==>runtrx start: date: Fri Aug 29 14:06:29 EDT 2025 ( mccune002.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = NSTU.16 ==========(runtrx)====================== date: Fri Aug 29 14:06:29 EDT 2025 ( mccune002.pppl.gov ) args: 204112B61 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Fri Aug 29 14:06:29 EDT 2025 ( mccune002.pppl.gov ) --> copy_expert_for: standard expert source copied to: 204112B61ex.for --> copy_expert_for: up-to-date expert object copied to: 204112B61ex.o **** uplink 204112B61tr 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/204112B61/204112B61ex.o' is up to date. csh -f /local/tr_rraman/transp_compute/NSTU/204112B61/204112B61tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Fri Aug 29 14:10:21 EDT 2025 ( mccune002.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 204112B61 %shell_server_exec: dir0 = /local/tr_rraman/transp_compute/NSTU/204112B61 %shell_server_exec: dirN = /local/tr_rraman/transp_compute/NSTU/204112B61 %shell_server_exec: testfile = 204112B61_27384_test.dat %shell_server_exec: parallel file system, only one node mccune002.pppl.gov %runtrx: TRANSP_EXEC_METHOD = 0 %runtrx: TRANSP_PARALLEL_FILESYS = YES ...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/mccune002/tr_rraman/transp_compute/NSTU/204112B61/204112B61TR.EXE 204112B61 ... %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: Fri Aug 29 14:10:23 2025 TRANSP Version: 24.6.0 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2025/07/31 ------------- %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_EDGE_VALUE_D2F %NLIST: open namelist file204112B61TR.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 = 0.252 %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): 1.3205E-01 1.0383E+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 - 1020469313 1020469313 %tabort_update: no namelist TABORT requests after t= 5.000000000000000E-002 AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM 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= 2.14630E-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 = 0.265 %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 Avg. GS error: 9.100E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.005% Edge Q: 28.272, target: 18.779, error: 50.548% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4074E+01 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5912E-01 % 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: 5.633E-03 Plasma Current: 2.313E+05, target: 2.224E+05, error: 3.984% Edge Q: 29.210, target: 18.779, error: 55.547% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.1214E+02 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.2127E-02 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-2.93051E-02 CPU TIME= 4.52800E-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: 7.397E-03 Plasma Current: 1.637E+05, target: 2.154E+05, error: 23.998% Edge Q: 21.485, target: 32.098, error: 33.064% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7530E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4482E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012005726908 34.6558541805193 R2(t%rmajmp, data): 146.641756937459 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012005726908 34.6558541805193 R2(t%rmajmp, data): 146.641756937459 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012005726908 34.6558541805193 R2(t%rmajmp, data): 146.641756937459 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): 31.5012005726908 34.6558541805193 R2(t%rmajmp, data): 146.641756937459 146.512661871317 (fixup applied). Avg. GS error: 7.060E-03 Plasma Current: 1.800E+05, target: 2.224E+05, error: 19.049% Edge Q: 21.461, target: 32.098, error: 33.141% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9683E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5039E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012447141736 34.6558541805193 R2(t%rmajmp, data): 147.171419835025 146.512661871317 (fixup applied). *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-9.30505E-03 CPU TIME= 4.50500E-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: 5.163E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.001% Edge Q: 18.125, target: 17.401, error: 4.158% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.3358E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5821E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.762E-03 Plasma Current: 2.224E+05, target: 2.224E+05, error: 0.003% Edge Q: 17.299, target: 17.401, error: 0.586% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5418E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5422E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.06949E-02 CPU TIME= 4.51200E-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: 4.973E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.002% Edge Q: 17.671, target: 17.458, error: 1.222% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4701E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5482E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.832E-03 Plasma Current: 2.224E+05, target: 2.224E+05, error: 0.003% Edge Q: 17.382, target: 17.458, error: 0.433% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4740E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5370E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.06949E-02 CPU TIME= 4.50500E-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= 7.09000E-03 SECONDS. DT= 1.00000E-03 %check_save_state: SLURM_JOB_ID = 6993138 %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 = 4.157194444474044E-002 %check_save_state: izleft hours = 79.8894444444445 %wrstf: start call wrstf. %wrstf: open new restart file:204112B61RS.DAT %wrstf: open204112B61RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B61_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 = 1.885E+03 MB. --> plasma_hash("gframe"): TA= 5.000000E-02 NSTEP= 1 Hash code: 19022581 ->PRGCHK: bdy curvature ratio at t= 5.0392E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050000 ; TG2= 0.050392 ; DTG= 3.922E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Avg. GS error: 3.332E-03 Plasma Current: 2.167E+05, target: 2.167E+05, error: 0.000% Edge Q: 17.561, target: 17.761, error: 1.123% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4980E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5411E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050000 TO TG2= 0.050392 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 3.3140878294195D+03 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", # 20= -1.38678E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.039216E-02 NSTEP= 2 Hash code: 103955080 ->PRGCHK: bdy curvature ratio at t= 5.0647E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050392 ; TG2= 0.050647 ; DTG= 2.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.558E-07 FluxDiff MaxDT: 3.053E-04 Avg. GS error: 3.397E-03 Plasma Current: 2.175E+05, target: 2.175E+05, error: 0.000% Edge Q: 17.755, target: 17.529, error: 1.292% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7508E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5507E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050392 TO TG2= 0.050647 @ NSTEP 2 GFRAME TG2 MOMENTS CHECKSUM: 3.3227628604257D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2 TA= 5.03922E-02 CPU TIME= 7.16200E-03 SECONDS. DT= 2.54647E-04 --> plasma_hash("gframe"): TA= 5.064680E-02 NSTEP= 3 Hash code: 119899955 ->PRGCHK: bdy curvature ratio at t= 5.0927E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050647 ; TG2= 0.050927 ; DTG= 2.805E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.853E-06 FluxDiff MaxDT: 6.396E-04 Avg. GS error: 4.411E-03 Plasma Current: 2.185E+05, target: 2.185E+05, error: 0.001% Edge Q: 18.280, target: 18.034, error: 1.363% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7670E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5091E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050647 TO TG2= 0.050927 @ NSTEP 3 GFRAME TG2 MOMENTS CHECKSUM: 3.3401727492127D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3 TA= 5.06468E-02 CPU TIME= 7.25900E-03 SECONDS. DT= 2.80481E-04 --> plasma_hash("gframe"): TA= 5.092729E-02 NSTEP= 4 Hash code: 46416136 ->PRGCHK: bdy curvature ratio at t= 5.1543E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050927 ; TG2= 0.051543 ; DTG= 6.152E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.793E-08 FluxDiff MaxDT: 1.790E-03 Avg. GS error: 4.031E-03 Plasma Current: 2.204E+05, target: 2.204E+05, error: 0.001% Edge Q: 18.176, target: 18.155, error: 0.116% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5010E+00 SECONDS DATA R*BT AT EDGE: 5.9045E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5122E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050927 TO TG2= 0.051543 @ NSTEP 4 GFRAME TG2 MOMENTS CHECKSUM: 3.3456444116257D+03 --> plasma_hash("gframe"): TA= 5.154253E-02 NSTEP= 5 Hash code: 13365458 ->PRGCHK: bdy curvature ratio at t= 5.2421E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.051543 ; TG2= 0.052421 ; DTG= 8.789E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.785E-07 FluxDiff MaxDT: 1.184E-03 Avg. GS error: 4.005E-03 Plasma Current: 2.231E+05, target: 2.231E+05, error: 0.001% Edge Q: 17.944, target: 18.442, error: 2.702% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6984E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5216E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.051543 TO TG2= 0.052421 @ NSTEP 5 GFRAME TG2 MOMENTS CHECKSUM: 3.3472783252846D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5 TA= 5.15425E-02 CPU TIME= 7.28200E-03 SECONDS. DT= 8.78927E-04 --> plasma_hash("gframe"): TA= 5.242146E-02 NSTEP= 6 Hash code: 20566702 ->PRGCHK: bdy curvature ratio at t= 5.3520E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.052421 ; TG2= 0.053520 ; DTG= 1.099E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.373E-07 FluxDiff MaxDT: 9.088E-04 Avg. GS error: 3.581E-03 Plasma Current: 2.264E+05, target: 2.264E+05, error: 0.000% Edge Q: 17.688, target: 17.925, error: 1.322% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4943E+00 SECONDS DATA R*BT AT EDGE: 5.9049E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5364E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.052421 TO TG2= 0.053520 @ NSTEP 6 GFRAME TG2 MOMENTS CHECKSUM: 3.3487630306530D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6 TA= 5.24215E-02 CPU TIME= 7.27300E-03 SECONDS. DT= 1.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7 TA= 5.34215E-02 CPU TIME= 9.49700E-03 SECONDS. DT= 9.86587E-05 --> plasma_hash("gframe"): TA= 5.352012E-02 NSTEP= 8 Hash code: 12700957 ->PRGCHK: bdy curvature ratio at t= 5.4387E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.053520 ; TG2= 0.054387 ; DTG= 8.674E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.596E-06 FluxDiff MaxDT: 8.144E-04 Avg. GS error: 3.569E-03 Plasma Current: 2.290E+05, target: 2.290E+05, error: 0.001% Edge Q: 17.521, target: 17.874, error: 1.973% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4036E+00 SECONDS DATA R*BT AT EDGE: 5.9048E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5432E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.053520 TO TG2= 0.054387 @ NSTEP 8 GFRAME TG2 MOMENTS CHECKSUM: 3.3507477802342D+03 --> plasma_hash("gframe"): TA= 5.438748E-02 NSTEP= 9 Hash code: 45385244 ->PRGCHK: bdy curvature ratio at t= 5.5168E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.054387 ; TG2= 0.055168 ; DTG= 7.806E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.389E-07 FluxDiff MaxDT: 7.880E-04 Avg. GS error: 3.546E-03 Plasma Current: 2.311E+05, target: 2.311E+05, error: 0.000% Edge Q: 17.382, target: 17.519, error: 0.784% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3343E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5511E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.054387 TO TG2= 0.055168 @ NSTEP 9 GFRAME TG2 MOMENTS CHECKSUM: 3.3520435503813D+03 --> plasma_hash("gframe"): TA= 5.516811E-02 NSTEP= 10 Hash code: 38082310 ->PRGCHK: bdy curvature ratio at t= 5.5949E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.055168 ; TG2= 0.055949 ; DTG= 7.806E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.437E-07 FluxDiff MaxDT: 8.083E-04 Avg. GS error: 3.454E-03 Plasma Current: 2.332E+05, target: 2.332E+05, error: 0.001% Edge Q: 17.269, target: 17.550, error: 1.597% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3363E+00 SECONDS DATA R*BT AT EDGE: 5.9045E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5557E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.055168 TO TG2= 0.055949 @ NSTEP 10 GFRAME TG2 MOMENTS CHECKSUM: 3.3532681851254D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10 TA= 5.51681E-02 CPU TIME= 7.26800E-03 SECONDS. DT= 7.80626E-04 --> plasma_hash("gframe"): TA= 5.594873E-02 NSTEP= 11 Hash code: 116668240 ->PRGCHK: bdy curvature ratio at t= 5.6729E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.055949 ; TG2= 0.056729 ; DTG= 7.806E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.447E-07 FluxDiff MaxDT: 8.312E-04 Avg. GS error: 3.377E-03 Plasma Current: 2.351E+05, target: 2.351E+05, error: 0.000% Edge Q: 17.156, target: 17.267, error: 0.644% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3108E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5622E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.055949 TO TG2= 0.056729 @ NSTEP 11 GFRAME TG2 MOMENTS CHECKSUM: 3.3544044721849D+03 --> plasma_hash("gframe"): TA= 5.672936E-02 NSTEP= 12 Hash code: 60833118 ->PRGCHK: bdy curvature ratio at t= 5.7559E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.056729 ; TG2= 0.057559 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.814E-07 FluxDiff MaxDT: 8.421E-04 Avg. GS error: 3.364E-03 Plasma Current: 2.373E+05, target: 2.373E+05, error: 0.001% Edge Q: 17.043, target: 17.318, error: 1.587% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3364E+00 SECONDS DATA R*BT AT EDGE: 5.9039E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5669E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.056729 TO TG2= 0.057559 @ NSTEP 12 GFRAME TG2 MOMENTS CHECKSUM: 3.3556514360854D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12 TA= 5.67294E-02 CPU TIME= 7.25700E-03 SECONDS. DT= 8.29415E-04 --> plasma_hash("gframe"): TA= 5.755877E-02 NSTEP= 13 Hash code: 96113350 ->PRGCHK: bdy curvature ratio at t= 5.8388E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.057559 ; TG2= 0.058388 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.239E-06 FluxDiff MaxDT: 8.489E-04 Avg. GS error: 3.297E-03 Plasma Current: 2.394E+05, target: 2.394E+05, error: 0.000% Edge Q: 16.928, target: 17.042, error: 0.671% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3083E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5735E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.057559 TO TG2= 0.058388 @ NSTEP 13 GFRAME TG2 MOMENTS CHECKSUM: 3.3568917654479D+03 --> plasma_hash("gframe"): TA= 5.838819E-02 NSTEP= 14 Hash code: 83987308 ->PRGCHK: bdy curvature ratio at t= 5.9218E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.058388 ; TG2= 0.059218 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.232E-06 FluxDiff MaxDT: 8.565E-04 Avg. GS error: 3.314E-03 Plasma Current: 2.415E+05, target: 2.415E+05, error: 0.001% Edge Q: 16.820, target: 17.083, error: 1.538% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3360E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5774E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.058388 TO TG2= 0.059218 @ NSTEP 14 GFRAME TG2 MOMENTS CHECKSUM: 3.3581776871228D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 14 TA= 5.83882E-02 CPU TIME= 7.26100E-03 SECONDS. DT= 8.29415E-04 --> plasma_hash("gframe"): TA= 5.921760E-02 NSTEP= 15 Hash code: 51501184 ->PRGCHK: bdy curvature ratio at t= 6.0047E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.059218 ; TG2= 0.060047 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.363E-06 FluxDiff MaxDT: 8.495E-04 Avg. GS error: 3.233E-03 Plasma Current: 2.437E+05, target: 2.437E+05, error: 0.000% Edge Q: 16.702, target: 16.821, error: 0.706% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3378E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5838E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.059218 TO TG2= 0.060047 @ NSTEP 15 GFRAME TG2 MOMENTS CHECKSUM: 3.3593967002405D+03 --> plasma_hash("gframe"): TA= 6.004702E-02 NSTEP= 16 Hash code: 57595163 ->PRGCHK: bdy curvature ratio at t= 6.0876E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.060047 ; TG2= 0.060876 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.472E-06 FluxDiff MaxDT: 8.334E-04 Avg. GS error: 3.249E-03 Plasma Current: 2.461E+05, target: 2.461E+05, error: 0.001% Edge Q: 16.584, target: 16.852, error: 1.588% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3352E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5905E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.060047 TO TG2= 0.060876 @ NSTEP 16 GFRAME TG2 MOMENTS CHECKSUM: 3.3606623886882D+03 --> plasma_hash("gframe"): TA= 6.087643E-02 NSTEP= 17 Hash code: 37468581 ->PRGCHK: bdy curvature ratio at t= 6.1706E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.060876 ; TG2= 0.061706 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.536E-06 FluxDiff MaxDT: 8.332E-04 Avg. GS error: 3.163E-03 Plasma Current: 2.485E+05, target: 2.485E+05, error: 0.001% Edge Q: 16.463, target: 16.587, error: 0.751% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3418E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5975E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.060876 TO TG2= 0.061706 @ NSTEP 17 GFRAME TG2 MOMENTS CHECKSUM: 3.3618515403951D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 17 TA= 6.08764E-02 CPU TIME= 7.25100E-03 SECONDS. DT= 8.29415E-04 --> plasma_hash("gframe"): TA= 6.170585E-02 NSTEP= 18 Hash code: 32259377 ->PRGCHK: bdy curvature ratio at t= 6.2535E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.061706 ; TG2= 0.062535 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.570E-06 FluxDiff MaxDT: 8.453E-04 Avg. GS error: 3.187E-03 Plasma Current: 2.508E+05, target: 2.508E+05, error: 0.001% Edge Q: 16.352, target: 16.608, error: 1.542% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3387E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6032E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.061706 TO TG2= 0.062535 @ NSTEP 18 GFRAME TG2 MOMENTS CHECKSUM: 3.3629835165501D+03 --> plasma_hash("gframe"): TA= 6.253526E-02 NSTEP= 19 Hash code: 28358514 ->PRGCHK: bdy curvature ratio at t= 6.3365E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.062535 ; TG2= 0.063365 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.589E-06 FluxDiff MaxDT: 8.598E-04 Avg. GS error: 3.120E-03 Plasma Current: 2.531E+05, target: 2.531E+05, error: 0.001% Edge Q: 16.240, target: 16.357, error: 0.716% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3428E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6089E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.062535 TO TG2= 0.063365 @ NSTEP 19 GFRAME TG2 MOMENTS CHECKSUM: 3.3639601123364D+03 --> plasma_hash("gframe"): TA= 6.336468E-02 NSTEP= 20 Hash code: 47135711 ->PRGCHK: bdy curvature ratio at t= 6.4194E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.063365 ; TG2= 0.064194 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.619E-06 FluxDiff MaxDT: 8.751E-04 Avg. GS error: 3.150E-03 Plasma Current: 2.553E+05, target: 2.553E+05, error: 0.001% Edge Q: 16.138, target: 16.381, error: 1.488% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3454E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6115E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.063365 TO TG2= 0.064194 @ NSTEP 20 GFRAME TG2 MOMENTS CHECKSUM: 3.3649426302180D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 20 TA= 6.33647E-02 CPU TIME= 7.29000E-03 SECONDS. DT= 8.29415E-04 --> plasma_hash("gframe"): TA= 6.419409E-02 NSTEP= 21 Hash code: 31287483 ->PRGCHK: bdy curvature ratio at t= 6.5024E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.064194 ; TG2= 0.065024 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.630E-06 FluxDiff MaxDT: 8.974E-04 Avg. GS error: 3.101E-03 Plasma Current: 2.573E+05, target: 2.573E+05, error: 0.001% Edge Q: 16.037, target: 16.145, error: 0.672% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3211E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6156E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.064194 TO TG2= 0.065024 @ NSTEP 21 GFRAME TG2 MOMENTS CHECKSUM: 3.3658128495157D+03 --> plasma_hash("gframe"): TA= 6.502351E-02 NSTEP= 22 Hash code: 121243208 ->PRGCHK: bdy curvature ratio at t= 6.5853E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.065024 ; TG2= 0.065853 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.647E-06 FluxDiff MaxDT: 9.175E-04 Avg. GS error: 3.130E-03 Plasma Current: 2.593E+05, target: 2.593E+05, error: 0.001% Edge Q: 15.946, target: 16.175, error: 1.421% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3497E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6183E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.065024 TO TG2= 0.065853 @ NSTEP 22 GFRAME TG2 MOMENTS CHECKSUM: 3.3666487673856D+03 --> plasma_hash("gframe"): TA= 6.585292E-02 NSTEP= 23 Hash code: 23196438 ->PRGCHK: bdy curvature ratio at t= 6.6682E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.065853 ; TG2= 0.066682 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.657E-06 FluxDiff MaxDT: 9.349E-04 Avg. GS error: 3.092E-03 Plasma Current: 2.613E+05, target: 2.613E+05, error: 0.001% Edge Q: 15.852, target: 15.955, error: 0.648% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3265E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6218E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.065853 TO TG2= 0.066682 @ NSTEP 23 GFRAME TG2 MOMENTS CHECKSUM: 3.3674218407693D+03 --> plasma_hash("gframe"): TA= 6.668234E-02 NSTEP= 24 Hash code: 57831108 ->PRGCHK: bdy curvature ratio at t= 6.7512E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.066682 ; TG2= 0.067512 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.681E-06 FluxDiff MaxDT: 9.487E-04 Avg. GS error: 3.116E-03 Plasma Current: 2.632E+05, target: 2.632E+05, error: 0.001% Edge Q: 15.764, target: 15.987, error: 1.395% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3256E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6244E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.066682 TO TG2= 0.067512 @ NSTEP 24 GFRAME TG2 MOMENTS CHECKSUM: 3.3681853762893D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 24 TA= 6.66823E-02 CPU TIME= 7.23600E-03 SECONDS. DT= 8.29415E-04 --> plasma_hash("gframe"): TA= 6.751175E-02 NSTEP= 25 Hash code: 22351828 ->PRGCHK: bdy curvature ratio at t= 6.8341E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.067512 ; TG2= 0.068341 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.690E-06 FluxDiff MaxDT: 9.708E-04 Avg. GS error: 3.082E-03 Plasma Current: 2.650E+05, target: 2.650E+05, error: 0.001% Edge Q: 15.676, target: 15.775, error: 0.623% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3219E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6284E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.067512 TO TG2= 0.068341 @ NSTEP 25 GFRAME TG2 MOMENTS CHECKSUM: 3.3688465288587D+03 --> plasma_hash("gframe"): TA= 6.834117E-02 NSTEP= 26 Hash code: 93506490 ->PRGCHK: bdy curvature ratio at t= 6.9171E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.068341 ; TG2= 0.069171 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.696E-06 FluxDiff MaxDT: 1.004E-03 Avg. GS error: 3.097E-03 Plasma Current: 2.667E+05, target: 2.667E+05, error: 0.001% Edge Q: 15.600, target: 15.809, error: 1.324% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3206E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6313E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.068341 TO TG2= 0.069171 @ NSTEP 26 GFRAME TG2 MOMENTS CHECKSUM: 3.3694378810453D+03 --> plasma_hash("gframe"): TA= 6.917058E-02 NSTEP= 27 Hash code: 105597862 ->PRGCHK: bdy curvature ratio at t= 7.0000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.069171 ; TG2= 0.070000 ; DTG= 8.294E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.680E-06 FluxDiff MaxDT: 1.046E-03 Avg. GS error: 3.065E-03 Plasma Current: 2.682E+05, target: 2.682E+05, error: 0.001% Edge Q: 15.527, target: 15.612, error: 0.546% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3259E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6353E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.069171 TO TG2= 0.070000 @ NSTEP 27 GFRAME TG2 MOMENTS CHECKSUM: 3.3699034315110D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= 2.02261E-38 RESET TO ZERO %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 28 TA= 7.00000E-02 CPU TIME= 7.12600E-03 SECONDS. DT= 1.03677E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 6.198777777831310E-002 %check_save_state: izleft hours = 79.8691666666667 --> plasma_hash("gframe"): TA= 7.000000E-02 NSTEP= 28 Hash code: 41181655 ->PRGCHK: bdy curvature ratio at t= 7.1000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.070000 ; TG2= 0.071000 ; DTG= 1.000E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.061E-06 FluxDiff MaxDT: 1.101E-03 Avg. GS error: 3.080E-03 Plasma Current: 2.699E+05, target: 2.699E+05, error: 0.001% Edge Q: 15.448, target: 15.657, error: 1.340% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3576E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6385E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.070000 TO TG2= 0.071000 @ NSTEP 28 GFRAME TG2 MOMENTS CHECKSUM: 3.3702641297460D+03 --> plasma_hash("gframe"): TA= 7.100000E-02 NSTEP= 29 Hash code: 18270008 ->PRGCHK: bdy curvature ratio at t= 7.2056E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.071000 ; TG2= 0.072056 ; DTG= 1.056E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.782E-06 FluxDiff MaxDT: 1.141E-03 Avg. GS error: 3.050E-03 Plasma Current: 2.714E+05, target: 2.714E+05, error: 0.001% Edge Q: 15.370, target: 15.460, error: 0.585% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3257E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6425E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.071000 TO TG2= 0.072056 @ NSTEP 29 GFRAME TG2 MOMENTS CHECKSUM: 3.3706779951120D+03 --> plasma_hash("gframe"): TA= 7.205556E-02 NSTEP= 31 Hash code: 122460295 ->PRGCHK: bdy curvature ratio at t= 7.3177E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.072056 ; TG2= 0.073177 ; DTG= 1.122E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.847E-06 FluxDiff MaxDT: 1.180E-03 Avg. GS error: 3.063E-03 Plasma Current: 2.730E+05, target: 2.730E+05, error: 0.001% Edge Q: 15.293, target: 15.499, error: 1.326% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3222E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6457E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.072056 TO TG2= 0.073177 @ NSTEP 31 GFRAME TG2 MOMENTS CHECKSUM: 3.3710050064155D+03 --> plasma_hash("gframe"): TA= 7.317708E-02 NSTEP= 32 Hash code: 13010000 ->PRGCHK: bdy curvature ratio at t= 7.4299E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.073177 ; TG2= 0.074299 ; DTG= 1.122E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.152E-06 FluxDiff MaxDT: 1.201E-03 Avg. GS error: 3.035E-03 Plasma Current: 2.746E+05, target: 2.746E+05, error: 0.001% Edge Q: 15.214, target: 15.306, error: 0.600% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2972E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6490E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.073177 TO TG2= 0.074299 @ NSTEP 32 GFRAME TG2 MOMENTS CHECKSUM: 3.3714313518388D+03 --> plasma_hash("gframe"): TA= 7.429861E-02 NSTEP= 33 Hash code: 109125147 ->PRGCHK: bdy curvature ratio at t= 7.5420E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.074299 ; TG2= 0.075420 ; DTG= 1.122E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.000E-06 FluxDiff MaxDT: 1.246E-03 Avg. GS error: 3.052E-03 Plasma Current: 2.761E+05, target: 2.761E+05, error: 0.001% Edge Q: 15.146, target: 15.342, error: 1.280% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3262E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6512E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.074299 TO TG2= 0.075420 @ NSTEP 33 GFRAME TG2 MOMENTS CHECKSUM: 3.3717594770658D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 33 TA= 7.42986E-02 CPU TIME= 7.28000E-03 SECONDS. DT= 1.12153E-03 --> plasma_hash("gframe"): TA= 7.542014E-02 NSTEP= 34 Hash code: 89916436 ->PRGCHK: bdy curvature ratio at t= 7.6635E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.075420 ; TG2= 0.076635 ; DTG= 1.215E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.329E-06 FluxDiff MaxDT: 1.319E-03 Avg. GS error: 3.026E-03 Plasma Current: 2.774E+05, target: 2.774E+05, error: 0.001% Edge Q: 15.077, target: 15.158, error: 0.539% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2962E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6542E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.075420 TO TG2= 0.076635 @ NSTEP 34 GFRAME TG2 MOMENTS CHECKSUM: 3.3718687637844D+03 --> plasma_hash("gframe"): TA= 7.663513E-02 NSTEP= 35 Hash code: 82878456 ->PRGCHK: bdy curvature ratio at t= 7.7850E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.076635 ; TG2= 0.077850 ; DTG= 1.215E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.581E-06 FluxDiff MaxDT: 1.402E-03 Avg. GS error: 3.049E-03 Plasma Current: 2.783E+05, target: 2.783E+05, error: 0.001% Edge Q: 15.027, target: 15.204, error: 1.162% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3306E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6559E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.076635 TO TG2= 0.077850 @ NSTEP 35 GFRAME TG2 MOMENTS CHECKSUM: 3.3719586108275D+03 --> plasma_hash("gframe"): TA= 7.785012E-02 NSTEP= 36 Hash code: 9081206 ->PRGCHK: bdy curvature ratio at t= 7.9200E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.077850 ; TG2= 0.079200 ; DTG= 1.350E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.794E-06 FluxDiff MaxDT: 1.444E-03 Avg. GS error: 3.022E-03 Plasma Current: 2.794E+05, target: 2.794E+05, error: 0.001% Edge Q: 14.963, target: 15.040, error: 0.512% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3231E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6576E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.077850 TO TG2= 0.079200 @ NSTEP 36 GFRAME TG2 MOMENTS CHECKSUM: 3.3719089577076D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 37 TA= 7.91461E-02 CPU TIME= 3.09270E-02 SECONDS. DT= 5.40262E-05 --> plasma_hash("gframe"): TA= 7.920010E-02 NSTEP= 38 Hash code: 30058124 ->PRGCHK: bdy curvature ratio at t= 8.0550E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.079200 ; TG2= 0.080550 ; DTG= 1.350E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.459E-06 FluxDiff MaxDT: 1.391E-03 Avg. GS error: 3.035E-03 Plasma Current: 2.809E+05, target: 2.809E+05, error: 0.001% Edge Q: 14.894, target: 15.089, error: 1.292% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3161E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6577E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.079200 TO TG2= 0.080550 @ NSTEP 38 GFRAME TG2 MOMENTS CHECKSUM: 3.3721867581113D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 8.000000000000000E-002 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 1.00000000E+13 to 1.40000000E+13 namelist update changed APROF_EDGE_VALUE_NER from 4.00000000E+12 to 2.50000000E+12 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 8.055009E-02 NSTEP= 42 Hash code: 14758085 ->PRGCHK: bdy curvature ratio at t= 8.1900E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.080550 ; TG2= 0.081900 ; DTG= 1.350E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.229E-06 FluxDiff MaxDT: 1.348E-03 Avg. GS error: 2.999E-03 Plasma Current: 2.827E+05, target: 2.827E+05, error: 0.001% Edge Q: 14.806, target: 14.907, error: 0.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2848E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6584E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.080550 TO TG2= 0.081900 @ NSTEP 42 GFRAME TG2 MOMENTS CHECKSUM: 3.3725655955587D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 46 TA= 8.13733E-02 CPU TIME= 7.69200E-03 SECONDS. DT= 2.53941E-04 --> plasma_hash("gframe"): TA= 8.190008E-02 NSTEP= 49 Hash code: 102928294 ->PRGCHK: bdy curvature ratio at t= 8.3057E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.081900 ; TG2= 0.083057 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.705E-06 FluxDiff MaxDT: 1.309E-03 Avg. GS error: 3.005E-03 Plasma Current: 2.846E+05, target: 2.846E+05, error: 0.001% Edge Q: 14.725, target: 14.932, error: 1.381% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2950E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6580E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.081900 TO TG2= 0.083057 @ NSTEP 49 GFRAME TG2 MOMENTS CHECKSUM: 3.3731851844478D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 53 TA= 8.26801E-02 CPU TIME= 7.45000E-03 SECONDS. DT= 2.40835E-04 --> plasma_hash("gframe"): TA= 8.305721E-02 NSTEP= 55 Hash code: 90798129 ->PRGCHK: bdy curvature ratio at t= 8.4214E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.083057 ; TG2= 0.084214 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.072E-06 FluxDiff MaxDT: 1.339E-03 Avg. GS error: 2.957E-03 Plasma Current: 2.865E+05, target: 2.865E+05, error: 0.001% Edge Q: 14.636, target: 14.736, error: 0.681% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2896E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6591E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.083057 TO TG2= 0.084214 @ NSTEP 55 GFRAME TG2 MOMENTS CHECKSUM: 3.3735807226467D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60 TA= 8.40387E-02 CPU TIME= 1.65045E-01 SECONDS. DT= 1.75596E-04 --> plasma_hash("gframe"): TA= 8.421434E-02 NSTEP= 61 Hash code: 75231089 ->PRGCHK: bdy curvature ratio at t= 8.5371E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.084214 ; TG2= 0.085371 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.440E-06 FluxDiff MaxDT: 1.363E-03 Avg. GS error: 2.750E-03 Plasma Current: 2.884E+05, target: 2.884E+05, error: 0.001% Edge Q: 14.554, target: 14.760, error: 1.395% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3174E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6591E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.084214 TO TG2= 0.085371 @ NSTEP 61 GFRAME TG2 MOMENTS CHECKSUM: 3.3740314518579D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67 TA= 8.53250E-02 CPU TIME= 1.55989E-01 SECONDS. DT= 4.64435E-05 --> plasma_hash("gframe"): TA= 8.537147E-02 NSTEP= 68 Hash code: 48069280 ->PRGCHK: bdy curvature ratio at t= 8.6529E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.085371 ; TG2= 0.086529 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.280E-06 FluxDiff MaxDT: 1.365E-03 Avg. GS error: 2.682E-03 Plasma Current: 2.904E+05, target: 2.904E+05, error: 0.001% Edge Q: 14.462, target: 14.563, error: 0.697% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2866E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6599E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.085371 TO TG2= 0.086529 @ NSTEP 68 GFRAME TG2 MOMENTS CHECKSUM: 3.3744885460343D+03 --> plasma_hash("gframe"): TA= 8.652860E-02 NSTEP= 75 Hash code: 45498547 ->PRGCHK: bdy curvature ratio at t= 8.7686E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.086529 ; TG2= 0.087686 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.444E-06 FluxDiff MaxDT: 1.359E-03 Avg. GS error: 2.674E-03 Plasma Current: 2.925E+05, target: 2.925E+05, error: 0.001% Edge Q: 14.371, target: 14.583, error: 1.453% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3117E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6601E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.086529 TO TG2= 0.087686 @ NSTEP 75 GFRAME TG2 MOMENTS CHECKSUM: 3.3750880985466D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 75 TA= 8.65286E-02 CPU TIME= 7.21100E-03 SECONDS. DT= 2.07404E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 82 TA= 8.76460E-02 CPU TIME= 2.45925E-01 SECONDS. DT= 3.97645E-05 --> plasma_hash("gframe"): TA= 8.768574E-02 NSTEP= 83 Hash code: 10997492 ->PRGCHK: bdy curvature ratio at t= 8.8843E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.087686 ; TG2= 0.088843 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.436E-06 FluxDiff MaxDT: 1.359E-03 Avg. GS error: 2.606E-03 Plasma Current: 2.947E+05, target: 2.947E+05, error: 0.001% Edge Q: 14.275, target: 14.379, error: 0.727% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2836E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6612E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.087686 TO TG2= 0.088843 @ NSTEP 83 GFRAME TG2 MOMENTS CHECKSUM: 3.3756381361251D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89 TA= 8.86976E-02 CPU TIME= 4.54540E-02 SECONDS. DT= 1.45284E-04 --> plasma_hash("gframe"): TA= 8.884287E-02 NSTEP= 90 Hash code: 26629547 ->PRGCHK: bdy curvature ratio at t= 9.0000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.088843 ; TG2= 0.090000 ; DTG= 1.157E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.516E-06 FluxDiff MaxDT: 1.349E-03 Avg. GS error: 2.595E-03 Plasma Current: 2.970E+05, target: 2.970E+05, error: 0.001% Edge Q: 14.178, target: 14.393, error: 1.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3275E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6619E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.088843 TO TG2= 0.090000 @ NSTEP 90 GFRAME TG2 MOMENTS CHECKSUM: 3.3762783771360D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 95 TA= 8.96770E-02 CPU TIME= 3.86840E-02 SECONDS. DT= 2.05228E-04 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97 TA= 9.00000E-02 CPU TIME= 7.56100E-03 SECONDS. DT= 2.00196E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 7.922222222259734E-002 %check_save_state: izleft hours = 79.8519444444444 --> plasma_hash("gframe"): TA= 9.000000E-02 NSTEP= 97 Hash code: 53146969 ->PRGCHK: bdy curvature ratio at t= 9.1333E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.090000 ; TG2= 0.091333 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.329E-06 FluxDiff MaxDT: 1.391E-03 Avg. GS error: 2.533E-03 Plasma Current: 2.994E+05, target: 2.994E+05, error: 0.001% Edge Q: 14.072, target: 14.185, error: 0.800% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3336E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6634E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.090000 TO TG2= 0.091333 @ NSTEP 97 GFRAME TG2 MOMENTS CHECKSUM: 3.3766525499814D+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= 1.31299E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 9.133333E-02 NSTEP= 102 Hash code: 53864129 ->PRGCHK: bdy curvature ratio at t= 9.2667E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.091333 ; TG2= 0.092667 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.938E-06 FluxDiff MaxDT: 1.406E-03 Avg. GS error: 2.544E-03 Plasma Current: 3.016E+05, target: 3.016E+05, error: 0.001% Edge Q: 13.978, target: 14.187, error: 1.471% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3273E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6642E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.091333 TO TG2= 0.092667 @ NSTEP 102 GFRAME TG2 MOMENTS CHECKSUM: 3.3771655012230D+03 --> plasma_hash("gframe"): TA= 9.266667E-02 NSTEP= 105 Hash code: 119641549 ->PRGCHK: bdy curvature ratio at t= 9.4000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.092667 ; TG2= 0.094000 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.660E-06 FluxDiff MaxDT: 1.388E-03 Avg. GS error: 2.505E-03 Plasma Current: 3.040E+05, target: 3.040E+05, error: 0.001% Edge Q: 13.881, target: 13.984, error: 0.738% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3296E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6645E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.092667 TO TG2= 0.094000 @ NSTEP 105 GFRAME TG2 MOMENTS CHECKSUM: 3.3777025358883D+03 --> plasma_hash("gframe"): TA= 9.400000E-02 NSTEP= 107 Hash code: 34322001 ->PRGCHK: bdy curvature ratio at t= 9.5333E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.094000 ; TG2= 0.095333 ; DTG= 1.333E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.910E-06 FluxDiff MaxDT: 1.324E-03 Avg. GS error: 2.510E-03 Plasma Current: 3.066E+05, target: 3.066E+05, error: 0.001% Edge Q: 13.777, target: 13.994, error: 1.548% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3317E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6647E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.094000 TO TG2= 0.095333 @ NSTEP 107 GFRAME TG2 MOMENTS CHECKSUM: 3.3783256139695D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 108 TA= 9.50501E-02 CPU TIME= 2.56570E-02 SECONDS. DT= 2.83265E-04 --> plasma_hash("gframe"): TA= 9.533333E-02 NSTEP= 109 Hash code: 14047769 ->PRGCHK: bdy curvature ratio at t= 9.6556E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.095333 ; TG2= 0.096556 ; DTG= 1.222E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.418E-06 FluxDiff MaxDT: 1.251E-03 Avg. GS error: 2.468E-03 Plasma Current: 3.094E+05, target: 3.094E+05, error: 0.001% Edge Q: 13.672, target: 13.783, error: 0.802% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3487E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6644E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.095333 TO TG2= 0.096556 @ NSTEP 109 GFRAME TG2 MOMENTS CHECKSUM: 3.3790695754529D+03 --> plasma_hash("gframe"): TA= 9.655556E-02 NSTEP= 110 Hash code: 105710699 ->PRGCHK: bdy curvature ratio at t= 9.7778E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.096556 ; TG2= 0.097778 ; DTG= 1.222E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.265E-06 FluxDiff MaxDT: 1.183E-03 Avg. GS error: 2.469E-03 Plasma Current: 3.126E+05, target: 3.126E+05, error: 0.001% Edge Q: 13.555, target: 13.781, error: 1.639% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3360E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6617E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.096556 TO TG2= 0.097778 @ NSTEP 110 GFRAME TG2 MOMENTS CHECKSUM: 3.3798065141187D+03 --> plasma_hash("gframe"): TA= 9.777778E-02 NSTEP= 111 Hash code: 34577187 ->PRGCHK: bdy curvature ratio at t= 9.8889E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.097778 ; TG2= 0.098889 ; DTG= 1.111E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.026E-06 FluxDiff MaxDT: 1.113E-03 Avg. GS error: 2.423E-03 Plasma Current: 3.159E+05, target: 3.159E+05, error: 0.001% Edge Q: 13.441, target: 13.560, error: 0.874% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3563E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6587E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.097778 TO TG2= 0.098889 @ NSTEP 111 GFRAME TG2 MOMENTS CHECKSUM: 3.3806330065960D+03 --> plasma_hash("gframe"): TA= 9.888889E-02 NSTEP= 112 Hash code: 74835463 ->PRGCHK: bdy curvature ratio at t= 1.0000E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.098889 ; TG2= 0.100000 ; DTG= 1.111E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.782E-06 FluxDiff MaxDT: 1.065E-03 Avg. GS error: 2.429E-03 Plasma Current: 3.195E+05, target: 3.195E+05, error: 0.001% Edge Q: 13.318, target: 13.546, error: 1.681% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3679E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6554E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.098889 TO TG2= 0.100000 @ NSTEP 112 GFRAME TG2 MOMENTS CHECKSUM: 3.3814289811488D+03 --> plasma_hash("gframe"): TA= 1.000000E-01 NSTEP= 113 Hash code: 12830261 ->PRGCHK: bdy curvature ratio at t= 1.0100E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.100000 ; TG2= 0.101000 ; DTG= 1.000E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.563E-06 FluxDiff MaxDT: 1.017E-03 Avg. GS error: 2.384E-03 Plasma Current: 3.230E+05, target: 3.230E+05, error: 0.001% Edge Q: 13.201, target: 13.321, error: 0.905% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3684E+00 SECONDS DATA R*BT AT EDGE: 5.9039E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6521E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.100000 TO TG2= 0.101000 @ NSTEP 113 GFRAME TG2 MOMENTS CHECKSUM: 3.3823474484296D+03 --> plasma_hash("gframe"): TA= 1.010000E-01 NSTEP= 114 Hash code: 50402203 ->PRGCHK: bdy curvature ratio at t= 1.0200E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.101000 ; TG2= 0.102000 ; DTG= 1.000E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.280E-06 FluxDiff MaxDT: 9.988E-04 Avg. GS error: 2.388E-03 Plasma Current: 3.267E+05, target: 3.266E+05, error: 0.001% Edge Q: 13.082, target: 13.302, error: 1.657% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3631E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6491E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.101000 TO TG2= 0.102000 @ NSTEP 114 GFRAME TG2 MOMENTS CHECKSUM: 3.3831389036301D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 114 TA= 1.01000E-01 CPU TIME= 7.37900E-03 SECONDS. DT= 1.00000E-03 --> plasma_hash("gframe"): TA= 1.020000E-01 NSTEP= 115 Hash code: 100109347 ->PRGCHK: bdy curvature ratio at t= 1.0289E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.102000 ; TG2= 0.102889 ; DTG= 8.889E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.006E-06 FluxDiff MaxDT: 9.861E-04 Avg. GS error: 2.350E-03 Plasma Current: 3.299E+05, target: 3.299E+05, error: 0.001% Edge Q: 12.977, target: 13.084, error: 0.819% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3585E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6475E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.102000 TO TG2= 0.102889 @ NSTEP 115 GFRAME TG2 MOMENTS CHECKSUM: 3.3839456205491D+03 --> plasma_hash("gframe"): TA= 1.028889E-01 NSTEP= 116 Hash code: 113747220 ->PRGCHK: bdy curvature ratio at t= 1.0378E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.102889 ; TG2= 0.103778 ; DTG= 8.889E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.667E-06 FluxDiff MaxDT: 1.008E-03 Avg. GS error: 2.365E-03 Plasma Current: 3.331E+05, target: 3.331E+05, error: 0.001% Edge Q: 12.877, target: 13.075, error: 1.516% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3595E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6462E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.102889 TO TG2= 0.103778 @ NSTEP 116 GFRAME TG2 MOMENTS CHECKSUM: 3.3845038107698D+03 --> plasma_hash("gframe"): TA= 1.037778E-01 NSTEP= 117 Hash code: 55076108 ->PRGCHK: bdy curvature ratio at t= 1.0467E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.103778 ; TG2= 0.104667 ; DTG= 8.889E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.861E-06 FluxDiff MaxDT: 1.038E-03 Avg. GS error: 2.334E-03 Plasma Current: 3.360E+05, target: 3.359E+05, error: 0.001% Edge Q: 12.784, target: 12.879, error: 0.