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3076E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.504091 TO TG2= 0.505909 @ NSTEP 118141 GFRAME TG2 MOMENTS CHECKSUM: 3.7483147573219D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 14.9877475000001 %check_save_state: izleft hours = 64.9447222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.0420539E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.059091E-01 NSTEP=119269 Hash code: 110939052 ->PRGCHK: bdy curvature ratio at t= 5.0773E-01 seconds is: 5.4024E-02 % MHDEQ: TG1= 0.505909 ; TG2= 0.507727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.653E-07 FluxDiff MaxDT: 5.481E-02 Avg. GS error: 1.368E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.014% Edge Q: 9.377, target: 9.665, error: 2.979% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6405E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3559E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.505909 TO TG2= 0.507727 @ NSTEP 119269 GFRAME TG2 MOMENTS CHECKSUM: 3.7479647420964D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 15.2056700000005 %check_save_state: izleft hours = 64.7266666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.0726027E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.077273E-01 NSTEP=120397 Hash code: 89134798 ->PRGCHK: bdy curvature ratio at t= 5.0955E-01 seconds is: 5.3553E-02 % MHDEQ: TG1= 0.507727 ; TG2= 0.509545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.892E-07 FluxDiff MaxDT: 5.246E-02 Avg. GS error: 1.358E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.014% Edge Q: 9.361, target: 9.652, error: 3.015% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5592E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4011E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.507727 TO TG2= 0.509545 @ NSTEP 120397 GFRAME TG2 MOMENTS CHECKSUM: 3.7469296527639D+03 --> plasma_hash("gframe"): TA= 5.095455E-01 NSTEP=121525 Hash code: 106802537 ->PRGCHK: bdy curvature ratio at t= 5.1136E-01 seconds is: 5.2875E-02 % MHDEQ: TG1= 0.509545 ; TG2= 0.511364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.377E-07 FluxDiff MaxDT: 5.137E-02 Avg. GS error: 1.336E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.351, target: 9.631, error: 2.909% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4230E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4736E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.509545 TO TG2= 0.511364 @ NSTEP 121525 GFRAME TG2 MOMENTS CHECKSUM: 3.7450131252276D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 12= 1.21327E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= -2.06672E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= -2.06672E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.113636E-01 NSTEP=122653 Hash code: 78461085 ->PRGCHK: bdy curvature ratio at t= 5.1318E-01 seconds is: 5.1733E-02 % MHDEQ: TG1= 0.511364 ; TG2= 0.513182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.715E-07 FluxDiff MaxDT: 5.109E-02 Avg. GS error: 1.275E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.353, target: 9.622, error: 2.800% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4712E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5225E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.511364 TO TG2= 0.513182 @ NSTEP 122653 GFRAME TG2 MOMENTS CHECKSUM: 3.7410631544661D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 123127 TA= 5.12128E-01 CPU TIME= 9.15000E-03 SECONDS. DT= 1.61239E-06 --> plasma_hash("gframe"): TA= 5.131818E-01 NSTEP=123781 Hash code: 2197671 ->PRGCHK: bdy curvature ratio at t= 5.1500E-01 seconds is: 5.0358E-02 % MHDEQ: TG1= 0.513182 ; TG2= 0.515000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.431E-07 FluxDiff MaxDT: 5.109E-02 Avg. GS error: 1.249E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.001% Edge Q: 9.363, target: 9.621, error: 2.688% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5854E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6051E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.513182 TO TG2= 0.515000 @ NSTEP 123781 GFRAME TG2 MOMENTS CHECKSUM: 3.7361880523059D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 124909 TA= 5.15000E-01 CPU TIME= 9.02400E-03 SECONDS. DT= 1.01865E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 15.8531872222225 %check_save_state: izleft hours = 64.0791666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.1500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.150000E-01 NSTEP=124909 Hash code: 63468150 ->PRGCHK: bdy curvature ratio at t= 5.1682E-01 seconds is: 4.9028E-02 % MHDEQ: TG1= 0.515000 ; TG2= 0.516818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.765E-07 FluxDiff MaxDT: 5.455E-02 Avg. GS error: 1.241E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.372, target: 9.632, error: 2.697% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6294E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6986E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.515000 TO TG2= 0.516818 @ NSTEP 124909 GFRAME TG2 MOMENTS CHECKSUM: 3.7314530413736D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.0677063888888 %check_save_state: izleft hours = 63.8647222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.1663595E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.168182E-01 NSTEP=126694 Hash code: 90457883 ->PRGCHK: bdy curvature ratio at t= 5.1864E-01 seconds is: 4.8112E-02 % MHDEQ: TG1= 0.516818 ; TG2= 0.518636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.988E-07 FluxDiff MaxDT: 8.180E-02 Avg. GS error: 1.299E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.374, target: 9.637, error: 2.728% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6224E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5777E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.516818 TO TG2= 0.518636 @ NSTEP 126694 GFRAME TG2 MOMENTS CHECKSUM: 3.7261795210861D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.2814341666667 %check_save_state: izleft hours = 63.6511111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.1830337E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.186364E-01 NSTEP=128479 Hash code: 95772698 ->PRGCHK: bdy curvature ratio at t= 5.2045E-01 seconds is: 4.7901E-02 % MHDEQ: TG1= 0.518636 ; TG2= 0.520455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.267E-07 FluxDiff MaxDT: 8.996E-02 Avg. GS error: 1.297E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.001% Edge Q: 9.376, target: 9.638, error: 2.715% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4568E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7456E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.518636 TO TG2= 0.520455 @ NSTEP 128479 GFRAME TG2 MOMENTS CHECKSUM: 3.7233485278703D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.5004611111112 %check_save_state: izleft hours = 63.4319444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.1998098E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.204545E-01 NSTEP=130264 Hash code: 102650799 ->PRGCHK: bdy curvature ratio at t= 5.2227E-01 seconds is: 4.9210E-02 % MHDEQ: TG1= 0.520455 ; TG2= 0.522273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.434E-07 FluxDiff MaxDT: 7.258E-02 Avg. GS error: 1.353E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.005% Edge Q: 9.379, target: 9.643, error: 2.744% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3829E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5413E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.520455 TO TG2= 0.522273 @ NSTEP 130264 GFRAME TG2 MOMENTS CHECKSUM: 3.7225641674224D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.50055E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.55641E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.40818E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.7230866666671 %check_save_state: izleft hours = 63.2094444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.2169628E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.222727E-01 NSTEP=132049 Hash code: 62715294 ->PRGCHK: bdy curvature ratio at t= 5.2409E-01 seconds is: 5.1276E-02 % MHDEQ: TG1= 0.522273 ; TG2= 0.524091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.148E-07 FluxDiff MaxDT: 4.420E-02 Avg. GS error: 1.362E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.005% Edge Q: 9.381, target: 9.641, error: 2.695% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4475E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5467E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.522273 TO TG2= 0.524091 @ NSTEP 132049 GFRAME TG2 MOMENTS CHECKSUM: 3.7236710953151D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 16.9412133333337 %check_save_state: izleft hours = 62.9911111111111 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.2349113E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.240909E-01 NSTEP=133692 Hash code: 53448805 ->PRGCHK: bdy curvature ratio at t= 5.2591E-01 seconds is: 5.3472E-02 % MHDEQ: TG1= 0.524091 ; TG2= 0.525909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.055E-07 FluxDiff MaxDT: 3.908E-02 Avg. GS error: 1.348E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.383, target: 9.642, error: 2.685% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4229E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4888E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.524091 TO TG2= 0.525909 @ NSTEP 133692 GFRAME TG2 MOMENTS CHECKSUM: 3.7244444551903D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.1617750000000 %check_save_state: izleft hours = 62.7705555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.2536381E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.259091E-01 NSTEP=135315 Hash code: 48236671 ->PRGCHK: bdy curvature