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3586E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6468E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.103778 TO TG2= 0.104667 @ NSTEP 117 GFRAME TG2 MOMENTS CHECKSUM: 3.3849491616871D+03 --> plasma_hash("gframe"): TA= 1.046667E-01 NSTEP= 118 Hash code: 27904501 ->PRGCHK: bdy curvature ratio at t= 1.0556E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.104667 ; TG2= 0.105556 ; DTG= 8.889E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.734E-06 FluxDiff MaxDT: 1.102E-03 Avg. GS error: 2.357E-03 Plasma Current: 3.384E+05, target: 3.384E+05, error: 0.001% Edge Q: 12.706, target: 12.881, error: 1.364% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3593E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6474E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.104667 TO TG2= 0.105556 @ NSTEP 118 GFRAME TG2 MOMENTS CHECKSUM: 3.3852184504945D+03 --> plasma_hash("gframe"): TA= 1.055556E-01 NSTEP= 119 Hash code: 123274012 ->PRGCHK: bdy curvature ratio at t= 1.0644E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.105556 ; TG2= 0.106444 ; DTG= 8.889E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.719E-06 FluxDiff MaxDT: 1.197E-03 Avg. GS error: 2.339E-03 Plasma Current: 3.404E+05, target: 3.404E+05, error: 0.001% Edge Q: 12.638, target: 12.707, error: 0.541% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3500E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6486E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.105556 TO TG2= 0.106444 @ NSTEP 119 GFRAME TG2 MOMENTS CHECKSUM: 3.3853152764714D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 119 TA= 1.05556E-01 CPU TIME= 7.36000E-03 SECONDS. DT= 8.88889E-04 --> plasma_hash("gframe"): TA= 1.064444E-01 NSTEP= 120 Hash code: 18285837 ->PRGCHK: bdy curvature ratio at t= 1.0763E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.106444 ; TG2= 0.107630 ; DTG= 1.185E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.093E-06 FluxDiff MaxDT: 1.344E-03 Avg. GS error: 2.369E-03 Plasma Current: 3.423E+05, target: 3.423E+05, error: 0.001% Edge Q: 12.569, target: 12.735, error: 1.304% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4955E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6497E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.106444 TO TG2= 0.107630 @ NSTEP 120 GFRAME TG2 MOMENTS CHECKSUM: 3.3849750537082D+03 --> plasma_hash("gframe"): TA= 1.076296E-01 NSTEP= 121 Hash code: 94183471 ->PRGCHK: bdy curvature ratio at t= 1.0881E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.107630 ; TG2= 0.108815 ; DTG= 1.185E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.784E-06 FluxDiff MaxDT: 1.531E-03 Avg. GS error: 2.385E-03 Plasma Current: 3.436E+05, target: 3.436E+05, error: 0.001% Edge Q: 12.522, target: 12.570, error: 0.388% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3953E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6495E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.107630 TO TG2= 0.108815 @ NSTEP 121 GFRAME TG2 MOMENTS CHECKSUM: 3.3847567234983D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 121 TA= 1.07630E-01 CPU TIME= 7.41900E-03 SECONDS. DT= 1.18519E-03 --> plasma_hash("gframe"): TA= 1.088148E-01 NSTEP= 122 Hash code: 46182224 ->PRGCHK: bdy curvature ratio at t= 1.1000E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.108815 ; TG2= 0.110000 ; DTG= 1.185E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.125E-06 FluxDiff MaxDT: 1.731E-03 Avg. GS error: 2.456E-03 Plasma Current: 3.447E+05, target: 3.447E+05, error: 0.001% Edge Q: 12.482, target: 12.623, error: 1.118% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3053E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6452E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.108815 TO TG2= 0.110000 @ NSTEP 122 GFRAME TG2 MOMENTS CHECKSUM: 3.3846607109663D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 122 TA= 1.08815E-01 CPU TIME= 7.35500E-03 SECONDS. DT= 1.18519E-03 %MFRCHK - LABEL "BALE0_SGF", # 20= 1.22699E-38 RESET TO ZERO %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 123 TA= 1.10000E-01 CPU TIME= 7.68900E-03 SECONDS. DT= 1.48148E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 9.210861111159829E-002 %check_save_state: izleft hours = 79.8391666666667 --> plasma_hash("gframe"): TA= 1.100000E-01 NSTEP= 123 Hash code: 62284579 ->PRGCHK: bdy curvature ratio at t= 1.1147E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.110000 ; TG2= 0.111470 ; DTG= 1.470E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.144E-06 FluxDiff MaxDT: 1.695E-03 Avg. GS error: 2.475E-03 Plasma Current: 3.471E+05, target: 3.470E+05, error: 0.000% Edge Q: 12.407, target: 12.468, error: 0.485% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3800E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6372E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.110000 TO TG2= 0.111470 @ NSTEP 123 GFRAME TG2 MOMENTS CHECKSUM: 3.3849026643595D+03 --> plasma_hash("gframe"): TA= 1.114700E-01 NSTEP= 124 Hash code: 12678888 ->PRGCHK: bdy curvature ratio at t= 1.1305E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.111470 ; TG2= 0.113053 ; DTG= 1.583E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.961E-06 FluxDiff MaxDT: 1.492E-03 Avg. GS error: 2.491E-03 Plasma Current: 3.509E+05, target: 3.509E+05, error: 0.001% Edge Q: 12.300, target: 12.514, error: 1.709% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3754E+00 SECONDS DATA R*BT AT EDGE: 5.9021E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6274E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.111470 TO TG2= 0.113053 @ NSTEP 124 GFRAME TG2 MOMENTS CHECKSUM: 3.3858183248666D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 125 TA= 1.12951E-01 CPU TIME= 8.02830E-02 SECONDS. DT= 1.01595E-04 --> plasma_hash("gframe"): TA= 1.130531E-01 NSTEP= 126 Hash code: 87064071 ->PRGCHK: bdy curvature ratio at t= 1.1451E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.113053 ; TG2= 0.114514 ; DTG= 1.461E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.442E-06 FluxDiff MaxDT: 1.359E-03 Avg. GS error: 2.475E-03 Plasma Current: 3.552E+05, target: 3.552E+05, error: 0.001% Edge Q: 12.185, target: 12.270, error: 0.691% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3795E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6208E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.113053 TO TG2= 0.114514 @ NSTEP 126 GFRAME TG2 MOMENTS CHECKSUM: 3.3869212118249D+03 --> plasma_hash("gframe"): TA= 1.145144E-01 NSTEP= 127 Hash code: 61804064 ->PRGCHK: bdy curvature ratio at t= 1.1586E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.114514 ; TG2= 0.115863 ; DTG= 1.349E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.400E-06 FluxDiff MaxDT: 1.354E-03 Avg. GS error: 2.469E-03 Plasma Current: 3.588E+05, target: 3.588E+05, error: 0.001% Edge Q: 12.090, target: 12.289, error: 1.616% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4113E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6141E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.114514 TO TG2= 0.115863 @ NSTEP 127 GFRAME TG2 MOMENTS CHECKSUM: 3.3876814695168D+03 --> plasma_hash("gframe"): TA= 1.158633E-01 NSTEP= 128 Hash code: 3697195 ->PRGCHK: bdy curvature ratio at t= 1.1721E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.115863 ; TG2= 0.117212 ; DTG= 1.349E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.190E-06 FluxDiff MaxDT: 1.451E-03 Avg. GS error: 2.446E-03 Plasma Current: 3.616E+05, target: 3.615E+05, error: 0.001% Edge Q: 12.014, target: 12.056, error: 0.351% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3843E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6106E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.115863 TO TG2= 0.117212 @ NSTEP 128 GFRAME TG2 MOMENTS CHECKSUM: 3.3878523427100D+03 --> plasma_hash("gframe"): TA= 1.172122E-01 NSTEP= 129 Hash code: 101901153 ->PRGCHK: bdy curvature ratio at t= 1.1856E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.117212 ; TG2= 0.118561 ; DTG= 1.349E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.056E-06 FluxDiff MaxDT: 1.566E-03 Avg. GS error: 2.474E-03 Plasma Current: 3.637E+05, target: 3.637E+05, error: 0.001% Edge Q: 11.958, target: 12.116, error: 1.309% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3910E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6074E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.117212 TO TG2= 0.118561 @ NSTEP 129 GFRAME TG2 MOMENTS CHECKSUM: 3.3878447725819D+03 --> plasma_hash("gframe"): TA= 1.185611E-01 NSTEP= 130 Hash code: 84509249 ->PRGCHK: bdy curvature ratio at t= 1.2006E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.118561 ; TG2= 0.120060 ; DTG= 1.499E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.159E-06 FluxDiff MaxDT: 1.602E-03 Avg. GS error: 2.472E-03 Plasma Current: 3.661E+05, target: 3.661E+05, error: 0.001% Edge Q: 11.890, target: 11.926, error: 0.303% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4105E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6018E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.118561 TO TG2= 0.120060 @ NSTEP 130 GFRAME TG2 MOMENTS CHECKSUM: 3.3879204596574D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 130 TA= 1.18561E-01 CPU TIME= 7.83200E-03 SECONDS. DT= 1.49877E-03 --> plasma_hash("gframe"): TA= 1.200598E-01 NSTEP= 131 Hash code: 97567730 ->PRGCHK: bdy curvature ratio at t= 1.2156E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.120060 ; TG2= 0.121559 ; DTG= 1.499E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.662E-06 FluxDiff MaxDT: 1.516E-03 Avg. GS error: 2.485E-03 Plasma Current: 3.694E+05, target: 3.694E+05, error: 0.001% Edge Q: 11.811, target: 11.991, error: 1.499% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4282E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5882E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.120060 TO TG2= 0.121559 @ NSTEP 131 GFRAME TG2 MOMENTS CHECKSUM: 3.3885705246421D+03 --> plasma_hash("gframe"): TA= 1.215586E-01 NSTEP= 132 Hash code: 54821653 ->PRGCHK: bdy curvature ratio at t= 1.2306E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.121559 ; TG2= 0.123057 ; DTG= 1.499E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.866E-06 FluxDiff MaxDT: 1.428E-03 Avg. GS error: 2.462E-03 Plasma Current: 3.735E+05, target: 3.735E+05, error: 0.001% Edge Q: 11.714, target: 11.775, error: 0.521% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4312E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5719E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.121559 TO TG2= 0.123057 @ NSTEP 132 GFRAME TG2 MOMENTS CHECKSUM: 3.3894537164593D+03 --> plasma_hash("gframe"): TA= 1.230574E-01 NSTEP= 133 Hash code: 749244 ->PRGCHK: bdy curvature ratio at t= 1.2434E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.123057 ; TG2= 0.124342 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.278E-06 FluxDiff MaxDT: 1.446E-03 Avg. GS error: 2.489E-03 Plasma Current: 3.768E+05, target: 3.768E+05, error: 0.001% Edge Q: 11.641, target: 11.810, error: 1.431% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4015E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5598E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.123057 TO TG2= 0.124342 @ NSTEP 133 GFRAME TG2 MOMENTS CHECKSUM: 3.3902329952263D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 133 TA= 1.23057E-01 CPU TIME= 7.79900E-03 SECONDS. DT= 1.28466E-03 --> plasma_hash("gframe"): TA= 1.243420E-01 NSTEP= 134 Hash code: 109355466 ->PRGCHK: bdy curvature ratio at t= 1.2563E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.124342 ; TG2= 0.125627 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.749E-06 FluxDiff MaxDT: 1.576E-03 Avg. GS error: 2.510E-03 Plasma Current: 3.795E+05, target: 3.795E+05, error: 0.002% Edge Q: 11.577, target: 11.602, error: 0.207% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3915E+00 SECONDS DATA R*BT AT EDGE: 5.9020E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5534E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.124342 TO TG2= 0.125627 @ NSTEP 134 GFRAME TG2 MOMENTS CHECKSUM: 3.3908366511640D+03 --> plasma_hash("gframe"): TA= 1.256267E-01 NSTEP= 135 Hash code: 13238706 ->PRGCHK: bdy curvature ratio at t= 1.2691E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.125627 ; TG2= 0.126911 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.813E-06 FluxDiff MaxDT: 1.740E-03 Avg. GS error: 2.568E-03 Plasma Current: 3.815E+05, target: 3.815E+05, error: 0.002% Edge Q: 11.534, target: 11.676, error: 1.217% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3621E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5472E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.125627 TO TG2= 0.126911 @ NSTEP 135 GFRAME TG2 MOMENTS CHECKSUM: 3.3910374334510D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 135 TA= 1.25627E-01 CPU TIME= 7.78400E-03 SECONDS. DT= 1.28466E-03 --> plasma_hash("gframe"): TA= 1.269114E-01 NSTEP= 136 Hash code: 40694649 ->PRGCHK: bdy curvature ratio at t= 1.2820E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.126911 ; TG2= 0.128196 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.551E-06 FluxDiff MaxDT: 1.897E-03 Avg. GS error: 2.626E-03 Plasma Current: 3.833E+05, target: 3.833E+05, error: 0.002% Edge Q: 11.494, target: 11.490, error: 0.031% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3752E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5421E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.126911 TO TG2= 0.128196 @ NSTEP 136 GFRAME TG2 MOMENTS CHECKSUM: 3.3911879541290D+03 --> plasma_hash("gframe"): TA= 1.281960E-01 NSTEP= 137 Hash code: 110970421 ->PRGCHK: bdy curvature ratio at t= 1.2948E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.128196 ; TG2= 0.129481 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.542E-06 FluxDiff MaxDT: 1.972E-03 Avg. GS error: 2.684E-03 Plasma Current: 3.851E+05, target: 3.851E+05, error: 0.002% Edge Q: 11.460, target: 11.595, error: 1.168% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3569E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5337E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.128196 TO TG2= 0.129481 @ NSTEP 137 GFRAME TG2 MOMENTS CHECKSUM: 3.3914749458957D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 137 TA= 1.28196E-01 CPU TIME= 7.77700E-03 SECONDS. DT= 1.28466E-03 --> plasma_hash("gframe"): TA= 1.294807E-01 NSTEP= 138 Hash code: 5533857 ->PRGCHK: bdy curvature ratio at t= 1.3077E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.129481 ; TG2= 0.130765 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.520E-06 FluxDiff MaxDT: 2.003E-03 Avg. GS error: 2.697E-03 Plasma Current: 3.870E+05, target: 3.869E+05, error: 0.002% Edge Q: 11.421, target: 11.410, error: 0.097% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3652E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5264E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.129481 TO TG2= 0.130765 @ NSTEP 138 GFRAME TG2 MOMENTS CHECKSUM: 3.3917588797446D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -1.92673E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.307653E-01 NSTEP= 139 Hash code: 107155233 ->PRGCHK: bdy curvature ratio at t= 1.3205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.130765 ; TG2= 0.132050 ; DTG= 1.285E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.552E-06 FluxDiff MaxDT: 1.997E-03 Avg. GS error: 2.713E-03 Plasma Current: 3.889E+05, target: 3.889E+05, error: 0.002% Edge Q: 11.386, target: 11.519, error: 1.153% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3601E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5194E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.130765 TO TG2= 0.132050 @ NSTEP 139 GFRAME TG2 MOMENTS CHECKSUM: 3.3920674725058D+03 cpu time (sec) in nubeam_ctrl_init: 1.0310E-03 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 0 ==> entering nubeam_step_child, mpi myidd = 0 nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 4.3482E+19 nbi_getprofiles ne*dvol sum (ions): 4.3482E+19 nbstart... % nbi_alloc2_init: nbi_alloc2 done % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_debug_nb i_fld_state.cdf %fi_finish: enter %fimain: eflux cpu time = 9.000000090964022E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 140 TA= 1.32050E-01 CPU TIME= 9.12800E-03 SECONDS. DT= 1.60583E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.105168611111367 %check_save_state: izleft hours = 79.8261111111111 --> plasma_hash("gframe"): TA= 1.320500E-01 NSTEP= 140 Hash code: 50837486 ->PRGCHK: bdy curvature ratio at t= 1.3387E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.132050 ; TG2= 0.133868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.108E-05 FluxDiff MaxDT: 1.931E-03 Avg. GS error: 2.770E-03 Plasma Current: 3.917E+05, target: 3.917E+05, error: 0.002% Edge Q: 11.328, target: 11.340, error: 0.109% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4596E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5126E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.132050 TO TG2= 0.133868 @ NSTEP 140 GFRAME TG2 MOMENTS CHECKSUM: 3.3923257446298D+03 --> plasma_hash("gframe"): TA= 1.338682E-01 NSTEP= 142 Hash code: 99088043 ->PRGCHK: bdy curvature ratio at t= 1.3569E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.133868 ; TG2= 0.135686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.207E-05 FluxDiff MaxDT: 1.721E-03 Avg. GS error: 2.839E-03 Plasma Current: 3.957E+05, target: 3.957E+05, error: 0.002% Edge Q: 11.267, target: 11.420, error: 1.343% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4564E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5035E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.133868 TO TG2= 0.135686 @ NSTEP 142 GFRAME TG2 MOMENTS CHECKSUM: 3.3949580688466D+03 --> plasma_hash("gframe"): TA= 1.356864E-01 NSTEP= 143 Hash code: 80837155 ->PRGCHK: bdy curvature ratio at t= 1.3732E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.135686 ; TG2= 0.137323 ; DTG= 1.636E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.034E-05 FluxDiff MaxDT: 1.594E-03 Avg. GS error: 2.829E-03 Plasma Current: 4.001E+05, target: 4.001E+05, error: 0.002% Edge Q: 11.198, target: 11.219, error: 0.193% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4889E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4830E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.135686 TO TG2= 0.137323 @ NSTEP 143 GFRAME TG2 MOMENTS CHECKSUM: 3.3982216182149D+03 --> plasma_hash("gframe"): TA= 1.373227E-01 NSTEP= 144 Hash code: 84458679 ->PRGCHK: bdy curvature ratio at t= 1.3880E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.137323 ; TG2= 0.138795 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.816E-06 FluxDiff MaxDT: 1.543E-03 Avg. GS error: 2.816E-03 Plasma Current: 4.043E+05, target: 4.043E+05, error: 0.002% Edge Q: 11.138, target: 11.282, error: 1.279% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4336E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4524E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.137323 TO TG2= 0.138795 @ NSTEP 144 GFRAME TG2 MOMENTS CHECKSUM: 3.4017479911584D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 144 TA= 1.37323E-01 CPU TIME= 9.14300E-03 SECONDS. DT= 1.47273E-03 --> plasma_hash("gframe"): TA= 1.387954E-01 NSTEP= 145 Hash code: 5265861 ->PRGCHK: bdy curvature ratio at t= 1.4027E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.138795 ; TG2= 0.140268 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.925E-06 FluxDiff MaxDT: 1.566E-03 Avg. GS error: 2.824E-03 Plasma Current: 4.083E+05, target: 4.083E+05, error: 0.002% Edge Q: 11.081, target: 11.091, error: 0.090% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4364E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4510E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.138795 TO TG2= 0.140268 @ NSTEP 145 GFRAME TG2 MOMENTS CHECKSUM: 3.4051416152230D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 1.67668E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -3.42640E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -3.77454E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.402682E-01 NSTEP= 146 Hash code: 102978186 ->PRGCHK: bdy curvature ratio at t= 1.4174E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.140268 ; TG2= 0.141741 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.086E-06 FluxDiff MaxDT: 1.613E-03 Avg. GS error: 2.876E-03 Plasma Current: 4.120E+05, target: 4.120E+05, error: 0.003% Edge Q: 11.035, target: 11.160, error: 1.119% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4346E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4598E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.140268 TO TG2= 0.141741 @ NSTEP 146 GFRAME TG2 MOMENTS CHECKSUM: 3.4087259816770D+03 --> plasma_hash("gframe"): TA= 1.417409E-01 NSTEP= 147 Hash code: 12829434 ->PRGCHK: bdy curvature ratio at t= 1.4321E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.141741 ; TG2= 0.143214 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.239E-06 FluxDiff MaxDT: 1.642E-03 Avg. GS error: 2.966E-03 Plasma Current: 4.156E+05, target: 4.156E+05, error: 0.003% Edge Q: 10.992, target: 10.992, error: 0.001% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6070E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4572E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.141741 TO TG2= 0.143214 @ NSTEP 147 GFRAME TG2 MOMENTS CHECKSUM: 3.4127111458811D+03 --> plasma_hash("gframe"): TA= 1.432136E-01 NSTEP= 148 Hash code: 23836804 ->PRGCHK: bdy curvature ratio at t= 1.4469E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.143214 ; TG2= 0.144686 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.412E-06 FluxDiff MaxDT: 1.696E-03 Avg. GS error: 3.076E-03 Plasma Current: 4.188E+05, target: 4.188E+05, error: 0.003% Edge Q: 10.960, target: 11.067, error: 0.961% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5004E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4308E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.143214 TO TG2= 0.144686 @ NSTEP 148 GFRAME TG2 MOMENTS CHECKSUM: 3.4169415255158D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 148 TA= 1.43214E-01 CPU TIME= 9.39500E-03 SECONDS. DT= 1.47273E-03 --> plasma_hash("gframe"): TA= 1.446864E-01 NSTEP= 149 Hash code: 113848877 ->PRGCHK: bdy curvature ratio at t= 1.4616E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.144686 ; TG2= 0.146159 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.501E-06 FluxDiff MaxDT: 1.770E-03 Avg. GS error: 3.235E-03 Plasma Current: 4.217E+05, target: 4.217E+05, error: 0.002% Edge Q: 10.936, target: 10.922, error: 0.126% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4436E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3993E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.144686 TO TG2= 0.146159 @ NSTEP 149 GFRAME TG2 MOMENTS CHECKSUM: 3.4212815300562D+03 --> plasma_hash("gframe"): TA= 1.461591E-01 NSTEP= 150 Hash code: 75493701 ->PRGCHK: bdy curvature ratio at t= 1.4763E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.146159 ; TG2= 0.147632 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.609E-06 FluxDiff MaxDT: 1.853E-03 Avg. GS error: 3.443E-03 Plasma Current: 4.242E+05, target: 4.242E+05, error: 0.002% Edge Q: 10.923, target: 11.008, error: 0.767% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3716E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3629E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.146159 TO TG2= 0.147632 @ NSTEP 150 GFRAME TG2 MOMENTS CHECKSUM: 3.4258375476199D+03 --> plasma_hash("gframe"): TA= 1.476318E-01 NSTEP= 151 Hash code: 65196229 ->PRGCHK: bdy curvature ratio at t= 1.4910E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.147632 ; TG2= 0.149105 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.811E-06 FluxDiff MaxDT: 1.893E-03 Avg. GS error: 3.689E-03 Plasma Current: 4.266E+05, target: 4.266E+05, error: 0.001% Edge Q: 10.913, target: 10.892, error: 0.192% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4034E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3375E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.147632 TO TG2= 0.149105 @ NSTEP 151 GFRAME TG2 MOMENTS CHECKSUM: 3.4307961445006D+03 --> plasma_hash("gframe"): TA= 1.491045E-01 NSTEP= 152 Hash code: 79250651 ->PRGCHK: bdy curvature ratio at t= 1.5058E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.149105 ; TG2= 0.150577 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.018E-05 FluxDiff MaxDT: 1.791E-03 Avg. GS error: 3.938E-03 Plasma Current: 4.298E+05, target: 4.298E+05, error: 0.002% Edge Q: 10.895, target: 10.981, error: 0.787% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4357E+00 SECONDS DATA R*BT AT EDGE: 5.9021E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3245E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.149105 TO TG2= 0.150577 @ NSTEP 152 GFRAME TG2 MOMENTS CHECKSUM: 3.4361755126885D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -6.44264E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -3.18429E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -3.25835E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.505773E-01 NSTEP= 153 Hash code: 105311912 ->PRGCHK: bdy curvature ratio at t= 1.5205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.150577 ; TG2= 0.152050 ; DTG= 1.473E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.089E-05 FluxDiff MaxDT: 1.714E-03 Avg. GS error: 4.183E-03 Plasma Current: 4.336E+05, target: 4.336E+05, error: 0.003% Edge Q: 10.868, target: 10.864, error: 0.040% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4486E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3182E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.150577 TO TG2= 0.152050 @ NSTEP 153 GFRAME TG2 MOMENTS CHECKSUM: 3.4419539812032D+03 %nbpdat warning: beam # 2 : Power = 4561.75240568534 (watts) Voltage = 26368.5390625000 (volts) Voltage reset to minimum: 34806.9898806429 %fi_finish: enter %fimain: eflux cpu time = 3.000000106112566E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 154 TA= 1.52050E-01 CPU TIME= 9.08300E-03 SECONDS. DT= 1.84091E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.115812777777819 %check_save_state: izleft hours = 79.8152777777778 --> plasma_hash("gframe"): TA= 1.520500E-01 NSTEP= 154 Hash code: 37837521 ->PRGCHK: bdy curvature ratio at t= 1.5372E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.152050 ; TG2= 0.153717 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.425E-05 FluxDiff MaxDT: 1.626E-03 Avg. GS error: 4.473E-03 Plasma Current: 4.382E+05, target: 4.382E+05, error: 0.003% Edge Q: 10.830, target: 10.929, error: 0.907% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5392E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3058E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.152050 TO TG2= 0.153717 @ NSTEP 154 GFRAME TG2 MOMENTS CHECKSUM: 3.4479800644398D+03 --> plasma_hash("gframe"): TA= 1.537167E-01 NSTEP= 156 Hash code: 118349977 ->PRGCHK: bdy curvature ratio at t= 1.5524E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.153717 ; TG2= 0.155244 ; DTG= 1.528E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.441E-05 FluxDiff MaxDT: 1.652E-03 Avg. GS error: 4.604E-03 Plasma Current: 4.422E+05, target: 4.422E+05, error: 0.002% Edge Q: 10.826, target: 10.801, error: 0.234% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4738E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2793E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.153717 TO TG2= 0.155244 @ NSTEP 156 GFRAME TG2 MOMENTS CHECKSUM: 3.4578773150817D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 157 TA= 1.54943E-01 CPU TIME= 9.05300E-03 SECONDS. DT= 3.01164E-04 --> plasma_hash("gframe"): TA= 1.552444E-01 NSTEP= 158 Hash code: 5474119 ->PRGCHK: bdy curvature ratio at t= 1.5677E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.155244 ; TG2= 0.156772 ; DTG= 1.528E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.231E-05 FluxDiff MaxDT: 1.724E-03 Avg. GS error: 4.652E-03 Plasma Current: 4.458E+05, target: 4.458E+05, error: 0.001% Edge Q: 10.814, target: 10.890, error: 0.689% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4551E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2515E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.155244 TO TG2= 0.156772 @ NSTEP 158 GFRAME TG2 MOMENTS CHECKSUM: 3.4651431692377D+03 --> plasma_hash("gframe"): TA= 1.567722E-01 NSTEP= 160 Hash code: 68352686 ->PRGCHK: bdy curvature ratio at t= 1.5847E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.156772 ; TG2= 0.158470 ; DTG= 1.698E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.495E-05 FluxDiff MaxDT: 1.716E-03 Avg. GS error: 4.804E-03 Plasma Current: 4.500E+05, target: 4.500E+05, error: 0.001% Edge Q: 10.786, target: 10.793, error: 0.060% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4294E+00 SECONDS DATA R*BT AT EDGE: 5.9020E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2015E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.156772 TO TG2= 0.158470 @ NSTEP 160 GFRAME TG2 MOMENTS CHECKSUM: 3.4719203706920D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 161 TA= 1.57816E-01 CPU TIME= 9.04100E-03 SECONDS. DT= 6.53421E-04 --> plasma_hash("gframe"): TA= 1.584697E-01 NSTEP= 162 Hash code: 104650095 ->PRGCHK: bdy curvature ratio at t= 1.6017E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.158470 ; TG2= 0.160167 ; DTG= 1.698E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.515E-05 FluxDiff MaxDT: 1.686E-03 Avg. GS error: 4.995E-03 Plasma Current: 4.547E+05, target: 4.547E+05, error: 0.000% Edge Q: 10.756, target: 10.845, error: 0.823% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4919E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1624E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.158470 TO TG2= 0.160167 @ NSTEP 162 GFRAME TG2 MOMENTS CHECKSUM: 3.4792478655194D+03 --> plasma_hash("gframe"): TA= 1.601673E-01 NSTEP= 164 Hash code: 93925111 ->PRGCHK: bdy curvature ratio at t= 1.6165E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.160167 ; TG2= 0.161653 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.203E-05 FluxDiff MaxDT: 1.659E-03 Avg. GS error: 5.312E-03 Plasma Current: 4.591E+05, target: 4.591E+05, error: 0.000% Edge Q: 10.727, target: 10.737, error: 0.100% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5008E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1503E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.160167 TO TG2= 0.161653 @ NSTEP 164 GFRAME TG2 MOMENTS CHECKSUM: 3.4861109752745D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= 2.12457E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 1.51491E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.616526E-01 NSTEP= 166 Hash code: 27685476 ->PRGCHK: bdy curvature ratio at t= 1.6314E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.161653 ; TG2= 0.163138 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.191E-05 FluxDiff MaxDT: 1.684E-03 Avg. GS error: 5.533E-03 Plasma Current: 4.631E+05, target: 4.631E+05, error: 0.000% Edge Q: 10.694, target: 10.782, error: 0.816% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4586E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1227E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.161653 TO TG2= 0.163138 @ NSTEP 166 GFRAME TG2 MOMENTS CHECKSUM: 3.4912960658144D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 166 TA= 1.61653E-01 CPU TIME= 9.00500E-03 SECONDS. DT= 1.48534E-03 --> plasma_hash("gframe"): TA= 1.631380E-01 NSTEP= 168 Hash code: 47342222 ->PRGCHK: bdy curvature ratio at t= 1.6462E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.163138 ; TG2= 0.164623 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.168E-05 FluxDiff MaxDT: 1.726E-03 Avg. GS error: 5.792E-03 Plasma Current: 4.669E+05, target: 4.669E+05, error: 0.000% Edge Q: 10.663, target: 10.680, error: 0.157% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4602E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0975E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.163138 TO TG2= 0.164623 @ NSTEP 168 GFRAME TG2 MOMENTS CHECKSUM: 3.4960320470638D+03 --> plasma_hash("gframe"): TA= 1.646233E-01 NSTEP= 170 Hash code: 3802478 ->PRGCHK: bdy curvature ratio at t= 1.6611E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.164623 ; TG2= 0.166109 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.157E-05 FluxDiff MaxDT: 1.768E-03 Avg. GS error: 6.116E-03 Plasma Current: 4.704E+05, target: 4.704E+05, error: 0.000% Edge Q: 10.635, target: 10.716, error: 0.759% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4572E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0711E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.164623 TO TG2= 0.166109 @ NSTEP 170 GFRAME TG2 MOMENTS CHECKSUM: 3.5004090133652D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 171 TA= 1.65618E-01 CPU TIME= 5.12990E-02 SECONDS. DT= 4.90769E-04 --> plasma_hash("gframe"): TA= 1.661086E-01 NSTEP= 172 Hash code: 3865289 ->PRGCHK: bdy curvature ratio at t= 1.6759E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.166109 ; TG2= 0.167594 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.140E-05 FluxDiff MaxDT: 1.797E-03 Avg. GS error: 6.485E-03 Plasma Current: 4.739E+05, target: 4.739E+05, error: 0.000% Edge Q: 10.606, target: 10.624, error: 0.178% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4659E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0460E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.166109 TO TG2= 0.167594 @ NSTEP 172 GFRAME TG2 MOMENTS CHECKSUM: 3.5044973740524D+03 --> plasma_hash("gframe"): TA= 1.675940E-01 NSTEP= 174 Hash code: 88616438 ->PRGCHK: bdy curvature ratio at t= 1.6908E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.167594 ; TG2= 0.169079 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.136E-05 FluxDiff MaxDT: 1.846E-03 Avg. GS error: 6.811E-03 Plasma Current: 4.772E+05, target: 4.772E+05, error: 0.000% Edge Q: 10.579, target: 10.656, error: 0.719% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4684E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0304E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.167594 TO TG2= 0.169079 @ NSTEP 174 GFRAME TG2 MOMENTS CHECKSUM: 3.5079415710189D+03 --> plasma_hash("gframe"): TA= 1.690793E-01 NSTEP= 176 Hash code: 47083363 ->PRGCHK: bdy curvature ratio at t= 1.7056E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.169079 ; TG2= 0.170565 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.111E-05 FluxDiff MaxDT: 1.903E-03 Avg. GS error: 7.129E-03 Plasma Current: 4.802E+05, target: 4.802E+05, error: 0.000% Edge Q: 10.553, target: 10.571, error: 0.172% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4266E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0211E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.169079 TO TG2= 0.170565 @ NSTEP 176 GFRAME TG2 MOMENTS CHECKSUM: 3.5113235100235D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 177 TA= 1.70056E-01 CPU TIME= 9.00700E-03 SECONDS. DT= 5.08460E-04 --> plasma_hash("gframe"): TA= 1.705647E-01 NSTEP= 178 Hash code: 63495104 ->PRGCHK: bdy curvature ratio at t= 1.7205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.170565 ; TG2= 0.172050 ; DTG= 1.485E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.088E-05 FluxDiff MaxDT: 1.900E-03 Avg. GS error: 7.468E-03 Plasma Current: 4.834E+05, target: 4.834E+05, error: 0.000% Edge Q: 10.525, target: 10.601, error: 0.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4006E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0128E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.170565 TO TG2= 0.172050 @ NSTEP 178 GFRAME TG2 MOMENTS CHECKSUM: 3.5146082079420D+03 %MFRCHK - LABEL "BALE0_GF_H", # 20= -5.37446E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -5.30084E-38 RESET TO ZERO %fi_finish: enter %fimain: eflux cpu time = 4.999999873689376E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 180 TA= 1.72050E-01 CPU TIME= 8.99100E-03 SECONDS. DT= 6.40595E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.128950000000486 %check_save_state: izleft hours = 79.8022222222222 --> plasma_hash("gframe"): TA= 1.720500E-01 NSTEP= 180 Hash code: 40975733 ->PRGCHK: bdy curvature ratio at t= 1.7387E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.172050 ; TG2= 0.173868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.688E-05 FluxDiff MaxDT: 1.808E-03 Avg. GS error: 7.796E-03 Plasma Current: 4.880E+05, target: 4.880E+05, error: 0.000% Edge Q: 10.472, target: 10.519, error: 0.449% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5437E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0003E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.172050 TO TG2= 0.173868 @ NSTEP 180 GFRAME TG2 MOMENTS CHECKSUM: 3.5176329243391D+03 --> plasma_hash("gframe"): TA= 1.738682E-01 NSTEP= 183 Hash code: 117780160 ->PRGCHK: bdy curvature ratio at t= 1.7552E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.173868 ; TG2= 0.175521 ; DTG= 1.653E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.888E-05 FluxDiff MaxDT: 1.894E-03 Avg. GS error: 7.280E-03 Plasma Current: 4.923E+05, target: 4.923E+05, error: 0.001% Edge Q: 10.472, target: 10.514, error: 0.404% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8959E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9531E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.173868 TO TG2= 0.175521 @ NSTEP 183 GFRAME TG2 MOMENTS CHECKSUM: 3.5266409646695D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 184 TA= 1.74657E-01 CPU TIME= 2.49540E-02 SECONDS. DT= 8.64567E-04 --> plasma_hash("gframe"): TA= 1.755211E-01 NSTEP= 185 Hash code: 11198719 ->PRGCHK: bdy curvature ratio at t= 1.7736E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.175521 ; TG2= 0.177358 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.858E-05 FluxDiff MaxDT: 1.935E-03 Avg. GS error: 6.994E-03 Plasma Current: 4.967E+05, target: 4.967E+05, error: 0.002% Edge Q: 10.450, target: 10.473, error: 0.217% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7040E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9088E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.175521 TO TG2= 0.177358 @ NSTEP 185 GFRAME TG2 MOMENTS CHECKSUM: 3.5322670767512D+03 --> plasma_hash("gframe"): TA= 1.773576E-01 NSTEP= 188 Hash code: 20050361 ->PRGCHK: bdy curvature ratio at t= 1.7919E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.177358 ; TG2= 0.179194 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.955E-05 FluxDiff MaxDT: 2.032E-03 Avg. GS error: 6.909E-03 Plasma Current: 5.008E+05, target: 5.008E+05, error: 0.001% Edge Q: 10.442, target: 10.491, error: 0.468% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8332E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8452E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.177358 TO TG2= 0.179194 @ NSTEP 188 GFRAME TG2 MOMENTS CHECKSUM: 3.5391647899924D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 188 TA= 1.77358E-01 CPU TIME= 9.01000E-03 SECONDS. DT= 8.44359E-04 --> plasma_hash("gframe"): TA= 1.791942E-01 NSTEP= 191 Hash code: 98894172 ->PRGCHK: bdy curvature ratio at t= 1.8103E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.179194 ; TG2= 0.181031 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.808E-05 FluxDiff MaxDT: 2.096E-03 Avg. GS error: 6.827E-03 Plasma Current: 5.047E+05, target: 5.047E+05, error: 0.000% Edge Q: 10.435, target: 10.446, error: 0.103% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8076E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8036E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.179194 TO TG2= 0.181031 @ NSTEP 191 GFRAME TG2 MOMENTS CHECKSUM: 3.5450128605488D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.180000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 1.40000000E+13 to 1.70000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 1.31000000E+00 to 2.00000000E+00 namelist update changed APROF_COEFFS_NER( 2) from 2.51000000E+00 to 1.80000000E+00 namelist update changed APROF_EDGE_VALUE_NER from 2.50000000E+12 to 7.00000000E+12 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... %CHKNIO -- CHANGE IN DENSITY REQUIRES SHORTENING OF TIMESTEP. OLD DT = 1.00730E-03 ZONE = 15 GAS = 1 DN(ABS)= 1.09896E+10 DN(REL)= 1.57602E-01 RHOEL PREVIOUS TIMESTEP: 3.67078E+12 NOW: 4.34324E+12 DIFF: 6.72464E+11 XZEFFC PREVIOUS TIMESTEP: 2.00000E+00 NOW: 2.00000E+00 DIFF: 0.00000E+00 RHB PREVIOUS TIMESTEP: 8.30668E+10 NOW: 8.65906E+10 DIFF: 3.52376E+09 RHI PREVIOUS TIMESTEP: 1.22359E+11 NOW: 1.44775E+11 DIFF: 2.24155E+10 RHMIN PREVIOUS TIMESTEP: 0.00000E+00 NOW: 0.00000E+00 DIFF: 0.00000E+00 RHOB 1 PREVIOUS TIMESTEP: 5.87403E+10 NOW: 6.97299E+10 DIFF: 1.09896E+10 RHOB 2 PREVIOUS TIMESTEP: 2.79481E+12 NOW: 3.31827E+12 DIFF: 5.23458E+11 RHBS 1 PREVIOUS TIMESTEP: 8.30668E+10 NOW: 8.65906E+10 DIFF: 3.52376E+09 %TOO MANY ITERATIONS IN PROFNJ, REDUCING TIMESTEP *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 198 TA= 1.80273E-01 CPU TIME= 1.83499E-01 SECONDS. DT= 6.02461E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 204 TA= 1.80556E-01 CPU TIME= 8.86810E-02 SECONDS. DT= 5.91785E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 210 TA= 1.80851E-01 CPU TIME= 8.52900E-02 SECONDS. DT= 5.95031E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.810307E-01 NSTEP= 226 Hash code: 56607815 ->PRGCHK: bdy curvature ratio at t= 1.8287E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.181031 ; TG2= 0.182867 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.726E-05 FluxDiff MaxDT: 2.298E-03 Avg. GS error: 7.002E-03 Plasma Current: 5.074E+05, target: 5.074E+05, error: 0.000% Edge Q: 10.446, target: 10.478, error: 0.298% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9086E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7841E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.181031 TO TG2= 0.182867 @ NSTEP 226 GFRAME TG2 MOMENTS CHECKSUM: 3.5502417304048D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 231 TA= 1.81167E-01 CPU TIME= 3.88860E-02 SECONDS. DT= 5.05615E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 250 TA= 1.81494E-01 CPU TIME= 2.95470E-02 SECONDS. DT= 2.37715E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf !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= 1.24912E-38 RESET TO ZERO ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 493 TA= 1.81819E-01 CPU TIME= 9.06100E-03 SECONDS. DT= 1.72583E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 685 TA= 1.82161E-01 CPU TIME= 5.07180E-02 SECONDS. DT= 4.28004E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 780 TA= 1.82528E-01 CPU TIME= 9.27600E-03 SECONDS. DT= 1.57893E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.828673E-01 NSTEP= 823 Hash code: 3316610 ->PRGCHK: bdy curvature ratio at t= 1.8470E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.182867 ; TG2= 0.184704 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.529E-05 FluxDiff MaxDT: 2.383E-03 Avg. GS error: 7.398E-03 Plasma Current: 5.093E+05, target: 5.093E+05, error: 0.000% Edge Q: 10.481, target: 10.457, error: 0.230% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9033E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7723E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.182867 TO TG2= 0.184704 @ NSTEP 823 GFRAME TG2 MOMENTS CHECKSUM: 3.5547320105330D+03 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 830 TA= 1.82906E-01 CPU TIME= 1.02377E-01 SECONDS. DT= 7.23696E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 938 TA= 1.83303E-01 CPU TIME= 9.09400E-03 SECONDS. DT= 5.04976E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1047 TA= 1.83720E-01 CPU TIME= 9.12600E-03 SECONDS. DT= 4.84493E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1154 TA= 1.84161E-01 CPU TIME= 7.72340E-02 SECONDS. DT= 5.40905E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf %check_save_state: nbflag = F %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.13070527777836 %check_save_state: izleft hours = 78.8005555555556 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1256 TA= 1.84620E-01 CPU TIME= 8.08790E-02 SECONDS. DT= 7.91526E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.847038E-01 NSTEP= 1274 Hash code: 82696858 ->PRGCHK: bdy curvature ratio at t= 1.8654E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.184704 ; TG2= 0.186540 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.484E-05 FluxDiff MaxDT: 2.333E-03 Avg. GS error: 7.749E-03 Plasma Current: 5.113E+05, target: 5.113E+05, error: 0.000% Edge Q: 10.531, target: 10.530, error: 0.009% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8744E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7513E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.184704 TO TG2= 0.186540 @ NSTEP 1274 GFRAME TG2 MOMENTS CHECKSUM: 3.5593912487921D+03 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1362 TA= 1.85104E-01 CPU TIME= 1.48856E-01 SECONDS. DT= 5.65561E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1464 TA= 1.85613E-01 CPU TIME= 1.36180E-02 SECONDS. DT= 1.02776E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1567 TA= 1.86145E-01 CPU TIME= 2.53710E-02 SECONDS. DT= 8.54518E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.865404E-01 NSTEP= 1641 Hash code: 80793431 ->PRGCHK: bdy curvature ratio at t= 1.8838E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.186540 ; TG2= 0.188377 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.499E-05 FluxDiff MaxDT: 2.210E-03 Avg. GS error: 8.460E-03 Plasma Current: 5.142E+05, target: 5.142E+05, error: 0.001% Edge Q: 10.576, target: 10.543, error: 0.311% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7846E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7221E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.186540 TO TG2= 0.188377 @ NSTEP 1641 GFRAME TG2 MOMENTS CHECKSUM: 3.5642256505705D+03 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1672 TA= 1.86709E-01 CPU TIME= 1.73265E-01 SECONDS. DT= 1.07460E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1773 TA= 1.87300E-01 CPU TIME= 9.27800E-03 SECONDS. DT= 8.59233E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1876 TA= 1.87920E-01 CPU TIME= 1.08171E-01 SECONDS. DT= 8.87174E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.883769E-01 NSTEP= 1950 Hash code: 10068493 ->PRGCHK: bdy curvature ratio at t= 1.9021E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.188377 ; TG2= 0.190213 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.561E-05 FluxDiff MaxDT: 2.188E-03 Avg. GS error: 9.373E-03 Plasma Current: 5.172E+05, target: 5.172E+05, error: 0.001% Edge Q: 10.621, target: 10.622, error: 0.009% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7596E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6838E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.188377 TO TG2= 0.190213 @ NSTEP 1950 GFRAME TG2 MOMENTS CHECKSUM: 3.5690002320119D+03 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1982 TA= 1.88573E-01 CPU TIME= 1.34171E-01 SECONDS. DT= 8.65929E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2089 TA= 1.89253E-01 CPU TIME= 9.16200E-03 SECONDS. DT= 7.45451E-06 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf %check_save_state: nbflag = F %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.13086555555583 %check_save_state: izleft hours = 77.8002777777778 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2205 TA= 1.89973E-01 CPU TIME= 2.30760E-02 SECONDS. DT= 1.08666E-05 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf --> plasma_hash("gframe"): TA= 1.902134E-01 NSTEP= 2218 Hash code: 73093383 ->PRGCHK: bdy curvature ratio at t= 1.9205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.190213 ; TG2= 0.192050 ; DTG= 1.837E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.523E-05 FluxDiff MaxDT: 2.287E-03 Avg. GS error: 1.031E-02 Plasma Current: 5.199E+05, target: 5.199E+05, error: 0.001% Edge Q: 10.673, target: 10.630, error: 0.412% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7596E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6393E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.190213 TO TG2= 0.192050 @ NSTEP 2218 GFRAME TG2 MOMENTS CHECKSUM: 3.5735812358567D+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", # 20= 2.24973E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 1.29083E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2225 TA= 1.91610E-01 CPU TIME= 9.28900E-03 SECONDS. DT= 4.39938E-04 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2226 TA= 1.92050E-01 CPU TIME= 9.20100E-03 SECONDS. DT= 5.49923E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.14951722222236 %check_save_state: izleft hours = 77.7816666666667 %wrstf: start call wrstf. %wrstf: open new restart file:204112B61RS.DAT %wrstf: open204112B61RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B61_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 1.9204999E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.439E+03 MB. --> plasma_hash("gframe"): TA= 1.920500E-01 NSTEP= 2226 Hash code: 60235486 ->PRGCHK: bdy curvature ratio at t= 1.9387E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.192050 ; TG2= 0.193868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.445E-05 FluxDiff MaxDT: 2.536E-03 Avg. GS error: 1.099E-02 Plasma Current: 5.221E+05, target: 5.221E+05, error: 0.000% Edge Q: 10.725, target: 10.723, error: 0.025% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8871E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6006E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.192050 TO TG2= 0.193868 @ NSTEP 2226 GFRAME TG2 MOMENTS CHECKSUM: 3.5781482457655D+03 --> plasma_hash("gframe"): TA= 1.938682E-01 NSTEP= 2229 Hash code: 55124563 ->PRGCHK: bdy curvature ratio at t= 1.9569E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.193868 ; TG2= 0.195686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.711E-05 FluxDiff MaxDT: 2.773E-03 Avg. GS error: 1.036E-02 Plasma Current: 5.244E+05, target: 5.244E+05, error: 0.001% Edge Q: 10.871, target: 10.739, error: 1.228% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8040E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.5477E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.193868 TO TG2= 0.195686 @ NSTEP 2229 GFRAME TG2 MOMENTS CHECKSUM: 3.5852343528831D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2229 TA= 1.93868E-01 CPU TIME= 9.33500E-03 SECONDS. DT= 8.59254E-04 --> plasma_hash("gframe"): TA= 1.956864E-01 NSTEP= 2231 Hash code: 41193014 ->PRGCHK: bdy curvature ratio at t= 1.9750E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.195686 ; TG2= 0.197505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.087E-05 FluxDiff MaxDT: 3.036E-03 Avg. GS error: 1.056E-02 Plasma Current: 5.269E+05, target: 5.269E+05, error: 0.001% Edge Q: 10.984, target: 10.938, error: 0.419% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7400E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4888E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.195686 TO TG2= 0.197505 @ NSTEP 2231 GFRAME TG2 MOMENTS CHECKSUM: 3.5912713850445D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2231 TA= 1.95686E-01 CPU TIME= 9.33900E-03 SECONDS. DT= 1.07407E-03 --> plasma_hash("gframe"): TA= 1.975045E-01 NSTEP= 2233 Hash code: 79637311 ->PRGCHK: bdy curvature ratio at t= 1.9932E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.197505 ; TG2= 0.199323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.175E-05 FluxDiff MaxDT: 3.359E-03 Avg. GS error: 1.063E-02 Plasma Current: 5.294E+05, target: 5.294E+05, error: 0.002% Edge Q: 11.087, target: 11.004, error: 0.753% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7703E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4288E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.197505 TO TG2= 0.199323 @ NSTEP 2233 GFRAME TG2 MOMENTS CHECKSUM: 3.5966255901119D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2233 TA= 1.97505E-01 CPU TIME= 9.29900E-03 SECONDS. DT= 1.34259E-03 --> plasma_hash("gframe"): TA= 1.993227E-01 NSTEP= 2235 Hash code: 26478831 ->PRGCHK: bdy curvature ratio at t= 2.0114E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.199323 ; TG2= 0.201141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.297E-06 FluxDiff MaxDT: 3.726E-03 Avg. GS error: 1.030E-02 Plasma Current: 5.313E+05, target: 5.313E+05, error: 0.002% Edge Q: 11.191, target: 11.158, error: 0.294% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6991E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3646E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.199323 TO TG2= 0.201141 @ NSTEP 2235 GFRAME TG2 MOMENTS CHECKSUM: 3.6012793236396D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2236 TA= 2.00614E-01 CPU TIME= 1.88410E-02 SECONDS. DT= 5.27179E-04 --> plasma_hash("gframe"): TA= 2.011409E-01 NSTEP= 2237 Hash code: 37837267 ->PRGCHK: bdy curvature ratio at t= 2.0296E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.201141 ; TG2= 0.202959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.530E-06 FluxDiff MaxDT: 3.991E-03 Avg. GS error: 1.033E-02 Plasma Current: 5.335E+05, target: 5.335E+05, error: 0.002% Edge Q: 11.280, target: 11.220, error: 0.536% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6718E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3058E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.201141 TO TG2= 0.202959 @ NSTEP 2237 GFRAME TG2 MOMENTS CHECKSUM: 3.6055510382530D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.19743E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.029591E-01 NSTEP= 2239 Hash code: 108854858 ->PRGCHK: bdy curvature ratio at t= 2.0478E-01 seconds is: 8.2039E-02 % MHDEQ: TG1= 0.202959 ; TG2= 0.204777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.989E-06 FluxDiff MaxDT: 3.306E-03 Avg. GS error: 1.047E-02 Plasma Current: 5.367E+05, target: 5.367E+05, error: 0.002% Edge Q: 11.371, target: 11.354, error: 0.148% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6431E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.2242E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.202959 TO TG2= 0.204777 @ NSTEP 2239 GFRAME TG2 MOMENTS CHECKSUM: 3.6127215438354D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2240 TA= 2.04223E-01 CPU TIME= 2.29610E-02 SECONDS. DT= 5.54608E-04 --> plasma_hash("gframe"): TA= 2.047773E-01 NSTEP= 2241 Hash code: 68139480 ->PRGCHK: bdy curvature ratio at t= 2.0660E-01 seconds is: 8.0395E-02 % MHDEQ: TG1= 0.204777 ; TG2= 0.206595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.760E-06 FluxDiff MaxDT: 2.934E-03 Avg. GS error: 9.814E-03 Plasma Current: 5.409E+05, target: 5.409E+05, error: 0.000% Edge Q: 11.443, target: 11.393, error: 0.440% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6169E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.1421E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.204777 TO TG2= 0.206595 @ NSTEP 2241 GFRAME TG2 MOMENTS CHECKSUM: 3.6213335191169D+03 --> plasma_hash("gframe"): TA= 2.065954E-01 NSTEP= 2243 Hash code: 69536669 ->PRGCHK: bdy curvature ratio at t= 2.0841E-01 seconds is: 7.7553E-02 % MHDEQ: TG1= 0.206595 ; TG2= 0.208414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.385E-06 FluxDiff MaxDT: 2.674E-03 Avg. GS error: 9.642E-03 Plasma Current: 5.447E+05, target: 5.447E+05, error: 0.003% Edge Q: 11.551, target: 11.500, error: 0.440% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6743E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.0608E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.206595 TO TG2= 0.208414 @ NSTEP 2243 GFRAME TG2 MOMENTS CHECKSUM: 3.6332942276549D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2244 TA= 2.08111E-01 CPU TIME= 9.28400E-03 SECONDS. DT= 3.02413E-04 --> plasma_hash("gframe"): TA= 2.084136E-01 NSTEP= 2245 Hash code: 86793843 ->PRGCHK: bdy curvature ratio at t= 2.1023E-01 seconds is: 7.4878E-02 % MHDEQ: TG1= 0.208414 ; TG2= 0.210232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.236E-06 FluxDiff MaxDT: 2.754E-03 Avg. GS error: 9.939E-03 Plasma Current: 5.484E+05, target: 5.484E+05, error: 0.005% Edge Q: 11.650, target: 11.575, error: 0.644% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6716E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9880E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.208414 TO TG2= 0.210232 @ NSTEP 2245 GFRAME TG2 MOMENTS CHECKSUM: 3.6443995493218D+03 --> plasma_hash("gframe"): TA= 2.102318E-01 NSTEP= 2247 Hash code: 45998195 ->PRGCHK: bdy curvature ratio at t= 2.1205E-01 seconds is: 7.2014E-02 % MHDEQ: TG1= 0.210232 ; TG2= 0.212050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.338E-06 FluxDiff MaxDT: 2.549E-03 Avg. GS error: 1.066E-02 Plasma Current: 5.530E+05, target: 5.530E+05, error: 0.005% Edge Q: 11.737, target: 11.716, error: 0.180% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5945E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8848E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.210232 TO TG2= 0.212050 @ NSTEP 2247 GFRAME TG2 MOMENTS CHECKSUM: 3.6556309563886D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2248 TA= 2.11551E-01 CPU TIME= 1.00770E-02 SECONDS. DT= 4.98579E-04 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2249 TA= 2.12050E-01 CPU TIME= 9.17000E-03 SECONDS. DT= 6.23224E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.16274833333341 %check_save_state: izleft hours = 77.7683333333333 --> plasma_hash("gframe"): TA= 2.120500E-01 NSTEP= 2249 Hash code: 1209073 ->PRGCHK: bdy curvature ratio at t= 2.1387E-01 seconds is: 7.1672E-02 % MHDEQ: TG1= 0.212050 ; TG2= 0.213868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.090E-05 FluxDiff MaxDT: 2.609E-03 Avg. GS error: 1.079E-02 Plasma Current: 5.585E+05, target: 5.585E+05, error: 0.002% Edge Q: 11.761, target: 11.770, error: 0.072% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6247E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8089E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.212050 TO TG2= 0.213868 @ NSTEP 2249 GFRAME TG2 MOMENTS CHECKSUM: 3.6595888039103D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 1.46841E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -6.01978E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -6.49696E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.138682E-01 NSTEP= 2252 Hash code: 26763007 ->PRGCHK: bdy curvature ratio at t= 2.1569E-01 seconds is: 7.3569E-02 % MHDEQ: TG1= 0.213868 ; TG2= 0.215686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.142E-05 FluxDiff MaxDT: 2.691E-03 Avg. GS error: 1.091E-02 Plasma Current: 5.633E+05, target: 5.633E+05, error: 0.004% Edge Q: 11.759, target: 11.820, error: 0.521% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0413E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7788E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.213868 TO TG2= 0.215686 @ NSTEP 2252 GFRAME TG2 MOMENTS CHECKSUM: 3.6550225047272D+03 --> plasma_hash("gframe"): TA= 2.156864E-01 NSTEP= 2254 Hash code: 67456492 ->PRGCHK: bdy curvature ratio at t= 2.1750E-01 seconds is: 7.8662E-02 % MHDEQ: TG1= 0.215686 ; TG2= 0.217505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.157E-05 FluxDiff MaxDT: 3.391E-03 Avg. GS error: 1.068E-02 Plasma Current: 5.674E+05, target: 5.674E+05, error: 0.001% Edge Q: 11.696, target: 11.797, error: 0.849% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9902E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8515E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.215686 TO TG2= 0.217505 @ NSTEP 2254 GFRAME TG2 MOMENTS CHECKSUM: 3.6421445319516D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2254 TA= 2.15686E-01 CPU TIME= 9.25200E-03 SECONDS. DT= 1.21723E-03 --> plasma_hash("gframe"): TA= 2.175045E-01 NSTEP= 2256 Hash code: 92164234 ->PRGCHK: bdy curvature ratio at t= 2.1932E-01 seconds is: 8.4703E-02 % MHDEQ: TG1= 0.217505 ; TG2= 0.219323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.525E-06 FluxDiff MaxDT: 3.154E-03 Avg. GS error: 1.006E-02 Plasma Current: 5.720E+05, target: 5.720E+05, error: 0.003% Edge Q: 11.635, target: 11.760, error: 1.064% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8972E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9015E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.217505 TO TG2= 0.219323 @ NSTEP 2256 GFRAME TG2 MOMENTS CHECKSUM: 3.6297026367054D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2257 TA= 2.19026E-01 CPU TIME= 3.99680E-02 SECONDS. DT= 2.96639E-04 --> plasma_hash("gframe"): TA= 2.193227E-01 NSTEP= 2258 Hash code: 109083329 ->PRGCHK: bdy curvature ratio at t= 2.2114E-01 seconds is: 9.2099E-02 % MHDEQ: TG1= 0.219323 ; TG2= 0.221141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.098E-05 FluxDiff MaxDT: 2.874E-03 Avg. GS error: 9.744E-03 Plasma Current: 5.776E+05, target: 5.777E+05, error: 0.004% Edge Q: 11.565, target: 11.662, error: 0.839% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9789E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8968E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.219323 TO TG2= 0.221141 @ NSTEP 2258 GFRAME TG2 MOMENTS CHECKSUM: 3.6177067448063D+03 --> plasma_hash("gframe"): TA= 2.211409E-01 NSTEP= 2259 Hash code: 34240537 ->PRGCHK: bdy curvature ratio at t= 2.2296E-01 seconds is: 1.0128E-01 % MHDEQ: TG1= 0.221141 ; TG2= 0.222959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.226E-05 FluxDiff MaxDT: 2.964E-03 Avg. GS error: 9.308E-03 Plasma Current: 5.826E+05, target: 5.827E+05, error: 0.004% Edge Q: 11.496, target: 11.615, error: 1.023% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9489E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9379E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.221141 TO TG2= 0.222959 @ NSTEP 2259 GFRAME TG2 MOMENTS CHECKSUM: 3.6052124707666D+03 %MFRCHK - LABEL "BALE0_SGF", # 7= 1.24938E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -5.14484E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.17698E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.229591E-01 NSTEP= 2260 Hash code: 40499839 ->PRGCHK: bdy curvature ratio at t= 2.2478E-01 seconds is: 9.2545E-02 % MHDEQ: TG1= 0.222959 ; TG2= 0.224777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.253E-05 FluxDiff MaxDT: 3.538E-03 Avg. GS error: 8.927E-03 Plasma Current: 5.856E+05, target: 5.856E+05, error: 0.001% Edge Q: 11.455, target: 11.530, error: 0.655% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8386E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9671E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.222959 TO TG2= 0.224777 @ NSTEP 2260 GFRAME TG2 MOMENTS CHECKSUM: 3.5918136805519D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2260 TA= 2.22959E-01 CPU TIME= 9.27300E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 2.247773E-01 NSTEP= 2261 Hash code: 19154115 ->PRGCHK: bdy curvature ratio at t= 2.2660E-01 seconds is: 8.5597E-02 % MHDEQ: TG1= 0.224777 ; TG2= 0.226595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.025E-05 FluxDiff MaxDT: 4.353E-03 Avg. GS error: 8.905E-03 Plasma Current: 5.868E+05, target: 5.868E+05, error: 0.003% Edge Q: 11.441, target: 11.517, error: 0.660% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7382E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9647E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.224777 TO TG2= 0.226595 @ NSTEP 2261 GFRAME TG2 MOMENTS CHECKSUM: 3.5778863316427D+03 --> plasma_hash("gframe"): TA= 2.265954E-01 NSTEP= 2262 Hash code: 28489167 ->PRGCHK: bdy curvature ratio at t= 2.2841E-01 seconds is: 8.0069E-02 % MHDEQ: TG1= 0.226595 ; TG2= 0.228414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.817E-06 FluxDiff MaxDT: 5.044E-03 Avg. GS error: 9.304E-03 Plasma Current: 5.874E+05, target: 5.874E+05, error: 0.002% Edge Q: 11.449, target: 11.496, error: 0.409% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7454E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8960E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.226595 TO TG2= 0.228414 @ NSTEP 2262 GFRAME TG2 MOMENTS CHECKSUM: 3.5641300823097D+03 --> plasma_hash("gframe"): TA= 2.284136E-01 NSTEP= 2263 Hash code: 35375816 ->PRGCHK: bdy curvature ratio at t= 2.3023E-01 seconds is: 7.4681E-02 % MHDEQ: TG1= 0.228414 ; TG2= 0.230232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.827E-06 FluxDiff MaxDT: 5.283E-03 Avg. GS error: 9.657E-03 Plasma Current: 5.878E+05, target: 5.878E+05, error: 0.000% Edge Q: 11.469, target: 11.534, error: 0.559% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6673E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8023E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.228414 TO TG2= 0.230232 @ NSTEP 2263 GFRAME TG2 MOMENTS CHECKSUM: 3.5513071771395D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2263 TA= 2.28414E-01 CPU TIME= 9.23500E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 2.302318E-01 NSTEP= 2264 Hash code: 2473563 ->PRGCHK: bdy curvature ratio at t= 2.3205E-01 seconds is: 7.0146E-02 % MHDEQ: TG1= 0.230232 ; TG2= 0.232050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.298E-06 FluxDiff MaxDT: 5.161E-03 Avg. GS error: 9.867E-03 Plasma Current: 5.881E+05, target: 5.881E+05, error: 0.003% Edge Q: 11.507, target: 11.546, error: 0.343% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5875E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7179E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.230232 TO TG2= 0.232050 @ NSTEP 2264 GFRAME TG2 MOMENTS CHECKSUM: 3.5435726196576D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2265 TA= 2.32050E-01 CPU TIME= 9.15500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.17643361111141 %check_save_state: izleft hours = 77.7547222222222 --> plasma_hash("gframe"): TA= 2.320500E-01 NSTEP= 2265 Hash code: 57881802 ->PRGCHK: bdy curvature ratio at t= 2.3387E-01 seconds is: 6.6689E-02 % MHDEQ: TG1= 0.232050 ; TG2= 0.233868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.856E-06 FluxDiff MaxDT: 4.791E-03 Avg. GS error: 1.007E-02 Plasma Current: 5.886E+05, target: 5.886E+05, error: 0.003% Edge Q: 11.553, target: 11.605, error: 0.453% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5908E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6403E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.232050 TO TG2= 0.233868 @ NSTEP 2265 GFRAME TG2 MOMENTS CHECKSUM: 3.5413564349585D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -2.49789E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= -1.28568E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 14= -1.21221E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.338682E-01 NSTEP= 2266 Hash code: 18879504 ->PRGCHK: bdy curvature ratio at t= 2.3569E-01 seconds is: 6.4124E-02 % MHDEQ: TG1= 0.233868 ; TG2= 0.235686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.674E-06 FluxDiff MaxDT: 3.907E-03 Avg. GS error: 1.008E-02 Plasma Current: 5.898E+05, target: 5.898E+05, error: 0.003% Edge Q: 11.580, target: 11.643, error: 0.535% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6996E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6385E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.233868 TO TG2= 0.235686 @ NSTEP 2266 GFRAME TG2 MOMENTS CHECKSUM: 3.5455310645938D+03 --> plasma_hash("gframe"): TA= 2.356864E-01 NSTEP= 2268 Hash code: 85594996 ->PRGCHK: bdy curvature ratio at t= 2.3750E-01 seconds is: 6.1067E-02 % MHDEQ: TG1= 0.235686 ; TG2= 0.237505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.354E-06 FluxDiff MaxDT: 3.540E-03 Avg. GS error: 1.004E-02 Plasma Current: 5.916E+05, target: 5.916E+05, error: 0.001% Edge Q: 11.585, target: 11.677, error: 0.792% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7485E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5724E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.235686 TO TG2= 0.237505 @ NSTEP 2268 GFRAME TG2 MOMENTS CHECKSUM: 3.5486635558780D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2269 TA= 2.37358E-01 CPU TIME= 6.53500E-02 SECONDS. DT= 1.46678E-04 --> plasma_hash("gframe"): TA= 2.375045E-01 NSTEP= 2270 Hash code: 71209840 ->PRGCHK: bdy curvature ratio at t= 2.3932E-01 seconds is: 5.8528E-02 % MHDEQ: TG1= 0.237505 ; TG2= 0.239323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.332E-06 FluxDiff MaxDT: 3.332E-03 Avg. GS error: 9.964E-03 Plasma Current: 5.939E+05, target: 5.939E+05, error: 0.001% Edge Q: 11.580, target: 11.673, error: 0.801% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7745E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5434E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.237505 TO TG2= 0.239323 @ NSTEP 2270 GFRAME TG2 MOMENTS CHECKSUM: 3.5532784625505D+03 --> plasma_hash("gframe"): TA= 2.393227E-01 NSTEP= 2271 Hash code: 84342837 ->PRGCHK: bdy curvature ratio at t= 2.4114E-01 seconds is: 5.8910E-02 % MHDEQ: TG1= 0.239323 ; TG2= 0.241141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.814E-06 FluxDiff MaxDT: 2.924E-03 Avg. GS error: 9.790E-03 Plasma Current: 5.968E+05, target: 5.968E+05, error: 0.003% Edge Q: 11.579, target: 11.679, error: 0.851% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8048E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5336E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.239323 TO TG2= 0.241141 @ NSTEP 2271 GFRAME TG2 MOMENTS CHECKSUM: 3.5629878566516D+03 --> plasma_hash("gframe"): TA= 2.411409E-01 NSTEP= 2273 Hash code: 15345807 ->PRGCHK: bdy curvature ratio at t= 2.4296E-01 seconds is: 6.3922E-02 % MHDEQ: TG1= 0.241141 ; TG2= 0.242959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.053E-05 FluxDiff MaxDT: 2.508E-03 Avg. GS error: 9.867E-03 Plasma Current: 6.003E+05, target: 6.003E+05, error: 0.001% Edge Q: 11.588, target: 11.670, error: 0.703% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9789E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5458E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.241141 TO TG2= 0.242959 @ NSTEP 2273 GFRAME TG2 MOMENTS CHECKSUM: 3.5784278278784D+03 --> plasma_hash("gframe"): TA= 2.429591E-01 NSTEP= 2275 Hash code: 10075745 ->PRGCHK: bdy curvature ratio at t= 2.4478E-01 seconds is: 7.6639E-02 % MHDEQ: TG1= 0.242959 ; TG2= 0.244777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.159E-05 FluxDiff MaxDT: 2.347E-03 Avg. GS error: 1.054E-02 Plasma Current: 6.037E+05, target: 6.037E+05, error: 0.002% Edge Q: 11.622, target: 11.685, error: 0.540% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9033E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6516E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.242959 TO TG2= 0.244777 @ NSTEP 2275 GFRAME TG2 MOMENTS CHECKSUM: 3.5996883675506D+03 %MFRCHK - LABEL "BALE0_SGF", # 11= 1.65623E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 1.65961E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 1.26274E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.447773E-01 NSTEP= 2277 Hash code: 102117707 ->PRGCHK: bdy curvature ratio at t= 2.4660E-01 seconds is: 7.4376E-02 % MHDEQ: TG1= 0.244777 ; TG2= 0.246595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.254E-05 FluxDiff MaxDT: 2.238E-03 Avg. GS error: 1.013E-02 Plasma Current: 6.071E+05, target: 6.071E+05, error: 0.001% Edge Q: 11.670, target: 11.724, error: 0.465% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7932E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4948E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.244777 TO TG2= 0.246595 @ NSTEP 2277 GFRAME TG2 MOMENTS CHECKSUM: 3.6205028824704D+03 --> plasma_hash("gframe"): TA= 2.465954E-01 NSTEP= 2279 Hash code: 27733965 ->PRGCHK: bdy curvature ratio at t= 2.4841E-01 seconds is: 6.3903E-02 % MHDEQ: TG1= 0.246595 ; TG2= 0.248414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.386E-05 FluxDiff MaxDT: 2.142E-03 Avg. GS error: 9.980E-03 Plasma Current: 6.109E+05, target: 6.109E+05, error: 0.003% Edge Q: 11.739, target: 11.778, error: 0.335% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6421E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2008E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.246595 TO TG2= 0.248414 @ NSTEP 2279 GFRAME TG2 MOMENTS CHECKSUM: 3.6405283874308D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2279 TA= 2.46595E-01 CPU TIME= 9.23600E-03 SECONDS. DT= 1.57549E-03 --> plasma_hash("gframe"): TA= 2.484136E-01 NSTEP= 2281 Hash code: 113462366 ->PRGCHK: bdy curvature ratio at t= 2.5023E-01 seconds is: 5.7131E-02 % MHDEQ: TG1= 0.248414 ; TG2= 0.250232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.453E-05 FluxDiff MaxDT: 2.150E-03 Avg. GS error: 9.770E-03 Plasma Current: 6.154E+05, target: 6.154E+05, error: 0.003% Edge Q: 11.820, target: 11.860, error: 0.341% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9032E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0921E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.248414 TO TG2= 0.250232 @ NSTEP 2281 GFRAME TG2 MOMENTS CHECKSUM: 3.6581659218295D+03 --> plasma_hash("gframe"): TA= 2.502318E-01 NSTEP= 2283 Hash code: 99226934 ->PRGCHK: bdy curvature ratio at t= 2.5205E-01 seconds is: 5.5993E-02 % MHDEQ: TG1= 0.250232 ; TG2= 0.252050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.540E-05 FluxDiff MaxDT: 2.484E-03 Avg. GS error: 9.998E-03 Plasma Current: 6.190E+05, target: 6.190E+05, error: 0.001% Edge Q: 11.902, target: 11.976, error: 0.620% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8086E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.9543E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.250232 TO TG2= 0.252050 @ NSTEP 2283 GFRAME TG2 MOMENTS CHECKSUM: 3.6712952824697D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2285 TA= 2.52050E-01 CPU TIME= 9.16700E-03 SECONDS. DT= 1.13073E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.19467527777829 %check_save_state: izleft hours = 77.7363888888889 --> plasma_hash("gframe"): TA= 2.520500E-01 NSTEP= 2285 Hash code: 861587 ->PRGCHK: bdy curvature ratio at t= 2.5387E-01 seconds is: 5.9274E-02 % MHDEQ: TG1= 0.252050 ; TG2= 0.253868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.382E-05 FluxDiff MaxDT: 3.011E-03 Avg. GS error: 1.038E-02 Plasma Current: 6.215E+05, target: 6.215E+05, error: 0.001% Edge Q: 12.005, target: 12.107, error: 0.844% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6450E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.9351E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.252050 TO TG2= 0.253868 @ NSTEP 2285 GFRAME TG2 MOMENTS CHECKSUM: 3.6811625200143D+03 --> plasma_hash("gframe"): TA= 2.538682E-01 NSTEP= 2302 Hash code: 113527957 ->PRGCHK: bdy curvature ratio at t= 2.5569E-01 seconds is: 6.1938E-02 % MHDEQ: TG1= 0.253868 ; TG2= 0.255686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.308E-05 FluxDiff MaxDT: 3.873E-03 Avg. GS error: 1.023E-02 Plasma Current: 6.235E+05, target: 6.235E+05, error: 0.003% Edge Q: 11.834, target: 12.285, error: 3.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7706E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3447E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.253868 TO TG2= 0.255686 @ NSTEP 2302 GFRAME TG2 MOMENTS CHECKSUM: 3.6866045763647D+03 %MFRCHK - LABEL "BALE0_SGF", # 12= 1.28390E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.57507E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.46518E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.556864E-01 NSTEP= 2306 Hash code: 23205858 ->PRGCHK: bdy curvature ratio at t= 2.5750E-01 seconds is: 6.3225E-02 % MHDEQ: TG1= 0.255686 ; TG2= 0.257505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.387E-05 FluxDiff MaxDT: 3.476E-03 Avg. GS error: 9.814E-03 Plasma Current: 6.262E+05, target: 6.262E+05, error: 0.004% Edge Q: 11.489, target: 12.139, error: 5.350% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7671E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4067E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.255686 TO TG2= 0.257505 @ NSTEP 2306 GFRAME TG2 MOMENTS CHECKSUM: 3.6892453063499D+03 --> plasma_hash("gframe"): TA= 2.575045E-01 NSTEP= 2309 Hash code: 16726905 ->PRGCHK: bdy curvature ratio at t= 2.5932E-01 seconds is: 6.4193E-02 % MHDEQ: TG1= 0.257505 ; TG2= 0.259323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.472E-05 FluxDiff MaxDT: 3.282E-03 Avg. GS error: 9.542E-03 Plasma Current: 6.293E+05, target: 6.293E+05, error: 0.001% Edge Q: 11.260, target: 11.782, error: 4.432% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8103E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6631E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.257505 TO TG2= 0.259323 @ NSTEP 2309 GFRAME TG2 MOMENTS CHECKSUM: 3.6910952569368D+03 --> plasma_hash("gframe"): TA= 2.593227E-01 NSTEP= 2311 Hash code: 73577416 ->PRGCHK: bdy curvature ratio at t= 2.6114E-01 seconds is: 6.3308E-02 % MHDEQ: TG1= 0.259323 ; TG2= 0.261141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.563E-05 FluxDiff MaxDT: 2.464E-03 Avg. GS error: 9.951E-03 Plasma Current: 6.320E+05, target: 6.321E+05, error: 0.004% Edge Q: 11.218, target: 11.539, error: 2.779% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1227E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8375E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.259323 TO TG2= 0.261141 @ NSTEP 2311 GFRAME TG2 MOMENTS CHECKSUM: 3.6908999932831D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2312 TA= 2.60855E-01 CPU TIME= 2.47370E-02 SECONDS. DT= 2.85758E-04 --> plasma_hash("gframe"): TA= 2.611409E-01 NSTEP= 2313 Hash code: 7901784 ->PRGCHK: bdy curvature ratio at t= 2.6296E-01 seconds is: 6.2224E-02 % MHDEQ: TG1= 0.261141 ; TG2= 0.262959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.483E-05 FluxDiff MaxDT: 2.020E-03 Avg. GS error: 9.870E-03 Plasma Current: 6.345E+05, target: 6.345E+05, error: 0.004% Edge Q: 11.278, target: 11.500, error: 1.927% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1882E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5371E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.261141 TO TG2= 0.262959 @ NSTEP 2313 GFRAME TG2 MOMENTS CHECKSUM: 3.6893969115403D+03 --> plasma_hash("gframe"): TA= 2.629591E-01 NSTEP= 2315 Hash code: 18969538 ->PRGCHK: bdy curvature ratio at t= 2.6478E-01 seconds is: 5.7239E-02 % MHDEQ: TG1= 0.262959 ; TG2= 0.264777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.469E-05 FluxDiff MaxDT: 1.941E-03 Avg. GS error: 9.784E-03 Plasma Current: 6.379E+05, target: 6.379E+05, error: 0.002% Edge Q: 11.321, target: 11.560, error: 2.070% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0614E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4280E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.262959 TO TG2= 0.264777 @ NSTEP 2315 GFRAME TG2 MOMENTS CHECKSUM: 3.6877749806739D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= -1.37345E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -1.37255E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.69762E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.647773E-01 NSTEP= 2317 Hash code: 120378461 ->PRGCHK: bdy curvature ratio at t= 2.6660E-01 seconds is: 5.4384E-02 % MHDEQ: TG1= 0.264777 ; TG2= 0.266595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.505E-05 FluxDiff MaxDT: 1.903E-03 Avg. GS error: 9.772E-03 Plasma Current: 6.425E+05, target: 6.426E+05, error: 0.006% Edge Q: 11.339, target: 11.597, error: 2.223% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2416E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0918E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.264777 TO TG2= 0.266595 @ NSTEP 2317 GFRAME TG2 MOMENTS CHECKSUM: 3.6864669166499D+03 --> plasma_hash("gframe"): TA= 2.665954E-01 NSTEP= 2319 Hash code: 61505370 ->PRGCHK: bdy curvature ratio at t= 2.6841E-01 seconds is: 5.3860E-02 % MHDEQ: TG1= 0.266595 ; TG2= 0.268414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.564E-05 FluxDiff MaxDT: 1.879E-03 Avg. GS error: 1.015E-02 Plasma Current: 6.479E+05, target: 6.479E+05, error: 0.002% Edge Q: 11.343, target: 11.616, error: 2.354% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1403E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9477E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.266595 TO TG2= 0.268414 @ NSTEP 2319 GFRAME TG2 MOMENTS CHECKSUM: 3.6845026780479D+03 --> plasma_hash("gframe"): TA= 2.684136E-01 NSTEP= 2321 Hash code: 43840620 ->PRGCHK: bdy curvature ratio at t= 2.7023E-01 seconds is: 5.6645E-02 % MHDEQ: TG1= 0.268414 ; TG2= 0.270232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.598E-05 FluxDiff MaxDT: 1.963E-03 Avg. GS error: 1.036E-02 Plasma Current: 6.531E+05, target: 6.531E+05, error: 0.002% Edge Q: 11.342, target: 11.615, error: 2.350% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1366E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7261E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.268414 TO TG2= 0.270232 @ NSTEP 2321 GFRAME TG2 MOMENTS CHECKSUM: 3.6818271162884D+03 --> plasma_hash("gframe"): TA= 2.702318E-01 NSTEP= 2322 Hash code: 97464141 ->PRGCHK: bdy curvature ratio at t= 2.7205E-01 seconds is: 6.0297E-02 % MHDEQ: TG1= 0.270232 ; TG2= 0.272050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.654E-05 FluxDiff MaxDT: 2.013E-03 Avg. GS error: 1.041E-02 Plasma Current: 6.583E+05, target: 6.583E+05, error: 0.004% Edge Q: 11.347, target: 11.621, error: 2.359% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9806E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6165E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.270232 TO TG2= 0.272050 @ NSTEP 2322 GFRAME TG2 MOMENTS CHECKSUM: 3.6795110404940D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2323 TA= 2.72050E-01 CPU TIME= 9.15400E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.21603055555602 %check_save_state: izleft hours = 77.7150000000000 --> plasma_hash("gframe"): TA= 2.720500E-01 NSTEP= 2323 Hash code: 17562610 ->PRGCHK: bdy curvature ratio at t= 2.7387E-01 seconds is: 6.4653E-02 % MHDEQ: TG1= 0.272050 ; TG2= 0.273868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.618E-05 FluxDiff MaxDT: 2.025E-03 Avg. GS error: 1.020E-02 Plasma Current: 6.632E+05, target: 6.632E+05, error: 0.000% Edge Q: 11.369, target: 11.624, error: 2.195% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0238E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4775E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.272050 TO TG2= 0.273868 @ NSTEP 2323 GFRAME TG2 MOMENTS CHECKSUM: 3.6769812557698D+03 %MFRCHK - LABEL "BALE0_SGF", # 13= 2.10109E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 5.54592E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 5.80133E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.738682E-01 NSTEP= 2324 Hash code: 28162191 ->PRGCHK: bdy curvature ratio at t= 2.7569E-01 seconds is: 6.9949E-02 % MHDEQ: TG1= 0.273868 ; TG2= 0.275686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.632E-05 FluxDiff MaxDT: 2.278E-03 Avg. GS error: 9.703E-03 Plasma Current: 6.674E+05, target: 6.674E+05, error: 0.000% Edge Q: 11.335, target: 11.654, error: 2.740% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0016E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7325E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.273868 TO TG2= 0.275686 @ NSTEP 2324 GFRAME TG2 MOMENTS CHECKSUM: 3.6734509464608D+03 --> plasma_hash("gframe"): TA= 2.756864E-01 NSTEP= 2325 Hash code: 52623113 ->PRGCHK: bdy curvature ratio at t= 2.7750E-01 seconds is: 7.6418E-02 % MHDEQ: TG1= 0.275686 ; TG2= 0.277505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.574E-05 FluxDiff MaxDT: 2.625E-03 Avg. GS error: 9.360E-03 Plasma Current: 6.706E+05, target: 6.706E+05, error: 0.003% Edge Q: 11.221, target: 11.612, error: 3.369% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8596E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1192E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.275686 TO TG2= 0.277505 @ NSTEP 2325 GFRAME TG2 MOMENTS CHECKSUM: 3.6697545768661D+03 --> plasma_hash("gframe"): TA= 2.775045E-01 NSTEP= 2326 Hash code: 50401494 ->PRGCHK: bdy curvature ratio at t= 2.7932E-01 seconds is: 8.4234E-02 % MHDEQ: TG1= 0.277505 ; TG2= 0.279323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.572E-05 FluxDiff MaxDT: 2.574E-03 Avg. GS error: 9.217E-03 Plasma Current: 6.742E+05, target: 6.742E+05, error: 0.001% Edge Q: 11.128, target: 11.480, error: 3.069% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8653E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8976E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.277505 TO TG2= 0.279323 @ NSTEP 2326 GFRAME TG2 MOMENTS CHECKSUM: 3.6645297302677D+03 --> plasma_hash("gframe"): TA= 2.793227E-01 NSTEP= 2327 Hash code: 67268762 ->PRGCHK: bdy curvature ratio at t= 2.8114E-01 seconds is: 7.8934E-02 % MHDEQ: TG1= 0.279323 ; TG2= 0.281141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.624E-05 FluxDiff MaxDT: 2.387E-03 Avg. GS error: 9.101E-03 Plasma Current: 6.789E+05, target: 6.789E+05, error: 0.001% Edge Q: 11.069, target: 11.365, error: 2.602% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9669E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.7151E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.279323 TO TG2= 0.281141 @ NSTEP 2327 GFRAME TG2 MOMENTS CHECKSUM: 3.6606888720417D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.280000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 1.70000000E+13 to 3.00000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 2.00000000E+00 to 3.00000000E+00 namelist update changed APROF_COEFFS_NER( 2) from 1.80000000E+00 to 1.50000000E+01 namelist update changed APROF_COEFFS_NER( 3) from 0.00000000E+00 to 3.00000000E+00 namelist update changed APROF_EDGE_VALUE_NER from 7.00000000E+12 to 1.60000000E+13 namelist update changed N_ANALYTIC_FORM_NER from 1 to 2 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... %CHKNIO -- CHANGE IN DENSITY REQUIRES SHORTENING OF TIMESTEP. OLD DT = 8.46600E-04 ZONE = 13 GAS = 1 DN(ABS)= 3.03482E+10 DN(REL)= 1.59380E-01 RHOEL PREVIOUS TIMESTEP: 1.18552E+13 NOW: 1.38959E+13 DIFF: 2.04077E+12 XZEFFC PREVIOUS TIMESTEP: 2.00000E+00 NOW: 2.00000E+00 DIFF: 0.00000E+00 RHB PREVIOUS TIMESTEP: 8.64161E+11 NOW: 8.55437E+11 DIFF: -8.72406E+09 RHI PREVIOUS TIMESTEP: 3.95173E+11 NOW: 4.63198E+11 DIFF: 6.80257E+10 RHMIN PREVIOUS TIMESTEP: 0.00000E+00 NOW: 0.00000E+00 DIFF: 0.00000E+00 RHOB 1 PREVIOUS TIMESTEP: 1.60066E+11 NOW: 1.90414E+11 DIFF: 3.03482E+10 RHOB 2 PREVIOUS TIMESTEP: 8.45991E+12 NOW: 1.00709E+13 DIFF: 1.61099E+12 RHBS 1 PREVIOUS TIMESTEP: 8.64161E+11 NOW: 8.55437E+11 DIFF: -8.72406E+09 %TOO MANY ITERATIONS IN PROFNJ, REDUCING TIMESTEP *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2334 TA= 2.80163E-01 CPU TIME= 1.18300E-02 SECONDS. DT= 3.43567E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2340 TA= 2.80332E-01 CPU TIME= 2.62650E-02 SECONDS. DT= 3.37851E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2346 TA= 2.80509E-01 CPU TIME= 4.97870E-02 SECONDS. DT= 3.44871E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2352 TA= 2.80702E-01 CPU TIME= 3.86460E-02 SECONDS. DT= 4.50668E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2358 TA= 2.80904E-01 CPU TIME= 6.01240E-02 SECONDS. DT= 4.48767E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2364 TA= 2.81113E-01 CPU TIME= 3.50680E-02 SECONDS. DT= 2.83218E-05 --> plasma_hash("gframe"): TA= 2.811409E-01 NSTEP= 2365 Hash code: 25422920 ->PRGCHK: bdy curvature ratio at t= 2.8296E-01 seconds is: 7.4697E-02 % MHDEQ: TG1= 0.281141 ; TG2= 0.282959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.678E-05 FluxDiff MaxDT: 2.189E-03 Avg. GS error: 8.858E-03 Plasma Current: 6.841E+05, target: 6.841E+05, error: 0.001% Edge Q: 11.063, target: 11.297, error: 2.069% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9716E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.1030E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.281141 TO TG2= 0.282959 @ NSTEP 2365 GFRAME TG2 MOMENTS CHECKSUM: 3.6583539176091D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2370 TA= 2.81325E-01 CPU TIME= 1.61160E-02 SECONDS. DT= 4.59408E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2376 TA= 2.81554E-01 CPU TIME= 1.38090E-02 SECONDS. DT= 4.59638E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2382 TA= 2.81802E-01 CPU TIME= 9.20600E-03 SECONDS. DT= 4.84369E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2388 TA= 2.82063E-01 CPU TIME= 9.29400E-03 SECONDS. DT= 5.10368E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2394 TA= 2.82337E-01 CPU TIME= 9.36100E-03 SECONDS. DT= 5.37700E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2400 TA= 2.82625E-01 CPU TIME= 3.06900E-02 SECONDS. DT= 5.66431E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2406 TA= 2.82928E-01 CPU TIME= 9.35900E-03 SECONDS. DT= 3.11600E-05 --> plasma_hash("gframe"): TA= 2.829591E-01 NSTEP= 2407 Hash code: 96883066 ->PRGCHK: bdy curvature ratio at t= 2.8478E-01 seconds is: 7.1712E-02 % MHDEQ: TG1= 0.282959 ; TG2= 0.284777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.850E-05 FluxDiff MaxDT: 2.082E-03 Avg. GS error: 9.192E-03 Plasma Current: 6.887E+05, target: 6.887E+05, error: 0.001% Edge Q: 11.196, target: 11.303, error: 0.945% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8724E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4964E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.282959 TO TG2= 0.284777 @ NSTEP 2407 GFRAME TG2 MOMENTS CHECKSUM: 3.6552753120651D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2412 TA= 2.83229E-01 CPU TIME= 1.42092E-01 SECONDS. DT= 6.49123E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2418 TA= 2.83562E-01 CPU TIME= 1.32510E-02 SECONDS. DT= 6.82399E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2424 TA= 2.83923E-01 CPU TIME= 1.49603E-01 SECONDS. DT= 7.49670E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2430 TA= 2.84299E-01 CPU TIME= 9.57900E-03 SECONDS. DT= 8.25799E-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", # 20= 6.49559E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 3.59643E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 2.89916E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2436 TA= 2.84691E-01 CPU TIME= 3.65320E-02 SECONDS. DT= 8.60555E-05 --> plasma_hash("gframe"): TA= 2.847773E-01 NSTEP= 2438 Hash code: 82581996 ->PRGCHK: bdy curvature ratio at t= 2.8660E-01 seconds is: 6.9674E-02 % MHDEQ: TG1= 0.284777 ; TG2= 0.286595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.909E-05 FluxDiff MaxDT: 2.375E-03 Avg. GS error: 9.556E-03 Plasma Current: 6.926E+05, target: 6.926E+05, error: 0.001% Edge Q: 11.329, target: 11.477, error: 1.292% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6676E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1432E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.284777 TO TG2= 0.286595 @ NSTEP 2438 GFRAME TG2 MOMENTS CHECKSUM: 3.6531696770131D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2443 TA= 2.85124E-01 CPU TIME= 1.29428E-01 SECONDS. DT= 9.54110E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2449 TA= 2.85555E-01 CPU TIME= 9.81880E-02 SECONDS. DT= 1.04945E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2455 TA= 2.86004E-01 CPU TIME= 6.14160E-02 SECONDS. DT= 8.92661E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2461 TA= 2.86508E-01 CPU TIME= 2.03320E-02 SECONDS. DT= 8.72369E-05 --> plasma_hash("gframe"): TA= 2.865954E-01 NSTEP= 2462 Hash code: 93447848 ->PRGCHK: bdy curvature ratio at t= 2.8841E-01 seconds is: 6.8914E-02 % MHDEQ: TG1= 0.286595 ; TG2= 0.288414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.135E-05 FluxDiff MaxDT: 3.229E-03 Avg. GS error: 9.959E-03 Plasma Current: 6.966E+05, target: 6.966E+05, error: 0.002% Edge Q: 11.140, target: 11.683, error: 4.648% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1221E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6362E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.286595 TO TG2= 0.288414 @ NSTEP 2462 GFRAME TG2 MOMENTS CHECKSUM: 3.6485377331759D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2467 TA= 2.87034E-01 CPU TIME= 1.31360E-02 SECONDS. DT= 1.14596E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2473 TA= 2.87563E-01 CPU TIME= 9.34500E-03 SECONDS. DT= 1.29730E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2479 TA= 2.88128E-01 CPU TIME= 9.42400E-03 SECONDS. DT= 1.11516E-04 --> plasma_hash("gframe"): TA= 2.884136E-01 NSTEP= 2482 Hash code: 108005422 ->PRGCHK: bdy curvature ratio at t= 2.9023E-01 seconds is: 6.8486E-02 % MHDEQ: TG1= 0.288414 ; TG2= 0.290232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.276E-05 FluxDiff MaxDT: 3.149E-03 Avg. GS error: 1.033E-02 Plasma Current: 7.007E+05, target: 7.007E+05, error: 0.004% Edge Q: 11.002, target: 11.459, error: 3.990% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0207E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2814E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.288414 TO TG2= 0.290232 @ NSTEP 2482 GFRAME TG2 MOMENTS CHECKSUM: 3.6452696811094D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2485 TA= 2.88727E-01 CPU TIME= 2.83110E-02 SECONDS. DT= 1.26821E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2491 TA= 2.89356E-01 CPU TIME= 9.39700E-03 SECONDS. DT= 1.49293E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2497 TA= 2.90036E-01 CPU TIME= 2.92960E-02 SECONDS. DT= 1.64372E-04 --> plasma_hash("gframe"): TA= 2.902318E-01 NSTEP= 2499 Hash code: 37935623 ->PRGCHK: bdy curvature ratio at t= 2.9205E-01 seconds is: 6.8079E-02 % MHDEQ: TG1= 0.290232 ; TG2= 0.292050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.200E-05 FluxDiff MaxDT: 3.194E-03 Avg. GS error: 1.084E-02 Plasma Current: 7.042E+05, target: 7.042E+05, error: 0.005% Edge Q: 10.882, target: 11.316, error: 3.837% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6625E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0096E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.290232 TO TG2= 0.292050 @ NSTEP 2499 GFRAME TG2 MOMENTS CHECKSUM: 3.6418459610825D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2501 TA= 2.90694E-01 CPU TIME= 9.39410E-02 SECONDS. DT= 3.21040E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2504 TA= 2.91918E-01 CPU TIME= 1.26330E-02 SECONDS. DT= 1.31921E-04 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2505 TA= 2.92050E-01 CPU TIME= 9.32800E-03 SECONDS. DT= 1.64901E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.25586250000038 %check_save_state: izleft hours = 77.6752777777778 --> plasma_hash("gframe"): TA= 2.920500E-01 NSTEP= 2505 Hash code: 90511557 ->PRGCHK: bdy curvature ratio at t= 2.9387E-01 seconds is: 6.7690E-02 % MHDEQ: TG1= 0.292050 ; TG2= 0.293868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.117E-05 FluxDiff MaxDT: 3.476E-03 Avg. GS error: 1.134E-02 Plasma Current: 7.069E+05, target: 7.069E+05, error: 0.005% Edge Q: 10.785, target: 11.184, error: 3.564% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6842E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2233E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.292050 TO TG2= 0.293868 @ NSTEP 2505 GFRAME TG2 MOMENTS CHECKSUM: 3.6386096902661D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2510 TA= 2.93403E-01 CPU TIME= 1.34540E-02 SECONDS. DT= 4.64833E-04 --> plasma_hash("gframe"): TA= 2.938682E-01 NSTEP= 2511 Hash code: 32507001 ->PRGCHK: bdy curvature ratio at t= 2.9569E-01 seconds is: 6.7320E-02 % MHDEQ: TG1= 0.293868 ; TG2= 0.295686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.585E-05 FluxDiff MaxDT: 4.793E-03 Avg. GS error: 1.199E-02 Plasma Current: 7.095E+05, target: 7.095E+05, error: 0.005% Edge Q: 10.695, target: 11.092, error: 3.580% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6812E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6004E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.293868 TO TG2= 0.295686 @ NSTEP 2511 GFRAME TG2 MOMENTS CHECKSUM: 3.6355869756925D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -1.54076E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 2.42311E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 2.93711E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2513 TA= 2.95000E-01 CPU TIME= 1.39630E-02 SECONDS. DT= 6.85896E-04 --> plasma_hash("gframe"): TA= 2.956864E-01 NSTEP= 2514 Hash code: 16602751 ->PRGCHK: bdy curvature ratio at t= 2.9750E-01 seconds is: 6.6969E-02 % MHDEQ: TG1= 0.295686 ; TG2= 0.297505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.975E-05 FluxDiff MaxDT: 5.700E-03 Avg. GS error: 1.197E-02 Plasma Current: 7.124E+05, target: 7.123E+05, error: 0.004% Edge Q: 10.611, target: 11.015, error: 3.671% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7409E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1868E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.295686 TO TG2= 0.297505 @ NSTEP 2514 GFRAME TG2 MOMENTS CHECKSUM: 3.6329750435283D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2516 TA= 2.97456E-01 CPU TIME= 1.78163E-01 SECONDS. DT= 4.89845E-05 --> plasma_hash("gframe"): TA= 2.975045E-01 NSTEP= 2517 Hash code: 28348153 ->PRGCHK: bdy curvature ratio at t= 2.9932E-01 seconds is: 6.6636E-02 % MHDEQ: TG1= 0.297505 ; TG2= 0.299323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.797E-05 FluxDiff MaxDT: 6.071E-03 Avg. GS error: 1.185E-02 Plasma Current: 7.151E+05, target: 7.151E+05, error: 0.004% Edge Q: 10.538, target: 10.927, error: 3.561% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7276E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0513E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.297505 TO TG2= 0.299323 @ NSTEP 2517 GFRAME TG2 MOMENTS CHECKSUM: 3.6308472852199D+03 --> plasma_hash("gframe"): TA= 2.993227E-01 NSTEP= 2519 Hash code: 36819154 ->PRGCHK: bdy curvature ratio at t= 3.0114E-01 seconds is: 6.6320E-02 % MHDEQ: TG1= 0.299323 ; TG2= 0.301141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.547E-05 FluxDiff MaxDT: 6.230E-03 Avg. GS error: 1.193E-02 Plasma Current: 7.175E+05, target: 7.175E+05, error: 0.003% Edge Q: 10.478, target: 10.854, error: 3.461% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6707E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0889E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.299323 TO TG2= 0.301141 @ NSTEP 2519 GFRAME TG2 MOMENTS CHECKSUM: 3.6289601435079D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2520 TA= 3.00858E-01 CPU TIME= 9.38900E-03 SECONDS. DT= 2.82420E-04 --> plasma_hash("gframe"): TA= 3.011409E-01 NSTEP= 2521 Hash code: 2895214 ->PRGCHK: bdy curvature ratio at t= 3.0296E-01 seconds is: 6.6021E-02 % MHDEQ: TG1= 0.301141 ; TG2= 0.302959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.372E-05 FluxDiff MaxDT: 6.246E-03 Avg. GS error: 1.208E-02 Plasma Current: 7.199E+05, target: 7.199E+05, error: 0.003% Edge Q: 10.423, target: 10.790, error: 3.402% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6113E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2001E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.301141 TO TG2= 0.302959 @ NSTEP 2521 GFRAME TG2 MOMENTS CHECKSUM: 3.6273382455777D+03 --> plasma_hash("gframe"): TA= 3.029591E-01 NSTEP= 2522 Hash code: 153248 ->PRGCHK: bdy curvature ratio at t= 3.0478E-01 seconds is: 6.5739E-02 % MHDEQ: TG1= 0.302959 ; TG2= 0.304777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.276E-05 FluxDiff MaxDT: 6.037E-03 Avg. GS error: 1.197E-02 Plasma Current: 7.227E+05, target: 7.227E+05, error: 0.003% Edge Q: 10.364, target: 10.730, error: 3.407% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6078E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1823E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.302959 TO TG2= 0.304777 @ NSTEP 2522 GFRAME TG2 MOMENTS CHECKSUM: 3.6258911363895D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.70531E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.56717E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -2.49382E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.047773E-01 NSTEP= 2523 Hash code: 40806293 ->PRGCHK: bdy curvature ratio at t= 3.0660E-01 