ratio at t= 5.2773E-01 seconds is: 5.5355E-02 % MHDEQ: TG1= 0.525909 ; TG2= 0.527727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.916E-08 FluxDiff MaxDT: 3.517E-02 Avg. GS error: 1.357E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.389, target: 9.642, error: 2.622% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4598E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4562E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.525909 TO TG2= 0.527727 @ NSTEP 135315 GFRAME TG2 MOMENTS CHECKSUM: 3.7254900692509D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.3740450000003 %check_save_state: izleft hours = 62.5583333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.2725550E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.277273E-01 NSTEP=136757 Hash code: 65831784 ->PRGCHK: bdy curvature ratio at t= 5.2955E-01 seconds is: 5.6151E-02 % MHDEQ: TG1= 0.527727 ; TG2= 0.529545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.055E-08 FluxDiff MaxDT: 3.106E-02 Avg. GS error: 1.360E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.400, target: 9.650, error: 2.588% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4946E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4112E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.527727 TO TG2= 0.529545 @ NSTEP 136757 GFRAME TG2 MOMENTS CHECKSUM: 3.7266580718284D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 17.5860902777781 %check_save_state: izleft hours = 62.3463888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.2930002E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.295455E-01 NSTEP=138098 Hash code: 32518125 ->PRGCHK: bdy curvature ratio at t= 5.3136E-01 seconds is: 5.5564E-02 % MHDEQ: TG1= 0.529545 ; TG2= 0.531364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.154E-08 FluxDiff MaxDT: 2.557E-02 Avg. GS error: 1.378E-02 Plasma Current: 9.001E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.421, target: 9.661, error: 2.481% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5681E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3718E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.529545 TO TG2= 0.531364 @ NSTEP 138098 GFRAME TG2 MOMENTS CHECKSUM: 3.7283130834648D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.49692E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.55380E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.40582E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.313636E-01 NSTEP=139413 Hash code: 33175538 ->PRGCHK: bdy curvature ratio at t= 5.3318E-01 seconds is: 5.4604E-02 % MHDEQ: TG1= 0.531364 ; TG2= 0.533182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.317E-08 FluxDiff MaxDT: 2.485E-02 Avg. GS error: 1.394E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.446, target: 9.686, error: 2.475% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5502E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3353E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.531364 TO TG2= 0.533182 @ NSTEP 139413 GFRAME TG2 MOMENTS CHECKSUM: 3.7301820349858D+03 --> plasma_hash("gframe"): TA= 5.331818E-01 NSTEP=140728 Hash code: 77959154 ->PRGCHK: bdy curvature ratio at t= 5.3500E-01 seconds is: 5.3669E-02 % MHDEQ: TG1= 0.533182 ; TG2= 0.535000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.117E-08 FluxDiff MaxDT: 2.508E-02 Avg. GS error: 1.411E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.471, target: 9.713, error: 2.488% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2225E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3066E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.533182 TO TG2= 0.535000 @ NSTEP 140728 GFRAME TG2 MOMENTS CHECKSUM: 3.7320444288409D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 142043 TA= 5.35000E-01 CPU TIME= 9.03700E-03 SECONDS. DT= 4.69467E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.1777408333337 %check_save_state: izleft hours = 61.7547222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.3500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.350000E-01 NSTEP=142043 Hash code: 53281675 ->PRGCHK: bdy curvature ratio at t= 5.3682E-01 seconds is: 5.2971E-02 % MHDEQ: TG1= 0.535000 ; TG2= 0.536818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.162E-08 FluxDiff MaxDT: 2.897E-02 Avg. GS error: 1.420E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.492, target: 9.741, error: 2.557% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4920E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2869E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.535000 TO TG2= 0.536818 @ NSTEP 142043 GFRAME TG2 MOMENTS CHECKSUM: 3.7334595771857D+03 --> plasma_hash("gframe"): TA= 5.368182E-01 NSTEP=143424 Hash code: 103957695 ->PRGCHK: bdy curvature ratio at t= 5.3864E-01 seconds is: 5.2544E-02 % MHDEQ: TG1= 0.536818 ; TG2= 0.538636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.814E-07 FluxDiff MaxDT: 4.292E-02 Avg. GS error: 1.296E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.509, target: 9.761, error: 2.582% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3841E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2796E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.536818 TO TG2= 0.538636 @ NSTEP 143424 GFRAME TG2 MOMENTS CHECKSUM: 3.7346986119416D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.3765258333335 %check_save_state: izleft hours = 61.5558333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.3687444E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.386364E-01 NSTEP=144725 Hash code: 10188325 ->PRGCHK: bdy curvature ratio at t= 5.4045E-01 seconds is: 5.2871E-02 % MHDEQ: TG1= 0.538636 ; TG2= 0.540455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.948E-08 FluxDiff MaxDT: 1.241E-01 Avg. GS error: 1.296E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.503, target: 9.782, error: 2.850% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2941E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2839E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.538636 TO TG2= 0.540455 @ NSTEP 144725 GFRAME TG2 MOMENTS CHECKSUM: 3.7341681709938D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.5818811111112 %check_save_state: izleft hours = 61.3505555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.3881612E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.404545E-01 NSTEP=145959 Hash code: 40195115 ->PRGCHK: bdy curvature ratio at t= 5.4227E-01 seconds is: 5.3394E-02 % MHDEQ: TG1= 0.540455 ; TG2= 0.542273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.175E-07 FluxDiff MaxDT: 1.188E-01 Avg. GS error: 1.383E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.493, target: 9.773, error: 2.863% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3247E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2920E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.540455 TO TG2= 0.542273 @ NSTEP 145959 GFRAME TG2 MOMENTS CHECKSUM: 3.7332161834634D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= -3.74777E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.91063E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.83714E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.7844116666670 %check_save_state: izleft hours = 61.1480555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.4085145E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.422727E-01 NSTEP=147178 Hash code: 78586529 ->PRGCHK: bdy curvature ratio at t= 5.4409E-01 seconds is: 5.3928E-02 % MHDEQ: TG1= 0.542273 ; TG2= 0.544091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.610E-08 FluxDiff MaxDT: 1.137E-01 Avg. GS error: 1.378E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.482, target: 9.763, error: 2.878% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3295E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3006E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.542273 TO TG2= 0.544091 @ NSTEP 147178 GFRAME TG2 MOMENTS CHECKSUM: 3.7322773223068D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 18.9906466666671 %check_save_state: izleft hours = 60.9416666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.4284271E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.440909E-01 NSTEP=148397 Hash code: 69840473 ->PRGCHK: bdy curvature ratio at t= 5.4591E-01 seconds is: 5.4386E-02 % MHDEQ: TG1= 0.544091 ; TG2= 0.545909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.058E-07 FluxDiff MaxDT: 9.595E-02 Avg. GS error: 1.370E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.477, target: 9.751, error: 2.808% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2896E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3125E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.544091 TO TG2= 0.545909 @ NSTEP 148397 GFRAME TG2 MOMENTS CHECKSUM: 3.7319677812512D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 19.1986613888894 %check_save_state: izleft hours = 60.7338888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.4483398E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.459091E-01 NSTEP=149616 Hash code: 78085447 ->PRGCHK: bdy curvature ratio at t= 5.4773E-01 seconds is: 5.4765E-02 % MHDEQ: TG1= 0.545909 ; TG2= 0.547727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.613E-08 FluxDiff MaxDT: 6.173E-02 Avg. GS error: 1.364E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.002% Edge Q: 9.477, target: 9.746, error: 2.768% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2549E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3131E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.545909 TO TG2= 0.547727 @ NSTEP 149616 GFRAME TG2 MOMENTS CHECKSUM: 3.7322111526069D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 19.3985541666671 %check_save_state: izleft hours = 