seconds is: 6.5474E-02 % MHDEQ: TG1= 0.304777 ; TG2= 0.306595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.235E-05 FluxDiff MaxDT: 5.812E-03 Avg. GS error: 1.202E-02 Plasma Current: 7.257E+05, target: 7.257E+05, error: 0.003% Edge Q: 10.305, target: 10.659, error: 3.329% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5809E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2235E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.304777 TO TG2= 0.306595 @ NSTEP 2523 GFRAME TG2 MOMENTS CHECKSUM: 3.6245234228478D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2523 TA= 3.04777E-01 CPU TIME= 9.41200E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 3.065954E-01 NSTEP= 2524 Hash code: 81710411 ->PRGCHK: bdy curvature ratio at t= 3.0841E-01 seconds is: 6.5224E-02 % MHDEQ: TG1= 0.306595 ; TG2= 0.308414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.185E-05 FluxDiff MaxDT: 5.714E-03 Avg. GS error: 1.173E-02 Plasma Current: 7.284E+05, target: 7.284E+05, error: 0.003% Edge Q: 10.257, target: 10.593, error: 3.164% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6150E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0552E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.306595 TO TG2= 0.308414 @ NSTEP 2524 GFRAME TG2 MOMENTS CHECKSUM: 3.6232401298074D+03 --> plasma_hash("gframe"): TA= 3.084136E-01 NSTEP= 2525 Hash code: 11454028 ->PRGCHK: bdy curvature ratio at t= 3.1023E-01 seconds is: 6.4989E-02 % MHDEQ: TG1= 0.308414 ; TG2= 0.310232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.059E-05 FluxDiff MaxDT: 5.703E-03 Avg. GS error: 1.155E-02 Plasma Current: 7.308E+05, target: 7.308E+05, error: 0.002% Edge Q: 10.218, target: 10.543, error: 3.079% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5962E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9711E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.308414 TO TG2= 0.310232 @ NSTEP 2525 GFRAME TG2 MOMENTS CHECKSUM: 3.6219543463542D+03 --> plasma_hash("gframe"): TA= 3.102318E-01 NSTEP= 2526 Hash code: 115919832 ->PRGCHK: bdy curvature ratio at t= 3.1205E-01 seconds is: 6.4770E-02 % MHDEQ: TG1= 0.310232 ; TG2= 0.312050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.790E-06 FluxDiff MaxDT: 5.605E-03 Avg. GS error: 1.154E-02 Plasma Current: 7.331E+05, target: 7.331E+05, error: 0.001% Edge Q: 10.181, target: 10.501, error: 3.048% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5963E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9714E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.310232 TO TG2= 0.312050 @ NSTEP 2526 GFRAME TG2 MOMENTS CHECKSUM: 3.6206767614398D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2526 TA= 3.10232E-01 CPU TIME= 9.37000E-03 SECONDS. DT= 1.81818E-03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2527 TA= 3.12050E-01 CPU TIME= 9.33300E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.26912555555600 %check_save_state: izleft hours = 77.6619444444444 --> plasma_hash("gframe"): TA= 3.120500E-01 NSTEP= 2527 Hash code: 51190695 ->PRGCHK: bdy curvature ratio at t= 3.1387E-01 seconds is: 6.4566E-02 % MHDEQ: TG1= 0.312050 ; TG2= 0.313868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.354E-06 FluxDiff MaxDT: 5.547E-03 Avg. GS error: 1.143E-02 Plasma Current: 7.356E+05, target: 7.356E+05, error: 0.000% Edge Q: 10.141, target: 10.459, error: 3.045% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5891E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9400E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.312050 TO TG2= 0.313868 @ NSTEP 2527 GFRAME TG2 MOMENTS CHECKSUM: 3.6193459071784D+03 --> plasma_hash("gframe"): TA= 3.138682E-01 NSTEP= 2528 Hash code: 82678195 ->PRGCHK: bdy curvature ratio at t= 3.1569E-01 seconds is: 6.4376E-02 % MHDEQ: TG1= 0.313868 ; TG2= 0.315686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.313E-06 FluxDiff MaxDT: 5.280E-03 Avg. GS error: 1.106E-02 Plasma Current: 7.381E+05, target: 7.381E+05, error: 0.001% Edge Q: 10.111, target: 10.415, error: 2.917% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6546E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9150E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.313868 TO TG2= 0.315686 @ NSTEP 2528 GFRAME TG2 MOMENTS CHECKSUM: 3.6185189123673D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.65013E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -2.49282E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -2.49282E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.156864E-01 NSTEP= 2529 Hash code: 115605994 ->PRGCHK: bdy curvature ratio at t= 3.1750E-01 seconds is: 6.4201E-02 % MHDEQ: TG1= 0.315686 ; TG2= 0.317505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.981E-06 FluxDiff MaxDT: 5.196E-03 Avg. GS error: 1.068E-02 Plasma Current: 7.405E+05, target: 7.406E+05, error: 0.020% Edge Q: 9.984, target: 10.386, error: 3.870% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6450E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2870E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.315686 TO TG2= 0.317505 @ NSTEP 2529 GFRAME TG2 MOMENTS CHECKSUM: 3.6157090792518D+03 --> plasma_hash("gframe"): TA= 3.175045E-01 NSTEP= 2530 Hash code: 31551758 ->PRGCHK: bdy curvature ratio at t= 3.1932E-01 seconds is: 6.4039E-02 % MHDEQ: TG1= 0.317505 ; TG2= 0.319323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.163E-06 FluxDiff MaxDT: 5.043E-03 Avg. GS error: 1.051E-02 Plasma Current: 7.435E+05, target: 7.436E+05, error: 0.024% Edge Q: 9.935, target: 10.250, error: 3.075% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6573E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3609E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.317505 TO TG2= 0.319323 @ NSTEP 2530 GFRAME TG2 MOMENTS CHECKSUM: 3.6147245633439D+03 --> plasma_hash("gframe"): TA= 3.193227E-01 NSTEP= 2531 Hash code: 114982154 ->PRGCHK: bdy curvature ratio at t= 3.2114E-01 seconds is: 6.3891E-02 % MHDEQ: TG1= 0.319323 ; TG2= 0.321141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.642E-06 FluxDiff MaxDT: 4.667E-03 Avg. GS error: 1.032E-02 Plasma Current: 7.476E+05, target: 7.478E+05, error: 0.026% Edge Q: 9.880, target: 10.197, error: 3.115% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7298E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4926E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.319323 TO TG2= 0.321141 @ NSTEP 2531 GFRAME TG2 MOMENTS CHECKSUM: 3.6140383970245D+03 --> plasma_hash("gframe"): TA= 3.211409E-01 NSTEP= 2532 Hash code: 44605921 ->PRGCHK: bdy curvature ratio at t= 3.2296E-01 seconds is: 6.3757E-02 % MHDEQ: TG1= 0.321141 ; TG2= 0.322959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.166E-05 FluxDiff MaxDT: 4.465E-03 Avg. GS error: 1.033E-02 Plasma Current: 7.522E+05, target: 7.522E+05, error: 0.004% Edge Q: 9.933, target: 10.129, error: 1.936% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6945E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5513E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.321141 TO TG2= 0.322959 @ NSTEP 2532 GFRAME TG2 MOMENTS CHECKSUM: 3.6156832907495D+03 --> plasma_hash("gframe"): TA= 3.229591E-01 NSTEP= 2533 Hash code: 19348326 ->PRGCHK: bdy curvature ratio at t= 3.2478E-01 seconds is: 6.3463E-02 % MHDEQ: TG1= 0.322959 ; TG2= 0.324777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.182E-05 FluxDiff MaxDT: 4.596E-03 Avg. GS error: 1.019E-02 Plasma Current: 7.552E+05, target: 7.552E+05, error: 0.005% Edge Q: 9.902, target: 10.184, error: 2.775% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6502E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8244E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.322959 TO TG2= 0.324777 @ NSTEP 2533 GFRAME TG2 MOMENTS CHECKSUM: 3.6149620886701D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.64051E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -2.47540E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -2.47540E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.247773E-01 NSTEP= 2534 Hash code: 50910220 ->PRGCHK: bdy curvature ratio at t= 3.2660E-01 seconds is: 6.2815E-02 % MHDEQ: TG1= 0.324777 ; TG2= 0.326595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.005E-05 FluxDiff MaxDT: 4.946E-03 Avg. GS error: 1.012E-02 Plasma Current: 7.568E+05, target: 7.569E+05, error: 0.006% Edge Q: 9.897, target: 10.158, error: 2.571% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6476E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0078E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.324777 TO TG2= 0.326595 @ NSTEP 2534 GFRAME TG2 MOMENTS CHECKSUM: 3.6142242698655D+03 --> plasma_hash("gframe"): TA= 3.265954E-01 NSTEP= 2535 Hash code: 122331258 ->PRGCHK: bdy curvature ratio at t= 3.2841E-01 seconds is: 6.2189E-02 % MHDEQ: TG1= 0.326595 ; TG2= 0.328414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.399E-06 FluxDiff MaxDT: 5.072E-03 Avg. GS error: 1.008E-02 Plasma Current: 7.583E+05, target: 7.584E+05, error: 0.006% Edge Q: 9.894, target: 10.162, error: 2.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6796E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2530E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.326595 TO TG2= 0.328414 @ NSTEP 2535 GFRAME TG2 MOMENTS CHECKSUM: 3.6134689793369D+03 --> plasma_hash("gframe"): TA= 3.284136E-01 NSTEP= 2536 Hash code: 94783662 ->PRGCHK: bdy curvature ratio at t= 3.3023E-01 seconds is: 6.1585E-02 % MHDEQ: TG1= 0.328414 ; TG2= 0.330232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.555E-06 FluxDiff MaxDT: 4.990E-03 Avg. GS error: 1.006E-02 Plasma Current: 7.604E+05, target: 7.604E+05, error: 0.006% Edge Q: 9.884, target: 10.158, error: 2.700% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7135E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5109E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.328414 TO TG2= 0.330232 @ NSTEP 2536 GFRAME TG2 MOMENTS CHECKSUM: 3.6129130029090D+03 --> plasma_hash("gframe"): TA= 3.302318E-01 NSTEP= 2537 Hash code: 41557022 ->PRGCHK: bdy curvature ratio at t= 3.3205E-01 seconds is: 6.1002E-02 % MHDEQ: TG1= 0.330232 ; TG2= 0.332050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.003E-06 FluxDiff MaxDT: 5.006E-03 Avg. GS error: 1.006E-02 Plasma Current: 7.622E+05, target: 7.623E+05, error: 0.006% Edge Q: 9.879, target: 10.148, error: 2.644% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6795E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8328E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.330232 TO TG2= 0.332050 @ NSTEP 2537 GFRAME TG2 MOMENTS CHECKSUM: 3.6123361756573D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2538 TA= 3.32050E-01 CPU TIME= 9.32700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.27880527777802 %check_save_state: izleft hours = 77.6522222222222 --> plasma_hash("gframe"): TA= 3.320500E-01 NSTEP= 2538 Hash code: 100889700 ->PRGCHK: bdy curvature ratio at t= 3.3387E-01 seconds is: 6.0440E-02 % MHDEQ: TG1= 0.332050 ; TG2= 0.333868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.327E-06 FluxDiff MaxDT: 5.086E-03 Avg. GS error: 1.007E-02 Plasma Current: 7.637E+05, target: 7.637E+05, error: 0.006% Edge Q: 9.882, target: 10.145, error: 2.593% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6425E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9118E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.332050 TO TG2= 0.333868 @ NSTEP 2538 GFRAME TG2 MOMENTS CHECKSUM: 3.6118005377616D+03 --> plasma_hash("gframe"): TA= 3.338682E-01 NSTEP= 2539 Hash code: 8990861 ->PRGCHK: bdy curvature ratio at t= 3.3569E-01 seconds is: 5.9897E-02 % MHDEQ: TG1= 0.333868 ; TG2= 0.335686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.482E-06 FluxDiff MaxDT: 5.376E-03 Avg. GS error: 1.004E-02 Plasma Current: 7.651E+05, target: 7.651E+05, error: 0.005% Edge Q: 9.894, target: 10.151, error: 2.530% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6563E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8541E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.333868 TO TG2= 0.335686 @ NSTEP 2539 GFRAME TG2 MOMENTS CHECKSUM: 3.6122049343259D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.76138E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.68868E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.83552E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.356864E-01 NSTEP= 2540 Hash code: 28293359 ->PRGCHK: bdy curvature ratio at t= 3.3750E-01 seconds is: 5.9374E-02 % MHDEQ: TG1= 0.335686 ; TG2= 0.337505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.385E-06 FluxDiff MaxDT: 5.347E-03 Avg. GS error: 9.994E-03 Plasma Current: 7.668E+05, target: 7.669E+05, error: 0.005% Edge Q: 9.900, target: 10.169, error: 2.648% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7224E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7144E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.335686 TO TG2= 0.337505 @ NSTEP 2540 GFRAME TG2 MOMENTS CHECKSUM: 3.6125575708621D+03 --> plasma_hash("gframe"): TA= 3.375045E-01 NSTEP= 2541 Hash code: 45199404 ->PRGCHK: bdy curvature ratio at t= 3.3932E-01 seconds is: 5.8883E-02 % MHDEQ: TG1= 0.337505 ; TG2= 0.339323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.197E-06 FluxDiff MaxDT: 5.310E-03 Avg. GS error: 9.866E-03 Plasma Current: 7.690E+05, target: 7.690E+05, error: 0.005% Edge Q: 9.889, target: 10.172, error: 2.786% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7494E+00 SECONDS DATA R*BT AT EDGE: 5.9012E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5785E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.337505 TO TG2= 0.339323 @ NSTEP 2541 GFRAME TG2 MOMENTS CHECKSUM: 3.6136943512778D+03 --> plasma_hash("gframe"): TA= 3.393227E-01 NSTEP= 2542 Hash code: 115885507 ->PRGCHK: bdy curvature ratio at t= 3.4114E-01 seconds is: 5.8412E-02 % MHDEQ: TG1= 0.339323 ; TG2= 0.341141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.847E-06 FluxDiff MaxDT: 5.054E-03 Avg. GS error: 9.702E-03 Plasma Current: 7.720E+05, target: 7.720E+05, error: 0.007% Edge Q: 9.859, target: 10.159, error: 2.951% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7852E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3843E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.339323 TO TG2= 0.341141 @ NSTEP 2542 GFRAME TG2 MOMENTS CHECKSUM: 3.6152730408236D+03 --> plasma_hash("gframe"): TA= 3.411409E-01 NSTEP= 2543 Hash code: 106914052 ->PRGCHK: bdy curvature ratio at t= 3.4296E-01 seconds is: 5.7980E-02 % MHDEQ: TG1= 0.341141 ; TG2= 0.342959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.166E-06 FluxDiff MaxDT: 4.875E-03 Avg. GS error: 9.481E-03 Plasma Current: 7.755E+05, target: 7.755E+05, error: 0.009% Edge Q: 9.794, target: 10.120, error: 3.221% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8538E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2353E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.341141 TO TG2= 0.342959 @ NSTEP 2543 GFRAME TG2 MOMENTS CHECKSUM: 3.6186218452916D+03 --> plasma_hash("gframe"): TA= 3.429591E-01 NSTEP= 2544 Hash code: 122303270 ->PRGCHK: bdy curvature ratio at t= 3.4478E-01 seconds is: 5.7553E-02 % MHDEQ: TG1= 0.342959 ; TG2= 0.344777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.861E-06 FluxDiff MaxDT: 4.542E-03 Avg. GS error: 9.305E-03 Plasma Current: 7.790E+05, target: 7.791E+05, error: 0.010% Edge Q: 9.731, target: 10.044, error: 3.122% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8594E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0577E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.342959 TO TG2= 0.344777 @ NSTEP 2544 GFRAME TG2 MOMENTS CHECKSUM: 3.6218181993082D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.74513E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.67161E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.81697E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.447773E-01 NSTEP= 2545 Hash code: 52187454 ->PRGCHK: bdy curvature ratio at t= 3.4660E-01 seconds is: 5.7130E-02 % MHDEQ: TG1= 0.344777 ; TG2= 0.346595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.000E-05 FluxDiff MaxDT: 4.432E-03 Avg. GS error: 9.315E-03 Plasma Current: 7.821E+05, target: 7.822E+05, error: 0.010% Edge Q: 9.679, target: 9.977, error: 2.993% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8876E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0808E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.344777 TO TG2= 0.346595 @ NSTEP 2545 GFRAME TG2 MOMENTS CHECKSUM: 3.6262972591485D+03 --> plasma_hash("gframe"): TA= 3.465954E-01 NSTEP= 2546 Hash code: 39314293 ->PRGCHK: bdy curvature ratio at t= 3.4841E-01 seconds is: 5.7113E-02 % MHDEQ: TG1= 0.346595 ; TG2= 0.348414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.757E-06 FluxDiff MaxDT: 4.462E-03 Avg. GS error: 9.404E-03 Plasma Current: 7.846E+05, target: 7.847E+05, error: 0.011% Edge Q: 9.631, target: 9.933, error: 3.039% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9163E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0135E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.346595 TO TG2= 0.348414 @ NSTEP 2546 GFRAME TG2 MOMENTS CHECKSUM: 3.6293068247012D+03 --> plasma_hash("gframe"): TA= 3.484136E-01 NSTEP= 2547 Hash code: 3129532 ->PRGCHK: bdy curvature ratio at t= 3.5023E-01 seconds is: 5.7340E-02 % MHDEQ: TG1= 0.348414 ; TG2= 0.350232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.612E-06 FluxDiff MaxDT: 4.392E-03 Avg. GS error: 9.438E-03 Plasma Current: 7.869E+05, target: 7.869E+05, error: 0.011% Edge Q: 9.586, target: 9.886, error: 3.040% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8597E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9679E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.348414 TO TG2= 0.350232 @ NSTEP 2547 GFRAME TG2 MOMENTS CHECKSUM: 3.6322533944172D+03 --> plasma_hash("gframe"): TA= 3.502318E-01 NSTEP= 2548 Hash code: 79579005 ->PRGCHK: bdy curvature ratio at t= 3.5205E-01 seconds is: 5.8490E-02 % MHDEQ: TG1= 0.350232 ; TG2= 0.352050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.922E-06 FluxDiff MaxDT: 4.278E-03 Avg. GS error: 9.188E-03 Plasma Current: 7.896E+05, target: 7.897E+05, error: 0.008% Edge Q: 9.518, target: 9.835, error: 3.225% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8241E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9074E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.350232 TO TG2= 0.352050 @ NSTEP 2548 GFRAME TG2 MOMENTS CHECKSUM: 3.6350717194941D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2549 TA= 3.52050E-01 CPU TIME= 9.56100E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.28865083333358 %check_save_state: izleft hours = 77.6425000000000 --> plasma_hash("gframe"): TA= 3.520500E-01 NSTEP= 2549 Hash code: 10469372 ->PRGCHK: bdy curvature ratio at t= 3.5387E-01 seconds is: 5.9673E-02 % MHDEQ: TG1= 0.352050 ; TG2= 0.353868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.109E-05 FluxDiff MaxDT: 4.051E-03 Avg. GS error: 8.794E-03 Plasma Current: 7.930E+05, target: 7.931E+05, error: 0.006% Edge Q: 9.444, target: 9.753, error: 3.168% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8487E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6712E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.352050 TO TG2= 0.353868 @ NSTEP 2549 GFRAME TG2 MOMENTS CHECKSUM: 3.6379756642398D+03 --> plasma_hash("gframe"): TA= 3.538682E-01 NSTEP= 2550 Hash code: 76369516 ->PRGCHK: bdy curvature ratio at t= 3.5569E-01 seconds is: 6.0888E-02 % MHDEQ: TG1= 0.353868 ; TG2= 0.355686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.124E-05 FluxDiff MaxDT: 3.926E-03 Avg. GS error: 8.320E-03 Plasma Current: 7.962E+05, target: 7.963E+05, error: 0.006% Edge Q: 9.374, target: 9.669, error: 3.045% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8763E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3837E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.353868 TO TG2= 0.355686 @ NSTEP 2550 GFRAME TG2 MOMENTS CHECKSUM: 3.6406403131962D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 4.14425E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 2.32659E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 1.81765E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.556864E-01 NSTEP= 2551 Hash code: 60735029 ->PRGCHK: bdy curvature ratio at t= 3.5750E-01 seconds is: 6.1250E-02 % MHDEQ: TG1= 0.355686 ; TG2= 0.357505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.124E-05 FluxDiff MaxDT: 3.897E-03 Avg. GS error: 8.048E-03 Plasma Current: 7.988E+05, target: 7.988E+05, error: 0.006% Edge Q: 9.322, target: 9.595, error: 2.842% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9779E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4738E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.355686 TO TG2= 0.357505 @ NSTEP 2551 GFRAME TG2 MOMENTS CHECKSUM: 3.6428621890203D+03 --> plasma_hash("gframe"): TA= 3.575045E-01 NSTEP= 2552 Hash code: 104535338 ->PRGCHK: bdy curvature ratio at t= 3.5932E-01 seconds is: 6.1052E-02 % MHDEQ: TG1= 0.357505 ; TG2= 0.359323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.108E-05 FluxDiff MaxDT: 3.841E-03 Avg. GS error: 8.082E-03 Plasma Current: 8.013E+05, target: 8.014E+05, error: 0.006% Edge Q: 9.273, target: 9.541, error: 2.807% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0849E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2863E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.357505 TO TG2= 0.359323 @ NSTEP 2552 GFRAME TG2 MOMENTS CHECKSUM: 3.6473221532677D+03 --> plasma_hash("gframe"): TA= 3.593227E-01 NSTEP= 2553 Hash code: 24893868 ->PRGCHK: bdy curvature ratio at t= 3.6114E-01 seconds is: 5.9180E-02 % MHDEQ: TG1= 0.359323 ; TG2= 0.361141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.157E-05 FluxDiff MaxDT: 3.646E-03 Avg. GS error: 9.104E-03 Plasma Current: 8.045E+05, target: 8.046E+05, error: 0.007% Edge Q: 9.223, target: 9.494, error: 2.852% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2461E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2392E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.359323 TO TG2= 0.361141 @ NSTEP 2553 GFRAME TG2 MOMENTS CHECKSUM: 3.6526009756287D+03 --> plasma_hash("gframe"): TA= 3.611409E-01 NSTEP= 2554 Hash code: 28150754 ->PRGCHK: bdy curvature ratio at t= 3.6296E-01 seconds is: 5.7411E-02 % MHDEQ: TG1= 0.361141 ; TG2= 0.362959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.272E-05 FluxDiff MaxDT: 3.432E-03 Avg. GS error: 8.832E-03 Plasma Current: 8.083E+05, target: 8.083E+05, error: 0.006% Edge Q: 9.165, target: 9.448, error: 2.990% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1448E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2918E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.361141 TO TG2= 0.362959 @ NSTEP 2554 GFRAME TG2 MOMENTS CHECKSUM: 3.6573375224490D+03 --> plasma_hash("gframe"): TA= 3.629591E-01 NSTEP= 2555 Hash code: 46667142 ->PRGCHK: bdy curvature ratio at t= 3.6478E-01 seconds is: 5.5512E-02 % MHDEQ: TG1= 0.362959 ; TG2= 0.364777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.385E-05 FluxDiff MaxDT: 3.276E-03 Avg. GS error: 8.512E-03 Plasma Current: 8.121E+05, target: 8.121E+05, error: 0.003% Edge Q: 9.109, target: 9.378, error: 2.868% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0802E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1808E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.362959 TO TG2= 0.364777 @ NSTEP 2555 GFRAME TG2 MOMENTS CHECKSUM: 3.6632718359122D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 4.01749E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 2.25543E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 1.76206E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.647773E-01 NSTEP= 2556 Hash code: 6830835 ->PRGCHK: bdy curvature ratio at t= 3.6660E-01 seconds is: 5.3745E-02 % MHDEQ: TG1= 0.364777 ; TG2= 0.366595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.458E-05 FluxDiff MaxDT: 3.327E-03 Avg. GS error: 8.172E-03 Plasma Current: 8.157E+05, target: 8.156E+05, error: 0.001% Edge Q: 9.047, target: 9.319, error: 2.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0197E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1570E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.364777 TO TG2= 0.366595 @ NSTEP 2556 GFRAME TG2 MOMENTS CHECKSUM: 3.6669233429990D+03 --> plasma_hash("gframe"): TA= 3.665954E-01 NSTEP= 2557 Hash code: 1286236 ->PRGCHK: bdy curvature ratio at t= 3.6841E-01 seconds is: 5.2366E-02 % MHDEQ: TG1= 0.366595 ; TG2= 0.368414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.472E-05 FluxDiff MaxDT: 3.409E-03 Avg. GS error: 7.815E-03 Plasma Current: 8.183E+05, target: 8.183E+05, error: 0.004% Edge Q: 8.993, target: 9.250, error: 2.781% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9824E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1478E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.366595 TO TG2= 0.368414 @ NSTEP 2557 GFRAME TG2 MOMENTS CHECKSUM: 3.6695728359723D+03 --> plasma_hash("gframe"): TA= 3.684136E-01 NSTEP= 2558 Hash code: 50449666 ->PRGCHK: bdy curvature ratio at t= 3.7023E-01 seconds is: 5.1881E-02 % MHDEQ: TG1= 0.368414 ; TG2= 0.370232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.459E-05 FluxDiff MaxDT: 3.695E-03 Avg. GS error: 7.656E-03 Plasma Current: 8.205E+05, target: 8.204E+05, error: 0.005% Edge Q: 8.925, target: 9.200, error: 2.989% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8435E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1804E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.368414 TO TG2= 0.370232 @ NSTEP 2558 GFRAME TG2 MOMENTS CHECKSUM: 3.6691628485659D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2558 TA= 3.68414E-01 CPU TIME= 9.38200E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 3.702318E-01 NSTEP= 2559 Hash code: 14534350 ->PRGCHK: bdy curvature ratio at t= 3.7205E-01 seconds is: 5.1516E-02 % MHDEQ: TG1= 0.370232 ; TG2= 0.372050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.489E-05 FluxDiff MaxDT: 3.615E-03 Avg. GS error: 7.580E-03 Plasma Current: 8.232E+05, target: 8.231E+05, error: 0.002% Edge Q: 8.854, target: 9.127, error: 2.988% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9830E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2774E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.370232 TO TG2= 0.372050 @ NSTEP 2559 GFRAME TG2 MOMENTS CHECKSUM: 3.6691201562569D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2560 TA= 3.72050E-01 CPU TIME= 9.24600E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.29996694444503 %check_save_state: izleft hours = 77.6311111111111 --> plasma_hash("gframe"): TA= 3.720500E-01 NSTEP= 2560 Hash code: 113935302 ->PRGCHK: bdy curvature ratio at t= 3.7387E-01 seconds is: 5.1268E-02 % MHDEQ: TG1= 0.372050 ; TG2= 0.373868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.632E-05 FluxDiff MaxDT: 3.444E-03 Avg. GS error: 7.477E-03 Plasma Current: 8.270E+05, target: 8.271E+05, error: 0.004% Edge Q: 8.770, target: 9.057, error: 3.171% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0775E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2861E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.372050 TO TG2= 0.373868 @ NSTEP 2560 GFRAME TG2 MOMENTS CHECKSUM: 3.6689592641692D+03 --> plasma_hash("gframe"): TA= 3.738682E-01 NSTEP= 2561 Hash code: 54146742 ->PRGCHK: bdy curvature ratio at t= 3.7569E-01 seconds is: 5.1877E-02 % MHDEQ: TG1= 0.373868 ; TG2= 0.375686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.765E-05 FluxDiff MaxDT: 3.148E-03 Avg. GS error: 7.282E-03 Plasma Current: 8.313E+05, target: 8.314E+05, error: 0.010% Edge Q: 8.696, target: 8.969, error: 3.044% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0939E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2972E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.373868 TO TG2= 0.375686 @ NSTEP 2561 GFRAME TG2 MOMENTS CHECKSUM: 3.6684995976789D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.10974E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.23675E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.756864E-01 NSTEP= 2562 Hash code: 73518766 ->PRGCHK: bdy curvature ratio at t= 3.7750E-01 seconds is: 5.3023E-02 % MHDEQ: TG1= 0.375686 ; TG2= 0.377505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.889E-05 FluxDiff MaxDT: 3.027E-03 Avg. GS error: 7.082E-03 Plasma Current: 8.350E+05, target: 8.350E+05, error: 0.011% Edge Q: 8.643, target: 8.895, error: 2.840% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9933E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2234E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.375686 TO TG2= 0.377505 @ NSTEP 2562 GFRAME TG2 MOMENTS CHECKSUM: 3.6677616517738D+03 --> plasma_hash("gframe"): TA= 3.775045E-01 NSTEP= 2563 Hash code: 7740938 ->PRGCHK: bdy curvature ratio at t= 3.7932E-01 seconds is: 5.5478E-02 % MHDEQ: TG1= 0.377505 ; TG2= 0.379323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.003E-05 FluxDiff MaxDT: 2.886E-03 Avg. GS error: 6.898E-03 Plasma Current: 8.385E+05, target: 8.385E+05, error: 0.008% Edge Q: 8.613, target: 8.843, error: 2.600% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9524E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1319E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.377505 TO TG2= 0.379323 @ NSTEP 2563 GFRAME TG2 MOMENTS CHECKSUM: 3.6663818840467D+03 --> plasma_hash("gframe"): TA= 3.793227E-01 NSTEP= 2564 Hash code: 37633225 ->PRGCHK: bdy curvature ratio at t= 3.8114E-01 seconds is: 5.8120E-02 % MHDEQ: TG1= 0.379323 ; TG2= 0.381141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.081E-05 FluxDiff MaxDT: 2.856E-03 Avg. GS error: 6.722E-03 Plasma Current: 8.418E+05, target: 8.418E+05, error: 0.005% Edge Q: 8.590, target: 8.815, error: 2.554% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9705E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0982E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.379323 TO TG2= 0.381141 @ NSTEP 2564 GFRAME TG2 MOMENTS CHECKSUM: 3.6652311144845D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2564 TA= 3.79323E-01 CPU TIME= 9.40000E-03 SECONDS. DT= 6.77280E-04 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.380000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 3.00000000E+13 to 4.80000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 3.00000000E+00 to 5.91000000E+00 namelist update changed APROF_COEFFS_NER( 2) from 1.50000000E+01 to 2.00000000E+00 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2572 TA= 3.80959E-01 CPU TIME= 2.91450E-02 SECONDS. DT= 1.64427E-04 --> plasma_hash("gframe"): TA= 3.811409E-01 NSTEP= 2574 Hash code: 5251190 ->PRGCHK: bdy curvature ratio at t= 3.8296E-01 seconds is: 6.0965E-02 % MHDEQ: TG1= 0.381141 ; TG2= 0.382959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.122E-05 FluxDiff MaxDT: 2.830E-03 Avg. GS error: 6.504E-03 Plasma Current: 8.446E+05, target: 8.447E+05, error: 0.003% Edge Q: 8.576, target: 8.793, error: 2.462% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9927E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0208E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.381141 TO TG2= 0.382959 @ NSTEP 2574 GFRAME TG2 MOMENTS CHECKSUM: 3.6644338033313D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2579 TA= 3.81889E-01 CPU TIME= 9.40300E-03 SECONDS. DT= 2.14942E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2585 TA= 3.82817E-01 CPU TIME= 1.88050E-02 SECONDS. DT= 1.42401E-04 --> plasma_hash("gframe"): TA= 3.829591E-01 NSTEP= 2586 Hash code: 84999004 ->PRGCHK: bdy curvature ratio at t= 3.8478E-01 seconds is: 6.3077E-02 % MHDEQ: TG1= 0.382959 ; TG2= 0.384777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.107E-05 FluxDiff MaxDT: 2.677E-03 Avg. GS error: 6.215E-03 Plasma Current: 8.472E+05, target: 8.472E+05, error: 0.002% Edge Q: 8.586, target: 8.782, error: 2.235% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0043E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0732E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.382959 TO TG2= 0.384777 @ NSTEP 2586 GFRAME TG2 MOMENTS CHECKSUM: 3.6671781472183D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2591 TA= 3.83823E-01 CPU TIME= 5.28240E-02 SECONDS. DT= 2.38627E-04 --> plasma_hash("gframe"): TA= 3.847773E-01 NSTEP= 2597 Hash code: 105126114 ->PRGCHK: bdy curvature ratio at t= 3.8660E-01 seconds is: 6.4733E-02 % MHDEQ: TG1= 0.384777 ; TG2= 0.386595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.144E-05 FluxDiff MaxDT: 2.496E-03 Avg. GS error: 5.946E-03 Plasma Current: 8.512E+05, target: 8.513E+05, error: 0.002% Edge Q: 8.583, target: 8.793, error: 2.390% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0293E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9601E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.384777 TO TG2= 0.386595 @ NSTEP 2597 GFRAME TG2 MOMENTS CHECKSUM: 3.6713433758196D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2598 TA= 3.84979E-01 CPU TIME= 9.43600E-03 SECONDS. DT= 2.51830E-04 !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= -4.51043E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.31022E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -2.20021E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2604 TA= 3.86111E-01 CPU TIME= 5.19530E-02 SECONDS. DT= 2.66902E-04 --> plasma_hash("gframe"): TA= 3.865954E-01 NSTEP= 2607 Hash code: 1173629 ->PRGCHK: bdy curvature ratio at t= 3.8841E-01 seconds is: 6.5353E-02 % MHDEQ: TG1= 0.386595 ; TG2= 0.388414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.533E-05 FluxDiff MaxDT: 2.276E-03 Avg. GS error: 5.714E-03 Plasma Current: 8.568E+05, target: 8.568E+05, error: 0.002% Edge Q: 8.583, target: 8.783, error: 2.278% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1015E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7822E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.386595 TO TG2= 0.388414 @ NSTEP 2607 GFRAME TG2 MOMENTS CHECKSUM: 3.6804397406010D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2611 TA= 3.87358E-01 CPU TIME= 1.32318E-01 SECONDS. DT= 2.27758E-04 --> plasma_hash("gframe"): TA= 3.884136E-01 NSTEP= 2616 Hash code: 88043208 ->PRGCHK: bdy curvature ratio at t= 3.9023E-01 seconds is: 6.6254E-02 % MHDEQ: TG1= 0.388414 ; TG2= 0.390232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.856E-05 FluxDiff MaxDT: 2.264E-03 Avg. GS error: 5.588E-03 Plasma Current: 8.625E+05, target: 8.625E+05, error: 0.004% Edge Q: 8.582, target: 8.780, error: 2.256% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1819E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6995E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.388414 TO TG2= 0.390232 @ NSTEP 2616 GFRAME TG2 MOMENTS CHECKSUM: 3.6891276835191D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2617 TA= 3.88650E-01 CPU TIME= 9.42500E-03 SECONDS. DT= 3.24626E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2623 TA= 3.89984E-01 CPU TIME= 1.23180E-02 SECONDS. DT= 2.47750E-04 --> plasma_hash("gframe"): TA= 3.902318E-01 NSTEP= 2624 Hash code: 66669740 ->PRGCHK: bdy curvature ratio at t= 3.9205E-01 seconds is: 6.7295E-02 % MHDEQ: TG1= 0.390232 ; TG2= 0.392050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.855E-05 FluxDiff MaxDT: 2.306E-03 Avg. GS error: 5.538E-03 Plasma Current: 8.673E+05, target: 8.673E+05, error: 0.005% Edge Q: 8.589, target: 8.781, error: 2.190% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2170E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6325E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.390232 TO TG2= 0.392050 @ NSTEP 2624 GFRAME TG2 MOMENTS CHECKSUM: 3.6969424834505D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2629 TA= 3.92050E-01 CPU TIME= 9.30500E-03 SECONDS. DT= 7.64290E-06 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.31918361111116 %check_save_state: izleft hours = 77.6119444444444 --> plasma_hash("gframe"): TA= 3.920500E-01 NSTEP= 2629 Hash code: 7849680 ->PRGCHK: bdy curvature ratio at t= 3.9387E-01 seconds is: 6.6776E-02 % MHDEQ: TG1= 0.392050 ; TG2= 0.393868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.169E-05 FluxDiff MaxDT: 2.447E-03 Avg. GS error: 5.627E-03 Plasma Current: 8.720E+05, target: 8.721E+05, error: 0.006% Edge Q: 8.576, target: 8.793, error: 2.475% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0680E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5578E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.392050 TO TG2= 0.393868 @ NSTEP 2629 GFRAME TG2 MOMENTS CHECKSUM: 3.7030476560343D+03 --> plasma_hash("gframe"): TA= 3.938682E-01 NSTEP= 2644 Hash code: 17565888 ->PRGCHK: bdy curvature ratio at t= 3.9569E-01 seconds is: 6.6207E-02 % MHDEQ: TG1= 0.393868 ; TG2= 0.395686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.967E-05 FluxDiff MaxDT: 2.540E-03 Avg. GS error: 5.735E-03 Plasma Current: 8.773E+05, target: 8.773E+05, error: 0.005% Edge Q: 8.549, target: 8.782, error: 2.648% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9491E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5334E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.393868 TO TG2= 0.395686 @ NSTEP 2644 GFRAME TG2 MOMENTS CHECKSUM: 3.7093417433749D+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", # 2= 8.44436E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.84232E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 4.22230E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.84177E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 4.22205E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.956864E-01 NSTEP= 2648 Hash code: 52838719 ->PRGCHK: bdy curvature ratio at t= 3.9750E-01 seconds is: 6.5494E-02 % MHDEQ: TG1= 0.395686 ; TG2= 0.397505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.247E-05 FluxDiff MaxDT: 2.625E-03 Avg. GS error: 5.788E-03 Plasma Current: 8.827E+05, target: 8.827E+05, error: 0.004% Edge Q: 8.500, target: 8.760, error: 2.977% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8494E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5214E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.395686 TO TG2= 0.397505 @ NSTEP 2648 GFRAME TG2 MOMENTS CHECKSUM: 3.7125748612548D+03 --> plasma_hash("gframe"): TA= 3.975045E-01 NSTEP= 2651 Hash code: 8438534 ->PRGCHK: bdy curvature ratio at t= 3.9932E-01 seconds is: 6.4385E-02 % MHDEQ: TG1= 0.397505 ; TG2= 0.399323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.256E-05 FluxDiff MaxDT: 3.220E-03 Avg. GS error: 5.539E-03 Plasma Current: 8.877E+05, target: 8.878E+05, error: 0.001% Edge Q: 8.161, target: 8.708, error: 6.283% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1644E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8111E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.397505 TO TG2= 0.399323 @ NSTEP 2651 GFRAME TG2 MOMENTS CHECKSUM: 3.7080715505066D+03 --> plasma_hash("gframe"): TA= 3.993227E-01 NSTEP= 2653 Hash code: 40871289 ->PRGCHK: bdy curvature ratio at t= 4.0114E-01 seconds is: 6.2960E-02 % MHDEQ: TG1= 0.399323 ; TG2= 0.401141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.437E-05 FluxDiff MaxDT: 3.072E-03 Avg. GS error: 5.385E-03 Plasma Current: 8.920E+05, target: 8.920E+05, error: 0.001% Edge Q: 7.747, target: 8.294, error: 6.595% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3070E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.6792E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.399323 TO TG2= 0.401141 @ NSTEP 2653 GFRAME TG2 MOMENTS CHECKSUM: 3.7003513781364D+03 --> plasma_hash("gframe"): TA= 4.011409E-01 NSTEP= 2655 Hash code: 3777159 ->PRGCHK: bdy curvature ratio at t= 4.0296E-01 seconds is: 6.1190E-02 % MHDEQ: TG1= 0.401141 ; TG2= 0.402959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.230E-05 FluxDiff MaxDT: 3.396E-03 Avg. GS error: 5.409E-03 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.001% Edge Q: 7.590, target: 7.829, error: 3.045% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3231E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.5227E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.401141 TO TG2= 0.402959 @ NSTEP 2655 GFRAME TG2 MOMENTS CHECKSUM: 3.6980164014298D+03 --> plasma_hash("gframe"): TA= 4.029591E-01 NSTEP= 2656 Hash code: 66818438 ->PRGCHK: bdy curvature ratio at t= 4.0478E-01 seconds is: 5.9124E-02 % MHDEQ: TG1= 0.402959 ; TG2= 0.404777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.767E-05 FluxDiff MaxDT: 2.431E-03 Avg. GS error: 5.533E-03 Plasma Current: 8.978E+05, target: 8.978E+05, error: 0.001% Edge Q: 7.625, target: 7.666, error: 0.547% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.2593E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.5286E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.402959 TO TG2= 0.404777 @ NSTEP 2656 GFRAME TG2 MOMENTS CHECKSUM: 3.7001713818424D+03 --> plasma_hash("gframe"): TA= 4.047773E-01 NSTEP= 2657 Hash code: 29647631 ->PRGCHK: bdy curvature ratio at t= 4.0660E-01 seconds is: 5.6710E-02 % MHDEQ: TG1= 0.404777 ; TG2= 0.406595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.243E-05 FluxDiff MaxDT: 1.721E-03 Avg. GS error: 5.820E-03 Plasma Current: 8.998E+05, target: 8.998E+05, error: 0.000% Edge Q: 7.939, target: 7.712, error: 2.951% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1144E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.5847E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.404777 TO TG2= 0.406595 @ NSTEP 2657 GFRAME TG2 MOMENTS CHECKSUM: 3.7094335230049D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2657 TA= 4.04777E-01 CPU TIME= 9.42100E-03 SECONDS. DT= 1.81818E-03 %MFRCHK - LABEL "BALE0_SGF", # 19= -1.68679E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.28491E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.28377E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.065954E-01 NSTEP= 2658 Hash code: 121514050 ->PRGCHK: bdy curvature ratio at t= 4.0796E-01 seconds is: 5.5015E-02 % MHDEQ: TG1= 0.406595 ; TG2= 0.407959 ; DTG= 1.364E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.362E-05 FluxDiff MaxDT: 1.804E-03 Avg. GS error: 6.104E-03 Plasma Current: 9.010E+05, target: 9.010E+05, error: 0.002% Edge Q: 8.257, target: 8.074, error: 2.266% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7710E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8793E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.406595 TO TG2= 0.407959 @ NSTEP 2658 GFRAME TG2 MOMENTS CHECKSUM: 3.7180060031389D+03 --> plasma_hash("gframe"): TA= 4.079591E-01 NSTEP= 2659 Hash code: 93879686 ->PRGCHK: bdy curvature ratio at t= 4.0932E-01 seconds is: 5.3411E-02 % MHDEQ: TG1= 0.407959 ; TG2= 0.409323 ; DTG= 1.364E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.168E-05 FluxDiff MaxDT: 2.155E-03 Avg. GS error: 6.365E-03 Plasma Current: 9.021E+05, target: 9.021E+05, error: 0.006% Edge Q: 8.570, target: 8.442, error: 1.510% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9574E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9978E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.407959 TO TG2= 0.409323 @ NSTEP 2659 GFRAME TG2 MOMENTS CHECKSUM: 3.7256176429378D+03 --> plasma_hash("gframe"): TA= 4.093227E-01 NSTEP= 2660 Hash code: 27177838 ->PRGCHK: bdy curvature ratio at t= 4.1069E-01 seconds is: 5.2280E-02 % MHDEQ: TG1= 0.409323 ; TG2= 0.410686 ; DTG= 1.364E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.128E-05 FluxDiff MaxDT: 5.056E-03 Avg. GS error: 6.356E-03 Plasma Current: 9.031E+05, target: 9.031E+05, error: 0.006% Edge Q: 8.585, target: 8.826, error: 2.731% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5719E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0459E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.409323 TO TG2= 0.410686 @ NSTEP 2660 GFRAME TG2 MOMENTS CHECKSUM: 3.7250313402859D+03 --> plasma_hash("gframe"): TA= 4.106864E-01 NSTEP= 2661 Hash code: 96138687 ->PRGCHK: bdy curvature ratio at t= 4.1205E-01 seconds is: 5.1569E-02 % MHDEQ: TG1= 0.410686 ; TG2= 0.412050 ; DTG= 1.364E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.824E-05 FluxDiff MaxDT: 5.329E-03 Avg. GS error: 6.330E-03 Plasma Current: 9.040E+05, target: 9.040E+05, error: 0.005% Edge Q: 8.600, target: 8.824, error: 2.535% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6127E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1069E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.410686 TO TG2= 0.412050 @ NSTEP 2661 GFRAME TG2 MOMENTS CHECKSUM: 3.7236040808845D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2662 TA= 4.12050E-01 CPU TIME= 9.22400E-03 SECONDS. DT= 1.70455E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.33400305555574 %check_save_state: izleft hours = 77.5972222222222 --> plasma_hash("gframe"): TA= 4.120500E-01 NSTEP= 2662 Hash code: 85374367 ->PRGCHK: bdy curvature ratio at t= 4.1387E-01 seconds is: 5.1595E-02 % MHDEQ: TG1= 0.412050 ; TG2= 0.413868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.492E-05 FluxDiff MaxDT: 5.918E-03 Avg. GS error: 6.213E-03 Plasma Current: 9.048E+05, target: 9.049E+05, error: 0.002% Edge Q: 8.613, target: 8.848, error: 2.657% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6783E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2137E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.412050 TO TG2= 0.413868 @ NSTEP 2662 GFRAME TG2 MOMENTS CHECKSUM: 3.7188573898479D+03 --> plasma_hash("gframe"): TA= 4.138682E-01 NSTEP= 2664 Hash code: 25188300 ->PRGCHK: bdy curvature ratio at t= 4.1569E-01 seconds is: 5.2685E-02 % MHDEQ: TG1= 0.413868 ; TG2= 0.415686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.574E-05 FluxDiff MaxDT: 7.095E-03 Avg. GS error: 5.803E-03 Plasma Current: 9.051E+05, target: 9.050E+05, error: 0.002% Edge Q: 8.616, target: 8.850, error: 2.645% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6694E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3941E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.413868 TO TG2= 0.415686 @ NSTEP 2664 GFRAME TG2 MOMENTS CHECKSUM: 3.7107131951666D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -2.28921E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -3.10358E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.21845E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.156864E-01 NSTEP= 2665 Hash code: 66924050 ->PRGCHK: bdy curvature ratio at t= 4.1750E-01 seconds is: 5.3809E-02 % MHDEQ: TG1= 0.415686 ; TG2= 0.417505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.948E-05 FluxDiff MaxDT: 8.086E-03 Avg. GS error: 6.156E-03 Plasma Current: 9.046E+05, target: 9.045E+05, error: 0.005% Edge Q: 8.631, target: 8.860, error: 2.587% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6390E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4817E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.415686 TO TG2= 0.417505 @ NSTEP 2665 GFRAME TG2 MOMENTS CHECKSUM: 3.7026788130052D+03 --> plasma_hash("gframe"): TA= 4.175045E-01 NSTEP= 2666 Hash code: 79066401 ->PRGCHK: bdy curvature ratio at t= 4.1932E-01 seconds is: 5.4849E-02 % MHDEQ: TG1= 0.417505 ; TG2= 0.419323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.437E-05 FluxDiff MaxDT: 9.160E-03 Avg. GS error: 6.526E-03 Plasma Current: 9.040E+05, target: 9.039E+05, error: 0.007% Edge Q: 8.651, target: 8.874, error: 2.519% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6693E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6130E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.417505 TO TG2= 0.419323 @ NSTEP 2666 GFRAME TG2 MOMENTS CHECKSUM: 3.6952364688012D+03 --> plasma_hash("gframe"): TA= 4.193227E-01 NSTEP= 2667 Hash code: 18832706 ->PRGCHK: bdy curvature ratio at t= 4.2114E-01 seconds is: 5.5355E-02 % MHDEQ: TG1= 0.419323 ; TG2= 0.421141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.284E-05 FluxDiff MaxDT: 8.102E-03 Avg. GS error: 6.604E-03 Plasma Current: 9.041E+05, target: 9.040E+05, error: 0.008% Edge Q: 8.679, target: 8.903, error: 2.511% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6338E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7927E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.419323 TO TG2= 0.421141 @ NSTEP 2667 GFRAME TG2 MOMENTS CHECKSUM: 3.6901995222069D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2667 TA= 4.19323E-01 CPU TIME= 9.29000E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.211409E-01 NSTEP= 2668 Hash code: 4104407 ->PRGCHK: bdy curvature ratio at t= 4.2296E-01 seconds is: 5.5148E-02 % MHDEQ: TG1= 0.421141 ; TG2= 0.422959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.345E-05 FluxDiff MaxDT: 6.750E-03 Avg. GS error: 6.553E-03 Plasma Current: 9.050E+05, target: 9.049E+05, error: 0.007% Edge Q: 8.719, target: 8.922, error: 2.273% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6002E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9677E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.421141 TO TG2= 0.422959 @ NSTEP 2668 GFRAME TG2 MOMENTS CHECKSUM: 3.6883097196515D+03 --> plasma_hash("gframe"): TA= 4.229591E-01 NSTEP= 2669 Hash code: 68347430 ->PRGCHK: bdy curvature ratio at t= 4.2478E-01 seconds is: 5.4263E-02 % MHDEQ: TG1= 0.422959 ; TG2= 0.424777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.251E-05 FluxDiff MaxDT: 