60.5338888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.4680734E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.477273E-01 NSTEP=150835 Hash code: 59643015 ->PRGCHK: bdy curvature ratio at t= 5.4955E-01 seconds is: 5.4865E-02 % MHDEQ: TG1= 0.547727 ; TG2= 0.549545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.049E-07 FluxDiff MaxDT: 3.013E-02 Avg. GS error: 1.258E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.004% Edge Q: 9.493, target: 9.744, error: 2.581% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4898E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3133E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.547727 TO TG2= 0.549545 @ NSTEP 150835 GFRAME TG2 MOMENTS CHECKSUM: 3.7345083182872D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 19.5983344444448 %check_save_state: izleft hours = 60.3341666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.4879413E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.495455E-01 NSTEP=152054 Hash code: 12861215 ->PRGCHK: bdy curvature ratio at t= 5.5136E-01 seconds is: 5.4937E-02 % MHDEQ: TG1= 0.549545 ; TG2= 0.551364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.637E-08 FluxDiff MaxDT: 2.598E-02 Avg. GS error: 1.250E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.006% Edge Q: 9.511, target: 9.761, error: 2.555% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4990E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3047E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.549545 TO TG2= 0.551364 @ NSTEP 152054 GFRAME TG2 MOMENTS CHECKSUM: 3.7370501569301D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 19.7997891666666 %check_save_state: izleft hours = 60.1327777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.5069140E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= -3.74839E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.91094E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.83745E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.513636E-01 NSTEP=153273 Hash code: 76358369 ->PRGCHK: bdy curvature ratio at t= 5.5318E-01 seconds is: 5.5031E-02 % MHDEQ: TG1= 0.551364 ; TG2= 0.553182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.107E-07 FluxDiff MaxDT: 2.515E-02 Avg. GS error: 1.244E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.007% Edge Q: 9.530, target: 9.778, error: 2.531% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5001E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2994E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.551364 TO TG2= 0.553182 @ NSTEP 153273 GFRAME TG2 MOMENTS CHECKSUM: 3.7396288689280D+03 --> plasma_hash("gframe"): TA= 5.531818E-01 NSTEP=154492 Hash code: 46755730 ->PRGCHK: bdy curvature ratio at t= 5.5500E-01 seconds is: 5.5130E-02 % MHDEQ: TG1= 0.553182 ; TG2= 0.555000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.071E-07 FluxDiff MaxDT: 2.690E-02 Avg. GS error: 1.240E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.548, target: 9.797, error: 2.540% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5196E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2999E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.553182 TO TG2= 0.555000 @ NSTEP 154492 GFRAME TG2 MOMENTS CHECKSUM: 3.7419224157945D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999906428158283E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 155711 TA= 5.55000E-01 CPU TIME= 9.00600E-03 SECONDS. DT= 7.87863E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.2459944444447 %check_save_state: izleft hours = 59.6863888888889 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.5500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.226E+03 MB. --> plasma_hash("gframe"): TA= 5.550000E-01 NSTEP=155711 Hash code: 104028636 ->PRGCHK: bdy curvature ratio at t= 5.5682E-01 seconds is: 5.5233E-02 % MHDEQ: TG1= 0.555000 ; TG2= 0.556818 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.061E-07 FluxDiff MaxDT: 2.971E-02 Avg. GS error: 1.239E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.564, target: 9.815, error: 2.554% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4667E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2970E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.555000 TO TG2= 0.556818 @ NSTEP 155711 GFRAME TG2 MOMENTS CHECKSUM: 3.7438849147585D+03 --> plasma_hash("gframe"): TA= 5.568182E-01 NSTEP=157063 Hash code: 79332697 ->PRGCHK: bdy curvature ratio at t= 5.5864E-01 seconds is: 5.5284E-02 % MHDEQ: TG1= 0.556818 ; TG2= 0.558636 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.997E-07 FluxDiff MaxDT: 2.895E-02 Avg. GS error: 1.259E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.569, target: 9.831, error: 2.669% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3964E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2864E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.556818 TO TG2= 0.558636 @ NSTEP 157063 GFRAME TG2 MOMENTS CHECKSUM: 3.7446282037527D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.4569633333338 %check_save_state: izleft hours = 59.4755555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.5716154E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.586364E-01 NSTEP=158294 Hash code: 100154927 ->PRGCHK: bdy curvature ratio at t= 5.6045E-01 seconds is: 5.5331E-02 % MHDEQ: TG1= 0.558636 ; TG2= 0.560455 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.993E-07 FluxDiff MaxDT: 3.240E-02 Avg. GS error: 1.252E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.574, target: 9.832, error: 2.622% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3887E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2840E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.558636 TO TG2= 0.560455 @ NSTEP 158294 GFRAME TG2 MOMENTS CHECKSUM: 3.7450875112316D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.6574541666666 %check_save_state: izleft hours = 59.2750000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.5904015E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.604545E-01 NSTEP=159479 Hash code: 36837703 ->PRGCHK: bdy curvature ratio at t= 5.6227E-01 seconds is: 5.5378E-02 % MHDEQ: TG1= 0.560455 ; TG2= 0.562273 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.476E-07 FluxDiff MaxDT: 3.104E-02 Avg. GS error: 1.260E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 9.579, target: 9.840, error: 2.650% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3910E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2748E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.560455 TO TG2= 0.562273 @ NSTEP 159479 GFRAME TG2 MOMENTS CHECKSUM: 3.7456323399678D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.32144E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.24746E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.46760E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 20.8528091666669 %check_save_state: izleft hours = 59.0797222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6087062E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.622727E-01 NSTEP=160664 Hash code: 2635502 ->PRGCHK: bdy curvature ratio at t= 5.6409E-01 seconds is: 5.5293E-02 % MHDEQ: TG1= 0.562273 ; TG2= 0.564091 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.931E-07 FluxDiff MaxDT: 3.112E-02 Avg. GS error: 1.255E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 9.582, target: 9.842, error: 2.638% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3948E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2708E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.562273 TO TG2= 0.564091 @ NSTEP 160664 GFRAME TG2 MOMENTS CHECKSUM: 3.7457010875148D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.0440358333340 %check_save_state: izleft hours = 58.8883333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6263660E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.640909E-01 NSTEP=161849 Hash code: 119844679 ->PRGCHK: bdy curvature ratio at t= 5.6591E-01 seconds is: 5.5120E-02 % MHDEQ: TG1= 0.564091 ; TG2= 0.565909 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.863E-07 FluxDiff MaxDT: 3.054E-02 Avg. GS error: 1.259E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.009% Edge Q: 9.585, target: 9.847, error: 2.659% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3858E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2646E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.564091 TO TG2= 0.565909 @ NSTEP 161849 GFRAME TG2 MOMENTS CHECKSUM: 3.7455836339164D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.2395255555562 %check_save_state: izleft hours = 58.6927777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6437648E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.659091E-01 NSTEP=163034 Hash code: 50388316 ->PRGCHK: bdy curvature ratio at t= 5.6773E-01 seconds is: 5.4542E-02 % MHDEQ: TG1= 0.565909 ; TG2= 0.567727 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.997E-07 FluxDiff MaxDT: 3.924E-02 Avg. GS error: 1.258E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 9.580, target: 9.847, error: 2.716% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3769E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2640E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.565909 TO TG2= 0.567727 @ NSTEP 163034 GFRAME TG2 MOMENTS CHECKSUM: 3.7440634248899D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.4298052777779 %check_save_state: izleft hours = 58.5025000000000 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6612404E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.677273E-01 NSTEP=164219 Hash code: 287613 ->PRGCHK: bdy curvature ratio at t= 5.6955E-01 seconds is: 5.3971E-02 % MHDEQ: TG1= 0.567727 ; TG2= 0.569545 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.725E-07 FluxDiff MaxDT: 4.086E-02 Avg. GS error: 1.261E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.574, target: 9.844, error: 2.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3830E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2628E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.567727 TO TG2= 0.569545 @ NSTEP 164219 GFRAME TG2 MOMENTS CHECKSUM: 3.7425785751733D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.6220791666667 %check_save_state: izleft hours = 58.3102777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6782553E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 21.8157558333337 %check_save_state: izleft hours = 58.1166666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.6952667E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.695455E-01 NSTEP=165404 Hash code: 61056096 ->PRGCHK: bdy curvature ratio at t= 5.7136E-01 seconds is: 5.3430E-02 % MHDEQ: TG1= 0.569545 ; TG2= 0.571364 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.763E-07 FluxDiff MaxDT: 4.231E-02 Avg. GS error: 1.265E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 9.569, target: 9.838, error: 2.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3642E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2626E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.569545 TO TG2= 0.571364 @ NSTEP 165404 GFRAME TG2 MOMENTS CHECKSUM: 3.7410504318591D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 14= 1.32332E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.24717E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.46726E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 22.0016333333335 %check_save_state: izleft hours = 57.9308333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.7123277E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.713636E-01 NSTEP=166589 Hash code: 42291339 ->PRGCHK: bdy curvature ratio at t= 5.7318E-01 seconds is: 5.3208E-02 % MHDEQ: TG1= 0.571364 ; TG2= 0.573182 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.907E-07 FluxDiff MaxDT: 4.010E-02 Avg. GS error: 1.268E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 9.563, target: 9.833, error: 2.740% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3706E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2555E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.571364 TO TG2= 0.573182 @ NSTEP 166589 GFRAME TG2 MOMENTS CHECKSUM: 3.7399983233766D+03 --> plasma_hash("gframe"): TA= 5.731818E-01 NSTEP=167774 Hash code: 69941249 ->PRGCHK: bdy curvature ratio at t= 5.7500E-01 seconds is: 5.3158E-02 % MHDEQ: TG1= 0.573182 ; TG2= 0.575000 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.242E-07 FluxDiff MaxDT: 3.820E-02 Avg. GS error: 1.269E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.012% Edge Q: 9.558, target: 9.826, error: 2.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3281E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2550E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.573182 TO TG2= 0.575000 @ NSTEP 167774 GFRAME TG2 MOMENTS CHECKSUM: 3.7391115770041D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000030457973480E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 168959 TA= 5.75000E-01 CPU TIME= 9.75300E-03 SECONDS. DT= 3.61152E-07 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 22.4508300000000 %check_save_state: izleft hours = 57.4816666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.7500000E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.750000E-01 NSTEP=168959 Hash code: 15475090 ->PRGCHK: bdy curvature ratio at t= 5.7692E-01 seconds is: 5.4068E-02 % MHDEQ: TG1= 0.575000 ; TG2= 0.576923 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.424E-07 FluxDiff MaxDT: 2.925E-02 Avg. GS error: 1.266E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.554, target: 9.821, error: 2.710% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3866E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2523E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.575000 TO TG2= 0.576923 @ NSTEP 168959 GFRAME TG2 MOMENTS CHECKSUM: 3.7395901526198D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 22.6441941666669 %check_save_state: izleft hours = 57.2883333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.7649405E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.769231E-01 NSTEP=170428 Hash code: 121771949 ->PRGCHK: bdy curvature ratio at t= 5.7885E-01 seconds is: 5.5002E-02 % MHDEQ: TG1= 0.576923 ; TG2= 0.578846 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.420E-07 FluxDiff MaxDT: 2.447E-02 Avg. GS error: 1.265E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.553, target: 9.814, error: 2.667% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4068E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2489E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.576923 TO TG2= 0.578846 @ NSTEP 170428 GFRAME TG2 MOMENTS CHECKSUM: 3.7399349946901D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 22.8416608333339 %check_save_state: izleft hours = 57.0908333333333 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.7804083E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. --> plasma_hash("gframe"): TA= 5.788462E-01 NSTEP=171831 Hash code: 21297291 ->PRGCHK: bdy curvature ratio at t= 5.8077E-01 seconds is: 5.5961E-02 % MHDEQ: TG1= 0.578846 ; TG2= 0.580769 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.652E-07 FluxDiff MaxDT: 2.305E-02 Avg. GS error: 1.260E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 9.552, target: 9.812, error: 2.650% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3399E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2460E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.578846 TO TG2= 0.580769 @ NSTEP 171831 GFRAME TG2 MOMENTS CHECKSUM: 3.7403178878521D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 23.0380938888888 %check_save_state: izleft hours = 56.8944444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.7958812E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. %splitn_update_check: writing update: 204112R76TR.TMP @ t= 0.580000000000000 -------------------------------- Namelist update: 204112R76TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 2.90000000E+13 to 3.50000000E+13 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 5.807692E-01 NSTEP=173314 Hash code: 36202356 ->PRGCHK: bdy curvature ratio at t= 5.8269E-01 seconds is: 5.6452E-02 % MHDEQ: TG1= 0.580769 ; TG2= 0.582692 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.829E-07 FluxDiff MaxDT: 2.154E-02 Avg. GS error: 1.262E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.011% Edge Q: 9.560, target: 9.810, error: 2.548% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3684E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2424E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.580769 TO TG2= 0.582692 @ NSTEP 173314 GFRAME TG2 MOMENTS CHECKSUM: 3.7402394153795D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= 2.82423E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.54049E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.28374E-38 RESET TO ZERO %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 23.2354069444450 %check_save_state: izleft hours = 56.6969444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.8114140E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 174033 TA= 5.82043E-01 CPU TIME= 2.61000E-02 SECONDS. DT= 1.99947E-06 --> plasma_hash("gframe"): TA= 5.826923E-01 NSTEP=174334 Hash code: 81372764 ->PRGCHK: bdy curvature ratio at t= 5.8462E-01 seconds is: 5.6528E-02 % MHDEQ: TG1= 0.582692 ; TG2= 0.584615 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.461E-07 FluxDiff MaxDT: 2.967E-02 Avg. GS error: 1.280E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.014% Edge Q: 9.570, target: 9.820, error: 2.543% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5043E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2424E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.582692 TO TG2= 0.584615 @ NSTEP 174334 GFRAME TG2 MOMENTS CHECKSUM: 3.7396129029231D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 23.4381647222226 %check_save_state: izleft hours = 56.4941666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.8413230E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 174903 TA= 5.84188E-01 CPU TIME= 2.35506E-01 SECONDS. DT= 2.92742E-06 --> plasma_hash("gframe"): TA= 5.846154E-01 NSTEP=175049 Hash code: 56326772 ->PRGCHK: bdy curvature ratio at t= 5.8654E-01 seconds is: 5.5874E-02 % MHDEQ: TG1= 0.584615 ; TG2= 0.586538 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.278E-07 FluxDiff MaxDT: 4.269E-02 Avg. GS error: 1.318E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.016% Edge Q: 9.592, target: 9.832, error: 2.439% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5693E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2500E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.584615 TO TG2= 0.586538 @ NSTEP 175049 GFRAME TG2 MOMENTS CHECKSUM: 3.7383193021394D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 175659 TA= 5.86441E-01 CPU TIME= 1.11302E-01 SECONDS. DT= 2.99276E-06 --> plasma_hash("gframe"): TA= 5.865385E-01 NSTEP=175692 Hash code: 49977794 ->PRGCHK: bdy curvature ratio at t= 5.8846E-01 seconds is: 5.5257E-02 % MHDEQ: TG1= 0.586538 ; TG2= 0.588462 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.817E-07 FluxDiff MaxDT: 4.353E-02 Avg. GS error: 1.373E-02 Plasma Current: 8.998E+05, target: 9.000E+05, error: 0.018% Edge Q: 9.614, target: 9.859, error: 2.