6.233E-03 Avg. GS error: 6.668E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.005% Edge Q: 8.782, target: 8.963, error: 2.021% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5746E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0724E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.422959 TO TG2= 0.424777 @ NSTEP 2669 GFRAME TG2 MOMENTS CHECKSUM: 3.6890941418653D+03 --> plasma_hash("gframe"): TA= 4.247773E-01 NSTEP= 2670 Hash code: 110171263 ->PRGCHK: bdy curvature ratio at t= 4.2660E-01 seconds is: 5.3144E-02 % MHDEQ: TG1= 0.424777 ; TG2= 0.426595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.913E-05 FluxDiff MaxDT: 6.741E-03 Avg. GS error: 6.794E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.004% Edge Q: 8.852, target: 9.027, error: 1.946% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5765E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1943E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.424777 TO TG2= 0.426595 @ NSTEP 2670 GFRAME TG2 MOMENTS CHECKSUM: 3.6898217722952D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -4.14244E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.14519E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.99725E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.265954E-01 NSTEP= 2671 Hash code: 71824024 ->PRGCHK: bdy curvature ratio at t= 4.2841E-01 seconds is: 5.2147E-02 % MHDEQ: TG1= 0.426595 ; TG2= 0.428414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.630E-05 FluxDiff MaxDT: 7.319E-03 Avg. GS error: 6.961E-03 Plasma Current: 9.054E+05, target: 9.053E+05, error: 0.004% Edge Q: 8.922, target: 9.106, error: 2.023% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5592E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3488E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.426595 TO TG2= 0.428414 @ NSTEP 2671 GFRAME TG2 MOMENTS CHECKSUM: 3.6903198697058D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2671 TA= 4.26595E-01 CPU TIME= 9.21800E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.284136E-01 NSTEP= 2672 Hash code: 76614671 ->PRGCHK: bdy curvature ratio at t= 4.3023E-01 seconds is: 5.1471E-02 % MHDEQ: TG1= 0.428414 ; TG2= 0.430232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.497E-05 FluxDiff MaxDT: 8.000E-03 Avg. GS error: 7.194E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.004% Edge Q: 8.980, target: 9.178, error: 2.164% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5570E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4866E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.428414 TO TG2= 0.430232 @ NSTEP 2672 GFRAME TG2 MOMENTS CHECKSUM: 3.6904734705161D+03 --> plasma_hash("gframe"): TA= 4.302318E-01 NSTEP= 2673 Hash code: 68569909 ->PRGCHK: bdy curvature ratio at t= 4.3205E-01 seconds is: 5.1253E-02 % MHDEQ: TG1= 0.430232 ; TG2= 0.432050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.419E-05 FluxDiff MaxDT: 9.027E-03 Avg. GS error: 7.471E-03 Plasma Current: 9.057E+05, target: 9.057E+05, error: 0.003% Edge Q: 9.023, target: 9.242, error: 2.369% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5564E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6026E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.430232 TO TG2= 0.432050 @ NSTEP 2673 GFRAME TG2 MOMENTS CHECKSUM: 3.6899518008463D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2674 TA= 4.32050E-01 CPU TIME= 9.12700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.34483416666671 %check_save_state: izleft hours = 77.5863888888889 --> plasma_hash("gframe"): TA= 4.320500E-01 NSTEP= 2674 Hash code: 53854263 ->PRGCHK: bdy curvature ratio at t= 4.3387E-01 seconds is: 5.1381E-02 % MHDEQ: TG1= 0.432050 ; TG2= 0.433868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.268E-05 FluxDiff MaxDT: 1.033E-02 Avg. GS error: 7.704E-03 Plasma Current: 9.054E+05, target: 9.054E+05, error: 0.001% Edge Q: 9.063, target: 9.286, error: 2.408% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4084E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7097E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.432050 TO TG2= 0.433868 @ NSTEP 2674 GFRAME TG2 MOMENTS CHECKSUM: 3.6887114576632D+03 --> plasma_hash("gframe"): TA= 4.338682E-01 NSTEP= 2675 Hash code: 42240817 ->PRGCHK: bdy curvature ratio at t= 4.3569E-01 seconds is: 5.1531E-02 % MHDEQ: TG1= 0.433868 ; TG2= 0.435686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.046E-05 FluxDiff MaxDT: 1.133E-02 Avg. GS error: 7.899E-03 Plasma Current: 9.053E+05, target: 9.053E+05, error: 0.000% Edge Q: 9.102, target: 9.331, error: 2.461% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3993E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7403E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.433868 TO TG2= 0.435686 @ NSTEP 2675 GFRAME TG2 MOMENTS CHECKSUM: 3.6878913898302D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.53830E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.36112E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= 1.17718E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.356864E-01 NSTEP= 2676 Hash code: 30479918 ->PRGCHK: bdy curvature ratio at t= 4.3750E-01 seconds is: 5.1620E-02 % MHDEQ: TG1= 0.435686 ; TG2= 0.437505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.302E-06 FluxDiff MaxDT: 1.115E-02 Avg. GS error: 8.033E-03 Plasma Current: 9.058E+05, target: 9.059E+05, error: 0.001% Edge Q: 9.135, target: 9.371, error: 2.525% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5668E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7254E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.435686 TO TG2= 0.437505 @ NSTEP 2676 GFRAME TG2 MOMENTS CHECKSUM: 3.6870919834420D+03 --> plasma_hash("gframe"): TA= 4.375045E-01 NSTEP= 2677 Hash code: 86819743 ->PRGCHK: bdy curvature ratio at t= 4.3932E-01 seconds is: 5.1881E-02 % MHDEQ: TG1= 0.437505 ; TG2= 0.439323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.122E-06 FluxDiff MaxDT: 1.046E-02 Avg. GS error: 8.188E-03 Plasma Current: 9.071E+05, target: 9.071E+05, error: 0.002% Edge Q: 9.167, target: 9.403, error: 2.510% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5938E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7457E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.437505 TO TG2= 0.439323 @ NSTEP 2677 GFRAME TG2 MOMENTS CHECKSUM: 3.6865060537614D+03 --> plasma_hash("gframe"): TA= 4.393227E-01 NSTEP= 2678 Hash code: 17678777 ->PRGCHK: bdy curvature ratio at t= 4.4114E-01 seconds is: 5.2271E-02 % MHDEQ: TG1= 0.439323 ; TG2= 0.441141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.518E-06 FluxDiff MaxDT: 1.021E-02 Avg. GS error: 8.280E-03 Plasma Current: 9.080E+05, target: 9.080E+05, error: 0.002% Edge Q: 9.217, target: 9.434, error: 2.297% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0869E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0169E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.439323 TO TG2= 0.441141 @ NSTEP 2678 GFRAME TG2 MOMENTS CHECKSUM: 3.6862622812095D+03 --> plasma_hash("gframe"): TA= 4.411409E-01 NSTEP= 2679 Hash code: 17939046 ->PRGCHK: bdy curvature ratio at t= 4.4296E-01 seconds is: 5.2678E-02 % MHDEQ: TG1= 0.441141 ; TG2= 0.442959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.034E-06 FluxDiff MaxDT: 1.073E-02 Avg. GS error: 8.239E-03 Plasma Current: 9.081E+05, target: 9.081E+05, error: 0.003% Edge Q: 9.287, target: 9.487, error: 2.107% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5314E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1981E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.441141 TO TG2= 0.442959 @ NSTEP 2679 GFRAME TG2 MOMENTS CHECKSUM: 3.6857840036948D+03 --> plasma_hash("gframe"): TA= 4.429591E-01 NSTEP= 2680 Hash code: 52385815 ->PRGCHK: bdy curvature ratio at t= 4.4478E-01 seconds is: 5.3142E-02 % MHDEQ: TG1= 0.442959 ; TG2= 0.444777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.792E-06 FluxDiff MaxDT: 1.190E-02 Avg. GS error: 8.214E-03 Plasma Current: 9.076E+05, target: 9.076E+05, error: 0.005% Edge Q: 9.363, target: 9.557, error: 2.032% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5266E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.3767E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.442959 TO TG2= 0.444777 @ NSTEP 2680 GFRAME TG2 MOMENTS CHECKSUM: 3.6853832928800D+03 --> plasma_hash("gframe"): TA= 4.447773E-01 NSTEP= 2681 Hash code: 30571501 ->PRGCHK: bdy curvature ratio at t= 4.4660E-01 seconds is: 5.3508E-02 % MHDEQ: TG1= 0.444777 ; TG2= 0.446595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.035E-06 FluxDiff MaxDT: 1.311E-02 Avg. GS error: 8.244E-03 Plasma Current: 9.069E+05, target: 9.070E+05, error: 0.007% Edge Q: 9.437, target: 9.636, error: 2.071% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5368E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.5109E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.444777 TO TG2= 0.446595 @ NSTEP 2681 GFRAME TG2 MOMENTS CHECKSUM: 3.6851000705947D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.55962E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.37255E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= 1.18707E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.465954E-01 NSTEP= 2682 Hash code: 39666419 ->PRGCHK: bdy curvature ratio at t= 4.4841E-01 seconds is: 5.3584E-02 % MHDEQ: TG1= 0.446595 ; TG2= 0.448414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.709E-06 FluxDiff MaxDT: 1.529E-02 Avg. GS error: 8.337E-03 Plasma Current: 9.061E+05, target: 9.062E+05, error: 0.009% Edge Q: 9.504, target: 9.714, error: 2.165% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4966E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.5650E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.446595 TO TG2= 0.448414 @ NSTEP 2682 GFRAME TG2 MOMENTS CHECKSUM: 3.6850338394617D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2682 TA= 4.46595E-01 CPU TIME= 9.25200E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.484136E-01 NSTEP= 2683 Hash code: 107400676 ->PRGCHK: bdy curvature ratio at t= 4.5023E-01 seconds is: 5.3009E-02 % MHDEQ: TG1= 0.448414 ; TG2= 0.450232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.417E-06 FluxDiff MaxDT: 1.803E-02 Avg. GS error: 8.412E-03 Plasma Current: 9.054E+05, target: 9.055E+05, error: 0.009% Edge Q: 9.550, target: 9.785, error: 2.402% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4624E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1289E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.448414 TO TG2= 0.450232 @ NSTEP 2683 GFRAME TG2 MOMENTS CHECKSUM: 3.6865075820363D+03 --> plasma_hash("gframe"): TA= 4.502318E-01 NSTEP= 2684 Hash code: 35721506 ->PRGCHK: bdy curvature ratio at t= 4.5205E-01 seconds is: 5.2143E-02 % MHDEQ: TG1= 0.450232 ; TG2= 0.452050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.683E-06 FluxDiff MaxDT: 1.819E-02 Avg. GS error: 8.311E-03 Plasma Current: 9.055E+05, target: 9.056E+05, error: 0.009% Edge Q: 9.575, target: 9.834, error: 2.639% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3645E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1468E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.450232 TO TG2= 0.452050 @ NSTEP 2684 GFRAME TG2 MOMENTS CHECKSUM: 3.6871713675650D+03 %fi_finish: enter %fimain: eflux cpu time = 6.000002031214535E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2685 TA= 4.52050E-01 CPU TIME= 9.17500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.35443555555617 %check_save_state: izleft hours = 77.5766666666667 --> plasma_hash("gframe"): TA= 4.520500E-01 NSTEP= 2685 Hash code: 95760010 ->PRGCHK: bdy curvature ratio at t= 4.5387E-01 seconds is: 5.1301E-02 % MHDEQ: TG1= 0.452050 ; TG2= 0.453868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.136E-06 FluxDiff MaxDT: 1.662E-02 Avg. GS error: 8.473E-03 Plasma Current: 9.060E+05, target: 9.061E+05, error: 0.008% Edge Q: 9.596, target: 9.854, error: 2.617% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3664E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1875E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.452050 TO TG2= 0.453868 @ NSTEP 2685 GFRAME TG2 MOMENTS CHECKSUM: 3.6877178706934D+03 --> plasma_hash("gframe"): TA= 4.538682E-01 NSTEP= 2686 Hash code: 15185197 ->PRGCHK: bdy curvature ratio at t= 4.5569E-01 seconds is: 5.0622E-02 % MHDEQ: TG1= 0.453868 ; TG2= 0.455686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.108E-06 FluxDiff MaxDT: 2.472E-02 Avg. GS error: 8.626E-03 Plasma Current: 9.057E+05, target: 9.058E+05, error: 0.008% Edge Q: 9.637, target: 9.874, error: 2.391% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5004E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0834E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.453868 TO TG2= 0.455686 @ NSTEP 2686 GFRAME TG2 MOMENTS CHECKSUM: 3.6899173734468D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.53685E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.25004E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= 1.28681E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.556864E-01 NSTEP= 2687 Hash code: 38837107 ->PRGCHK: bdy curvature ratio at t= 4.5750E-01 seconds is: 5.0182E-02 % MHDEQ: TG1= 0.455686 ; TG2= 0.457505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.865E-06 FluxDiff MaxDT: 2.919E-02 Avg. GS error: 8.793E-03 Plasma Current: 9.047E+05, target: 9.047E+05, error: 0.007% Edge Q: 9.692, target: 9.929, error: 2.385% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4855E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0207E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.455686 TO TG2= 0.457505 @ NSTEP 2687 GFRAME TG2 MOMENTS CHECKSUM: 3.6923267464101D+03 --> plasma_hash("gframe"): TA= 4.575045E-01 NSTEP= 2688 Hash code: 33387448 ->PRGCHK: bdy curvature ratio at t= 4.5932E-01 seconds is: 5.0314E-02 % MHDEQ: TG1= 0.457505 ; TG2= 0.459323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.591E-06 FluxDiff MaxDT: 2.516E-02 Avg. GS error: 9.012E-03 Plasma Current: 9.038E+05, target: 9.038E+05, error: 0.005% Edge Q: 9.758, target: 9.985, error: 2.269% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4596E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8970E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.457505 TO TG2= 0.459323 @ NSTEP 2688 GFRAME TG2 MOMENTS CHECKSUM: 3.6961473704214D+03 --> plasma_hash("gframe"): TA= 4.593227E-01 NSTEP= 2689 Hash code: 56089684 ->PRGCHK: bdy curvature ratio at t= 4.6114E-01 seconds is: 5.0747E-02 % MHDEQ: TG1= 0.459323 ; TG2= 0.461141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.294E-06 FluxDiff MaxDT: 2.391E-02 Avg. GS error: 9.308E-03 Plasma Current: 9.032E+05, target: 9.032E+05, error: 0.003% Edge Q: 9.823, target: 10.057, error: 2.331% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4626E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7774E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.459323 TO TG2= 0.461141 @ NSTEP 2689 GFRAME TG2 MOMENTS CHECKSUM: 3.7004692577009D+03 --> plasma_hash("gframe"): TA= 4.611409E-01 NSTEP= 2690 Hash code: 13248821 ->PRGCHK: bdy curvature ratio at t= 4.6296E-01 seconds is: 5.1287E-02 % MHDEQ: TG1= 0.461141 ; TG2= 0.462959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.153E-06 FluxDiff MaxDT: 2.600E-02 Avg. GS error: 9.487E-03 Plasma Current: 9.026E+05, target: 9.026E+05, error: 0.000% Edge Q: 9.887, target: 10.121, error: 2.310% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4973E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6513E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.461141 TO TG2= 0.462959 @ NSTEP 2690 GFRAME TG2 MOMENTS CHECKSUM: 3.7047225440690D+03 --> plasma_hash("gframe"): TA= 4.629591E-01 NSTEP= 2691 Hash code: 19309584 ->PRGCHK: bdy curvature ratio at t= 4.6478E-01 seconds is: 5.1716E-02 % MHDEQ: TG1= 0.462959 ; TG2= 0.464777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.840E-06 FluxDiff MaxDT: 3.347E-02 Avg. GS error: 9.628E-03 Plasma Current: 9.015E+05, target: 9.015E+05, error: 0.002% Edge Q: 9.945, target: 10.192, error: 2.430% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6246E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5459E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.462959 TO TG2= 0.464777 @ NSTEP 2691 GFRAME TG2 MOMENTS CHECKSUM: 3.7076268239277D+03 --> plasma_hash("gframe"): TA= 4.647773E-01 NSTEP= 2692 Hash code: 115962344 ->PRGCHK: bdy curvature ratio at t= 4.6660E-01 seconds is: 5.1883E-02 % MHDEQ: TG1= 0.464777 ; TG2= 0.466595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.744E-06 FluxDiff MaxDT: 3.418E-02 Avg. GS error: 9.714E-03 Plasma Current: 9.012E+05, target: 9.012E+05, error: 0.004% Edge Q: 9.975, target: 10.254, error: 2.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4890E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4766E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.464777 TO TG2= 0.466595 @ NSTEP 2692 GFRAME TG2 MOMENTS CHECKSUM: 3.7092748433925D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.54399E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.25356E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= 1.29043E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.665954E-01 NSTEP= 2693 Hash code: 76932067 ->PRGCHK: bdy curvature ratio at t= 4.6841E-01 seconds is: 5.1311E-02 % MHDEQ: TG1= 0.466595 ; TG2= 0.468414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.933E-06 FluxDiff MaxDT: 3.520E-02 Avg. GS error: 9.763E-03 Plasma Current: 9.020E+05, target: 9.019E+05, error: 0.006% Edge Q: 9.945, target: 10.281, error: 3.260% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6238E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4374E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.466595 TO TG2= 0.468414 @ NSTEP 2693 GFRAME TG2 MOMENTS CHECKSUM: 3.7071598245358D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2693 TA= 4.66595E-01 CPU TIME= 9.26000E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.684136E-01 NSTEP= 2694 Hash code: 19361978 ->PRGCHK: bdy curvature ratio at t= 4.7023E-01 seconds is: 5.0737E-02 % MHDEQ: TG1= 0.468414 ; TG2= 0.470232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.070E-06 FluxDiff MaxDT: 3.613E-02 Avg. GS error: 9.871E-03 Plasma Current: 9.029E+05, target: 9.028E+05, error: 0.007% Edge Q: 9.903, target: 10.241, error: 3.299% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7140E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3506E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.468414 TO TG2= 0.470232 @ NSTEP 2694 GFRAME TG2 MOMENTS CHECKSUM: 3.7040386343257D+03 --> plasma_hash("gframe"): TA= 4.702318E-01 NSTEP= 2695 Hash code: 15516041 ->PRGCHK: bdy curvature ratio at t= 4.7205E-01 seconds is: 5.0397E-02 % MHDEQ: TG1= 0.470232 ; TG2= 0.472050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.703E-06 FluxDiff MaxDT: 3.646E-02 Avg. GS error: 1.000E-02 Plasma Current: 9.022E+05, target: 9.021E+05, error: 0.007% Edge Q: 9.881, target: 10.196, error: 3.086% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8119E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2701E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.470232 TO TG2= 0.472050 @ NSTEP 2695 GFRAME TG2 MOMENTS CHECKSUM: 3.7005914846483D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2696 TA= 4.72050E-01 CPU TIME= 9.17700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.36446361111143 %check_save_state: izleft hours = 77.5666666666667 --> plasma_hash("gframe"): TA= 4.720500E-01 NSTEP= 2696 Hash code: 121906325 ->PRGCHK: bdy curvature ratio at t= 4.7387E-01 seconds is: 5.0287E-02 % MHDEQ: TG1= 0.472050 ; TG2= 0.473868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.283E-06 FluxDiff MaxDT: 4.147E-02 Avg. GS error: 1.019E-02 Plasma Current: 9.007E+05, target: 9.007E+05, error: 0.007% Edge Q: 9.886, target: 10.181, error: 2.892% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6452E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1874E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.472050 TO TG2= 0.473868 @ NSTEP 2696 GFRAME TG2 MOMENTS CHECKSUM: 3.6988541903082D+03 --> plasma_hash("gframe"): TA= 4.738682E-01 NSTEP= 2697 Hash code: 42799038 ->PRGCHK: bdy curvature ratio at t= 4.7569E-01 seconds is: 5.0261E-02 % MHDEQ: TG1= 0.473868 ; TG2= 0.475686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.132E-06 FluxDiff MaxDT: 4.836E-02 Avg. GS error: 1.041E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.008% Edge Q: 9.893, target: 10.189, error: 2.905% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4046E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1474E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.473868 TO TG2= 0.475686 @ NSTEP 2697 GFRAME TG2 MOMENTS CHECKSUM: 3.6989295150830D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.87702E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.32627E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 1.54732E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.756864E-01 NSTEP= 2698 Hash code: 49818929 ->PRGCHK: bdy curvature ratio at t= 4.7750E-01 seconds is: 5.0223E-02 % MHDEQ: TG1= 0.475686 ; TG2= 0.477505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.266E-06 FluxDiff MaxDT: 2.188E-02 Avg. GS error: 1.061E-02 Plasma Current: 9.012E+05, target: 9.011E+05, error: 0.012% Edge Q: 9.945, target: 10.189, error: 2.388% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7944E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1355E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.475686 TO TG2= 0.477505 @ NSTEP 2698 GFRAME TG2 MOMENTS CHECKSUM: 3.7054720675626D+03 --> plasma_hash("gframe"): TA= 4.775045E-01 NSTEP= 2699 Hash code: 47076954 ->PRGCHK: bdy curvature ratio at t= 4.7932E-01 seconds is: 5.0312E-02 % MHDEQ: TG1= 0.477505 ; TG2= 0.479323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.301E-06 FluxDiff MaxDT: 1.802E-02 Avg. GS error: 1.068E-02 Plasma Current: 9.018E+05, target: 9.016E+05, error: 0.019% Edge Q: 10.012, target: 10.238, error: 2.208% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6643E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1562E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.477505 TO TG2= 0.479323 @ NSTEP 2699 GFRAME TG2 MOMENTS CHECKSUM: 3.7130643840445D+03 --> plasma_hash("gframe"): TA= 4.793227E-01 NSTEP= 2700 Hash code: 120745029 ->PRGCHK: bdy curvature ratio at t= 4.8114E-01 seconds is: 5.0548E-02 % MHDEQ: TG1= 0.479323 ; TG2= 0.481141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.105E-06 FluxDiff MaxDT: 2.046E-02 Avg. GS error: 1.082E-02 Plasma Current: 9.013E+05, target: 9.012E+05, error: 0.019% Edge Q: 10.091, target: 10.309, error: 2.109% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6429E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2014E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.479323 TO TG2= 0.481141 @ NSTEP 2700 GFRAME TG2 MOMENTS CHECKSUM: 3.7205517840537D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.480000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 4.80000000E+13 to 5.80000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 5.91000000E+00 to 2.19000000E+00 namelist update changed APROF_EDGE_VALUE_NER from 1.60000000E+13 to 2.50000000E+13 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2707 TA= 4.81118E-01 CPU TIME= 9.79800E-03 SECONDS. DT= 2.32977E-05 --> plasma_hash("gframe"): TA= 4.811409E-01 NSTEP= 2708 Hash code: 46525796 ->PRGCHK: bdy curvature ratio at t= 4.8296E-01 seconds is: 5.0992E-02 % MHDEQ: TG1= 0.481141 ; TG2= 0.482959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.847E-06 FluxDiff MaxDT: 3.022E-02 Avg. GS error: 1.129E-02 Plasma Current: 9.006E+05, target: 9.004E+05, error: 0.015% Edge Q: 10.150, target: 10.399, error: 2.397% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8302E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2577E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.481141 TO TG2= 0.482959 @ NSTEP 2708 GFRAME TG2 MOMENTS CHECKSUM: 3.7263975201446D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2714 TA= 4.82322E-01 CPU TIME= 4.85170E-02 SECONDS. DT= 2.78245E-04 --> plasma_hash("gframe"): TA= 4.829591E-01 NSTEP= 2717 Hash code: 102424431 ->PRGCHK: bdy curvature ratio at t= 4.8478E-01 seconds is: 5.1541E-02 % MHDEQ: TG1= 0.482959 ; TG2= 0.484777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.963E-06 FluxDiff MaxDT: 3.920E-02 Avg. GS error: 1.228E-02 Plasma Current: 9.005E+05, target: 9.004E+05, error: 0.010% Edge Q: 10.174, target: 10.462, error: 2.749% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8350E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2745E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.482959 TO TG2= 0.484777 @ NSTEP 2717 GFRAME TG2 MOMENTS CHECKSUM: 3.7309703407139D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2720 TA= 4.83568E-01 CPU TIME= 2.17260E-02 SECONDS. DT= 2.37251E-04 --> plasma_hash("gframe"): TA= 4.847773E-01 NSTEP= 2726 Hash code: 100255673 ->PRGCHK: bdy curvature ratio at t= 4.8660E-01 seconds is: 5.2321E-02 % MHDEQ: TG1= 0.484777 ; TG2= 0.486595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.897E-06 FluxDiff MaxDT: 3.434E-02 Avg. GS error: 1.303E-02 Plasma Current: 9.012E+05, target: 9.011E+05, error: 0.017% Edge Q: 10.120, target: 10.486, error: 3.486% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9784E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2358E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.484777 TO TG2= 0.486595 @ NSTEP 2726 GFRAME TG2 MOMENTS CHECKSUM: 3.7304918743823D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2726 TA= 4.84777E-01 CPU TIME= 9.29300E-03 SECONDS. DT= 3.07397E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2732 TA= 4.86159E-01 CPU TIME= 2.75720E-02 SECONDS. DT= 3.25622E-04 !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= -1.76312E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.68918E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.90950E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.865954E-01 NSTEP= 2734 Hash code: 29327641 ->PRGCHK: bdy curvature ratio at t= 4.8841E-01 seconds is: 5.3275E-02 % MHDEQ: TG1= 0.486595 ; TG2= 0.488414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.251E-06 FluxDiff MaxDT: 2.723E-02 Avg. GS error: 1.387E-02 Plasma Current: 9.018E+05, target: 9.016E+05, error: 0.022% Edge Q: 10.060, target: 10.424, error: 3.495% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0203E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1612E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.486595 TO TG2= 0.488414 @ NSTEP 2734 GFRAME TG2 MOMENTS CHECKSUM: 3.7294361933452D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2738 TA= 4.87572E-01 CPU TIME= 9.27400E-03 SECONDS. DT= 2.77196E-04 --> plasma_hash("gframe"): TA= 4.884136E-01 NSTEP= 2742 Hash code: 111264557 ->PRGCHK: bdy curvature ratio at t= 4.9023E-01 seconds is: 5.4382E-02 % MHDEQ: TG1= 0.488414 ; TG2= 0.490232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.955E-06 FluxDiff MaxDT: 3.053E-02 Avg. GS error: 1.457E-02 Plasma Current: 9.019E+05, target: 9.017E+05, error: 0.022% Edge Q: 10.009, target: 10.364, error: 3.420% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9773E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1332E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.488414 TO TG2= 0.490232 @ NSTEP 2742 GFRAME TG2 MOMENTS CHECKSUM: 3.7280914911862D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2745 TA= 4.89166E-01 CPU TIME= 9.26500E-03 SECONDS. DT= 2.93097E-04 --> plasma_hash("gframe"): TA= 4.902318E-01 NSTEP= 2749 Hash code: 4803731 ->PRGCHK: bdy curvature ratio at t= 4.9205E-01 seconds is: 5.5316E-02 % MHDEQ: TG1= 0.490232 ; TG2= 0.492050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.917E-06 FluxDiff MaxDT: 3.825E-02 Avg. GS error: 1.521E-02 Plasma Current: 9.016E+05, target: 9.014E+05, error: 0.020% Edge Q: 9.977, target: 10.313, error: 3.256% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9609E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0880E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.490232 TO TG2= 0.492050 @ NSTEP 2749 GFRAME TG2 MOMENTS CHECKSUM: 3.7276288574500D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2753 TA= 4.92050E-01 CPU TIME= 9.39000E-03 SECONDS. DT= 4.95133E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.38628722222279 %check_save_state: izleft hours = 77.5447222222222 --> plasma_hash("gframe"): TA= 4.920500E-01 NSTEP= 2753 Hash code: 4869676 ->PRGCHK: bdy curvature ratio at t= 4.9387E-01 seconds is: 5.5630E-02 % MHDEQ: TG1= 0.492050 ; TG2= 0.493868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.820E-06 FluxDiff MaxDT: 5.771E-02 Avg. GS error: 1.541E-02 Plasma Current: 9.013E+05, target: 9.012E+05, error: 0.017% Edge Q: 9.960, target: 10.283, error: 3.137% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7892E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0328E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.492050 TO TG2= 0.493868 @ NSTEP 2753 GFRAME TG2 MOMENTS CHECKSUM: 3.7276246188906D+03 --> plasma_hash("gframe"): TA= 4.938682E-01 NSTEP= 2756 Hash code: 32021291 ->PRGCHK: bdy curvature ratio at t= 4.9569E-01 seconds is: 5.5621E-02 % MHDEQ: TG1= 0.493868 ; TG2= 0.495686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.329E-06 FluxDiff MaxDT: 4.881E-02 Avg. GS error: 1.551E-02 Plasma Current: 9.013E+05, target: 9.012E+05, error: 0.015% Edge Q: 9.973, target: 10.271, error: 2.901% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4061E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0547E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.493868 TO TG2= 0.495686 @ NSTEP 2756 GFRAME TG2 MOMENTS CHECKSUM: 3.7290907800957D+03 --> plasma_hash("gframe"): TA= 4.956864E-01 NSTEP= 2759 Hash code: 67962486 ->PRGCHK: bdy curvature ratio at t= 4.9750E-01 seconds is: 5.5363E-02 % MHDEQ: TG1= 0.495686 ; TG2= 0.497505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.461E-06 FluxDiff MaxDT: 4.997E-02 Avg. GS error: 1.564E-02 Plasma Current: 9.011E+05, target: 9.010E+05, error: 0.014% Edge Q: 9.990, target: 10.279, error: 2.810% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4431E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0586E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.495686 TO TG2= 0.497505 @ NSTEP 2759 GFRAME TG2 MOMENTS CHECKSUM: 3.7308401500164D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.87303E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 2.64430E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 2.49739E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.975045E-01 NSTEP= 2761 Hash code: 82885634 ->PRGCHK: bdy curvature ratio at t= 4.9932E-01 seconds is: 5.4969E-02 % MHDEQ: TG1= 0.497505 ; TG2= 0.499323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.158E-06 FluxDiff MaxDT: 5.118E-02 Avg. GS error: 1.576E-02 Plasma Current: 9.007E+05, target: 9.005E+05, error: 0.013% Edge Q: 10.013, target: 10.304, error: 2.823% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4450E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0596E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.497505 TO TG2= 0.499323 @ NSTEP 2761 GFRAME TG2 MOMENTS CHECKSUM: 3.7324812713616D+03 --> plasma_hash("gframe"): TA= 4.993227E-01 NSTEP= 2763 Hash code: 2335098 ->PRGCHK: bdy curvature ratio at t= 5.0114E-01 seconds is: 5.4686E-02 % MHDEQ: TG1= 0.499323 ; TG2= 0.501141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.936E-07 FluxDiff MaxDT: 5.238E-02 Avg. GS error: 1.576E-02 Plasma Current: 9.000E+05, target: 8.999E+05, error: 0.013% Edge Q: 10.032, target: 10.328, error: 2.866% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4442E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0510E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.499323 TO TG2= 0.501141 @ NSTEP 2763 GFRAME TG2 MOMENTS CHECKSUM: 3.7336416968635D+03 --> plasma_hash("gframe"): TA= 5.011409E-01 NSTEP= 2764 Hash code: 48136969 ->PRGCHK: bdy curvature ratio at t= 5.0296E-01 seconds is: 5.4469E-02 % MHDEQ: TG1= 0.501141 ; TG2= 0.502959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.662E-07 FluxDiff MaxDT: 5.359E-02 Avg. GS error: 1.564E-02 Plasma Current: 8.997E+05, target: 8.996E+05, error: 0.015% Edge Q: 10.044, target: 10.351, error: 2.964% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3762E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0268E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.501141 TO TG2= 0.502959 @ NSTEP 2764 GFRAME TG2 MOMENTS CHECKSUM: 3.7346081689556D+03 --> plasma_hash("gframe"): TA= 5.029591E-01 NSTEP= 2765 Hash code: 103636656 ->PRGCHK: bdy curvature ratio at t= 5.0478E-01 seconds is: 5.4648E-02 % MHDEQ: TG1= 0.502959 ; TG2= 0.504777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.181E-07 FluxDiff MaxDT: 5.474E-02 Avg. GS error: 1.535E-02 Plasma Current: 9.004E+05, target: 9.003E+05, error: 0.013% Edge Q: 10.023, target: 10.357, error: 3.228% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3791E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9726E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.502959 TO TG2= 0.504777 @ NSTEP 2765 GFRAME TG2 MOMENTS CHECKSUM: 3.7341333133523D+03 --> plasma_hash("gframe"): TA= 5.047773E-01 NSTEP= 2766 Hash code: 62313228 ->PRGCHK: bdy curvature ratio at t= 5.0660E-01 seconds is: 5.4286E-02 % MHDEQ: TG1= 0.504777 ; TG2= 0.506595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.371E-06 FluxDiff MaxDT: 4.902E-02 Avg. GS error: 1.505E-02 Plasma Current: 9.016E+05, target: 9.015E+05, error: 0.009% Edge Q: 9.993, target: 10.324, error: 3.202% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5150E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9141E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.504777 TO TG2= 0.506595 @ NSTEP 2766 GFRAME TG2 MOMENTS CHECKSUM: 3.7336465063619D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2766 TA= 5.04777E-01 CPU TIME= 9.25200E-03 SECONDS. DT= 1.81818E-03 %MFRCHK - LABEL "BALE0_SGF", # 14= 1.74491E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 2.27786E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 2.35134E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.065954E-01 NSTEP= 2767 Hash code: 68057972 ->PRGCHK: bdy curvature ratio at t= 5.0841E-01 seconds is: 5.3880E-02 % MHDEQ: TG1= 0.506595 ; TG2= 0.508414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.619E-06 FluxDiff MaxDT: 4.565E-02 Avg. GS error: 1.478E-02 Plasma Current: 9.024E+05, target: 9.024E+05, error: 0.004% Edge Q: 9.968, target: 10.284, error: 3.075% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5465E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8629E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.506595 TO TG2= 0.508414 @ NSTEP 2767 GFRAME TG2 MOMENTS CHECKSUM: 3.7330416332951D+03 --> plasma_hash("gframe"): TA= 5.084136E-01 NSTEP= 2768 Hash code: 14146517 ->PRGCHK: bdy curvature ratio at t= 5.1023E-01 seconds is: 5.3291E-02 % MHDEQ: TG1= 0.508414 ; TG2= 0.510232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.361E-06 FluxDiff MaxDT: 5.412E-02 Avg. GS error: 1.456E-02 Plasma Current: 9.026E+05, target: 9.026E+05, error: 0.001% Edge Q: 9.958, target: 10.257, error: 2.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6458E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8327E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.508414 TO TG2= 0.510232 @ NSTEP 2768 GFRAME TG2 MOMENTS CHECKSUM: 3.7312365715806D+03 --> plasma_hash("gframe"): TA= 5.102318E-01 NSTEP= 2769 Hash code: 85066233 ->PRGCHK: bdy curvature ratio at t= 5.1205E-01 seconds is: 5.2611E-02 % MHDEQ: TG1= 0.510232 ; TG2= 0.512050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.962E-07 FluxDiff MaxDT: 5.378E-02 Avg. GS error: 1.435E-02 Plasma Current: 9.026E+05, target: 9.027E+05, error: 0.008% Edge Q: 9.953, target: 10.251, error: 2.908% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6526E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7372E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.510232 TO TG2= 0.512050 @ NSTEP 2769 GFRAME TG2 MOMENTS CHECKSUM: 3.7281155192534D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2770 TA= 5.12050E-01 CPU TIME= 9.17000E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.39717805555620 %check_save_state: izleft hours = 77.5338888888889 --> plasma_hash("gframe"): TA= 5.120500E-01 NSTEP= 2770 Hash code: 122192066 ->PRGCHK: bdy curvature ratio at t= 5.1387E-01 seconds is: 5.1209E-02 % MHDEQ: TG1= 0.512050 ; TG2= 0.513868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.196E-07 FluxDiff MaxDT: 3.991E-02 Avg. GS error: 1.414E-02 Plasma Current: 9.030E+05, target: 9.032E+05, error: 0.015% Edge Q: 9.960, target: 10.243, error: 2.763% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8218E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7366E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.512050 TO TG2= 0.513868 @ NSTEP 2770 GFRAME TG2 MOMENTS CHECKSUM: 3.7228727640460D+03 --> plasma_hash("gframe"): TA= 5.138682E-01 NSTEP= 2771 Hash code: 85002 ->PRGCHK: bdy curvature ratio at t= 5.1569E-01 seconds is: 4.9851E-02 % MHDEQ: TG1= 0.513868 ; TG2= 0.515686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.014E-07 FluxDiff MaxDT: 3.506E-02 Avg. GS error: 1.426E-02 Plasma Current: 9.036E+05, target: 9.038E+05, error: 0.020% Edge Q: 9.963, target: 10.254, error: 2.839% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8218E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7041E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.513868 TO TG2= 0.515686 @ NSTEP 2771 GFRAME TG2 MOMENTS CHECKSUM: 3.7179377582900D+03 --> plasma_hash("gframe"): TA= 5.156864E-01 NSTEP= 2772 Hash code: 3491785 ->PRGCHK: bdy curvature ratio at t= 5.1750E-01 seconds is: 4.8536E-02 % MHDEQ: TG1= 0.515686 ; TG2= 0.517505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.700E-07 FluxDiff MaxDT: 3.653E-02 Avg. GS error: 1.479E-02 Plasma Current: 9.042E+05, target: 9.044E+05, error: 0.020% Edge Q: 9.964, target: 10.258, error: 2.865% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7524E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6800E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.515686 TO TG2= 0.517505 @ NSTEP 2772 GFRAME TG2 MOMENTS CHECKSUM: 3.7128009839208D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.96745E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.70838E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.48555E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.175045E-01 NSTEP= 2773 Hash code: 90791851 ->PRGCHK: bdy curvature ratio at t= 5.1932E-01 seconds is: 4.8032E-02 % MHDEQ: TG1= 0.517505 ; TG2= 0.519323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.840E-07 FluxDiff MaxDT: 3.104E-02 Avg. GS error: 1.496E-02 Plasma Current: 9.049E+05, target: 9.051E+05, error: 0.018% Edge Q: 9.965, target: 10.265, error: 2.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6773E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6655E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.517505 TO TG2= 0.519323 @ NSTEP 2773 GFRAME TG2 MOMENTS CHECKSUM: 3.7092990460612D+03 --> plasma_hash("gframe"): TA= 5.193227E-01 NSTEP= 2774 Hash code: 100501576 ->PRGCHK: bdy curvature ratio at t= 5.2114E-01 seconds is: 4.7987E-02 % MHDEQ: TG1= 0.519323 ; TG2= 0.521141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.718E-07 FluxDiff MaxDT: 2.997E-02 Avg. GS error: 1.493E-02 Plasma Current: 9.053E+05, target: 9.054E+05, error: 0.014% Edge Q: 9.969, target: 10.263, error: 2.861% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6432E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6561E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.519323 TO TG2= 0.521141 @ NSTEP 2774 GFRAME TG2 MOMENTS CHECKSUM: 3.7065840595869D+03 --> plasma_hash("gframe"): TA= 5.211409E-01 NSTEP= 2775 Hash code: 33707095 ->PRGCHK: bdy curvature ratio at t= 5.2296E-01 seconds is: 4.9975E-02 % MHDEQ: TG1= 0.521141 ; TG2= 0.522959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.992E-07 FluxDiff MaxDT: 2.362E-02 Avg. GS error: 1.494E-02 Plasma Current: 9.046E+05, target: 9.047E+05, error: 0.013% Edge Q: 9.994, target: 10.271, error: 2.689% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4130E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6420E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.521141 TO TG2= 0.522959 @ NSTEP 2775 GFRAME TG2 MOMENTS CHECKSUM: 3.7080396719938D+03 --> plasma_hash("gframe"): TA= 5.229591E-01 NSTEP= 2776 Hash code: 42636889 ->PRGCHK: bdy curvature ratio at t= 5.2478E-01 seconds is: 5.2089E-02 % MHDEQ: TG1= 0.522959 ; TG2= 0.524777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.170E-06 FluxDiff MaxDT: 2.433E-02 Avg. GS error: 1.497E-02 Plasma Current: 9.033E+05, target: 9.034E+05, error: 0.013% Edge Q: 10.025, target: 10.294, error: 2.613% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3791E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6452E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.522959 TO TG2= 0.524777 @ NSTEP 2776 GFRAME TG2 MOMENTS CHECKSUM: 3.7090246543432D+03 --> plasma_hash("gframe"): TA= 5.247773E-01 NSTEP= 2777 Hash code: 116566535 ->PRGCHK: bdy curvature ratio at t= 5.2660E-01 seconds is: 5.4337E-02 % MHDEQ: TG1= 0.524777 ; TG2= 0.526595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.681E-07 FluxDiff MaxDT: 2.453E-02 Avg. GS error: 1.502E-02 Plasma Current: 9.024E+05, target: 9.026E+05, error: 0.013% Edge Q: 10.050, target: 10.327, error: 2.688% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4135E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6529E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.524777 TO TG2= 0.526595 @ NSTEP 2777 GFRAME TG2 MOMENTS CHECKSUM: 3.7100902549178D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.97439E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.71503E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.49133E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.265954E-01 NSTEP= 2778 Hash code: 49518059 ->PRGCHK: bdy curvature ratio at t= 5.2841E-01 seconds is: 5.5783E-02 % MHDEQ: TG1= 0.526595 ; TG2= 0.528414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.124E-06 FluxDiff MaxDT: 2.100E-02 Avg. GS error: 1.505E-02 Plasma Current: 9.019E+05, target: 9.020E+05, error: 0.013% Edge Q: 10.077, target: 10.350, error: 2.639% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5125E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6619E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.526595 TO TG2= 0.528414 @ NSTEP 2778 GFRAME TG2 MOMENTS CHECKSUM: 3.7116272378806D+03 --> plasma_hash("gframe"): TA= 5.284136E-01 NSTEP= 2779 Hash code: 62844460 ->PRGCHK: bdy curvature ratio at t= 5.3023E-01 seconds is: 5.6176E-02 % MHDEQ: TG1= 0.528414 ; TG2= 0.530232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.242E-06 FluxDiff MaxDT: 1.988E-02 Avg. GS error: 1.509E-02 Plasma Current: 9.017E+05, target: 9.019E+05, error: 0.015% Edge Q: 10.104, target: 10.376, error: 2.626% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6178E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6679E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.528414 TO TG2= 0.530232 @ NSTEP 2779 GFRAME TG2 MOMENTS CHECKSUM: 3.7132056807543D+03 --> plasma_hash("gframe"): TA= 5.302318E-01 NSTEP= 2780 Hash code: 109032627 ->PRGCHK: bdy curvature ratio at t= 5.3205E-01 seconds is: 5.5198E-02 % MHDEQ: TG1= 0.530232 ; TG2= 0.532050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.518E-06 FluxDiff MaxDT: 1.616E-02 Avg. GS error: 1.515E-02 Plasma Current: 9.021E+05, target: 9.022E+05, error: 0.016% Edge Q: 10.138, target: 10.403, error: 2.540% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7362E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6824E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.530232 TO TG2= 0.532050 @ NSTEP 2780 GFRAME TG2 MOMENTS CHECKSUM: 3.7156586779914D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2781 TA= 5.32050E-01 CPU TIME= 9.13500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.40662833333363 %check_save_state: izleft hours = 77.5244444444444 --> plasma_hash("gframe"): TA= 5.320500E-01 NSTEP= 2781 Hash code: 16136593 ->PRGCHK: bdy curvature ratio at t= 5.3387E-01 seconds is: 5.4248E-02 % MHDEQ: TG1= 0.532050 ; TG2= 0.533868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.929E-06 FluxDiff MaxDT: 1.599E-02 Avg. GS error: 1.521E-02 Plasma Current: 9.027E+05, target: 9.028E+05, error: 0.014% Edge Q: 10.171, target: 10.435, error: 2.530% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7824E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6921E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.532050 TO TG2= 0.533868 @ NSTEP 2781 GFRAME TG2 MOMENTS CHECKSUM: 3.7181152056134D+03 --> plasma_hash("gframe"): TA= 5.338682E-01 NSTEP= 2782 Hash code: 23304477 ->PRGCHK: bdy curvature ratio at t= 5.3569E-01 seconds is: 5.3322E-02 % MHDEQ: TG1= 0.533868 ; TG2= 0.535686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.064E-06 FluxDiff MaxDT: 2.208E-02 Avg. GS error: 1.531E-02 Plasma Current: 9.024E+05, target: 9.025E+05, error: 0.010% Edge Q: 10.220, target: 10.469, error: 2.381% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6046E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7789E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.533868 TO TG2= 0.535686 @ NSTEP 2782 GFRAME TG2 MOMENTS CHECKSUM: 3.7217020540067D+03 --> plasma_hash("gframe"): TA= 5.356864E-01 NSTEP= 2783 Hash code: 92417308 ->PRGCHK: bdy curvature ratio at t= 5.3750E-01 seconds is: 5.2809E-02 % MHDEQ: TG1= 0.535686 ; TG2= 0.537505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.582E-07 FluxDiff MaxDT: 3.147E-02 Avg. GS error: 1.540E-02 Plasma Current: 9.012E+05, target: 9.013E+05, error: 0.008% Edge Q: 10.266, target: 10.535, error: 2.554% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4407E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8071E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.535686 TO TG2= 0.537505 @ NSTEP 2783 GFRAME TG2 MOMENTS CHECKSUM: 3.7233902757044D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 2.13192E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.17623E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.375045E-01 NSTEP= 2784 Hash code: 24409345 ->PRGCHK: bdy curvature ratio at t= 5.3932E-01 seconds is: 5.2550E-02 % MHDEQ: TG1= 0.537505 ; TG2= 0.539323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.849E-07 FluxDiff MaxDT: 5.062E-02 Avg. GS error: 1.549E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.007% Edge Q: 10.304, target: 10.582, error: 2.628% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4449E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8348E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.537505 TO TG2= 0.539323 @ NSTEP 2784 GFRAME TG2 MOMENTS CHECKSUM: 3.7244295444596D+03 --> plasma_hash("gframe"): TA= 5.393227E-01 NSTEP= 2785 Hash code: 43528528 ->PRGCHK: bdy curvature ratio at t= 5.4114E-01 seconds is: 5.3067E-02 % MHDEQ: TG1= 0.539323 ; TG2= 0.541141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.184E-07 FluxDiff MaxDT: 7.118E-02 Avg. GS error: 1.366E-02 Plasma Current: 8.989E+05, target: 8.990E+05, error: 0.010% Edge Q: 10.309, target: 10.628, error: 2.999% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4423E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8275E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.539323 TO TG2= 0.541141 @ NSTEP 2785 GFRAME TG2 MOMENTS CHECKSUM: 3.7237248195054D+03 --> plasma_hash("gframe"): TA= 5.411409E-01 NSTEP= 2786 Hash code: 29489201 ->PRGCHK: bdy curvature ratio at t= 5.4296E-01 seconds is: 5.3595E-02 % MHDEQ: TG1= 0.541141 ; TG2= 0.542959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.276E-07 FluxDiff MaxDT: 6.980E-02 Avg. GS error: 1.367E-02 Plasma Current: 8.984E+05, target: 8.986E+05, error: 0.012% Edge Q: 10.305, target: 10.627, error: 3.029% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3873E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8137E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.541141 TO TG2= 0.542959 @ NSTEP 2786 GFRAME TG2 MOMENTS CHECKSUM: 3.7229758521295D+03 --> plasma_hash("gframe"): TA= 5.429591E-01 NSTEP= 2787 Hash code: 68119385 ->PRGCHK: bdy curvature ratio at t= 5.4478E-01 seconds is: 5.4132E-02 % MHDEQ: TG1= 0.542959 ; TG2= 0.544777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.650E-07 FluxDiff MaxDT: 5.397E-02 Avg. GS error: 1.364E-02 Plasma Current: 8.989E+05, target: 8.990E+05, error: 0.013% Edge Q: 10.290, target: 10.623, error: 3.130% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2898E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7831E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.542959 TO TG2= 0.544777 @ NSTEP 2787 GFRAME TG2 MOMENTS CHECKSUM: 3.7225186065989D+03 --> plasma_hash("gframe"): TA= 5.447773E-01 NSTEP= 2788 Hash code: 54440329 ->PRGCHK: bdy curvature ratio at t= 5.4660E-01 seconds is: 5.4528E-02 % MHDEQ: TG1= 0.544777 ; TG2= 0.546595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.592E-06 FluxDiff MaxDT: 3.284E-02 Avg. GS error: 1.362E-02 Plasma Current: 8.997E+05, target: 8.998E+05, error: 0.013% Edge Q: 10.282, target: 10.596, error: 2.965% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3439E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7602E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.544777 TO TG2= 0.546595 @ NSTEP 2788 GFRAME TG2 MOMENTS CHECKSUM: 3.7231017212336D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 2.13586E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.17841E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.465954E-01 NSTEP= 2789 Hash code: 73437779 ->PRGCHK: bdy curvature ratio at t= 5.4841E-01 seconds is: 5.4832E-02 % MHDEQ: TG1= 0.546595 ; TG2= 0.548414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.809E-06 FluxDiff MaxDT: 3.168E-02 Avg. GS error: 1.362E-02 Plasma Current: 8.997E+05, target: 8.998E+05, error: 0.013% Edge Q: 10.293, target: 10.587, error: 2.780% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3743E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7647E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.546595 TO TG2= 0.548414 @ NSTEP 2789 GFRAME TG2 MOMENTS CHECKSUM: 3.7242584228412D+03 --> plasma_hash("gframe"): TA= 5.484136E-01 NSTEP= 2790 Hash code: 70497949 ->PRGCHK: bdy curvature ratio at t= 5.5023E-01 seconds is: 5.4890E-02 % MHDEQ: TG1= 0.548414 ; TG2= 0.550232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.352E-06 FluxDiff MaxDT: 2.659E-02 Avg. GS error: 1.360E-02 Plasma Current: 8.988E+05, target: 8.989E+05, error: 0.011% Edge Q: 10.336, target: 10.601, error: 2.501% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5815E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8123E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.548414 TO TG2= 0.550232 @ NSTEP 2790 GFRAME TG2 MOMENTS CHECKSUM: 3.7271656337351D+03 --> plasma_hash("gframe"): TA= 5.502318E-01 NSTEP= 2791 Hash code: 91689577 ->PRGCHK: bdy curvature ratio at t= 5.5205E-01 seconds is: 5.4970E-02 % MHDEQ: TG1= 0.550232 ; TG2= 0.552050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.014E-06 FluxDiff MaxDT: 2.511E-02 Avg. GS error: 1.351E-02 Plasma Current: 8.983E+05, target: 8.983E+05, error: 0.007% Edge Q: 10.375, target: 10.650, error: 2.582% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5853E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8570E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.550232 TO TG2= 0.552050 @ NSTEP 2791 GFRAME TG2 MOMENTS CHECKSUM: 3.7300671898443D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2792 TA= 5.52050E-01 CPU TIME= 9.25500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.41578472222250 %check_save_state: izleft hours = 77.5152777777778 --> plasma_hash("gframe"): TA= 5.520500E-01 NSTEP= 2792 Hash code: 121358506 ->PRGCHK: bdy curvature ratio at t= 5.5387E-01 seconds is: 5.5072E-02 % MHDEQ: TG1= 0.552050 ; TG2= 0.553868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.368E-06 FluxDiff MaxDT: 2.150E-02 Avg. GS error: 1.335E-02 Plasma Current: 8.986E+05, target: 8.986E+05, error: 0.003% Edge Q: 10.402, target: 10.683, error: 2.