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5799E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2665E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.586538 TO TG2= 0.588462 @ NSTEP 175692 GFRAME TG2 MOMENTS CHECKSUM: 3.7373885971452D+03 --> plasma_hash("gframe"): TA= 5.884615E-01 NSTEP=176335 Hash code: 44837765 ->PRGCHK: bdy curvature ratio at t= 5.9038E-01 seconds is: 5.4764E-02 % MHDEQ: TG1= 0.588462 ; TG2= 0.590385 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.909E-07 FluxDiff MaxDT: 4.099E-02 Avg. GS error: 1.423E-02 Plasma Current: 8.998E+05, target: 9.000E+05, error: 0.018% Edge Q: 9.633, target: 9.884, error: 2.547% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5817E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3525E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.588462 TO TG2= 0.590385 @ NSTEP 176335 GFRAME TG2 MOMENTS CHECKSUM: 3.7364476723465D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 23.6480061111113 %check_save_state: izleft hours = 56.2844444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112R76RS.DAT %wrstf: open204112R76RS.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 %trIsoSaveState: writing ISO savefile 204112R76_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 5.8848249E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.224E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 176450 TA= 5.88806E-01 CPU TIME= 2.57105E-01 SECONDS. DT= 2.99276E-06 --> plasma_hash("gframe"): TA= 5.903846E-01 NSTEP=176961 Hash code: 70693722 ->PRGCHK: bdy curvature ratio at t= 5.9231E-01 seconds is: 5.4657E-02 % MHDEQ: TG1= 0.590385 ; TG2= 0.592308 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.401E-07 FluxDiff MaxDT: 3.907E-02 Avg. GS error: 1.456E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.016% Edge Q: 9.644, target: 9.907, error: 2.659% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5525E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3952E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.590385 TO TG2= 0.592308 @ NSTEP 176961 GFRAME TG2 MOMENTS CHECKSUM: 3.7356557931385D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= 4.59339E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 2.24158E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 2.35182E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.923077E-01 NSTEP=177493 Hash code: 107518575 ->PRGCHK: bdy curvature ratio at t= 5.9423E-01 seconds is: 5.5150E-02 % MHDEQ: TG1= 0.592308 ; TG2= 0.594231 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.900E-07 FluxDiff MaxDT: 3.764E-02 Avg. GS error: 1.466E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.014% Edge Q: 9.647, target: 9.916, error: 2.719% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4249E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4276E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.592308 TO TG2= 0.594231 @ NSTEP 177493 GFRAME TG2 MOMENTS CHECKSUM: 3.7351941636493D+03 --> plasma_hash("gframe"): TA= 5.942308E-01 NSTEP=178025 Hash code: 106529295 ->PRGCHK: bdy curvature ratio at t= 5.9615E-01 seconds is: 5.6006E-02 % MHDEQ: TG1= 0.594231 ; TG2= 0.596154 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.640E-07 FluxDiff MaxDT: 3.201E-02 Avg. GS error: 1.419E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.014% Edge Q: 9.647, target: 9.917, error: 2.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3437E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3696E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.594231 TO TG2= 0.596154 @ NSTEP 178025 GFRAME TG2 MOMENTS CHECKSUM: 3.7354358233781D+03 --> plasma_hash("gframe"): TA= 5.961538E-01 NSTEP=178557 Hash code: 93209194 ->PRGCHK: bdy curvature ratio at t= 5.9808E-01 seconds is: 5.6908E-02 % MHDEQ: TG1= 0.596154 ; TG2= 0.598077 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.567E-07 FluxDiff MaxDT: 3.117E-02 Avg. GS error: 1.465E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.010% Edge Q: 9.647, target: 9.917, error: 2.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4103E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4929E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.596154 TO TG2= 0.598077 @ NSTEP 178557 GFRAME TG2 MOMENTS CHECKSUM: 3.7344162673938D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 178950 TA= 5.97577E-01 CPU TIME= 7.44210E-02 SECONDS. DT= 3.62125E-06 --> plasma_hash("gframe"): TA= 5.980769E-01 NSTEP=179089 Hash code: 40119473 ->PRGCHK: bdy curvature ratio at t= 6.0000E-01 seconds is: 5.7856E-02 % MHDEQ: TG1= 0.598077 ; TG2= 0.600000 ; DTG= 1.923E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.402E-07 FluxDiff MaxDT: 3.066E-02 Avg. GS error: 1.389E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.013% Edge Q: 9.649, target: 9.907, error: 2.600% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7236E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3839E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.598077 TO TG2= 0.600000 @ NSTEP 179089 GFRAME TG2 MOMENTS CHECKSUM: 3.7348599678637D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.52516E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.79481E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -3.38319E-38 RESET TO ZERO 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): 2.18311E+02 %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 9 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 0 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 27 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 1 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 2 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 3 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 4 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 5 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 6 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 7 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 8 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 10 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 11 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 13 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 15 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 16 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 17 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 19 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 20 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 22 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 23 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 24 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 25 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 26 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 29 cwd: (mpi_share_env) process myid= 12 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 30 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 31 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 28 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 14 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 18 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 (mpi_share_env) process myid= 21 cwd: /local/tr_rraman/transp_compute/NSTU/204112R76 OPENACC is not available nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls nbi_alloc_orbit will allocate for 1 ptcls %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall depall_mpi_split initinal done %depall nuse(isb)= 0 %depall will be using 1 OMP threads %depall specie #1 -> 0 - 0 (killed) + 417 (dep) = 417 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co 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_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co 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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_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_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_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_interp_profiles... nbstart... nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_states: cpu 7 virtual memory size = 1.568E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.567E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.569E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.569E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.564E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.565E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.568E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.560E+03 MB. nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbi_getprofiles ne*dvol sum (input): 7.1266E+19 nbi_getprofiles ne*dvol sum (ions): 7.1266E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.563E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.564E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.564E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.618E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.620E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.630E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.563E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.626E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 316 - 0 (killed) + 783 (dep) = 1099 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.484838E+08 1.484672E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_interp_profiles... %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_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): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 2 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.592E+03 MB. nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 %nbi_states: cpu 18 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. nbstart... %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.591E+03 MB. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbi_getprofiles ne*dvol sum (input): 7.2707E+19 nbi_getprofiles ne*dvol sum (ions): 7.2707E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.643E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.648E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.653E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 859 - 0 (killed) + 590 (dep) = 1449 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.608525E+08 1.602712E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.666596E+08 2.661422E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.084404E+08 2.082406E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 4 ==> 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 = 1 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 3 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 7 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc: backz 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_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz 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_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_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_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 11 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbi_getprofiles ne*dvol sum (input): 7.3573E+19 nbi_getprofiles ne*dvol sum (ions): 7.3573E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.643E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.653E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.648E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 1105 - 0 (killed) + 511 (dep) = 1616 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... 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... 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... 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... depall exited 0 orball... orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.390648E+08 1.388028E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.459555E+08 1.456887E+08 %cxline - vtor.gt.zvion; vtor,zvion = 5.660907E+07 5.659966E+07 %cxline - vtor.gt.zvion; vtor,zvion = 2.681770E+08 2.675098E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.598107E+08 1.587734E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 20 ==> 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 = 9 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.653E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.654E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.592E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 %nbi_states: cpu 23 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (input): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbi_getprofiles ne*dvol sum (ions): 7.5323E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.654E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.653E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 1220 - 0 (killed) + 494 (dep) = 1714 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.198494E+08 1.196748E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.166295E+08 1.165797E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.640986E+08 1.635069E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.537524E+08 1.534944E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 9 ==> 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 = 8 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.654E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.579E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.592E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 17 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.591E+03 MB. ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 16 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbi_getprofiles ne*dvol sum (input): 7.6870E+19 nbi_getprofiles ne*dvol sum (ions): 7.6870E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 1081 - 0 (killed) + 443 (dep) = 1524 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... 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... 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... 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.699552E+08 1.694248E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.700389E+08 1.692468E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 exited 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: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 21 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. %nbi_alloc: backz 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbi_getprofiles ne*dvol sum (input): 9.0305E+19 nbi_getprofiles ne*dvol sum (ions): 9.0305E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 953 - 0 (killed) + 433 (dep) = 1386 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.844078E+08 1.827297E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.240704E+08 2.237707E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.631944E+08 2.625100E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.616743E+08 2.611816E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.567394E+08 1.564874E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.669617E+08 1.664503E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.494756E+08 2.483932E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 7 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 26 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... 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_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co 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_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): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. nbi_getprofiles ne*dvol sum (input): 9.4341E+19 %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (input): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbi_getprofiles ne*dvol sum (ions): 9.4341E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 842 - 0 (killed) + 476 (dep) = 1318 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 2.116010E+08 2.111080E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.866581E+08 1.855643E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.986793E+08 1.982030E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.852008E+08 1.835461E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbi_getprofiles ne*dvol sum (input): 9.2834E+19 nbi_getprofiles ne*dvol sum (ions): 9.2834E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 716 - 0 (killed) + 495 (dep) = 1211 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.422041E+08 1.419232E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.447190E+08 2.443002E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.790551E+08 1.780255E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.426277E+08 2.404026E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.807196E+08 1.805203E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.751135E+08 2.733883E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.575753E+08 1.574602E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 29 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz 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_interp_profiles... 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_alloc2: ebb_rel_co already allocated; exiting. 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_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): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbi_getprofiles ne*dvol sum (input): 9.4010E+19 nbi_getprofiles ne*dvol sum (ions): 9.4010E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 715 - 0 (killed) + 541 (dep) = 1256 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... 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... 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... 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... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 31 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %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_interp_profiles... %nbi_alloc: backz 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_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): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbi_getprofiles ne*dvol sum (input): 9.8390E+19 nbi_getprofiles ne*dvol sum (ions): 9.8390E+19 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 772 - 0 (killed) + 526 (dep) = 1298 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... 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... 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... 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... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.356272E+08 1.350843E+08 %cxline - vtor.gt.zvion; vtor,zvion = 6.098091E+07 6.081582E+07 %cxline - vtor.gt.zvion; vtor,zvion = 1.796475E+08 1.774973E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.584476E+08 1.581722E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.445639E+08 1.441733E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.575666E+08 2.566225E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.811481E+08 1.809584E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.291073E+08 2.283088E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 8 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> 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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbi_getprofiles ne*dvol sum (input): 1.7231E+20 nbi_getprofiles ne*dvol sum (ions): 1.7231E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 772 - 0 (killed) + 511 (dep) = 1283 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.245045E+08 1.241324E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.372227E+08 1.371855E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.699771E+08 1.692819E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.094983E+08 2.071456E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.784763E+08 1.783523E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 = 31 ==> exiting nubeam_step_child, mpi myidd = 28 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 30 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 20 ==> 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 = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 29 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 12 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 8 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc: backz 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_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): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (input): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbi_getprofiles ne*dvol sum (ions): 1.7184E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 738 - 0 (killed) + 487 (dep) = 1225 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... 