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6330E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8859E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.552050 TO TG2= 0.553868 @ NSTEP 2792 GFRAME TG2 MOMENTS CHECKSUM: 3.7331370847170D+03 --> plasma_hash("gframe"): TA= 5.538682E-01 NSTEP= 2793 Hash code: 31524348 ->PRGCHK: bdy curvature ratio at t= 5.5569E-01 seconds is: 5.5167E-02 % MHDEQ: TG1= 0.553868 ; TG2= 0.555686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.847E-06 FluxDiff MaxDT: 1.993E-02 Avg. GS error: 1.319E-02 Plasma Current: 8.992E+05, target: 8.992E+05, error: 0.000% Edge Q: 10.418, target: 10.705, error: 2.680% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6727E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8857E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.553868 TO TG2= 0.555686 @ NSTEP 2793 GFRAME TG2 MOMENTS CHECKSUM: 3.7353997584720D+03 --> plasma_hash("gframe"): TA= 5.556864E-01 NSTEP= 2794 Hash code: 10038716 ->PRGCHK: bdy curvature ratio at t= 5.5750E-01 seconds is: 5.5256E-02 % MHDEQ: TG1= 0.555686 ; TG2= 0.557505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.219E-06 FluxDiff MaxDT: 2.281E-02 Avg. GS error: 1.306E-02 Plasma Current: 8.994E+05, target: 8.993E+05, error: 0.003% Edge Q: 10.437, target: 10.715, error: 2.595% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5701E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9076E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.555686 TO TG2= 0.557505 @ NSTEP 2794 GFRAME TG2 MOMENTS CHECKSUM: 3.7369480354728D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -2.01675E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.21016E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.575045E-01 NSTEP= 2795 Hash code: 14315788 ->PRGCHK: bdy curvature ratio at t= 5.5932E-01 seconds is: 5.5302E-02 % MHDEQ: TG1= 0.557505 ; TG2= 0.559323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.604E-06 FluxDiff MaxDT: 2.870E-02 Avg. GS error: 1.301E-02 Plasma Current: 8.993E+05, target: 8.993E+05, error: 0.004% Edge Q: 10.453, target: 10.741, error: 2.680% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4400E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9236E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.557505 TO TG2= 0.559323 @ NSTEP 2795 GFRAME TG2 MOMENTS CHECKSUM: 3.7377109469712D+03 --> plasma_hash("gframe"): TA= 5.593227E-01 NSTEP= 2796 Hash code: 11633708 ->PRGCHK: bdy curvature ratio at t= 5.6114E-01 seconds is: 5.5348E-02 % MHDEQ: TG1= 0.559323 ; TG2= 0.561141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.571E-06 FluxDiff MaxDT: 2.854E-02 Avg. GS error: 1.296E-02 Plasma Current: 8.994E+05, target: 8.994E+05, error: 0.004% Edge Q: 10.466, target: 10.758, error: 2.718% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6263E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9340E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.559323 TO TG2= 0.561141 @ NSTEP 2796 GFRAME TG2 MOMENTS CHECKSUM: 3.7385214052849D+03 --> plasma_hash("gframe"): TA= 5.611409E-01 NSTEP= 2797 Hash code: 46023958 ->PRGCHK: bdy curvature ratio at t= 5.6296E-01 seconds is: 5.5397E-02 % MHDEQ: TG1= 0.561141 ; TG2= 0.562959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.773E-06 FluxDiff MaxDT: 2.421E-02 Avg. GS error: 1.292E-02 Plasma Current: 9.002E+05, target: 9.001E+05, error: 0.004% Edge Q: 10.470, target: 10.771, error: 2.795% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7322E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9258E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.561141 TO TG2= 0.562959 @ NSTEP 2797 GFRAME TG2 MOMENTS CHECKSUM: 3.7394144398766D+03 --> plasma_hash("gframe"): TA= 5.629591E-01 NSTEP= 2798 Hash code: 109349667 ->PRGCHK: bdy curvature ratio at t= 5.6478E-01 seconds is: 5.5228E-02 % MHDEQ: TG1= 0.562959 ; TG2= 0.564777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.442E-06 FluxDiff MaxDT: 2.503E-02 Avg. GS error: 1.291E-02 Plasma Current: 9.009E+05, target: 9.008E+05, error: 0.004% Edge Q: 10.469, target: 10.766, error: 2.756% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6430E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9140E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.562959 TO TG2= 0.564777 @ NSTEP 2798 GFRAME TG2 MOMENTS CHECKSUM: 3.7395857749561D+03 --> plasma_hash("gframe"): TA= 5.647773E-01 NSTEP= 2799 Hash code: 122287328 ->PRGCHK: bdy curvature ratio at t= 5.6660E-01 seconds is: 5.4912E-02 % MHDEQ: TG1= 0.564777 ; TG2= 0.566595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.199E-06 FluxDiff MaxDT: 3.097E-02 Avg. GS error: 1.292E-02 Plasma Current: 9.008E+05, target: 9.008E+05, error: 0.004% Edge Q: 10.476, target: 10.768, error: 2.710% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6166E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9188E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.564777 TO TG2= 0.566595 @ NSTEP 2799 GFRAME TG2 MOMENTS CHECKSUM: 3.7391549985600D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -2.01616E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= 1.20987E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.665954E-01 NSTEP= 2800 Hash code: 45492269 ->PRGCHK: bdy curvature ratio at t= 5.6841E-01 seconds is: 5.4323E-02 % MHDEQ: TG1= 0.566595 ; TG2= 0.568414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.649E-06 FluxDiff MaxDT: 3.949E-02 Avg. GS error: 1.302E-02 Plasma Current: 9.007E+05, target: 9.007E+05, error: 0.004% Edge Q: 10.476, target: 10.780, error: 2.819% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4178E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9121E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.566595 TO TG2= 0.568414 @ NSTEP 2800 GFRAME TG2 MOMENTS CHECKSUM: 3.7377108343761D+03 --> plasma_hash("gframe"): TA= 5.684136E-01 NSTEP= 2801 Hash code: 73711110 ->PRGCHK: bdy curvature ratio at t= 5.7023E-01 seconds is: 5.3764E-02 % MHDEQ: TG1= 0.568414 ; TG2= 0.570232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.810E-06 FluxDiff MaxDT: 3.608E-02 Avg. GS error: 1.313E-02 Plasma Current: 9.011E+05, target: 9.011E+05, error: 0.003% Edge Q: 10.469, target: 10.780, error: 2.889% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.3035E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8926E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.568414 TO TG2= 0.570232 @ NSTEP 2801 GFRAME TG2 MOMENTS CHECKSUM: 3.7363606611855D+03 --> plasma_hash("gframe"): TA= 5.702318E-01 NSTEP= 2802 Hash code: 73650871 ->PRGCHK: bdy curvature ratio at t= 5.7205E-01 seconds is: 5.3245E-02 % MHDEQ: TG1= 0.570232 ; TG2= 0.572050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.217E-06 FluxDiff MaxDT: 3.458E-02 Avg. GS error: 1.323E-02 Plasma Current: 9.017E+05, target: 9.017E+05, error: 0.002% Edge Q: 10.459, target: 10.769, error: 2.887% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7126E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8724E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.570232 TO TG2= 0.572050 @ NSTEP 2802 GFRAME TG2 MOMENTS CHECKSUM: 3.7350518241040D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2803 TA= 5.72050E-01 CPU TIME= 9.30700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.42417555555608 %check_save_state: izleft hours = 77.5069444444444 --> plasma_hash("gframe"): TA= 5.720500E-01 NSTEP= 2803 Hash code: 37758135 ->PRGCHK: bdy curvature ratio at t= 5.7387E-01 seconds is: 5.3188E-02 % MHDEQ: TG1= 0.572050 ; TG2= 0.573868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.185E-06 FluxDiff MaxDT: 4.429E-02 Avg. GS error: 1.324E-02 Plasma Current: 9.012E+05, target: 9.012E+05, error: 0.001% Edge Q: 10.466, target: 10.759, error: 2.726% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3855E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8819E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.572050 TO TG2= 0.573868 @ NSTEP 2803 GFRAME TG2 MOMENTS CHECKSUM: 3.7342729047497D+03 --> plasma_hash("gframe"): TA= 5.738682E-01 NSTEP= 2804 Hash code: 121423812 ->PRGCHK: bdy curvature ratio at t= 5.7569E-01 seconds is: 5.3480E-02 % MHDEQ: TG1= 0.573868 ; TG2= 0.575686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.331E-06 FluxDiff MaxDT: 6.576E-02 Avg. GS error: 1.318E-02 Plasma Current: 9.000E+05, target: 9.000E+05, error: 0.001% Edge Q: 10.486, target: 10.775, error: 2.683% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4543E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9094E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.573868 TO TG2= 0.575686 @ NSTEP 2804 GFRAME TG2 MOMENTS CHECKSUM: 3.7339862504242D+03 --> plasma_hash("gframe"): TA= 5.756864E-01 NSTEP= 2805 Hash code: 77860259 ->PRGCHK: bdy curvature ratio at t= 5.7750E-01 seconds is: 5.4348E-02 % MHDEQ: TG1= 0.575686 ; TG2= 0.577505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.024E-06 FluxDiff MaxDT: 4.579E-02 Avg. GS error: 1.303E-02 Plasma Current: 8.992E+05, target: 8.991E+05, error: 0.001% Edge Q: 10.502, target: 10.800, error: 2.756% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3423E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9266E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.575686 TO TG2= 0.577505 @ NSTEP 2805 GFRAME TG2 MOMENTS CHECKSUM: 3.7345621001759D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= -1.65472E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 4.34257E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 3.60654E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.775045E-01 NSTEP= 2806 Hash code: 63841819 ->PRGCHK: bdy curvature ratio at t= 5.7932E-01 seconds is: 5.5237E-02 % MHDEQ: TG1= 0.577505 ; TG2= 0.579323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.508E-06 FluxDiff MaxDT: 3.180E-02 Avg. GS error: 1.289E-02 Plasma Current: 8.993E+05, target: 8.993E+05, error: 0.001% Edge Q: 10.506, target: 10.811, error: 2.820% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3780E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9194E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.577505 TO TG2= 0.579323 @ NSTEP 2806 GFRAME TG2 MOMENTS CHECKSUM: 3.7352742494954D+03 --> plasma_hash("gframe"): TA= 5.793227E-01 NSTEP= 2807 Hash code: 89867010 ->PRGCHK: bdy curvature ratio at t= 5.8114E-01 seconds is: 5.6109E-02 % MHDEQ: TG1= 0.579323 ; TG2= 0.581141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.122E-06 FluxDiff MaxDT: 2.590E-02 Avg. GS error: 1.275E-02 Plasma Current: 8.999E+05, target: 8.999E+05, error: 0.001% Edge Q: 10.504, target: 10.807, error: 2.804% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3839E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9044E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.579323 TO TG2= 0.581141 @ NSTEP 2807 GFRAME TG2 MOMENTS CHECKSUM: 3.7360453883402D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.580000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 5.80000000E+13 to 7.00000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 2.19000000E+00 to 1.17000000E+00 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 5.811409E-01 NSTEP= 2811 Hash code: 42557772 ->PRGCHK: bdy curvature ratio at t= 5.8296E-01 seconds is: 5.6512E-02 % MHDEQ: TG1= 0.581141 ; TG2= 0.582959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.212E-06 FluxDiff MaxDT: 2.770E-02 Avg. GS error: 1.276E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.002% Edge Q: 10.517, target: 10.801, error: 2.633% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4201E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9182E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.581141 TO TG2= 0.582959 @ NSTEP 2811 GFRAME TG2 MOMENTS CHECKSUM: 3.7366429474225D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2815 TA= 5.82936E-01 CPU TIME= 1.12452E-01 SECONDS. DT= 2.26825E-05 --> plasma_hash("gframe"): TA= 5.829591E-01 NSTEP= 2816 Hash code: 104794565 ->PRGCHK: bdy curvature ratio at t= 5.8478E-01 seconds is: 5.6472E-02 % MHDEQ: TG1= 0.582959 ; TG2= 0.584777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.569E-06 FluxDiff MaxDT: 2.978E-02 Avg. GS error: 1.302E-02 Plasma Current: 9.004E+05, target: 9.004E+05, error: 0.004% Edge Q: 10.539, target: 10.822, error: 2.611% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6104E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9392E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.582959 TO TG2= 0.584777 @ NSTEP 2816 GFRAME TG2 MOMENTS CHECKSUM: 3.7364586407681D+03 --> plasma_hash("gframe"): TA= 5.847773E-01 NSTEP= 2820 Hash code: 32568457 ->PRGCHK: bdy curvature ratio at t= 5.8660E-01 seconds is: 5.5856E-02 % MHDEQ: TG1= 0.584777 ; TG2= 0.586595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.595E-06 FluxDiff MaxDT: 9.434E-02 Avg. GS error: 1.339E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.006% Edge Q: 10.516, target: 10.846, error: 3.046% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6135E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3805E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.584777 TO TG2= 0.586595 @ NSTEP 2820 GFRAME TG2 MOMENTS CHECKSUM: 3.7353065124334D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2822 TA= 5.85729E-01 CPU TIME= 1.89005E-01 SECONDS. DT= 5.37053E-04 --> plasma_hash("gframe"): TA= 5.865954E-01 NSTEP= 2824 Hash code: 122670739 ->PRGCHK: bdy curvature ratio at t= 5.8841E-01 seconds is: 5.5272E-02 % MHDEQ: TG1= 0.586595 ; TG2= 0.588414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.606E-07 FluxDiff MaxDT: 5.271E-02 Avg. GS error: 1.364E-02 Plasma Current: 8.998E+05, target: 8.997E+05, error: 0.008% Edge Q: 10.466, target: 10.820, error: 3.277% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5719E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8983E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.586595 TO TG2= 0.588414 @ NSTEP 2824 GFRAME TG2 MOMENTS CHECKSUM: 3.7330299635007D+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= 1.69280E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.25143E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 1.84072E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.884136E-01 NSTEP= 2828 Hash code: 449983 ->PRGCHK: bdy curvature ratio at t= 5.9023E-01 seconds is: 5.4774E-02 % MHDEQ: TG1= 0.588414 ; TG2= 0.590232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.019E-06 FluxDiff MaxDT: 4.817E-02 Avg. GS error: 1.370E-02 Plasma Current: 8.990E+05, target: 8.990E+05, error: 0.005% Edge Q: 10.431, target: 10.754, error: 3.002% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5644E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1942E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.588414 TO TG2= 0.590232 @ NSTEP 2828 GFRAME TG2 MOMENTS CHECKSUM: 3.7312805680445D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2829 TA= 5.88975E-01 CPU TIME= 9.38700E-03 SECONDS. DT= 7.01717E-04 --> plasma_hash("gframe"): TA= 5.902318E-01 NSTEP= 2832 Hash code: 78638373 ->PRGCHK: bdy curvature ratio at t= 5.9205E-01 seconds is: 5.4670E-02 % MHDEQ: TG1= 0.590232 ; TG2= 0.592050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.186E-07 FluxDiff MaxDT: 9.896E-02 Avg. GS error: 1.364E-02 Plasma Current: 8.987E+05, target: 8.986E+05, error: 0.004% Edge Q: 10.413, target: 10.714, error: 2.807% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6820E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.2577E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.590232 TO TG2= 0.592050 @ NSTEP 2832 GFRAME TG2 MOMENTS CHECKSUM: 3.7298586850709D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2835 TA= 5.92050E-01 CPU TIME= 9.32900E-03 SECONDS. DT= 2.52570E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.43598277777801 %check_save_state: izleft hours = 77.4952777777778 --> plasma_hash("gframe"): TA= 5.920500E-01 NSTEP= 2835 Hash code: 66427838 ->PRGCHK: bdy curvature ratio at t= 5.9387E-01 seconds is: 5.4994E-02 % MHDEQ: TG1= 0.592050 ; TG2= 0.593868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.067E-06 FluxDiff MaxDT: 1.402E-01 Avg. GS error: 1.356E-02 Plasma Current: 8.986E+05, target: 8.986E+05, error: 0.004% Edge Q: 10.417, target: 10.679, error: 2.457% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5710E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.2768E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.592050 TO TG2= 0.593868 @ NSTEP 2835 GFRAME TG2 MOMENTS CHECKSUM: 3.7293952326058D+03 --> plasma_hash("gframe"): TA= 5.938682E-01 NSTEP= 2840 Hash code: 101477231 ->PRGCHK: bdy curvature ratio at t= 5.9569E-01 seconds is: 5.5794E-02 % MHDEQ: TG1= 0.593868 ; TG2= 0.595686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.074E-06 FluxDiff MaxDT: 1.298E-01 Avg. GS error: 1.357E-02 Plasma Current: 8.980E+05, target: 8.980E+05, error: 0.002% Edge Q: 10.444, target: 10.682, error: 2.236% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5237E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1904E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.593868 TO TG2= 0.595686 @ NSTEP 2840 GFRAME TG2 MOMENTS CHECKSUM: 3.7295959791704D+03 --> plasma_hash("gframe"): TA= 5.956864E-01 NSTEP= 2843 Hash code: 45194110 ->PRGCHK: bdy curvature ratio at t= 5.9750E-01 seconds is: 5.6635E-02 % MHDEQ: TG1= 0.595686 ; TG2= 0.597505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.846E-07 FluxDiff MaxDT: 8.167E-02 Avg. GS error: 1.364E-02 Plasma Current: 8.969E+05, target: 8.969E+05, error: 0.001% Edge Q: 10.466, target: 10.718, error: 2.344% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7697E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1482E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.595686 TO TG2= 0.597505 @ NSTEP 2843 GFRAME TG2 MOMENTS CHECKSUM: 3.7292794783827D+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= 1.41703E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.25204E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.17839E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.975045E-01 NSTEP= 2845 Hash code: 6438757 ->PRGCHK: bdy curvature ratio at t= 5.9932E-01 seconds is: 5.7406E-02 % MHDEQ: TG1= 0.597505 ; TG2= 0.599323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.051E-07 FluxDiff MaxDT: 1.254E-01 Avg. GS error: 1.370E-02 Plasma Current: 8.966E+05, target: 8.965E+05, error: 0.002% Edge Q: 10.495, target: 10.742, error: 2.300% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5165E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0959E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.597505 TO TG2= 0.599323 @ NSTEP 2845 GFRAME TG2 MOMENTS CHECKSUM: 3.7293411030730D+03 --> plasma_hash("gframe"): TA= 5.993227E-01 NSTEP= 2847 Hash code: 9825346 ->PRGCHK: bdy curvature ratio at t= 6.0114E-01 seconds is: 5.7686E-02 % MHDEQ: TG1= 0.599323 ; TG2= 0.601141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.114E-07 FluxDiff MaxDT: 5.989E-02 Avg. GS error: 1.374E-02 Plasma Current: 8.973E+05, target: 8.972E+05, error: 0.006% Edge Q: 10.522, target: 10.768, error: 2.279% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5275E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1563E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.599323 TO TG2= 0.601141 @ NSTEP 2847 GFRAME TG2 MOMENTS CHECKSUM: 3.7298428668573D+03 --> plasma_hash("gframe"): TA= 6.011409E-01 NSTEP= 2849 Hash code: 67153741 ->PRGCHK: bdy curvature ratio at t= 6.0296E-01 seconds is: 5.7304E-02 % MHDEQ: TG1= 0.601141 ; TG2= 0.602959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.143E-06 FluxDiff MaxDT: 6.932E-02 Avg. GS error: 1.365E-02 Plasma Current: 8.982E+05, target: 8.982E+05, error: 0.009% Edge Q: 10.529, target: 10.791, error: 2.435% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3834E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1393E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.601141 TO TG2= 0.602959 @ NSTEP 2849 GFRAME TG2 MOMENTS CHECKSUM: 3.7301264047688D+03 --> plasma_hash("gframe"): TA= 6.029591E-01 NSTEP= 2850 Hash code: 13584791 ->PRGCHK: bdy curvature ratio at t= 6.0478E-01 seconds is: 5.6352E-02 % MHDEQ: TG1= 0.602959 ; TG2= 0.604777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.051E-06 FluxDiff MaxDT: 1.311E-01 Avg. GS error: 1.349E-02 Plasma Current: 8.987E+05, target: 8.987E+05, error: 0.006% Edge Q: 10.511, target: 10.797, error: 2.651% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4830E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0586E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.602959 TO TG2= 0.604777 @ NSTEP 2850 GFRAME TG2 MOMENTS CHECKSUM: 3.7297838895233D+03 --> plasma_hash("gframe"): TA= 6.047773E-01 NSTEP= 2851 Hash code: 61859956 ->PRGCHK: bdy curvature ratio at t= 6.0660E-01 seconds is: 5.5432E-02 % MHDEQ: TG1= 0.604777 ; TG2= 0.606595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.220E-07 FluxDiff MaxDT: 1.301E-01 Avg. GS error: 1.332E-02 Plasma Current: 8.990E+05, target: 8.990E+05, error: 0.002% Edge Q: 10.483, target: 10.773, error: 2.696% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4224E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0365E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.604777 TO TG2= 0.606595 @ NSTEP 2851 GFRAME TG2 MOMENTS CHECKSUM: 3.7291287372027D+03 --> plasma_hash("gframe"): TA= 6.065954E-01 NSTEP= 2852 Hash code: 13141169 ->PRGCHK: bdy curvature ratio at t= 6.0841E-01 seconds is: 5.4631E-02 % MHDEQ: TG1= 0.606595 ; TG2= 0.608414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.941E-07 FluxDiff MaxDT: 7.189E-02 Avg. GS error: 1.319E-02 Plasma Current: 8.988E+05, target: 8.988E+05, error: 0.006% Edge Q: 10.447, target: 10.739, error: 2.719% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5992E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9925E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.606595 TO TG2= 0.608414 @ NSTEP 2852 GFRAME TG2 MOMENTS CHECKSUM: 3.7279853322285D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.42404E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.25909E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.18503E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.084136E-01 NSTEP= 2853 Hash code: 121722921 ->PRGCHK: bdy curvature ratio at t= 6.1023E-01 seconds is: 5.4145E-02 % MHDEQ: TG1= 0.608414 ; TG2= 0.610232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.173E-07 FluxDiff MaxDT: 4.565E-02 Avg. GS error: 1.308E-02 Plasma Current: 8.979E+05, target: 8.981E+05, error: 0.017% Edge Q: 10.407, target: 10.697, error: 2.714% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6532E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9872E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.608414 TO TG2= 0.610232 @ NSTEP 2853 GFRAME TG2 MOMENTS CHECKSUM: 3.7261587466370D+03 --> plasma_hash("gframe"): TA= 6.102318E-01 NSTEP= 2854 Hash code: 97854382 ->PRGCHK: bdy curvature ratio at t= 6.1205E-01 seconds is: 5.4102E-02 % MHDEQ: TG1= 0.610232 ; TG2= 0.612050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.785E-07 FluxDiff MaxDT: 4.300E-02 Avg. GS error: 1.300E-02 Plasma Current: 8.968E+05, target: 8.970E+05, error: 0.027% Edge Q: 10.370, target: 10.652, error: 2.646% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6841E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0240E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.610232 TO TG2= 0.612050 @ NSTEP 2854 GFRAME TG2 MOMENTS CHECKSUM: 3.7240378654919D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2855 TA= 6.12050E-01 CPU TIME= 9.16800E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.44628250000051 %check_save_state: izleft hours = 77.4850000000000 --> plasma_hash("gframe"): TA= 6.120500E-01 NSTEP= 2855 Hash code: 44439155 ->PRGCHK: bdy curvature ratio at t= 6.1387E-01 seconds is: 5.4378E-02 % MHDEQ: TG1= 0.612050 ; TG2= 0.613868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.348E-07 FluxDiff MaxDT: 1.299E-01 Avg. GS error: 1.292E-02 Plasma Current: 8.969E+05, target: 8.971E+05, error: 0.030% Edge Q: 10.344, target: 10.609, error: 2.504% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4917E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0467E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.612050 TO TG2= 0.613868 @ NSTEP 2855 GFRAME TG2 MOMENTS CHECKSUM: 3.7225069534408D+03 --> plasma_hash("gframe"): TA= 6.138682E-01 NSTEP= 2856 Hash code: 2868826 ->PRGCHK: bdy curvature ratio at t= 6.1569E-01 seconds is: 5.4656E-02 % MHDEQ: TG1= 0.613868 ; TG2= 0.615686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.067E-06 FluxDiff MaxDT: 7.254E-02 Avg. GS error: 1.283E-02 Plasma Current: 8.975E+05, target: 8.978E+05, error: 0.031% Edge Q: 10.321, target: 10.568, error: 2.338% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5367E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0654E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.613868 TO TG2= 0.615686 @ NSTEP 2856 GFRAME TG2 MOMENTS CHECKSUM: 3.7207634839273D+03 --> plasma_hash("gframe"): TA= 6.156864E-01 NSTEP= 2857 Hash code: 82871859 ->PRGCHK: bdy curvature ratio at t= 6.1750E-01 seconds is: 5.4850E-02 % MHDEQ: TG1= 0.615686 ; TG2= 0.617505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.363E-06 FluxDiff MaxDT: 7.298E-02 Avg. GS error: 1.275E-02 Plasma Current: 8.977E+05, target: 8.980E+05, error: 0.033% Edge Q: 10.298, target: 10.540, error: 2.299% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5137E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0935E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.615686 TO TG2= 0.617505 @ NSTEP 2857 GFRAME TG2 MOMENTS CHECKSUM: 3.7193340539380D+03 --> plasma_hash("gframe"): TA= 6.175045E-01 NSTEP= 2858 Hash code: 104561156 ->PRGCHK: bdy curvature ratio at t= 6.1932E-01 seconds is: 5.4817E-02 % MHDEQ: TG1= 0.617505 ; TG2= 0.619323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.170E-06 FluxDiff MaxDT: 1.086E-01 Avg. GS error: 1.268E-02 Plasma Current: 8.969E+05, target: 8.972E+05, error: 0.035% Edge Q: 10.277, target: 10.516, error: 2.272% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5337E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1688E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.617505 TO TG2= 0.619323 @ NSTEP 2858 GFRAME TG2 MOMENTS CHECKSUM: 3.7184364538047D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.10050E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.17907E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.47384E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.193227E-01 NSTEP= 2859 Hash code: 33471090 ->PRGCHK: bdy curvature ratio at t= 6.2114E-01 seconds is: 5.4396E-02 % MHDEQ: TG1= 0.619323 ; TG2= 0.621141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.761E-07 FluxDiff MaxDT: 9.608E-02 Avg. GS error: 1.262E-02 Plasma Current: 8.962E+05, target: 8.966E+05, error: 0.035% Edge Q: 10.272, target: 10.496, error: 2.134% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3787E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.2488E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.619323 TO TG2= 0.621141 @ NSTEP 2859 GFRAME TG2 MOMENTS CHECKSUM: 3.7195336464468D+03 --> plasma_hash("gframe"): TA= 6.211409E-01 NSTEP= 2860 Hash code: 91528030 ->PRGCHK: bdy curvature ratio at t= 6.2296E-01 seconds is: 5.3760E-02 % MHDEQ: TG1= 0.621141 ; TG2= 0.622959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.449E-06 FluxDiff MaxDT: 3.875E-02 Avg. GS error: 1.256E-02 Plasma Current: 8.961E+05, target: 8.964E+05, error: 0.033% Edge Q: 10.278, target: 10.486, error: 1.978% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3859E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.3044E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.621141 TO TG2= 0.622959 @ NSTEP 2860 GFRAME TG2 MOMENTS CHECKSUM: 3.7220756634781D+03 --> plasma_hash("gframe"): TA= 6.229591E-01 NSTEP= 2861 Hash code: 101261566 ->PRGCHK: bdy curvature ratio at t= 6.2478E-01 seconds is: 5.3142E-02 % MHDEQ: TG1= 0.622959 ; TG2= 0.624777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.847E-06 FluxDiff MaxDT: 4.098E-02 Avg. GS error: 1.249E-02 Plasma Current: 8.958E+05, target: 8.960E+05, error: 0.031% Edge Q: 10.283, target: 10.488, error: 1.957% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2892E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.3630E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.622959 TO TG2= 0.624777 @ NSTEP 2861 GFRAME TG2 MOMENTS CHECKSUM: 3.7243423994919D+03 --> plasma_hash("gframe"): TA= 6.247773E-01 NSTEP= 2862 Hash code: 68925915 ->PRGCHK: bdy curvature ratio at t= 6.2660E-01 seconds is: 5.2612E-02 % MHDEQ: TG1= 0.624777 ; TG2= 0.626595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.728E-06 FluxDiff MaxDT: 9.719E-02 Avg. GS error: 1.248E-02 Plasma Current: 8.947E+05, target: 8.950E+05, error: 0.029% Edge Q: 10.286, target: 10.492, error: 1.972% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4801E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.4672E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.624777 TO TG2= 0.626595 @ NSTEP 2862 GFRAME TG2 MOMENTS CHECKSUM: 3.7261098223895D+03 --> plasma_hash("gframe"): TA= 6.265954E-01 NSTEP= 2863 Hash code: 94817743 ->PRGCHK: bdy curvature ratio at t= 6.2841E-01 seconds is: 5.2236E-02 % MHDEQ: TG1= 0.626595 ; TG2= 0.628414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.190E-06 FluxDiff MaxDT: 1.071E-01 Avg. GS error: 1.253E-02 Plasma Current: 8.937E+05, target: 8.940E+05, error: 0.028% Edge Q: 10.289, target: 10.500, error: 2.011% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4770E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.5388E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.626595 TO TG2= 0.628414 @ NSTEP 2863 GFRAME TG2 MOMENTS CHECKSUM: 3.7271732426230D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 2.09572E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.17650E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.47063E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.284136E-01 NSTEP= 2864 Hash code: 115044779 ->PRGCHK: bdy curvature ratio at t= 6.3023E-01 seconds is: 5.2154E-02 % MHDEQ: TG1= 0.628414 ; TG2= 0.630232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.231E-06 FluxDiff MaxDT: 6.056E-02 Avg. GS error: 1.262E-02 Plasma Current: 8.934E+05, target: 8.936E+05, error: 0.028% Edge Q: 10.296, target: 10.502, error: 1.959% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3860E+00 SECONDS DATA R*BT AT EDGE: 5.8960E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.4951E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.628414 TO TG2= 0.630232 @ NSTEP 2864 GFRAME TG2 MOMENTS CHECKSUM: 3.7272371915188D+03 --> plasma_hash("gframe"): TA= 6.302318E-01 NSTEP= 2865 Hash code: 37215941 ->PRGCHK: bdy curvature ratio at t= 6.3205E-01 seconds is: 5.2221E-02 % MHDEQ: TG1= 0.630232 ; TG2= 0.632050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.563E-06 FluxDiff MaxDT: 3.550E-02 Avg. GS error: 1.271E-02 Plasma Current: 8.936E+05, target: 8.939E+05, error: 0.029% Edge Q: 10.310, target: 10.509, error: 1.902% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3819E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.3720E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.630232 TO TG2= 0.632050 @ NSTEP 2865 GFRAME TG2 MOMENTS CHECKSUM: 3.7270181067371D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2866 TA= 6.32050E-01 CPU TIME= 9.20100E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.45534222222273 %check_save_state: izleft hours = 77.4758333333333 --> plasma_hash("gframe"): TA= 6.320500E-01 NSTEP= 2866 Hash code: 6441001 ->PRGCHK: bdy curvature ratio at t= 6.3387E-01 seconds is: 5.2300E-02 % MHDEQ: TG1= 0.632050 ; TG2= 0.633868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.023E-06 FluxDiff MaxDT: 3.529E-02 Avg. GS error: 1.279E-02 Plasma Current: 8.936E+05, target: 8.939E+05, error: 0.031% Edge Q: 10.325, target: 10.523, error: 1.882% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3233E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.2716E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.632050 TO TG2= 0.633868 @ NSTEP 2866 GFRAME TG2 MOMENTS CHECKSUM: 3.7267347699594D+03 --> plasma_hash("gframe"): TA= 6.338682E-01 NSTEP= 2867 Hash code: 51961089 ->PRGCHK: bdy curvature ratio at t= 6.3569E-01 seconds is: 5.2364E-02 % MHDEQ: TG1= 0.633868 ; TG2= 0.635686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.650E-06 FluxDiff MaxDT: 4.549E-02 Avg. GS error: 1.300E-02 Plasma Current: 8.931E+05, target: 8.934E+05, error: 0.034% Edge Q: 10.352, target: 10.543, error: 1.815% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5296E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1580E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.633868 TO TG2= 0.635686 @ NSTEP 2867 GFRAME TG2 MOMENTS CHECKSUM: 3.7273300330790D+03 --> plasma_hash("gframe"): TA= 6.356864E-01 NSTEP= 2868 Hash code: 2247127 ->PRGCHK: bdy curvature ratio at t= 6.3750E-01 seconds is: 5.2388E-02 % MHDEQ: TG1= 0.635686 ; TG2= 0.637505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.200E-06 FluxDiff MaxDT: 4.113E-02 Avg. GS error: 1.325E-02 Plasma Current: 8.927E+05, target: 8.930E+05, error: 0.034% Edge Q: 10.385, target: 10.582, error: 1.865% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3235E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0550E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.635686 TO TG2= 0.637505 @ NSTEP 2868 GFRAME TG2 MOMENTS CHECKSUM: 3.7283081983480D+03 --> plasma_hash("gframe"): TA= 6.375045E-01 NSTEP= 2869 Hash code: 59494372 ->PRGCHK: bdy curvature ratio at t= 6.3932E-01 seconds is: 5.2303E-02 % MHDEQ: TG1= 0.637505 ; TG2= 0.639323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.408E-06 FluxDiff MaxDT: 2.595E-02 Avg. GS error: 1.358E-02 Plasma Current: 8.931E+05, target: 8.934E+05, error: 0.031% Edge Q: 10.426, target: 10.619, error: 1.814% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3823E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9442E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.637505 TO TG2= 0.639323 @ NSTEP 2869 GFRAME TG2 MOMENTS CHECKSUM: 3.7308488541178D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -6.01611E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -3.37489E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -2.64122E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.393227E-01 NSTEP= 2870 Hash code: 11377908 ->PRGCHK: bdy curvature ratio at t= 6.4114E-01 seconds is: 5.2181E-02 % MHDEQ: TG1= 0.639323 ; TG2= 0.641141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.863E-06 FluxDiff MaxDT: 2.054E-02 Avg. GS error: 1.393E-02 Plasma Current: 8.941E+05, target: 8.943E+05, error: 0.026% Edge Q: 10.472, target: 10.664, error: 1.795% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4502E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8214E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.639323 TO TG2= 0.641141 @ NSTEP 2870 GFRAME TG2 MOMENTS CHECKSUM: 3.7340160427936D+03 --> plasma_hash("gframe"): TA= 6.411409E-01 NSTEP= 2871 Hash code: 89386449 ->PRGCHK: bdy curvature ratio at t= 6.4296E-01 seconds is: 5.2064E-02 % MHDEQ: TG1= 0.641141 ; TG2= 0.642959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.294E-06 FluxDiff MaxDT: 2.428E-02 Avg. GS error: 1.422E-02 Plasma Current: 8.946E+05, target: 8.948E+05, error: 0.020% Edge Q: 10.515, target: 10.714, error: 1.853% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2884E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7356E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.641141 TO TG2= 0.642959 @ NSTEP 2871 GFRAME TG2 MOMENTS CHECKSUM: 3.7368925857627D+03 --> plasma_hash("gframe"): TA= 6.429591E-01 NSTEP= 2872 Hash code: 26926807 ->PRGCHK: bdy curvature ratio at t= 6.4478E-01 seconds is: 5.1971E-02 % MHDEQ: TG1= 0.642959 ; TG2= 0.644777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.918E-06 FluxDiff MaxDT: 4.291E-02 Avg. GS error: 1.463E-02 Plasma Current: 8.940E+05, target: 8.941E+05, error: 0.019% Edge Q: 10.559, target: 10.767, error: 1.933% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6240E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6780E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.642959 TO TG2= 0.644777 @ NSTEP 2872 GFRAME TG2 MOMENTS CHECKSUM: 3.7390580248047D+03 --> plasma_hash("gframe"): TA= 6.447773E-01 NSTEP= 2873 Hash code: 96651382 ->PRGCHK: bdy curvature ratio at t= 6.4660E-01 seconds is: 5.1906E-02 % MHDEQ: TG1= 0.644777 ; TG2= 0.646595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.234E-06 FluxDiff MaxDT: 6.153E-02 Avg. GS error: 1.473E-02 Plasma Current: 8.930E+05, target: 8.932E+05, error: 0.018% Edge Q: 10.599, target: 10.825, error: 2.088% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5233E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6114E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.644777 TO TG2= 0.646595 @ NSTEP 2873 GFRAME TG2 MOMENTS CHECKSUM: 3.7406575961683D+03 --> plasma_hash("gframe"): TA= 6.465954E-01 NSTEP= 2874 Hash code: 112917355 ->PRGCHK: bdy curvature ratio at t= 6.4841E-01 seconds is: 5.1916E-02 % MHDEQ: TG1= 0.646595 ; TG2= 0.648414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.210E-06 FluxDiff MaxDT: 3.741E-02 Avg. GS error: 1.481E-02 Plasma Current: 8.926E+05, target: 8.927E+05, error: 0.015% Edge Q: 10.657, target: 10.872, error: 1.976% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4699E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5322E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.646595 TO TG2= 0.648414 @ NSTEP 2874 GFRAME TG2 MOMENTS CHECKSUM: 3.7419168182215D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -5.99457E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -3.36281E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -2.63176E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.484136E-01 NSTEP= 2875 Hash code: 104170903 ->PRGCHK: bdy curvature ratio at t= 6.5023E-01 seconds is: 5.1956E-02 % MHDEQ: TG1= 0.648414 ; TG2= 0.650232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.482E-06 FluxDiff MaxDT: 2.615E-02 Avg. GS error: 1.489E-02 Plasma Current: 8.928E+05, target: 8.928E+05, error: 0.008% Edge Q: 10.730, target: 10.937, error: 1.896% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3313E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4483E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.648414 TO TG2= 0.650232 @ NSTEP 2875 GFRAME TG2 MOMENTS CHECKSUM: 3.7435383125294D+03 --> plasma_hash("gframe"): TA= 6.502318E-01 NSTEP= 2876 Hash code: 7948221 ->PRGCHK: bdy curvature ratio at t= 6.5205E-01 seconds is: 5.2006E-02 % MHDEQ: TG1= 0.650232 ; TG2= 0.652050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.742E-06 FluxDiff MaxDT: 2.277E-02 Avg. GS error: 1.515E-02 Plasma Current: 8.931E+05, target: 8.932E+05, error: 0.002% Edge Q: 10.826, target: 11.025, error: 1.804% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4590E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1198E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.650232 TO TG2= 0.652050 @ NSTEP 2876 GFRAME TG2 MOMENTS CHECKSUM: 3.7455781234953D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2877 TA= 6.52050E-01 CPU TIME= 9.18700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.46536500000025 %check_save_state: izleft hours = 77.4658333333333 --> plasma_hash("gframe"): TA= 6.520500E-01 NSTEP= 2877 Hash code: 2537254 ->PRGCHK: bdy curvature ratio at t= 6.5387E-01 seconds is: 5.2109E-02 % MHDEQ: TG1= 0.652050 ; TG2= 0.653868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.743E-06 FluxDiff MaxDT: 6.921E-02 Avg. GS error: 1.510E-02 Plasma Current: 8.939E+05, target: 8.939E+05, error: 0.001% Edge Q: 10.799, target: 11.149, error: 3.139% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7167E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0781E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.652050 TO TG2= 0.653868 @ NSTEP 2877 GFRAME TG2 MOMENTS CHECKSUM: 3.7456812956035D+03 --> plasma_hash("gframe"): TA= 6.538682E-01 NSTEP= 2878 Hash code: 65037769 ->PRGCHK: bdy curvature ratio at t= 6.5569E-01 seconds is: 5.2262E-02 % MHDEQ: TG1= 0.653868 ; TG2= 0.655686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.608E-06 FluxDiff MaxDT: 3.949E-02 Avg. GS error: 1.503E-02 Plasma Current: 8.947E+05, target: 8.947E+05, error: 0.001% Edge Q: 10.767, target: 11.104, error: 3.037% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4534E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0629E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.653868 TO TG2= 0.655686 @ NSTEP 2878 GFRAME TG2 MOMENTS CHECKSUM: 3.7451615600755D+03 --> plasma_hash("gframe"): TA= 6.556864E-01 NSTEP= 2879 Hash code: 10821909 ->PRGCHK: bdy curvature ratio at t= 6.5750E-01 seconds is: 5.2564E-02 % MHDEQ: TG1= 0.655686 ; TG2= 0.657505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.074E-06 FluxDiff MaxDT: 4.930E-02 Avg. GS error: 1.526E-02 Plasma Current: 8.953E+05, target: 8.953E+05, error: 0.001% Edge Q: 10.764, target: 11.068, error: 2.748% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4151E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0740E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.655686 TO TG2= 0.657505 @ NSTEP 2879 GFRAME TG2 MOMENTS CHECKSUM: 3.7457752565213D+03 --> plasma_hash("gframe"): TA= 6.575045E-01 NSTEP= 2880 Hash code: 109415382 ->PRGCHK: bdy curvature ratio at t= 6.5932E-01 seconds is: 5.2908E-02 % MHDEQ: TG1= 0.657505 ; TG2= 0.659323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.229E-06 FluxDiff MaxDT: 5.662E-02 Avg. GS error: 1.530E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.002% Edge Q: 10.775, target: 11.073, error: 2.696% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4198E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0646E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.657505 TO TG2= 0.659323 @ NSTEP 2880 GFRAME TG2 MOMENTS CHECKSUM: 3.7465308685983D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -3.65881E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.90258E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.75623E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.593227E-01 NSTEP= 2881 Hash code: 98773247 ->PRGCHK: bdy curvature ratio at t= 6.6114E-01 seconds is: 5.3263E-02 % MHDEQ: TG1= 0.659323 ; TG2= 0.661141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.024E-06 FluxDiff MaxDT: 5.960E-02 Avg. GS error: 1.541E-02 Plasma Current: 8.958E+05, target: 8.958E+05, error: 0.001% Edge Q: 10.778, target: 11.091, error: 2.816% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5476E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0245E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.659323 TO TG2= 0.661141 @ NSTEP 2881 GFRAME TG2 MOMENTS CHECKSUM: 3.7473291656684D+03 --> plasma_hash("gframe"): TA= 6.611409E-01 NSTEP= 2882 Hash code: 57373852 ->PRGCHK: bdy curvature ratio at t= 6.6296E-01 seconds is: 5.3586E-02 % MHDEQ: TG1= 0.661141 ; TG2= 0.662959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.286E-06 FluxDiff MaxDT: 5.197E-02 Avg. GS error: 1.552E-02 Plasma Current: 8.967E+05, target: 8.968E+05, error: 0.002% Edge Q: 10.769, target: 11.094, error: 2.927% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5882E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9718E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.661141 TO TG2= 0.662959 @ NSTEP 2882 GFRAME TG2 MOMENTS CHECKSUM: 3.7480190368379D+03 --> plasma_hash("gframe"): TA= 6.629591E-01 NSTEP= 2883 Hash code: 105270048 ->PRGCHK: bdy curvature ratio at t= 6.6478E-01 seconds is: 5.3875E-02 % MHDEQ: TG1= 0.662959 ; TG2= 0.664777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.825E-06 FluxDiff MaxDT: 5.638E-02 Avg. GS error: 1.562E-02 Plasma Current: 8.975E+05, target: 8.975E+05, error: 0.006% Edge Q: 10.760, target: 11.084, error: 2.918% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5731E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9378E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.662959 TO TG2= 0.664777 @ NSTEP 2883 GFRAME TG2 MOMENTS CHECKSUM: 3.7485305683733D+03 --> plasma_hash("gframe"): TA= 6.647773E-01 NSTEP= 2884 Hash code: 111231567 ->PRGCHK: bdy curvature ratio at t= 6.6660E-01 seconds is: 5.4015E-02 % MHDEQ: TG1= 0.664777 ; TG2= 0.666595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.734E-06 FluxDiff MaxDT: 6.936E-02 Avg. GS error: 1.569E-02 Plasma Current: 8.973E+05, target: 8.974E+05, error: 0.009% Edge Q: 10.753, target: 11.079, error: 2.941% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2499E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9167E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.664777 TO TG2= 0.666595 @ NSTEP 2884 GFRAME TG2 MOMENTS CHECKSUM: 3.7483046186598D+03 --> plasma_hash("gframe"): TA= 6.665954E-01 NSTEP= 2885 Hash code: 3196314 ->PRGCHK: bdy curvature ratio at t= 6.6841E-01 seconds is: 5.4134E-02 % MHDEQ: TG1= 0.666595 ; TG2= 0.668414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.083E-06 FluxDiff MaxDT: 7.048E-02 Avg. GS error: 1.572E-02 Plasma Current: 8.969E+05, target: 8.970E+05, error: 0.011% Edge Q: 10.748, target: 11.076, error: 2.962% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2771E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9104E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.666595 TO TG2= 0.668414 @ NSTEP 2885 GFRAME TG2 MOMENTS CHECKSUM: 3.7477960225521D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -3.64270E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.89420E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.74850E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.684136E-01 NSTEP= 2886 Hash code: 93879904 ->PRGCHK: bdy curvature ratio at t= 6.7023E-01 seconds is: 5.4254E-02 % MHDEQ: TG1= 0.668414 ; TG2= 0.670232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.143E-06 FluxDiff MaxDT: 