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... 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... 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... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.485177E+08 1.479439E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.526859E+08 1.512814E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 exited 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: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 29 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_interp_profiles... %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %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_alloc: backz already allocated; exiting. %nbi_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_interp_profiles... %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_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (input): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbi_getprofiles ne*dvol sum (ions): 1.7243E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.602E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 705 - 0 (killed) + 494 (dep) = 1199 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... 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... 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... 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... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.508037E+08 1.507336E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.618426E+08 1.603051E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.030842E+08 2.020510E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 exited 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: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 25 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_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_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_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_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): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbi_getprofiles ne*dvol sum (input): 1.7725E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.7725E+20 nbstart... %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 709 - 0 (killed) + 522 (dep) = 1231 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.722138E+08 1.716469E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.604302E+08 1.593367E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.404603E+08 1.403423E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 19 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 28 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 15 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 6 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. 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_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_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_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_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbi_getprofiles ne*dvol sum (input): 1.8462E+20 nbi_getprofiles ne*dvol sum (ions): 1.8462E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.647E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 706 - 0 (killed) + 494 (dep) = 1200 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.594832E+08 1.572950E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.005467E+08 9.963769E+07 %cxline - vtor.gt.zvion; vtor,zvion = 1.852928E+08 1.837226E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.491618E+08 2.487940E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.315979E+08 2.312153E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 15 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 28 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 21 ==> 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 = 2 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_interp_profiles... 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... %nbi_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_alloc: backz 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_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): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbi_getprofiles ne*dvol sum (input): 3.2056E+20 nbi_getprofiles ne*dvol sum (ions): 3.2056E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 605 - 0 (killed) + 510 (dep) = 1115 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... 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... 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... 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... depall exited 0 orball... depall exited 0 depall exited 0 orball... orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 8 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 16 ==> 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 = 31 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (input): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbi_getprofiles ne*dvol sum (ions): 3.2342E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 449 - 0 (killed) + 558 (dep) = 1007 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.308207E+08 1.303395E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz 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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %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_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbi_getprofiles ne*dvol sum (input): 3.1990E+20 nbi_getprofiles ne*dvol sum (ions): 3.1990E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 481 - 0 (killed) + 546 (dep) = 1027 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.013711E+08 1.012913E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 9 ==> 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 13 ==> 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 = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_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_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... %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_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_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbi_getprofiles ne*dvol sum (input): 3.1931E+20 nbi_getprofiles ne*dvol sum (ions): 3.1931E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 554 - 0 (killed) + 508 (dep) = 1062 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... 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... 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... 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... 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 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 19 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 20 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 16 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbi_getprofiles ne*dvol sum (input): 3.2022E+20 nbi_getprofiles ne*dvol sum (ions): 3.2022E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 604 - 0 (killed) + 478 (dep) = 1082 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.442571E+08 1.426684E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.679118E+08 1.666775E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 25 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 9 ==> 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 = 28 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 exited 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: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> 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 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 29 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 21 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 18 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... %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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... 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_interp_profiles... %nbi_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_alloc: backz 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_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): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbi_getprofiles ne*dvol sum (input): 3.8302E+20 nbi_getprofiles ne*dvol sum (ions): 3.8302E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 591 - 0 (killed) + 462 (dep) = 1053 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... 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... 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... 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... depall exited 0 depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 8.682340E+07 8.621688E+07 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 15 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 = 12 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 22 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... 