7.131E-02 Avg. GS error: 1.574E-02 Plasma Current: 8.972E+05, target: 8.973E+05, error: 0.015% Edge Q: 10.735, target: 11.072, error: 3.043% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4530E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8920E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.668414 TO TG2= 0.670232 @ NSTEP 2886 GFRAME TG2 MOMENTS CHECKSUM: 3.7475727683442D+03 --> plasma_hash("gframe"): TA= 6.702318E-01 NSTEP= 2887 Hash code: 28618887 ->PRGCHK: bdy curvature ratio at t= 6.7205E-01 seconds is: 5.4212E-02 % MHDEQ: TG1= 0.670232 ; TG2= 0.672050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.616E-06 FluxDiff MaxDT: 6.511E-02 Avg. GS error: 1.583E-02 Plasma Current: 8.979E+05, target: 8.981E+05, error: 0.020% Edge Q: 10.718, target: 11.056, error: 3.058% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5907E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8971E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.670232 TO TG2= 0.672050 @ NSTEP 2887 GFRAME TG2 MOMENTS CHECKSUM: 3.7467197334551D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2888 TA= 6.72050E-01 CPU TIME= 9.20700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.47539222222258 %check_save_state: izleft hours = 77.4558333333333 --> plasma_hash("gframe"): TA= 6.720500E-01 NSTEP= 2888 Hash code: 78299318 ->PRGCHK: bdy curvature ratio at t= 6.7387E-01 seconds is: 5.4054E-02 % MHDEQ: TG1= 0.672050 ; TG2= 0.673868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.359E-06 FluxDiff MaxDT: 8.554E-02 Avg. GS error: 1.590E-02 Plasma Current: 8.983E+05, target: 8.985E+05, error: 0.022% Edge Q: 10.709, target: 11.040, error: 2.999% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5953E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9035E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.672050 TO TG2= 0.673868 @ NSTEP 2888 GFRAME TG2 MOMENTS CHECKSUM: 3.7454796753399D+03 --> plasma_hash("gframe"): TA= 6.738682E-01 NSTEP= 2889 Hash code: 46074787 ->PRGCHK: bdy curvature ratio at t= 6.7569E-01 seconds is: 5.3392E-02 % MHDEQ: TG1= 0.673868 ; TG2= 0.675686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.424E-06 FluxDiff MaxDT: 1.038E-01 Avg. GS error: 1.578E-02 Plasma Current: 8.980E+05, target: 8.981E+05, error: 0.015% Edge Q: 10.727, target: 11.037, error: 2.811% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6172E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9622E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.673868 TO TG2= 0.675686 @ NSTEP 2889 GFRAME TG2 MOMENTS CHECKSUM: 3.7429736575398D+03 --> plasma_hash("gframe"): TA= 6.756864E-01 NSTEP= 2890 Hash code: 52235737 ->PRGCHK: bdy curvature ratio at t= 6.7750E-01 seconds is: 5.2710E-02 % MHDEQ: TG1= 0.675686 ; TG2= 0.677505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.719E-07 FluxDiff MaxDT: 1.029E-01 Avg. GS error: 1.511E-02 Plasma Current: 8.977E+05, target: 8.978E+05, error: 0.007% Edge Q: 10.745, target: 11.067, error: 2.912% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5522E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0007E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.675686 TO TG2= 0.677505 @ NSTEP 2890 GFRAME TG2 MOMENTS CHECKSUM: 3.7401382974669D+03 --> plasma_hash("gframe"): TA= 6.775045E-01 NSTEP= 2891 Hash code: 122582096 ->PRGCHK: bdy curvature ratio at t= 6.7932E-01 seconds is: 5.2046E-02 % MHDEQ: TG1= 0.677505 ; TG2= 0.679323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.682E-07 FluxDiff MaxDT: 1.013E-01 Avg. GS error: 1.473E-02 Plasma Current: 8.975E+05, target: 8.975E+05, error: 0.003% Edge Q: 10.760, target: 11.073, error: 2.822% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6528E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0381E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.677505 TO TG2= 0.679323 @ NSTEP 2891 GFRAME TG2 MOMENTS CHECKSUM: 3.7372899496285D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.97897E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -6.96548E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -6.07627E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.793227E-01 NSTEP= 2892 Hash code: 75562051 ->PRGCHK: bdy curvature ratio at t= 6.8114E-01 seconds is: 5.1554E-02 % MHDEQ: TG1= 0.679323 ; TG2= 0.681141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.028E-07 FluxDiff MaxDT: 9.924E-02 Avg. GS error: 1.467E-02 Plasma Current: 8.974E+05, target: 8.973E+05, error: 0.010% Edge Q: 10.773, target: 11.087, error: 2.834% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5585E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0617E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.679323 TO TG2= 0.681141 @ NSTEP 2892 GFRAME TG2 MOMENTS CHECKSUM: 3.7352189730594D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.680000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 7.00000000E+13 to 7.80000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 1.17000000E+00 to 1.43000000E+00 namelist update changed APROF_COEFFS_NER( 2) from 2.00000000E+00 to 1.00000000E+00 namelist update changed APROF_COEFFS_NER( 3) from 3.00000000E+00 to 2.00000000E+01 namelist update changed APROF_EDGE_VALUE_NER from 2.50000000E+13 to 2.60000000E+13 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 6.811409E-01 NSTEP= 2895 Hash code: 62727141 ->PRGCHK: bdy curvature ratio at t= 6.8296E-01 seconds is: 5.1164E-02 % MHDEQ: TG1= 0.681141 ; TG2= 0.682959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.639E-07 FluxDiff MaxDT: 4.919E-02 Avg. GS error: 1.468E-02 Plasma Current: 8.968E+05, target: 8.966E+05, error: 0.016% Edge Q: 10.754, target: 11.095, error: 3.080% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8294E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3555E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.681141 TO TG2= 0.682959 @ NSTEP 2895 GFRAME TG2 MOMENTS CHECKSUM: 3.7328443214404D+03 --> plasma_hash("gframe"): TA= 6.829591E-01 NSTEP= 2898 Hash code: 35866047 ->PRGCHK: bdy curvature ratio at t= 6.8478E-01 seconds is: 5.1251E-02 % MHDEQ: TG1= 0.682959 ; TG2= 0.684777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.471E-07 FluxDiff MaxDT: 6.226E-02 Avg. GS error: 1.468E-02 Plasma Current: 8.958E+05, target: 8.956E+05, error: 0.017% Edge Q: 10.732, target: 11.069, error: 3.042% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6302E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5614E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.682959 TO TG2= 0.684777 @ NSTEP 2898 GFRAME TG2 MOMENTS CHECKSUM: 3.7321761571629D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2900 TA= 6.84345E-01 CPU TIME= 9.31500E-03 SECONDS. DT= 4.32631E-04 --> plasma_hash("gframe"): TA= 6.847773E-01 NSTEP= 2901 Hash code: 117676857 ->PRGCHK: bdy curvature ratio at t= 6.8660E-01 seconds is: 5.1350E-02 % MHDEQ: TG1= 0.684777 ; TG2= 0.686595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.032E-07 FluxDiff MaxDT: 4.455E-02 Avg. GS error: 1.457E-02 Plasma Current: 8.948E+05, target: 8.947E+05, error: 0.013% Edge Q: 10.690, target: 11.029, error: 3.081% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8279E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8702E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.684777 TO TG2= 0.686595 @ NSTEP 2901 GFRAME TG2 MOMENTS CHECKSUM: 3.7313303130494D+03 --> plasma_hash("gframe"): TA= 6.865954E-01 NSTEP= 2904 Hash code: 122848968 ->PRGCHK: bdy curvature ratio at t= 6.8841E-01 seconds is: 5.1451E-02 % MHDEQ: TG1= 0.686595 ; TG2= 0.688414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.664E-07 FluxDiff MaxDT: 6.616E-02 Avg. GS error: 1.448E-02 Plasma Current: 8.945E+05, target: 8.944E+05, error: 0.005% Edge Q: 10.646, target: 10.979, error: 3.037% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7544E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9830E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.686595 TO TG2= 0.688414 @ NSTEP 2904 GFRAME TG2 MOMENTS CHECKSUM: 3.7305261431613D+03 --> plasma_hash("gframe"): TA= 6.884136E-01 NSTEP= 2907 Hash code: 96298087 ->PRGCHK: bdy curvature ratio at t= 6.9023E-01 seconds is: 5.1512E-02 % MHDEQ: TG1= 0.688414 ; TG2= 0.690232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.863E-07 FluxDiff MaxDT: 9.341E-02 Avg. GS error: 1.440E-02 Plasma Current: 8.945E+05, target: 8.945E+05, error: 0.004% Edge Q: 10.612, target: 10.915, error: 2.777% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7138E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8073E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.688414 TO TG2= 0.690232 @ NSTEP 2907 GFRAME TG2 MOMENTS CHECKSUM: 3.7310335171945D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.02881E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.50821E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -2.36067E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2908 TA= 6.89157E-01 CPU TIME= 9.26900E-03 SECONDS. DT= 9.28656E-04 --> plasma_hash("gframe"): TA= 6.902318E-01 NSTEP= 2910 Hash code: 102196117 ->PRGCHK: bdy curvature ratio at t= 6.9205E-01 seconds is: 5.1554E-02 % MHDEQ: TG1= 0.690232 ; TG2= 0.692050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.734E-07 FluxDiff MaxDT: 9.357E-02 Avg. GS error: 1.434E-02 Plasma Current: 8.947E+05, target: 8.948E+05, error: 0.011% Edge Q: 10.579, target: 10.876, error: 2.732% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6797E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7518E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.690232 TO TG2= 0.692050 @ NSTEP 2910 GFRAME TG2 MOMENTS CHECKSUM: 3.7317684926570D+03 %fi_finish: enter %fimain: eflux cpu time = 6.000002031214535E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2912 TA= 6.92050E-01 CPU TIME= 9.14500E-03 SECONDS. DT= 8.21703E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.48810527777823 %check_save_state: izleft hours = 77.4430555555556 --> plasma_hash("gframe"): TA= 6.920500E-01 NSTEP= 2912 Hash code: 67676281 ->PRGCHK: bdy curvature ratio at t= 6.9387E-01 seconds is: 5.1514E-02 % MHDEQ: TG1= 0.692050 ; TG2= 0.693868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.136E-06 FluxDiff MaxDT: 9.245E-02 Avg. GS error: 1.435E-02 Plasma Current: 8.944E+05, target: 8.945E+05, error: 0.016% Edge Q: 10.573, target: 10.831, error: 2.380% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5576E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7338E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.692050 TO TG2= 0.693868 @ NSTEP 2912 GFRAME TG2 MOMENTS CHECKSUM: 3.7345974667778D+03 %check_save_state: nbflag = F %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.48912750000045 %check_save_state: izleft hours = 77.4419444444444 %wrstf: start call wrstf. %wrstf: open new restart file:204112B61RS.DAT %wrstf: open204112B61RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B61_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 6.9287170E-01 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 4.470E+03 MB. --> plasma_hash("gframe"): TA= 6.938682E-01 NSTEP= 2914 Hash code: 28950531 ->PRGCHK: bdy curvature ratio at t= 6.9569E-01 seconds is: 5.1512E-02 % MHDEQ: TG1= 0.693868 ; TG2= 0.695686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.936E-07 FluxDiff MaxDT: 6.870E-02 Avg. GS error: 1.437E-02 Plasma Current: 8.940E+05, target: 8.942E+05, error: 0.015% Edge Q: 10.608, target: 10.830, error: 2.057% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6180E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7017E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.693868 TO TG2= 0.695686 @ NSTEP 2914 GFRAME TG2 MOMENTS CHECKSUM: 3.7377857558949D+03 --> plasma_hash("gframe"): TA= 6.956864E-01 NSTEP= 2916 Hash code: 8703137 ->PRGCHK: bdy curvature ratio at t= 6.9750E-01 seconds is: 5.1551E-02 % MHDEQ: TG1= 0.695686 ; TG2= 0.697505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.437E-07 FluxDiff MaxDT: 6.543E-02 Avg. GS error: 1.455E-02 Plasma Current: 8.934E+05, target: 8.935E+05, error: 0.015% Edge Q: 10.646, target: 10.869, error: 2.044% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4757E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6733E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.695686 TO TG2= 0.697505 @ NSTEP 2916 GFRAME TG2 MOMENTS CHECKSUM: 3.7410013988984D+03 --> plasma_hash("gframe"): TA= 6.975045E-01 NSTEP= 2918 Hash code: 1709260 ->PRGCHK: bdy curvature ratio at t= 6.9932E-01 seconds is: 5.1595E-02 % MHDEQ: TG1= 0.697505 ; TG2= 0.699323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.386E-07 FluxDiff MaxDT: 4.582E-02 Avg. GS error: 1.493E-02 Plasma Current: 8.928E+05, target: 8.929E+05, error: 0.014% Edge Q: 10.696, target: 10.919, error: 2.045% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3968E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6155E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.697505 TO TG2= 0.699323 @ NSTEP 2918 GFRAME TG2 MOMENTS CHECKSUM: 3.7438115762149D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.54077E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.55386E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.55344E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.993227E-01 NSTEP= 2920 Hash code: 119406357 ->PRGCHK: bdy curvature ratio at t= 7.0114E-01 seconds is: 5.1636E-02 % MHDEQ: TG1= 0.699323 ; TG2= 0.701141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.930E-07 FluxDiff MaxDT: 4.094E-02 Avg. GS error: 1.533E-02 Plasma Current: 8.925E+05, target: 8.926E+05, error: 0.012% Edge Q: 10.754, target: 10.977, error: 2.034% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3598E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5442E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.699323 TO TG2= 0.701141 @ NSTEP 2920 GFRAME TG2 MOMENTS CHECKSUM: 3.7466047113098D+03 --> plasma_hash("gframe"): TA= 7.011409E-01 NSTEP= 2921 Hash code: 108002329 ->PRGCHK: bdy curvature ratio at t= 7.0296E-01 seconds is: 5.1587E-02 % MHDEQ: TG1= 0.701141 ; TG2= 0.702959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.622E-07 FluxDiff MaxDT: 3.034E-02 Avg. GS error: 1.571E-02 Plasma Current: 8.929E+05, target: 8.929E+05, error: 0.005% Edge Q: 10.833, target: 11.047, error: 1.938% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3955E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3999E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.701141 TO TG2= 0.702959 @ NSTEP 2921 GFRAME TG2 MOMENTS CHECKSUM: 3.7487691988570D+03 --> plasma_hash("gframe"): TA= 7.029591E-01 NSTEP= 2922 Hash code: 69705951 ->PRGCHK: bdy curvature ratio at t= 7.0478E-01 seconds is: 5.1540E-02 % MHDEQ: TG1= 0.702959 ; TG2= 0.704777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.466E-06 FluxDiff MaxDT: 2.607E-02 Avg. GS error: 1.612E-02 Plasma Current: 8.937E+05, target: 8.937E+05, error: 0.003% Edge Q: 10.919, target: 11.139, error: 1.969% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2940E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3206E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.702959 TO TG2= 0.704777 @ NSTEP 2922 GFRAME TG2 MOMENTS CHECKSUM: 3.7510991457924D+03 --> plasma_hash("gframe"): TA= 7.047773E-01 NSTEP= 2923 Hash code: 75094385 ->PRGCHK: bdy curvature ratio at t= 7.0660E-01 seconds is: 5.1494E-02 % MHDEQ: TG1= 0.704777 ; TG2= 0.706595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.668E-06 FluxDiff MaxDT: 6.570E-02 Avg. GS error: 1.651E-02 Plasma Current: 8.942E+05, target: 8.942E+05, error: 0.005% Edge Q: 10.944, target: 11.253, error: 2.747% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7064E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1426E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.704777 TO TG2= 0.706595 @ NSTEP 2923 GFRAME TG2 MOMENTS CHECKSUM: 3.7521656146812D+03 --> plasma_hash("gframe"): TA= 7.065954E-01 NSTEP= 2924 Hash code: 46285679 ->PRGCHK: bdy curvature ratio at t= 7.0841E-01 seconds is: 5.1429E-02 % MHDEQ: TG1= 0.706595 ; TG2= 0.708414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.729E-06 FluxDiff MaxDT: 1.120E-01 Avg. GS error: 1.654E-02 Plasma Current: 8.945E+05, target: 8.945E+05, error: 0.005% Edge Q: 10.920, target: 11.283, error: 3.215% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5754E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1262E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.706595 TO TG2= 0.708414 @ NSTEP 2924 GFRAME TG2 MOMENTS CHECKSUM: 3.7524269739750D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.53302E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.45414E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.45371E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.084136E-01 NSTEP= 2925 Hash code: 105987128 ->PRGCHK: bdy curvature ratio at t= 7.1023E-01 seconds is: 5.1356E-02 % MHDEQ: TG1= 0.708414 ; TG2= 0.710232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.642E-06 FluxDiff MaxDT: 1.114E-01 Avg. GS error: 1.657E-02 Plasma Current: 8.948E+05, target: 8.947E+05, error: 0.005% Edge Q: 10.899, target: 11.255, error: 3.166% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5479E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1141E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.708414 TO TG2= 0.710232 @ NSTEP 2925 GFRAME TG2 MOMENTS CHECKSUM: 3.7528285331314D+03 --> plasma_hash("gframe"): TA= 7.102318E-01 NSTEP= 2926 Hash code: 10529413 ->PRGCHK: bdy curvature ratio at t= 7.1205E-01 seconds is: 5.1248E-02 % MHDEQ: TG1= 0.710232 ; TG2= 0.712050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.824E-06 FluxDiff MaxDT: 9.156E-02 Avg. GS error: 1.654E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.006% Edge Q: 10.882, target: 11.231, error: 3.102% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4552E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1036E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.710232 TO TG2= 0.712050 @ NSTEP 2926 GFRAME TG2 MOMENTS CHECKSUM: 3.7537543536512D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2927 TA= 7.12050E-01 CPU TIME= 9.34800E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.50092055555569 %check_save_state: izleft hours = 77.4302777777778 --> plasma_hash("gframe"): TA= 7.120500E-01 NSTEP= 2927 Hash code: 48663962 ->PRGCHK: bdy curvature ratio at t= 7.1387E-01 seconds is: 5.1153E-02 % MHDEQ: TG1= 0.712050 ; TG2= 0.713868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.044E-06 FluxDiff MaxDT: 9.178E-02 Avg. GS error: 1.651E-02 Plasma Current: 8.952E+05, target: 8.952E+05, error: 0.006% Edge Q: 10.869, target: 11.209, error: 3.036% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4462E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1005E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.712050 TO TG2= 0.713868 @ NSTEP 2927 GFRAME TG2 MOMENTS CHECKSUM: 3.7546842879402D+03 --> plasma_hash("gframe"): TA= 7.138682E-01 NSTEP= 2928 Hash code: 34884038 ->PRGCHK: bdy curvature ratio at t= 7.1569E-01 seconds is: 5.1071E-02 % MHDEQ: TG1= 0.713868 ; TG2= 0.715686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.997E-06 FluxDiff MaxDT: 7.535E-02 Avg. GS error: 1.638E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.007% Edge Q: 10.863, target: 11.193, error: 2.952% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5852E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1012E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.713868 TO TG2= 0.715686 @ NSTEP 2928 GFRAME TG2 MOMENTS CHECKSUM: 3.7555356499908D+03 --> plasma_hash("gframe"): TA= 7.156864E-01 NSTEP= 2929 Hash code: 56487798 ->PRGCHK: bdy curvature ratio at t= 7.1750E-01 seconds is: 5.0795E-02 % MHDEQ: TG1= 0.715686 ; TG2= 0.717505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.045E-06 FluxDiff MaxDT: 7.647E-02 Avg. GS error: 1.620E-02 Plasma Current: 8.952E+05, target: 8.951E+05, error: 0.007% Edge Q: 10.855, target: 11.183, error: 2.932% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4080E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0982E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.715686 TO TG2= 0.717505 @ NSTEP 2929 GFRAME TG2 MOMENTS CHECKSUM: 3.7558996888616D+03 --> plasma_hash("gframe"): TA= 7.175045E-01 NSTEP= 2930 Hash code: 764067 ->PRGCHK: bdy curvature ratio at t= 7.1932E-01 seconds is: 5.0393E-02 % MHDEQ: TG1= 0.717505 ; TG2= 0.719323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.188E-06 FluxDiff MaxDT: 7.065E-02 Avg. GS error: 1.605E-02 Plasma Current: 8.955E+05, target: 8.954E+05, error: 0.007% Edge Q: 10.843, target: 11.174, error: 2.962% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2937E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0924E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.717505 TO TG2= 0.719323 @ NSTEP 2930 GFRAME TG2 MOMENTS CHECKSUM: 3.7560029055581D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.41183E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.35601E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.35594E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.193227E-01 NSTEP= 2931 Hash code: 112533610 ->PRGCHK: bdy curvature ratio at t= 7.2114E-01 seconds is: 4.9605E-02 % MHDEQ: TG1= 0.719323 ; TG2= 0.721141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.176E-06 FluxDiff MaxDT: 8.007E-02 Avg. GS error: 1.615E-02 Plasma Current: 8.957E+05, target: 8.957E+05, error: 0.006% Edge Q: 10.833, target: 11.159, error: 2.919% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5211E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0905E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.719323 TO TG2= 0.721141 @ NSTEP 2931 GFRAME TG2 MOMENTS CHECKSUM: 3.7550782642266D+03 --> plasma_hash("gframe"): TA= 7.211409E-01 NSTEP= 2932 Hash code: 100488003 ->PRGCHK: bdy curvature ratio at t= 7.2296E-01 seconds is: 4.8847E-02 % MHDEQ: TG1= 0.721141 ; TG2= 0.722959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.730E-06 FluxDiff MaxDT: 8.116E-02 Avg. GS error: 1.625E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.005% Edge Q: 10.830, target: 11.155, error: 2.910% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5265E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1371E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.721141 TO TG2= 0.722959 @ NSTEP 2932 GFRAME TG2 MOMENTS CHECKSUM: 3.7541257714470D+03 --> plasma_hash("gframe"): TA= 7.229591E-01 NSTEP= 2933 Hash code: 44156843 ->PRGCHK: bdy curvature ratio at t= 7.2478E-01 seconds is: 4.8119E-02 % MHDEQ: TG1= 0.722959 ; TG2= 0.724777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.439E-06 FluxDiff MaxDT: 8.257E-02 Avg. GS error: 1.628E-02 Plasma Current: 8.946E+05, target: 8.946E+05, error: 0.005% Edge Q: 10.835, target: 11.156, error: 2.879% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3722E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1472E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.722959 TO TG2= 0.724777 @ NSTEP 2933 GFRAME TG2 MOMENTS CHECKSUM: 3.7530690232452D+03 --> plasma_hash("gframe"): TA= 7.247773E-01 NSTEP= 2934 Hash code: 33979370 ->PRGCHK: bdy curvature ratio at t= 7.2660E-01 seconds is: 4.8220E-02 % MHDEQ: TG1= 0.724777 ; TG2= 0.726595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.063E-06 FluxDiff MaxDT: 8.361E-02 Avg. GS error: 1.641E-02 Plasma Current: 8.935E+05, target: 8.935E+05, error: 0.005% Edge Q: 10.846, target: 11.165, error: 2.861% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3527E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1601E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.724777 TO TG2= 0.726595 @ NSTEP 2934 GFRAME TG2 MOMENTS CHECKSUM: 3.7523876002586D+03 --> plasma_hash("gframe"): TA= 7.265954E-01 NSTEP= 2935 Hash code: 77079117 ->PRGCHK: bdy curvature ratio at t= 7.2841E-01 seconds is: 4.8946E-02 % MHDEQ: TG1= 0.726595 ; TG2= 0.728414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.931E-07 FluxDiff MaxDT: 8.459E-02 Avg. GS error: 1.644E-02 Plasma Current: 8.926E+05, target: 8.926E+05, error: 0.006% Edge Q: 10.859, target: 11.181, error: 2.882% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2537E+00 SECONDS DATA R*BT AT EDGE: 5.8953E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1723E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.726595 TO TG2= 0.728414 @ NSTEP 2935 GFRAME TG2 MOMENTS CHECKSUM: 3.7520309307216D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.41400E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.38615E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.38608E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.284136E-01 NSTEP= 2936 Hash code: 111464189 ->PRGCHK: bdy curvature ratio at t= 7.3023E-01 seconds is: 5.1482E-02 % MHDEQ: TG1= 0.728414 ; TG2= 0.730232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.708E-07 FluxDiff MaxDT: 8.550E-02 Avg. GS error: 1.657E-02 Plasma Current: 8.927E+05, target: 8.927E+05, error: 0.005% Edge Q: 10.864, target: 11.193, error: 2.944% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4369E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1704E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.728414 TO TG2= 0.730232 @ NSTEP 2936 GFRAME TG2 MOMENTS CHECKSUM: 3.7525861249540D+03 --> plasma_hash("gframe"): TA= 7.302318E-01 NSTEP= 2937 Hash code: 49612294 ->PRGCHK: bdy curvature ratio at t= 7.3205E-01 seconds is: 5.4491E-02 % MHDEQ: TG1= 0.730232 ; TG2= 0.732050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.369E-06 FluxDiff MaxDT: 5.707E-02 Avg. GS error: 1.651E-02 Plasma Current: 8.942E+05, target: 8.941E+05, error: 0.002% Edge Q: 10.848, target: 11.192, error: 3.074% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6026E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1541E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.730232 TO TG2= 0.732050 @ NSTEP 2937 GFRAME TG2 MOMENTS CHECKSUM: 3.7534137149323D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2938 TA= 7.32050E-01 CPU TIME= 9.22700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.51375972222240 %check_save_state: izleft hours = 77.4175000000000 --> plasma_hash("gframe"): TA= 7.320500E-01 NSTEP= 2938 Hash code: 6710708 ->PRGCHK: bdy curvature ratio at t= 7.3387E-01 seconds is: 5.7882E-02 % MHDEQ: TG1= 0.732050 ; TG2= 0.733868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.170E-06 FluxDiff MaxDT: 4.382E-02 Avg. GS error: 1.656E-02 Plasma Current: 8.961E+05, target: 8.961E+05, error: 0.002% Edge Q: 10.824, target: 11.166, error: 3.061% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5913E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1387E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.732050 TO TG2= 0.733868 @ NSTEP 2938 GFRAME TG2 MOMENTS CHECKSUM: 3.7542918213067D+03 --> plasma_hash("gframe"): TA= 7.338682E-01 NSTEP= 2939 Hash code: 61105809 ->PRGCHK: bdy curvature ratio at t= 7.3569E-01 seconds is: 5.8873E-02 % MHDEQ: TG1= 0.733868 ; TG2= 0.735686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.601E-06 FluxDiff MaxDT: 5.025E-02 Avg. GS error: 1.647E-02 Plasma Current: 8.972E+05, target: 8.973E+05, error: 0.003% Edge Q: 10.809, target: 11.141, error: 2.982% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4110E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1293E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.733868 TO TG2= 0.735686 @ NSTEP 2939 GFRAME TG2 MOMENTS CHECKSUM: 3.7553092240627D+03 --> plasma_hash("gframe"): TA= 7.356864E-01 NSTEP= 2940 Hash code: 89068715 ->PRGCHK: bdy curvature ratio at t= 7.3750E-01 seconds is: 5.9700E-02 % MHDEQ: TG1= 0.735686 ; TG2= 0.737505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.218E-06 FluxDiff MaxDT: 7.447E-02 Avg. GS error: 1.655E-02 Plasma Current: 8.976E+05, target: 8.976E+05, error: 0.005% Edge Q: 10.799, target: 11.128, error: 2.954% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2401E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0934E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.735686 TO TG2= 0.737505 @ NSTEP 2940 GFRAME TG2 MOMENTS CHECKSUM: 3.7558498553275D+03 --> plasma_hash("gframe"): TA= 7.375045E-01 NSTEP= 2941 Hash code: 49380035 ->PRGCHK: bdy curvature ratio at t= 7.3932E-01 seconds is: 5.8694E-02 % MHDEQ: TG1= 0.737505 ; TG2= 0.739323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.128E-06 FluxDiff MaxDT: 9.851E-02 Avg. GS error: 1.646E-02 Plasma Current: 8.976E+05, target: 8.976E+05, error: 0.004% Edge Q: 10.791, target: 11.125, error: 2.997% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3906E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0943E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.737505 TO TG2= 0.739323 @ NSTEP 2941 GFRAME TG2 MOMENTS CHECKSUM: 3.7565682543427D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.79574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.39096E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.46417E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.393227E-01 NSTEP= 2942 Hash code: 78893722 ->PRGCHK: bdy curvature ratio at t= 7.4114E-01 seconds is: 5.6861E-02 % MHDEQ: TG1= 0.739323 ; TG2= 0.741141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.012E-06 FluxDiff MaxDT: 1.143E-01 Avg. GS error: 1.646E-02 Plasma Current: 8.975E+05, target: 8.975E+05, error: 0.004% Edge Q: 10.783, target: 11.116, error: 2.990% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3903E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7821E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.739323 TO TG2= 0.741141 @ NSTEP 2942 GFRAME TG2 MOMENTS CHECKSUM: 3.7562621173668D+03 --> plasma_hash("gframe"): TA= 7.411409E-01 NSTEP= 2943 Hash code: 51944447 ->PRGCHK: bdy curvature ratio at t= 7.4296E-01 seconds is: 5.5356E-02 % MHDEQ: TG1= 0.741141 ; TG2= 0.742959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.009E-06 FluxDiff MaxDT: 1.483E-01 Avg. GS error: 1.631E-02 Plasma Current: 8.971E+05, target: 8.972E+05, error: 0.003% Edge Q: 10.780, target: 11.107, error: 2.943% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4066E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7857E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.741141 TO TG2= 0.742959 @ NSTEP 2943 GFRAME TG2 MOMENTS CHECKSUM: 3.7568780794879D+03 --> plasma_hash("gframe"): TA= 7.429591E-01 NSTEP= 2944 Hash code: 39865288 ->PRGCHK: bdy curvature ratio at t= 7.4478E-01 seconds is: 5.4504E-02 % MHDEQ: TG1= 0.742959 ; TG2= 0.744777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.697E-06 FluxDiff MaxDT: 1.670E-01 Avg. GS error: 1.637E-02 Plasma Current: 8.970E+05, target: 8.971E+05, error: 0.003% Edge Q: 10.772, target: 11.103, error: 2.987% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9579E+00 SECONDS DATA R*BT AT EDGE: 5.8960E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7841E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.742959 TO TG2= 0.744777 @ NSTEP 2944 GFRAME TG2 MOMENTS CHECKSUM: 3.7564759264860D+03 --> plasma_hash("gframe"): TA= 7.447773E-01 NSTEP= 2945 Hash code: 58017662 ->PRGCHK: bdy curvature ratio at t= 7.4660E-01 seconds is: 5.4051E-02 % MHDEQ: TG1= 0.744777 ; TG2= 0.746595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.583E-06 FluxDiff MaxDT: 1.442E-01 Avg. GS error: 1.641E-02 Plasma Current: 8.972E+05, target: 8.973E+05, error: 0.003% Edge Q: 10.760, target: 11.096, error: 3.026% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4162E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7781E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.744777 TO TG2= 0.746595 @ NSTEP 2945 GFRAME TG2 MOMENTS CHECKSUM: 3.7554952525479D+03 --> plasma_hash("gframe"): TA= 7.465954E-01 NSTEP= 2946 Hash code: 120410647 ->PRGCHK: bdy curvature ratio at t= 7.4841E-01 seconds is: 5.4115E-02 % MHDEQ: TG1= 0.746595 ; TG2= 0.748414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.434E-06 FluxDiff MaxDT: 1.149E-01 Avg. GS error: 1.651E-02 Plasma Current: 8.978E+05, target: 8.978E+05, error: 0.004% Edge Q: 10.742, target: 11.082, error: 3.063% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5825E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7495E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.746595 TO TG2= 0.748414 @ NSTEP 2946 GFRAME TG2 MOMENTS CHECKSUM: 3.7530976392086D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.79506E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.38940E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.46253E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.484136E-01 NSTEP= 2947 Hash code: 97448260 ->PRGCHK: bdy curvature ratio at t= 7.5023E-01 seconds is: 5.4224E-02 % MHDEQ: TG1= 0.748414 ; TG2= 0.750232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.458E-06 FluxDiff MaxDT: 9.144E-02 Avg. GS error: 1.629E-02 Plasma Current: 8.984E+05, target: 8.984E+05, error: 0.005% Edge Q: 10.727, target: 11.063, error: 3.038% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5476E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0987E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.748414 TO TG2= 0.750232 @ NSTEP 2947 GFRAME TG2 MOMENTS CHECKSUM: 3.7519482456640D+03 --> plasma_hash("gframe"): TA= 7.502318E-01 NSTEP= 2948 Hash code: 16788699 ->PRGCHK: bdy curvature ratio at t= 7.5205E-01 seconds is: 5.4365E-02 % MHDEQ: TG1= 0.750232 ; TG2= 0.752050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.428E-06 FluxDiff MaxDT: 1.123E-01 Avg. GS error: 1.600E-02 Plasma Current: 8.984E+05, target: 8.984E+05, error: 0.004% Edge Q: 10.720, target: 11.045, error: 2.948% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6659E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1012E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.750232 TO TG2= 0.752050 @ NSTEP 2948 GFRAME TG2 MOMENTS CHECKSUM: 3.7496609829446D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2949 TA= 7.52050E-01 CPU TIME= 9.16000E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.52588138888905 %check_save_state: izleft hours = 77.4052777777778 --> plasma_hash("gframe"): TA= 7.520500E-01 NSTEP= 2949 Hash code: 78006112 ->PRGCHK: bdy curvature ratio at t= 7.5387E-01 seconds is: 5.4017E-02 % MHDEQ: TG1= 0.752050 ; TG2= 0.753868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.122E-06 FluxDiff MaxDT: 1.445E-01 Avg. GS error: 1.577E-02 Plasma Current: 8.974E+05, target: 8.974E+05, error: 0.002% Edge Q: 10.736, target: 11.041, error: 2.756% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5181E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1444E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.752050 TO TG2= 0.753868 @ NSTEP 2949 GFRAME TG2 MOMENTS CHECKSUM: 3.7486325170190D+03 --> plasma_hash("gframe"): TA= 7.538682E-01 NSTEP= 2950 Hash code: 25327676 ->PRGCHK: bdy curvature ratio at t= 7.5569E-01 seconds is: 5.3278E-02 % MHDEQ: TG1= 0.753868 ; TG2= 0.755686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.896E-07 FluxDiff MaxDT: 1.277E-01 Avg. GS error: 1.571E-02 Plasma Current: 8.963E+05, target: 8.963E+05, error: 0.000% Edge Q: 10.758, target: 11.061, error: 2.745% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3692E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1534E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.753868 TO TG2= 0.755686 @ NSTEP 2950 GFRAME TG2 MOMENTS CHECKSUM: 3.7483962546095D+03 --> plasma_hash("gframe"): TA= 7.556864E-01 NSTEP= 2951 Hash code: 81309496 ->PRGCHK: bdy curvature ratio at t= 7.5750E-01 seconds is: 5.1895E-02 % MHDEQ: TG1= 0.755686 ; TG2= 0.757505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.066E-06 FluxDiff MaxDT: 8.612E-02 Avg. GS error: 1.590E-02 Plasma Current: 8.960E+05, target: 8.960E+05, error: 0.002% Edge Q: 10.780, target: 11.085, error: 2.755% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5684E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1554E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.755686 TO TG2= 0.757505 @ NSTEP 2951 GFRAME TG2 MOMENTS CHECKSUM: 3.7501004092572D+03 --> plasma_hash("gframe"): TA= 7.575045E-01 NSTEP= 2952 Hash code: 113367421 ->PRGCHK: bdy curvature ratio at t= 7.5932E-01 seconds is: 5.0551E-02 % MHDEQ: TG1= 0.757505 ; TG2= 0.759323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.554E-06 FluxDiff MaxDT: 6.625E-02 Avg. GS error: 1.596E-02 Plasma Current: 8.959E+05, target: 8.959E+05, error: 0.002% Edge Q: 10.797, target: 11.107, error: 2.791% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6772E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1583E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.757505 TO TG2= 0.759323 @ NSTEP 2952 GFRAME TG2 MOMENTS CHECKSUM: 3.7517225544966D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.94081E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.39688E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.54393E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.593227E-01 NSTEP= 2953 Hash code: 47464799 ->PRGCHK: bdy curvature ratio at t= 7.6114E-01 seconds is: 4.9318E-02 % MHDEQ: TG1= 0.759323 ; TG2= 0.761141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.659E-06 FluxDiff MaxDT: 9.810E-02 Avg. GS error: 1.609E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.003% Edge Q: 10.821, target: 11.126, error: 2.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5009E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1664E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.759323 TO TG2= 0.761141 @ NSTEP 2953 GFRAME TG2 MOMENTS CHECKSUM: 3.7533341147093D+03 --> plasma_hash("gframe"): TA= 7.611409E-01 NSTEP= 2954 Hash code: 29500176 ->PRGCHK: bdy curvature ratio at t= 7.6296E-01 seconds is: 4.8955E-02 % MHDEQ: TG1= 0.761141 ; TG2= 0.762959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.210E-06 FluxDiff MaxDT: 1.035E-01 Avg. GS error: 1.619E-02 Plasma Current: 8.949E+05, target: 8.949E+05, error: 0.004% Edge Q: 10.840, target: 11.158, error: 2.850% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4394E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1734E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.761141 TO TG2= 0.762959 @ NSTEP 2954 GFRAME TG2 MOMENTS CHECKSUM: 3.7545360032467D+03 --> plasma_hash("gframe"): TA= 7.629591E-01 NSTEP= 2955 Hash code: 20071122 ->PRGCHK: bdy curvature ratio at t= 7.6478E-01 seconds is: 4.9388E-02 % MHDEQ: TG1= 0.762959 ; TG2= 0.764777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.417E-06 FluxDiff MaxDT: 6.506E-02 Avg. GS error: 1.619E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.004% Edge Q: 10.841, target: 11.176, error: 3.000% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5525E+00 SECONDS DATA R*BT AT EDGE: 5.8954E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1650E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.762959 TO TG2= 0.764777 @ NSTEP 2955 GFRAME TG2 MOMENTS CHECKSUM: 3.7555376628523D+03 --> plasma_hash("gframe"): TA= 7.647773E-01 NSTEP= 2956 Hash code: 4923426 ->PRGCHK: bdy curvature ratio at t= 7.6660E-01 seconds is: 5.0940E-02 % MHDEQ: TG1= 0.764777 ; TG2= 0.766595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.034E-06 FluxDiff MaxDT: 4.731E-02 Avg. GS error: 1.612E-02 Plasma Current: 8.966E+05, target: 8.965E+05, error: 0.002% Edge Q: 10.827, target: 11.169, error: 3.063% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5466E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8538E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.764777 TO TG2= 0.766595 @ NSTEP 2956 GFRAME TG2 MOMENTS CHECKSUM: 3.7551210984082D+03 --> plasma_hash("gframe"): TA= 7.665954E-01 NSTEP= 2957 Hash code: 74378408 ->PRGCHK: bdy curvature ratio at t= 7.6841E-01 seconds is: 5.2584E-02 % MHDEQ: TG1= 0.766595 ; TG2= 0.768414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.462E-06 FluxDiff MaxDT: 4.764E-02 Avg. GS error: 1.606E-02 Plasma Current: 8.972E+05, target: 8.972E+05, error: 0.001% Edge Q: 10.821, target: 11.145, error: 2.909% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4129E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8437E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.766595 TO TG2= 0.768414 @ NSTEP 2957 GFRAME TG2 MOMENTS CHECKSUM: 3.7556986435192D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.93445E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 16= 1.39386E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.54059E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.684136E-01 NSTEP= 2958 Hash code: 34912152 ->PRGCHK: bdy curvature ratio at t= 7.7023E-01 seconds is: 5.4188E-02 % MHDEQ: TG1= 0.768414 ; TG2= 0.770232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.110E-06 FluxDiff MaxDT: 6.092E-02 Avg. GS error: 1.604E-02 Plasma Current: 8.972E+05, target: 8.972E+05, error: 0.002% Edge Q: 10.824, target: 11.142, error: 2.850% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2176E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8534E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.768414 TO TG2= 0.770232 @ NSTEP 2958 GFRAME TG2 MOMENTS CHECKSUM: 3.7561831492104D+03 --> plasma_hash("gframe"): TA= 7.702318E-01 NSTEP= 2959 Hash code: 10819962 ->PRGCHK: bdy curvature ratio at t= 7.7205E-01 seconds is: 5.4927E-02 % MHDEQ: TG1= 0.770232 ; TG2= 0.772050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.755E-06 FluxDiff MaxDT: 7.217E-02 Avg. GS error: 1.603E-02 Plasma Current: 8.969E+05, target: 8.969E+05, error: 0.003% Edge Q: 10.834, target: 11.149, error: 2.830% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2097E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8320E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.770232 TO TG2= 0.772050 @ NSTEP 2959 GFRAME TG2 MOMENTS CHECKSUM: 3.7567050986478D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2960 TA= 7.72050E-01 CPU TIME= 9.23600E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.53993888888886 %check_save_state: izleft hours = 77.3911111111111 --> plasma_hash("gframe"): TA= 7.720500E-01 NSTEP= 2960 Hash code: 23059956 ->PRGCHK: bdy curvature ratio at t= 7.7387E-01 seconds is: 5.4647E-02 % MHDEQ: TG1= 0.772050 ; TG2= 0.773868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.647E-06 FluxDiff MaxDT: 8.000E-02 Avg. GS error: 1.605E-02 Plasma Current: 8.965E+05, target: 8.965E+05, error: 0.004% Edge Q: 10.846, target: 11.160, error: 2.813% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2937E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8550E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.772050 TO TG2= 0.773868 @ NSTEP 2960 GFRAME TG2 MOMENTS CHECKSUM: 3.7575661566120D+03 --> plasma_hash("gframe"): TA= 7.738682E-01 NSTEP= 2961 Hash code: 108392707 ->PRGCHK: bdy curvature ratio at t= 7.7569E-01 seconds is: 5.3274E-02 % MHDEQ: TG1= 0.773868 ; TG2= 0.775686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.630E-06 FluxDiff MaxDT: 9.013E-02 Avg. GS error: 1.601E-02 Plasma Current: 8.956E+05, target: 8.956E+05, error: 0.006% Edge Q: 10.870, target: 11.175, error: 2.731% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4260E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8993E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.773868 TO TG2= 0.775686 @ NSTEP 2961 GFRAME TG2 MOMENTS CHECKSUM: 3.7587108915338D+03 --> plasma_hash("gframe"): TA= 7.756864E-01 NSTEP= 2962 Hash code: 34490090 ->PRGCHK: bdy curvature ratio at t= 7.7750E-01 seconds is: 5.1950E-02 % MHDEQ: TG1= 0.775686 ; TG2= 0.777505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.309E-06 FluxDiff MaxDT: 9.107E-02 Avg. GS error: 1.595E-02 Plasma Current: 8.948E+05, target: 8.947E+05, error: 0.007% Edge Q: 10.892, target: 11.203, error: 2.772% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3199E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9406E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.775686 TO TG2= 0.777505 @ NSTEP 2962 GFRAME TG2 MOMENTS CHECKSUM: 3.7597653277213D+03 --> plasma_hash("gframe"): TA= 7.775045E-01 NSTEP= 2963 Hash code: 53290749 ->PRGCHK: bdy curvature ratio at t= 7.7932E-01 seconds is: 5.0819E-02 % MHDEQ: TG1= 0.777505 ; TG2= 0.779323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.446E-06 FluxDiff MaxDT: 6.754E-02 Avg. GS error: 1.585E-02 Plasma Current: 8.945E+05, target: 8.944E+05, error: 0.007% Edge Q: 10.907, target: 11.225, error: 2.834% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3894E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9641E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.777505 TO TG2= 0.779323 @ NSTEP 2963 GFRAME TG2 MOMENTS CHECKSUM: 3.7608003625810D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= -1.55996E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 8.89611E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 8.89568E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.793227E-01 NSTEP= 2964 Hash code: 78322429 ->PRGCHK: bdy curvature ratio at t= 7.8114E-01 seconds is: 5.0385E-02 % MHDEQ: TG1= 0.779323 ; TG2= 0.781141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.655E-06 FluxDiff MaxDT: 4.906E-02 Avg. GS error: 1.578E-02 Plasma Current: 8.949E+05, target: 8.949E+05, error: 0.005% Edge Q: 10.911, target: 11.237, error: 2.897% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5260E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9590E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.779323 TO TG2= 0.781141 @ NSTEP 2964 GFRAME TG2 MOMENTS CHECKSUM: 3.7612093651660D+03 %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.780000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 7.80000000E+13 to 8.70000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 1.43000000E+00 to 1.18000000E+00 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 7.811409E-01 NSTEP= 2967 Hash code: 58173442 ->PRGCHK: bdy curvature ratio at t= 7.8296E-01 seconds is: 5.0813E-02 % MHDEQ: TG1= 0.781141 ; TG2= 0.782959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.739E-06 FluxDiff MaxDT: 5.763E-02 Avg. GS error: 1.575E-02 Plasma Current: 8.953E+05, target: 8.952E+05, error: 0.005% Edge Q: 10.918, target: 11.237, error: 2.832% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7526E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9724E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.781141 TO TG2= 0.782959 @ NSTEP 2967 GFRAME TG2 MOMENTS CHECKSUM: 3.7608761516249D+03 --> plasma_hash("gframe"): TA= 7.829591E-01 NSTEP= 2970 Hash code: 73168682 ->PRGCHK: bdy curvature ratio at t= 7.8478E-01 seconds is: 5.2033E-02 % MHDEQ: TG1= 0.782959 ; TG2= 0.784777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.163E-06 FluxDiff MaxDT: 6.727E-02 Avg. GS error: 1.568E-02 Plasma Current: 8.956E+05, target: 8.955E+05, error: 0.005% Edge Q: 10.923, target: 11.249, error: 2.899% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7412E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9665E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.782959 TO TG2= 0.784777 @ NSTEP 2970 GFRAME TG2 MOMENTS CHECKSUM: 3.7595336830874D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2972 TA= 7.84621E-01 CPU TIME= 1.19584E-01 SECONDS. DT= 1.56546E-04 --> plasma_hash("gframe"): TA= 7.847773E-01 NSTEP= 2973 Hash code: 59562577 ->PRGCHK: bdy curvature ratio at t= 7.8660E-01 seconds is: 5.3288E-02 % MHDEQ: TG1= 0.784777 ; TG2= 0.786595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.248E-06 FluxDiff MaxDT: 7.891E-02 Avg. GS error: 1.556E-02 Plasma Current: 8.962E+05, target: 8.961E+05, error: 0.004% Edge Q: 10.922, target: 11.252, error: 2.928% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5824E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9597E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.784777 TO TG2= 0.786595 @ NSTEP 2973 GFRAME TG2 MOMENTS CHECKSUM: 3.7583903117208D+03 --> plasma_hash("gframe"): TA= 7.865954E-01 NSTEP= 2976 Hash code: 105032715 ->PRGCHK: bdy curvature ratio at t= 7.8841E-01 seconds is: 5.4368E-02 % MHDEQ: TG1= 0.786595 ; TG2= 0.788414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.271E-06 FluxDiff MaxDT: 6.044E-02 Avg. GS error: 1.532E-02 Plasma Current: 8.974E+05, target: 8.974E+05, error: 0.002% Edge Q: 10.910, target: 11.249, error: 3.018% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5867E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9327E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.786595 TO TG2= 0.788414 @ NSTEP 2976 GFRAME TG2 MOMENTS CHECKSUM: 3.7573669445383D+03 --> plasma_hash("gframe"): TA= 7.884136E-01 NSTEP= 2979 Hash code: 40707470 ->PRGCHK: bdy curvature ratio at t= 7.9023E-01 seconds is: 5.4747E-02 % MHDEQ: TG1= 0.788414 ; TG2= 0.790232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.694E-06 FluxDiff MaxDT: 5.064E-02 Avg. GS error: 1.501E-02 Plasma Current: 8.985E+05, target: 8.985E+05, error: 0.000% Edge Q: 10.898, target: 11.227, error: 2.934% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5888E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9181E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.788414 TO TG2= 0.790232 @ NSTEP 2979 GFRAME TG2 MOMENTS CHECKSUM: 3.7565936305617D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.80356E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.72943E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.03890E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.72928E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.03897E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2981 