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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbi_getprofiles ne*dvol sum (input): 3.8100E+20 nbi_getprofiles ne*dvol sum (ions): 3.8100E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 519 - 0 (killed) + 488 (dep) = 1007 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... 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... 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... 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_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_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_alloc: backz already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. 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_alloc: backz 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_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_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 %nbi_alloc: backz already allocated; exiting. nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbi_getprofiles ne*dvol sum (input): 3.7911E+20 nbi_getprofiles ne*dvol sum (ions): 3.7911E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 559 - 0 (killed) + 477 (dep) = 1036 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.943033E+08 1.929738E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.670916E+08 2.654920E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 6 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 29 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 31 exited 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: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 3 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc: backz already allocated; exiting. %nbi_alloc: backz 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_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_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbi_getprofiles ne*dvol sum (input): 3.8075E+20 nbi_getprofiles ne*dvol sum (ions): 3.8075E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 562 - 0 (killed) + 471 (dep) = 1033 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... 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... 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... 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... 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 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 21 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 exited 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: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 25 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 29 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... 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_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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. 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_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_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. nbstart... %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (input): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbi_getprofiles ne*dvol sum (ions): 3.8033E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 524 - 0 (killed) + 540 (dep) = 1064 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... 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... 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... 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... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 2.710512E+08 2.698910E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 9 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 29 entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 exited 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: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.657E+03 MB. % nbi_states: fld_states write OK to filename: 204112R76_fi/204112R76_nbi_fld_ state.cdf %nbi_states: cpu 31 virtual memory size = 1.652E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.658E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.656E+03 MB. trmpi_listener: service request "EXIT" on cpu# 14 trmpi_listener: service request "EXIT" on cpu# 22 trmpi_listener: service request "EXIT" on cpu# 5 trmpi_listener: service request "EXIT" on cpu# 16 trmpi_listener: service request "EXIT" on cpu# 23 trmpi_listener: service request "EXIT" on cpu# 21 trmpi_listener: service request "EXIT" on cpu# 12 trmpi_listener: service request "EXIT" on cpu# 15 trmpi_listener: service request "EXIT" on cpu# 24 trmpi_listener: service request "EXIT" on cpu# 9 trmpi_listener: service request "EXIT" on cpu# 8 trmpi_listener: service request "EXIT" on cpu# 18 trmpi_listener: service request "EXIT" on cpu# 3 trmpi_listener: service request "EXIT" on cpu# 4 trmpi_listener: service request "EXIT" on cpu# 2 trmpi_listener: service request "EXIT" on cpu# 19 trmpi_listener: service request "EXIT" on cpu# 25 trmpi_listener: service request "EXIT" on cpu# 6 trmpi_listener: service request "EXIT" on cpu# 13 trmpi_listener: service request "EXIT" on cpu# 7 trmpi_listener: service request "EXIT" on cpu# 17 trmpi_listener: service request "EXIT" on cpu# 20 trmpi_listener: service request "EXIT" on cpu# 27 trmpi_listener: service request "EXIT" on cpu# 1 trmpi_listener: service request "EXIT" on cpu# 11 trmpi_listener: service request "EXIT" on cpu# 10 trmpi_listener: service request "EXIT" on cpu# 28 trmpi_listener: service request "EXIT" on cpu# 29 trmpi_listener: service request "EXIT" on cpu# 31 trmpi_listener: service request "EXIT" on cpu# 26 trmpi_listener: service request "EXIT" on cpu# 30 ==>runtrx: TRANSP run successful ==========(runtrx)====================== ==========TRANSP output conversion====== date: Fri May 30 19:06:09 EDT 2025 ( mccune010.pppl.gov ) ==========(runtrx)====================== srart tr_finish_mpi.pl false pppl.gov 204112R76 NSTU tr_finish_mpi.pl 204112R76 NSTU ---------------> starting: plotcon 204112R76 2025/05/30:19:06:10 %initcpl: MDS_CACHE enabled. %PoPlot -- reading .PLN files %POPLT2-- PROCESSING RUN 204112R76 SHOT NO. 204112 EXPECT 918 SCALAR FCNS, 1381 PROFILE FCNS OF TIME "MF" FILE RECORD SIZE = 20 WORDS (FLOATING PT) dmg_datbuf_expand call from dmgini_sized: isize= 0 204112R76MF.PLN size = 90M %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 : Fri May 30 19:06:16 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 918 Define Multi Graphs 527 Write Profiles 1381 X 1 1 20 XB 2 2 20 THETA 3 7 80 RMJSYM 4 22 85 RMAJM 5 24 41 MCINDX 6 25 840 IBOLO 7 27 14 ILIM 8 33 33 RGRID 9 1133 129 ZGRID 10 1134 129 PSIRZ 11 1135 16641 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 544411 avg & max steps: 1.7637E-03 7.9168E-02 #decreasing steps: 387429 avg & max steps: 2.4710E-03 1.0550E-01 #zero steps: 0 B_FIELD 12 1136 49923 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 1655760 avg & max steps: 3.9986E-02 3.9472E+00 #decreasing steps: 1139661 avg & max steps: 5.8084E-02 5.9229E+00 #zero steps: 211 read NF File : 919 918 Write Multigraph: 527 ...readback test of .CDF file... 2828 variables, 14 dimensions 15 att ...header check SUCCESSFUL; now check data. ...check profile data... plotcon: CDF files in /local/tr_rraman/transp_compute/NSTU/204112R76 /local/tr_rraman/transp_compute/NSTU/204112R76/204112R76.CDF /local/tr_rraman/transp_compute/NSTU/204112R76/204112R76PH.CDF %targz_pseq: no directory: 204112R76_replay (normal exit) %targz_solv: in /local/tr_rraman/transp_compute/NSTU/204112R76 on host mccune010 %targz_solv: no TGLF debug info found (normal exit) %targz_solv: no TGLF debug info found (normal exit) --------------->plotcon: normal exit. 2025/05/30:19:06:18 ==>runtrx: TRANSP postprocessing OK ==========(runtrx)====================== ==========TRANSP add to MDSplus ======== date: Fri May 30 19:06:18 EDT 2025 ( mccune010.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 2041121876 TRANSP_NSTU ...connecting to server: TRANSPGRID.PPPL.GOV ...tcl("EDIT TRANSP_NSTU/SHOT=2041121876") 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 204112R76_nubeam_init.dat add_file: 160 lines - 80 delete node .TRDATA tcl("write") ...mdsplot: normal exit. ==========(runtrx)====================== ==========TRANSP finish and cleanup===== date: Fri May 30 19:07:24 EDT 2025 ( mccune010.pppl.gov ) ==========(runtrx)====================== %finishup -I- pppl.gov production run %finishup: copying TRANSP permanent output files to /u/tr_rraman/transp/result/NSTU.16 acsort.py: No match. mv 204112R76.CDF /u/tr_rraman/transp/result/NSTU.16/204112R76.CDF mv 204112R76ex.for /u/tr_rraman/transp/result/NSTU.16/204112R76ex.for mv 204112R76_mmm.nml /u/tr_rraman/transp/result/NSTU.16/204112R76_mmm.nml mv 204112R76_nubeam_init.dat /u/tr_rraman/transp/result/NSTU.16/204112R76_nubeam_init.dat mv 204112R76PH.CDF /u/tr_rraman/transp/result/NSTU.16/204112R76PH.CDF mv 204112R76_pt.nml /u/tr_rraman/transp/result/NSTU.16/204112R76_pt.nml mv 204112R76TR.DAT /u/tr_rraman/transp/result/NSTU.16/204112R76TR.DAT mv 204112R76TR.INF /u/tr_rraman/transp/result/NSTU.16/204112R76TR.INF %finishup: retaining 204112R76tr.log mv 204112R76TR.MSG /u/tr_rraman/transp/result/NSTU.16/204112R76TR.MSG mv 204112R76.yml /u/tr_rraman/transp/result/NSTU.16/204112R76.yml rm: No match. %finishup -I- both the GRID and the PPPL flags are set. /l/transpgrid/pshare/qshare/204112R76_NSTU.qarc status 0 ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Fri May 30 19:07:27 EDT 2025 ( mccune010.pppl.gov ) ==========>runtrx runsite = pppl.gov<======