TA= 7.90173E-01 CPU TIME= 4.49920E-02 SECONDS. DT= 5.90997E-05 --> plasma_hash("gframe"): TA= 7.902318E-01 NSTEP= 2982 Hash code: 102644429 ->PRGCHK: bdy curvature ratio at t= 7.9205E-01 seconds is: 5.4056E-02 % MHDEQ: TG1= 0.790232 ; TG2= 0.792050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.594E-06 FluxDiff MaxDT: 7.616E-02 Avg. GS error: 1.482E-02 Plasma Current: 8.990E+05, target: 8.990E+05, error: 0.001% Edge Q: 10.898, target: 11.214, error: 2.825% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5485E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9391E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.790232 TO TG2= 0.792050 @ NSTEP 2982 GFRAME TG2 MOMENTS CHECKSUM: 3.7559661792363D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2984 TA= 7.92050E-01 CPU TIME= 9.08500E-03 SECONDS. DT= 7.45746E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.55958305555578 %check_save_state: izleft hours = 77.3716666666667 --> plasma_hash("gframe"): TA= 7.920500E-01 NSTEP= 2984 Hash code: 13456250 ->PRGCHK: bdy curvature ratio at t= 7.9387E-01 seconds is: 5.2621E-02 % MHDEQ: TG1= 0.792050 ; TG2= 0.793868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.314E-06 FluxDiff MaxDT: 1.524E-01 Avg. GS error: 1.473E-02 Plasma Current: 8.982E+05, target: 8.982E+05, error: 0.000% Edge Q: 10.918, target: 11.218, error: 2.671% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5466E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9856E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.792050 TO TG2= 0.793868 @ NSTEP 2984 GFRAME TG2 MOMENTS CHECKSUM: 3.7552717706080D+03 --> plasma_hash("gframe"): TA= 7.938682E-01 NSTEP= 2987 Hash code: 84825039 ->PRGCHK: bdy curvature ratio at t= 7.9569E-01 seconds is: 5.1234E-02 % MHDEQ: TG1= 0.793868 ; TG2= 0.795686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.679E-07 FluxDiff MaxDT: 1.092E-01 Avg. GS error: 1.474E-02 Plasma Current: 8.971E+05, target: 8.971E+05, error: 0.000% Edge Q: 10.943, target: 11.252, error: 2.743% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4517E+00 SECONDS DATA R*BT AT EDGE: 5.8957E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0098E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.793868 TO TG2= 0.795686 @ NSTEP 2987 GFRAME TG2 MOMENTS CHECKSUM: 3.7543148981082D+03 --> plasma_hash("gframe"): TA= 7.956864E-01 NSTEP= 2989 Hash code: 23850092 ->PRGCHK: bdy curvature ratio at t= 7.9750E-01 seconds is: 5.0003E-02 % MHDEQ: TG1= 0.795686 ; TG2= 0.797505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.922E-07 FluxDiff MaxDT: 9.458E-02 Avg. GS error: 1.472E-02 Plasma Current: 8.961E+05, target: 8.961E+05, error: 0.000% Edge Q: 10.966, target: 11.278, error: 2.762% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4184E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2534E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.795686 TO TG2= 0.797505 @ NSTEP 2989 GFRAME TG2 MOMENTS CHECKSUM: 3.7546192437863D+03 --> plasma_hash("gframe"): TA= 7.975045E-01 NSTEP= 2991 Hash code: 100981972 ->PRGCHK: bdy curvature ratio at t= 7.9932E-01 seconds is: 4.9083E-02 % MHDEQ: TG1= 0.797505 ; TG2= 0.799323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.409E-07 FluxDiff MaxDT: 7.090E-02 Avg. GS error: 1.481E-02 Plasma Current: 8.949E+05, target: 8.949E+05, error: 0.001% Edge Q: 10.988, target: 11.309, error: 2.843% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4337E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2688E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.797505 TO TG2= 0.799323 @ NSTEP 2991 GFRAME TG2 MOMENTS CHECKSUM: 3.7539210199793D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 3.83784E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.55607E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 5.95296E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.55594E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 5.95260E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.993227E-01 NSTEP= 2992 Hash code: 91025787 ->PRGCHK: bdy curvature ratio at t= 8.0114E-01 seconds is: 4.8651E-02 % MHDEQ: TG1= 0.799323 ; TG2= 0.801141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.386E-07 FluxDiff MaxDT: 7.468E-02 Avg. GS error: 1.487E-02 Plasma Current: 8.940E+05, target: 8.939E+05, error: 0.002% Edge Q: 10.999, target: 11.334, error: 2.954% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3595E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2792E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.799323 TO TG2= 0.801141 @ NSTEP 2992 GFRAME TG2 MOMENTS CHECKSUM: 3.7534374455346D+03 --> plasma_hash("gframe"): TA= 8.011409E-01 NSTEP= 2993 Hash code: 111305111 ->PRGCHK: bdy curvature ratio at t= 8.0296E-01 seconds is: 4.8504E-02 % MHDEQ: TG1= 0.801141 ; TG2= 0.802959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.642E-07 FluxDiff MaxDT: 1.758E-01 Avg. GS error: 1.493E-02 Plasma Current: 8.939E+05, target: 8.939E+05, error: 0.001% Edge Q: 10.991, target: 11.343, error: 3.104% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4018E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2657E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.801141 TO TG2= 0.802959 @ NSTEP 2993 GFRAME TG2 MOMENTS CHECKSUM: 3.7532090347016D+03 --> plasma_hash("gframe"): TA= 8.029591E-01 NSTEP= 2994 Hash code: 103625608 ->PRGCHK: bdy curvature ratio at t= 8.0478E-01 seconds is: 4.8361E-02 % MHDEQ: TG1= 0.802959 ; TG2= 0.804777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.209E-06 FluxDiff MaxDT: 1.487E-01 Avg. GS error: 1.494E-02 Plasma Current: 8.946E+05, target: 8.947E+05, error: 0.002% Edge Q: 10.971, target: 11.325, error: 3.124% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4278E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2519E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.802959 TO TG2= 0.804777 @ NSTEP 2994 GFRAME TG2 MOMENTS CHECKSUM: 3.7530797931686D+03 --> plasma_hash("gframe"): TA= 8.047773E-01 NSTEP= 2995 Hash code: 22148305 ->PRGCHK: bdy curvature ratio at t= 8.0660E-01 seconds is: 4.8222E-02 % MHDEQ: TG1= 0.804777 ; TG2= 0.806595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.647E-06 FluxDiff MaxDT: 1.847E-01 Avg. GS error: 1.497E-02 Plasma Current: 8.946E+05, target: 8.947E+05, error: 0.004% Edge Q: 10.963, target: 11.298, error: 2.965% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4993E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9649E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.804777 TO TG2= 0.806595 @ NSTEP 2995 GFRAME TG2 MOMENTS CHECKSUM: 3.7517871332540D+03 --> plasma_hash("gframe"): TA= 8.065954E-01 NSTEP= 2996 Hash code: 122433762 ->PRGCHK: bdy curvature ratio at t= 8.0841E-01 seconds is: 4.8088E-02 % MHDEQ: TG1= 0.806595 ; TG2= 0.808414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.089E-06 FluxDiff MaxDT: 1.123E-01 Avg. GS error: 1.502E-02 Plasma Current: 8.938E+05, target: 8.939E+05, error: 0.004% Edge Q: 10.966, target: 11.293, error: 2.896% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5453E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2615E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.806595 TO TG2= 0.808414 @ NSTEP 2996 GFRAME TG2 MOMENTS CHECKSUM: 3.7524517112493D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 3.83449E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.58397E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 5.96716E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.58384E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 5.96680E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.084136E-01 NSTEP= 2997 Hash code: 91916421 ->PRGCHK: bdy curvature ratio at t= 8.1023E-01 seconds is: 4.7958E-02 % MHDEQ: TG1= 0.808414 ; TG2= 0.810232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.388E-07 FluxDiff MaxDT: 9.631E-02 Avg. GS error: 1.507E-02 Plasma Current: 8.932E+05, target: 8.933E+05, error: 0.005% Edge Q: 10.966, target: 11.305, error: 3.004% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4008E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2676E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.808414 TO TG2= 0.810232 @ NSTEP 2997 GFRAME TG2 MOMENTS CHECKSUM: 3.7520757064725D+03 --> plasma_hash("gframe"): TA= 8.102318E-01 NSTEP= 2998 Hash code: 107009745 ->PRGCHK: bdy curvature ratio at t= 8.1205E-01 seconds is: 4.7833E-02 % MHDEQ: TG1= 0.810232 ; TG2= 0.812050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.239E-07 FluxDiff MaxDT: 1.961E-01 Avg. GS error: 1.508E-02 Plasma Current: 8.934E+05, target: 8.934E+05, error: 0.007% Edge Q: 10.953, target: 11.304, error: 3.099% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4482E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9568E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.810232 TO TG2= 0.812050 @ NSTEP 2998 GFRAME TG2 MOMENTS CHECKSUM: 3.7508109221408D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2999 TA= 8.12050E-01 CPU TIME= 9.37400E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.57546361111145 %check_save_state: izleft hours = 77.3555555555556 --> plasma_hash("gframe"): TA= 8.120500E-01 NSTEP= 2999 Hash code: 85678119 ->PRGCHK: bdy curvature ratio at t= 8.1387E-01 seconds is: 4.7711E-02 % MHDEQ: TG1= 0.812050 ; TG2= 0.813868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.333E-06 FluxDiff MaxDT: 1.904E-01 Avg. GS error: 1.507E-02 Plasma Current: 8.938E+05, target: 8.939E+05, error: 0.009% Edge Q: 10.937, target: 11.280, error: 3.040% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4197E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9361E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.812050 TO TG2= 0.813868 @ NSTEP 2999 GFRAME TG2 MOMENTS CHECKSUM: 3.7505941033569D+03 --> plasma_hash("gframe"): TA= 8.138682E-01 NSTEP= 3000 Hash code: 48023503 ->PRGCHK: bdy curvature ratio at t= 8.1569E-01 seconds is: 4.7623E-02 % MHDEQ: TG1= 0.813868 ; TG2= 0.815686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.445E-06 FluxDiff MaxDT: 1.026E-01 Avg. GS error: 1.503E-02 Plasma Current: 8.946E+05, target: 8.947E+05, error: 0.011% Edge Q: 10.918, target: 11.262, error: 3.056% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4434E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9142E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.813868 TO TG2= 0.815686 @ NSTEP 3000 GFRAME TG2 MOMENTS CHECKSUM: 3.7506035801459D+03 --> plasma_hash("gframe"): TA= 8.156864E-01 NSTEP= 3001 Hash code: 296687 ->PRGCHK: bdy curvature ratio at t= 8.1750E-01 seconds is: 4.7584E-02 % MHDEQ: TG1= 0.815686 ; TG2= 0.817505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.946E-06 FluxDiff MaxDT: 7.104E-02 Avg. GS error: 1.501E-02 Plasma Current: 8.956E+05, target: 8.957E+05, error: 0.014% Edge Q: 10.900, target: 11.234, error: 2.973% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4400E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9000E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.815686 TO TG2= 0.817505 @ NSTEP 3001 GFRAME TG2 MOMENTS CHECKSUM: 3.7509326039582D+03 --> plasma_hash("gframe"): TA= 8.175045E-01 NSTEP= 3002 Hash code: 94430575 ->PRGCHK: bdy curvature ratio at t= 8.1932E-01 seconds is: 4.7656E-02 % MHDEQ: TG1= 0.817505 ; TG2= 0.819323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.038E-06 FluxDiff MaxDT: 8.633E-02 Avg. GS error: 1.502E-02 Plasma Current: 8.960E+05, target: 8.962E+05, error: 0.017% Edge Q: 10.897, target: 11.217, error: 2.853% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3102E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8964E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.817505 TO TG2= 0.819323 @ NSTEP 3002 GFRAME TG2 MOMENTS CHECKSUM: 3.7517836200997D+03 %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.74823E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.74191E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.74809E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.74141E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.193227E-01 NSTEP= 3003 Hash code: 95242902 ->PRGCHK: bdy curvature ratio at t= 8.2114E-01 seconds is: 4.7772E-02 % MHDEQ: TG1= 0.819323 ; TG2= 0.821141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.981E-06 FluxDiff MaxDT: 2.020E-01 Avg. GS error: 1.510E-02 Plasma Current: 8.953E+05, target: 8.955E+05, error: 0.018% Edge Q: 10.912, target: 11.217, error: 2.718% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3707E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9117E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.819323 TO TG2= 0.821141 @ NSTEP 3003 GFRAME TG2 MOMENTS CHECKSUM: 3.7527481658266D+03 --> plasma_hash("gframe"): TA= 8.211409E-01 NSTEP= 3004 Hash code: 83313158 ->PRGCHK: bdy curvature ratio at t= 8.2296E-01 seconds is: 4.7891E-02 % MHDEQ: TG1= 0.821141 ; TG2= 0.822959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.214E-06 FluxDiff MaxDT: 2.007E-01 Avg. GS error: 1.521E-02 Plasma Current: 8.946E+05, target: 8.948E+05, error: 0.019% Edge Q: 10.926, target: 11.245, error: 2.833% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3548E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9234E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.821141 TO TG2= 0.822959 @ NSTEP 3004 GFRAME TG2 MOMENTS CHECKSUM: 3.7536862299813D+03 --> plasma_hash("gframe"): TA= 8.229591E-01 NSTEP= 3005 Hash code: 22536395 ->PRGCHK: bdy curvature ratio at t= 8.2478E-01 seconds is: 4.8174E-02 % MHDEQ: TG1= 0.822959 ; TG2= 0.824777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.310E-06 FluxDiff MaxDT: 2.016E-01 Avg. GS error: 1.526E-02 Plasma Current: 8.950E+05, target: 8.952E+05, error: 0.021% Edge Q: 10.918, target: 11.258, error: 3.023% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5364E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9198E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.822959 TO TG2= 0.824777 @ NSTEP 3005 GFRAME TG2 MOMENTS CHECKSUM: 3.7543943000424D+03 --> plasma_hash("gframe"): TA= 8.247773E-01 NSTEP= 3006 Hash code: 12002669 ->PRGCHK: bdy curvature ratio at t= 8.2660E-01 seconds is: 4.8675E-02 % MHDEQ: TG1= 0.824777 ; TG2= 0.826595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.833E-06 FluxDiff MaxDT: 1.269E-01 Avg. GS error: 1.527E-02 Plasma Current: 8.958E+05, target: 8.960E+05, error: 0.022% Edge Q: 10.896, target: 11.244, error: 3.097% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4938E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9273E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.824777 TO TG2= 0.826595 @ NSTEP 3006 GFRAME TG2 MOMENTS CHECKSUM: 3.7547139673674D+03 --> plasma_hash("gframe"): TA= 8.265954E-01 NSTEP= 3007 Hash code: 87071901 ->PRGCHK: bdy curvature ratio at t= 8.2841E-01 seconds is: 4.9782E-02 % MHDEQ: TG1= 0.826595 ; TG2= 0.828414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.942E-06 FluxDiff MaxDT: 6.886E-02 Avg. GS error: 1.526E-02 Plasma Current: 8.962E+05, target: 8.964E+05, error: 0.020% Edge Q: 10.860, target: 11.220, error: 3.207% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6281E+00 SECONDS DATA R*BT AT EDGE: 5.8957E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9100E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.826595 TO TG2= 0.828414 @ NSTEP 3007 GFRAME TG2 MOMENTS CHECKSUM: 3.7532386115670D+03 %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.75063E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.74345E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.75049E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.74295E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.284136E-01 NSTEP= 3008 Hash code: 80734130 ->PRGCHK: bdy curvature ratio at t= 8.3023E-01 seconds is: 5.1099E-02 % MHDEQ: TG1= 0.828414 ; TG2= 0.830232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.639E-06 FluxDiff MaxDT: 6.534E-02 Avg. GS error: 1.528E-02 Plasma Current: 8.963E+05, target: 8.965E+05, error: 0.016% Edge Q: 10.824, target: 11.183, error: 3.215% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7691E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9010E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.828414 TO TG2= 0.830232 @ NSTEP 3008 GFRAME TG2 MOMENTS CHECKSUM: 3.7513424878997D+03 --> plasma_hash("gframe"): TA= 8.302318E-01 NSTEP= 3009 Hash code: 105761548 ->PRGCHK: bdy curvature ratio at t= 8.3205E-01 seconds is: 5.2458E-02 % MHDEQ: TG1= 0.830232 ; TG2= 0.832050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.563E-06 FluxDiff MaxDT: 6.673E-02 Avg. GS error: 1.532E-02 Plasma Current: 8.966E+05, target: 8.967E+05, error: 0.012% Edge Q: 10.786, target: 11.145, error: 3.214% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6991E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8964E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.830232 TO TG2= 0.832050 @ NSTEP 3009 GFRAME TG2 MOMENTS CHECKSUM: 3.7495240060088D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3010 TA= 8.32050E-01 CPU TIME= 9.18400E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.59013583333331 %check_save_state: izleft hours = 77.3411111111111 --> plasma_hash("gframe"): TA= 8.320500E-01 NSTEP= 3010 Hash code: 74222434 ->PRGCHK: bdy curvature ratio at t= 8.3387E-01 seconds is: 5.3399E-02 % MHDEQ: TG1= 0.832050 ; TG2= 0.833868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.675E-06 FluxDiff MaxDT: 9.772E-02 Avg. GS error: 1.534E-02 Plasma Current: 8.969E+05, target: 8.970E+05, error: 0.009% Edge Q: 10.760, target: 11.102, error: 3.081% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4483E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8948E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.832050 TO TG2= 0.833868 @ NSTEP 3010 GFRAME TG2 MOMENTS CHECKSUM: 3.7483571679084D+03 --> plasma_hash("gframe"): TA= 8.338682E-01 NSTEP= 3011 Hash code: 109675435 ->PRGCHK: bdy curvature ratio at t= 8.3569E-01 seconds is: 5.3849E-02 % MHDEQ: TG1= 0.833868 ; TG2= 0.835686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.548E-06 FluxDiff MaxDT: 1.537E-01 Avg. GS error: 1.538E-02 Plasma Current: 8.965E+05, target: 8.966E+05, error: 0.008% Edge Q: 10.759, target: 11.077, error: 2.872% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4132E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8797E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.833868 TO TG2= 0.835686 @ NSTEP 3011 GFRAME TG2 MOMENTS CHECKSUM: 3.7481625968598D+03 --> plasma_hash("gframe"): TA= 8.356864E-01 NSTEP= 3012 Hash code: 36201928 ->PRGCHK: bdy curvature ratio at t= 8.3750E-01 seconds is: 5.2736E-02 % MHDEQ: TG1= 0.835686 ; TG2= 0.837505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.042E-06 FluxDiff MaxDT: 6.805E-02 Avg. GS error: 1.543E-02 Plasma Current: 8.954E+05, target: 8.955E+05, error: 0.010% Edge Q: 10.804, target: 11.084, error: 2.530% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6446E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8888E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.835686 TO TG2= 0.837505 @ NSTEP 3012 GFRAME TG2 MOMENTS CHECKSUM: 3.7500256187725D+03 --> plasma_hash("gframe"): TA= 8.375045E-01 NSTEP= 3013 Hash code: 16905397 ->PRGCHK: bdy curvature ratio at t= 8.3932E-01 seconds is: 5.1376E-02 % MHDEQ: TG1= 0.837505 ; TG2= 0.839323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.668E-07 FluxDiff MaxDT: 5.613E-02 Avg. GS error: 1.549E-02 Plasma Current: 8.944E+05, target: 8.945E+05, error: 0.013% Edge Q: 10.855, target: 11.135, error: 2.517% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7928E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9018E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.837505 TO TG2= 0.839323 @ NSTEP 3013 GFRAME TG2 MOMENTS CHECKSUM: 3.7524795920840D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.28605E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.39669E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.39676E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.393227E-01 NSTEP= 3014 Hash code: 33859079 ->PRGCHK: bdy curvature ratio at t= 8.4114E-01 seconds is: 5.0100E-02 % MHDEQ: TG1= 0.839323 ; TG2= 0.841141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.189E-07 FluxDiff MaxDT: 6.019E-02 Avg. GS error: 1.554E-02 Plasma Current: 8.942E+05, target: 8.944E+05, error: 0.017% Edge Q: 10.894, target: 11.195, error: 2.693% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8142E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9216E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.839323 TO TG2= 0.841141 @ NSTEP 3014 GFRAME TG2 MOMENTS CHECKSUM: 3.7550866695907D+03 --> plasma_hash("gframe"): TA= 8.411409E-01 NSTEP= 3015 Hash code: 13111312 ->PRGCHK: bdy curvature ratio at t= 8.4296E-01 seconds is: 4.9319E-02 % MHDEQ: TG1= 0.841141 ; TG2= 0.842959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.004E-06 FluxDiff MaxDT: 7.249E-02 Avg. GS error: 1.552E-02 Plasma Current: 8.949E+05, target: 8.951E+05, error: 0.021% Edge Q: 10.912, target: 11.231, error: 2.847% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7431E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9407E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.841141 TO TG2= 0.842959 @ NSTEP 3015 GFRAME TG2 MOMENTS CHECKSUM: 3.7571645675578D+03 --> plasma_hash("gframe"): TA= 8.429591E-01 NSTEP= 3016 Hash code: 72546243 ->PRGCHK: bdy curvature ratio at t= 8.4478E-01 seconds is: 4.8941E-02 % MHDEQ: TG1= 0.842959 ; TG2= 0.844777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.293E-06 FluxDiff MaxDT: 7.156E-02 Avg. GS error: 1.546E-02 Plasma Current: 8.958E+05, target: 8.960E+05, error: 0.023% Edge Q: 10.921, target: 11.245, error: 2.881% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6909E+00 SECONDS DATA R*BT AT EDGE: 5.8947E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9472E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.842959 TO TG2= 0.844777 @ NSTEP 3016 GFRAME TG2 MOMENTS CHECKSUM: 3.7585504595151D+03 --> plasma_hash("gframe"): TA= 8.447773E-01 NSTEP= 3017 Hash code: 14036293 ->PRGCHK: bdy curvature ratio at t= 8.4660E-01 seconds is: 4.9932E-02 % MHDEQ: TG1= 0.844777 ; TG2= 0.846595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.246E-06 FluxDiff MaxDT: 1.617E-01 Avg. GS error: 1.533E-02 Plasma Current: 8.961E+05, target: 8.963E+05, error: 0.023% Edge Q: 10.908, target: 11.254, error: 3.079% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6799E+00 SECONDS DATA R*BT AT EDGE: 5.8947E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9397E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.844777 TO TG2= 0.846595 @ NSTEP 3017 GFRAME TG2 MOMENTS CHECKSUM: 3.7572068735766D+03 --> plasma_hash("gframe"): TA= 8.465954E-01 NSTEP= 3018 Hash code: 58913998 ->PRGCHK: bdy curvature ratio at t= 8.4841E-01 seconds is: 5.1146E-02 % MHDEQ: TG1= 0.846595 ; TG2= 0.848414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.629E-07 FluxDiff MaxDT: 1.622E-01 Avg. GS error: 1.526E-02 Plasma Current: 8.960E+05, target: 8.962E+05, error: 0.021% Edge Q: 10.898, target: 11.240, error: 3.043% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6665E+00 SECONDS DATA R*BT AT EDGE: 5.8951E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9232E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.846595 TO TG2= 0.848414 @ NSTEP 3018 GFRAME TG2 MOMENTS CHECKSUM: 3.7554311563278D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.28721E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.38216E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.38224E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.484136E-01 NSTEP= 3019 Hash code: 63398235 ->PRGCHK: bdy curvature ratio at t= 8.5023E-01 seconds is: 5.2395E-02 % MHDEQ: TG1= 0.848414 ; TG2= 0.850232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.726E-07 FluxDiff MaxDT: 1.153E-01 Avg. GS error: 1.525E-02 Plasma Current: 8.954E+05, target: 8.956E+05, error: 0.018% Edge Q: 10.896, target: 11.228, error: 2.952% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6594E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9170E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.848414 TO TG2= 0.850232 @ NSTEP 3019 GFRAME TG2 MOMENTS CHECKSUM: 3.7535828914382D+03 --> plasma_hash("gframe"): TA= 8.502318E-01 NSTEP= 3020 Hash code: 109526571 ->PRGCHK: bdy curvature ratio at t= 8.5205E-01 seconds is: 5.3159E-02 % MHDEQ: TG1= 0.850232 ; TG2= 0.852050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.793E-07 FluxDiff MaxDT: 1.206E-01 Avg. GS error: 1.522E-02 Plasma Current: 8.947E+05, target: 8.948E+05, error: 0.014% Edge Q: 10.904, target: 11.229, error: 2.892% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5465E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9133E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.850232 TO TG2= 0.852050 @ NSTEP 3020 GFRAME TG2 MOMENTS CHECKSUM: 3.7524468695383D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3021 TA= 8.52050E-01 CPU TIME= 9.15700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.60515944444478 %check_save_state: izleft hours = 77.3261111111111 --> plasma_hash("gframe"): TA= 8.520500E-01 NSTEP= 3021 Hash code: 10179895 ->PRGCHK: bdy curvature ratio at t= 8.5387E-01 seconds is: 5.3560E-02 % MHDEQ: TG1= 0.852050 ; TG2= 0.853868 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.062E-07 FluxDiff MaxDT: 1.002E-01 Avg. GS error: 1.520E-02 Plasma Current: 8.938E+05, target: 8.939E+05, error: 0.010% Edge Q: 10.918, target: 11.237, error: 2.841% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3311E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9188E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.852050 TO TG2= 0.853868 @ NSTEP 3021 GFRAME TG2 MOMENTS CHECKSUM: 3.7517782782015D+03 --> plasma_hash("gframe"): TA= 8.538682E-01 NSTEP= 3022 Hash code: 40201231 ->PRGCHK: bdy curvature ratio at t= 8.5569E-01 seconds is: 5.2307E-02 % MHDEQ: TG1= 0.853868 ; TG2= 0.855686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.414E-07 FluxDiff MaxDT: 8.574E-02 Avg. GS error: 1.518E-02 Plasma Current: 8.931E+05, target: 8.932E+05, error: 0.008% Edge Q: 10.946, target: 11.253, error: 2.728% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4992E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9404E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.853868 TO TG2= 0.855686 @ NSTEP 3022 GFRAME TG2 MOMENTS CHECKSUM: 3.7532940030670D+03 --> plasma_hash("gframe"): TA= 8.556864E-01 NSTEP= 3023 Hash code: 25305410 ->PRGCHK: bdy curvature ratio at t= 8.5750E-01 seconds is: 5.0958E-02 % MHDEQ: TG1= 0.855686 ; TG2= 0.857505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.444E-07 FluxDiff MaxDT: 8.816E-02 Avg. GS error: 1.514E-02 Plasma Current: 8.927E+05, target: 8.927E+05, error: 0.007% Edge Q: 10.969, target: 11.282, error: 2.774% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5917E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9617E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.855686 TO TG2= 0.857505 @ NSTEP 3023 GFRAME TG2 MOMENTS CHECKSUM: 3.7549182342714D+03 --> plasma_hash("gframe"): TA= 8.575045E-01 NSTEP= 3024 Hash code: 51157321 ->PRGCHK: bdy curvature ratio at t= 8.5932E-01 seconds is: 4.9643E-02 % MHDEQ: TG1= 0.857505 ; TG2= 0.859323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.486E-07 FluxDiff MaxDT: 9.810E-02 Avg. GS error: 1.511E-02 Plasma Current: 8.926E+05, target: 8.927E+05, error: 0.006% Edge Q: 10.987, target: 11.305, error: 2.816% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6055E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9662E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.857505 TO TG2= 0.859323 @ NSTEP 3024 GFRAME TG2 MOMENTS CHECKSUM: 3.7565911941077D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.47071E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.39670E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.39656E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.593227E-01 NSTEP= 3025 Hash code: 104272604 ->PRGCHK: bdy curvature ratio at t= 8.6114E-01 seconds is: 4.8880E-02 % MHDEQ: TG1= 0.859323 ; TG2= 0.861141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.607E-07 FluxDiff MaxDT: 8.649E-02 Avg. GS error: 1.507E-02 Plasma Current: 8.932E+05, target: 8.932E+05, error: 0.007% Edge Q: 10.995, target: 11.322, error: 2.887% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6638E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0077E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.859323 TO TG2= 0.861141 @ NSTEP 3025 GFRAME TG2 MOMENTS CHECKSUM: 3.7584340594902D+03 --> plasma_hash("gframe"): TA= 8.611409E-01 NSTEP= 3026 Hash code: 96074305 ->PRGCHK: bdy curvature ratio at t= 8.6296E-01 seconds is: 4.8433E-02 % MHDEQ: TG1= 0.861141 ; TG2= 0.862959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.293E-06 FluxDiff MaxDT: 4.948E-02 Avg. GS error: 1.500E-02 Plasma Current: 8.944E+05, target: 8.945E+05, error: 0.010% Edge Q: 10.993, target: 11.326, error: 2.942% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7138E+00 SECONDS DATA R*BT AT EDGE: 5.8954E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9967E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.861141 TO TG2= 0.862959 @ NSTEP 3026 GFRAME TG2 MOMENTS CHECKSUM: 3.7602729744002D+03 --> plasma_hash("gframe"): TA= 8.629591E-01 NSTEP= 3027 Hash code: 29433723 ->PRGCHK: bdy curvature ratio at t= 8.6478E-01 seconds is: 4.9656E-02 % MHDEQ: TG1= 0.862959 ; TG2= 0.864777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.740E-06 FluxDiff MaxDT: 4.060E-02 Avg. GS error: 1.492E-02 Plasma Current: 8.960E+05, target: 8.961E+05, error: 0.012% Edge Q: 10.984, target: 11.317, error: 2.939% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6334E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9792E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.862959 TO TG2= 0.864777 @ NSTEP 3027 GFRAME TG2 MOMENTS CHECKSUM: 3.7619346527483D+03 --> plasma_hash("gframe"): TA= 8.647773E-01 NSTEP= 3028 Hash code: 65295351 ->PRGCHK: bdy curvature ratio at t= 8.6660E-01 seconds is: 5.1007E-02 % MHDEQ: TG1= 0.864777 ; TG2= 0.866595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.054E-06 FluxDiff MaxDT: 4.393E-02 Avg. GS error: 1.489E-02 Plasma Current: 8.967E+05, target: 8.969E+05, error: 0.013% Edge Q: 10.987, target: 11.306, error: 2.818% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5529E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9855E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.864777 TO TG2= 0.866595 @ NSTEP 3028 GFRAME TG2 MOMENTS CHECKSUM: 3.7634578026514D+03 --> plasma_hash("gframe"): TA= 8.665954E-01 NSTEP= 3029 Hash code: 31449243 ->PRGCHK: bdy curvature ratio at t= 8.6841E-01 seconds is: 5.2452E-02 % MHDEQ: TG1= 0.866595 ; TG2= 0.868414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.820E-06 FluxDiff MaxDT: 6.500E-02 Avg. GS error: 1.500E-02 Plasma Current: 8.963E+05, target: 8.964E+05, error: 0.012% Edge Q: 11.007, target: 11.315, error: 2.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7420E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0229E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.866595 TO TG2= 0.868414 @ NSTEP 3029 GFRAME TG2 MOMENTS CHECKSUM: 3.7646468984543D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.46760E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.34788E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.34774E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.684136E-01 NSTEP= 3030 Hash code: 21353817 ->PRGCHK: bdy curvature ratio at t= 8.7023E-01 seconds is: 5.3608E-02 % MHDEQ: TG1= 0.868414 ; TG2= 0.870232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.230E-06 FluxDiff MaxDT: 1.491E-01 Avg. GS error: 1.512E-02 Plasma Current: 8.953E+05, target: 8.954E+05, error: 0.009% Edge Q: 11.027, target: 11.343, error: 2.781% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4564E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0726E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.868414 TO TG2= 0.870232 @ NSTEP 3030 GFRAME TG2 MOMENTS CHECKSUM: 3.7652812759571D+03 --> plasma_hash("gframe"): TA= 8.702318E-01 NSTEP= 3031 Hash code: 95464963 ->PRGCHK: bdy curvature ratio at t= 8.7205E-01 seconds is: 5.4596E-02 % MHDEQ: TG1= 0.870232 ; TG2= 0.872050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.424E-07 FluxDiff MaxDT: 1.689E-01 Avg. GS error: 1.519E-02 Plasma Current: 8.948E+05, target: 8.948E+05, error: 0.005% Edge Q: 11.036, target: 11.369, error: 2.934% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3303E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0401E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.870232 TO TG2= 0.872050 @ NSTEP 3031 GFRAME TG2 MOMENTS CHECKSUM: 3.7656072950449D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3032 TA= 8.72050E-01 CPU TIME= 1.02630E-02 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.61937916666693 %check_save_state: izleft hours = 77.3116666666667 --> plasma_hash("gframe"): TA= 8.720500E-01 NSTEP= 3032 Hash code: 79610631 ->PRGCHK: bdy curvature ratio at t= 8.7405E-01 seconds is: 5.4433E-02 % MHDEQ: TG1= 0.872050 ; TG2= 0.874046 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.531E-06 FluxDiff MaxDT: 1.497E-01 Avg. GS error: 1.513E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.002% Edge Q: 11.008, target: 11.374, error: 3.217% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3864E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0722E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.872050 TO TG2= 0.874046 @ NSTEP 3032 GFRAME TG2 MOMENTS CHECKSUM: 3.7648822752983D+03 --> plasma_hash("gframe"): TA= 8.740464E-01 NSTEP= 3033 Hash code: 2387552 ->PRGCHK: bdy curvature ratio at t= 8.7604E-01 seconds is: 5.4272E-02 % MHDEQ: TG1= 0.874046 ; TG2= 0.876043 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.951E-06 FluxDiff MaxDT: 1.198E-01 Avg. GS error: 1.512E-02 Plasma Current: 8.953E+05, target: 8.953E+05, error: 0.001% Edge Q: 10.983, target: 11.339, error: 3.138% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5930E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0543E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.874046 TO TG2= 0.876043 @ NSTEP 3033 GFRAME TG2 MOMENTS CHECKSUM: 3.7639543419250D+03 --> plasma_hash("gframe"): TA= 8.760429E-01 NSTEP= 3034 Hash code: 97284267 ->PRGCHK: bdy curvature ratio at t= 8.7804E-01 seconds is: 5.4115E-02 % MHDEQ: TG1= 0.876043 ; TG2= 0.878039 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.745E-06 FluxDiff MaxDT: 1.563E-01 Avg. GS error: 1.512E-02 Plasma Current: 8.951E+05, target: 8.950E+05, error: 0.004% Edge Q: 10.967, target: 11.314, error: 3.071% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3785E+00 SECONDS DATA R*BT AT EDGE: 5.8951E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0555E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.876043 TO TG2= 0.878039 @ NSTEP 3034 GFRAME TG2 MOMENTS CHECKSUM: 3.7629565784764D+03 --> plasma_hash("gframe"): TA= 8.780393E-01 NSTEP= 3035 Hash code: 33621469 ->PRGCHK: bdy curvature ratio at t= 8.8004E-01 seconds is: 5.4036E-02 % MHDEQ: TG1= 0.878039 ; TG2= 0.880036 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.700E-06 FluxDiff MaxDT: 8.124E-02 Avg. GS error: 1.521E-02 Plasma Current: 8.953E+05, target: 8.953E+05, error: 0.006% Edge Q: 10.951, target: 11.296, error: 3.052% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4810E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0482E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.878039 TO TG2= 0.880036 @ NSTEP 3035 GFRAME TG2 MOMENTS CHECKSUM: 3.7627893704778D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.46159E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.73162E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.20566E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.73148E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.20495E-38 RESET TO ZERO %splitn_update_check: writing update: 204112B61TR.TMP @ t= 0.880000000000000 -------------------------------- Namelist update: 204112B61TR.TMP namelist update changed APROF_AXIS_VALUE_NER from 8.70000000E+13 to 9.40000000E+13 namelist update changed APROF_COEFFS_NER( 1) from 1.18000000E+00 to 1.25000000E+00 ==> subroutine datchk_update: check namelist updates... %check_prof_a1: transition time defaulted. %DATCKA: ACfile times pre-screen... --> plasma_hash("gframe"): TA= 8.800357E-01 NSTEP= 3037 Hash code: 119338677 ->PRGCHK: bdy curvature ratio at t= 8.8203E-01 seconds is: 5.4039E-02 % MHDEQ: TG1= 0.880036 ; TG2= 0.882032 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.520E-06 FluxDiff MaxDT: 4.651E-02 Avg. GS error: 1.523E-02 Plasma Current: 8.959E+05, target: 8.958E+05, error: 0.007% Edge Q: 10.941, target: 11.273, error: 2.950% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5110E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0434E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.880036 TO TG2= 0.882032 @ NSTEP 3037 GFRAME TG2 MOMENTS CHECKSUM: 3.7635133905198D+03 --> plasma_hash("gframe"): TA= 8.820321E-01 NSTEP= 3039 Hash code: 94524995 ->PRGCHK: bdy curvature ratio at t= 8.8403E-01 seconds is: 5.4119E-02 % MHDEQ: TG1= 0.882032 ; TG2= 0.884029 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.104E-06 FluxDiff MaxDT: 9.309E-02 Avg. GS error: 1.536E-02 Plasma Current: 8.956E+05, target: 8.955E+05, error: 0.009% Edge Q: 10.951, target: 11.260, error: 2.743% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6226E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1133E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.882032 TO TG2= 0.884029 @ NSTEP 3039 GFRAME TG2 MOMENTS CHECKSUM: 3.7653986431682D+03 --> plasma_hash("gframe"): TA= 8.840286E-01 NSTEP= 3041 Hash code: 10744189 ->PRGCHK: bdy curvature ratio at t= 8.8602E-01 seconds is: 5.4201E-02 % MHDEQ: TG1= 0.884029 ; TG2= 0.886025 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.538E-06 FluxDiff MaxDT: 8.028E-02 Avg. GS error: 1.526E-02 Plasma Current: 8.951E+05, target: 8.950E+05, error: 0.010% Edge Q: 10.962, target: 11.284, error: 2.852% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5118E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1318E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.884029 TO TG2= 0.886025 @ NSTEP 3041 GFRAME TG2 MOMENTS CHECKSUM: 3.7666077765923D+03 --> plasma_hash("gframe"): TA= 8.860250E-01 NSTEP= 3043 Hash code: 117399829 ->PRGCHK: bdy curvature ratio at t= 8.8802E-01 seconds is: 5.4296E-02 % MHDEQ: TG1= 0.886025 ; TG2= 0.888021 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.757E-06 FluxDiff MaxDT: 7.829E-02 Avg. GS error: 1.522E-02 Plasma Current: 8.953E+05, target: 8.952E+05, error: 0.009% Edge Q: 10.969, target: 11.289, error: 2.836% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5086E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1416E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.886025 TO TG2= 0.888021 @ NSTEP 3043 GFRAME TG2 MOMENTS CHECKSUM: 3.7681708698911D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3043 TA= 8.86025E-01 CPU TIME= 1.03310E-02 SECONDS. DT= 1.15661E-03 --> plasma_hash("gframe"): TA= 8.880214E-01 NSTEP= 3045 Hash code: 110798419 ->PRGCHK: bdy curvature ratio at t= 8.9002E-01 seconds is: 5.4408E-02 % MHDEQ: TG1= 0.888021 ; TG2= 0.890018 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.702E-06 FluxDiff MaxDT: 8.591E-02 Avg. GS error: 1.519E-02 Plasma Current: 8.957E+05, target: 8.957E+05, error: 0.006% Edge Q: 10.977, target: 11.300, error: 2.859% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6027E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1363E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.888021 TO TG2= 0.890018 @ NSTEP 3045 GFRAME TG2 MOMENTS CHECKSUM: 3.7697964157526D+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", # 2= 6.29305E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 4.56530E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 1= -7.63248E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.56521E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -7.63209E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.900179E-01 NSTEP= 3047 Hash code: 9507049 ->PRGCHK: bdy curvature ratio at t= 8.9201E-01 seconds is: 5.4582E-02 % MHDEQ: TG1= 0.890018 ; TG2= 0.892014 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.665E-06 FluxDiff MaxDT: 9.020E-02 Avg. GS error: 1.529E-02 Plasma Current: 8.958E+05, target: 8.958E+05, error: 0.003% Edge Q: 11.012, target: 11.307, error: 2.613% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7713E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0999E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.890018 TO TG2= 0.892014 @ NSTEP 3047 GFRAME TG2 MOMENTS CHECKSUM: 3.7712996016427D+03 --> plasma_hash("gframe"): TA= 8.920143E-01 NSTEP= 3049 Hash code: 88757091 ->PRGCHK: bdy curvature ratio at t= 8.9401E-01 seconds is: 5.4777E-02 % MHDEQ: TG1= 0.892014 ; TG2= 0.894011 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.127E-06 FluxDiff MaxDT: 8.560E-02 Avg. GS error: 1.538E-02 Plasma Current: 8.959E+05, target: 8.959E+05, error: 0.001% Edge Q: 11.044, target: 11.355, error: 2.741% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7402E+00 SECONDS DATA R*BT AT EDGE: 5.8953E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1169E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.892014 TO TG2= 0.894011 @ NSTEP 3049 GFRAME TG2 MOMENTS CHECKSUM: 3.7727201286885D+03 --> plasma_hash("gframe"): TA= 8.940107E-01 NSTEP= 3051 Hash code: 9754326 ->PRGCHK: bdy curvature ratio at t= 8.9601E-01 seconds is: 5.4989E-02 % MHDEQ: TG1= 0.894011 ; TG2= 0.896007 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.448E-06 FluxDiff MaxDT: 9.440E-02 Avg. GS error: 1.544E-02 Plasma Current: 8.962E+05, target: 8.963E+05, error: 0.004% Edge Q: 11.078, target: 11.385, error: 2.700% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7529E+00 SECONDS DATA R*BT AT EDGE: 5.8948E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1526E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.894011 TO TG2= 0.896007 @ NSTEP 3051 GFRAME TG2 MOMENTS CHECKSUM: 3.7745920666947D+03 --> plasma_hash("gframe"): TA= 8.960071E-01 NSTEP= 3052 Hash code: 119520446 ->PRGCHK: bdy curvature ratio at t= 8.9800E-01 seconds is: 5.4814E-02 % MHDEQ: TG1= 0.896007 ; TG2= 0.898004 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.159E-06 FluxDiff MaxDT: 1.285E-01 Avg. GS error: 1.537E-02 Plasma Current: 8.968E+05, target: 8.968E+05, error: 0.005% Edge Q: 11.093, target: 11.431, error: 2.958% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6236E+00 SECONDS DATA R*BT AT EDGE: 5.8950E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1457E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.896007 TO TG2= 0.898004 @ NSTEP 3052 GFRAME TG2 MOMENTS CHECKSUM: 3.7750010638930D+03 --> plasma_hash("gframe"): TA= 8.980036E-01 NSTEP= 3053 Hash code: 39642547 ->PRGCHK: bdy curvature ratio at t= 9.0000E-01 seconds is: 5.4337E-02 % MHDEQ: TG1= 0.898004 ; TG2= 0.900000 ; DTG= 1.996E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.383E-06 FluxDiff MaxDT: 2.271E-01 Avg. GS error: 1.514E-02 Plasma Current: 8.974E+05, target: 8.975E+05, error: 0.007% Edge Q: 11.087, target: 11.440, error: 3.078% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5629E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1189E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.898004 TO TG2= 0.900000 @ NSTEP 3053 GFRAME TG2 MOMENTS CHECKSUM: 3.7740538287516D+03 %MFRCHK - LABEL "BALE0_SGF", # 2= 6.29687E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 4.56883E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 1= -7.63840E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.56875E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -7.63801E-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): 3.23028E+01 %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 0 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 11 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 12 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 25 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 26 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 28 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 31 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 1 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 5 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 6 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 9 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 27 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 29 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 30 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 2 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 3 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 4 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 7 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 10 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 13 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 14 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 15 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 16 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 17 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 18 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 19 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 20 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 21 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 22 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 23 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 24 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 (mpi_share_env) process myid= 8 cwd: /local/tr_rraman/transp_compute/NSTU/204112B61 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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) + 247 (dep) = 247 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 = 5 ==> 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 = 18 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 7 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 20 ==> 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 = 18 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 22 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 1 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 12 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.4957E+19 nbi_getprofiles ne*dvol sum (ions): 4.4957E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.559E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 22 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 = 1.558E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.568E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.556E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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: 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 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 -> 232 - 0 (killed) + 494 (dep) = 726 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 23 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 24 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 exited 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 = 15 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 1 %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_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_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_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): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6694E+19 nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6694E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 -> 586 - 0 (killed) + 396 (dep) = 982 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... orball... depall exited 0 orball... %cxline - vtor.gt.zvion; vtor,zvion = 2.459146E+08 2.453716E+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 = 14 ==> 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 11 ==> 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 = 3 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 9 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 24 exited 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 = 27 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 13 ==> 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 = 14 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 3 ==> 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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbi_getprofiles ne*dvol sum (input): 1.0333E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0333E+20 nbstart... %nbi_states: cpu 1 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 813 - 0 (killed) + 347 (dep) = 1160 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 = 1.944940E+08 1.944915E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.224076E+08 2.220963E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.328436E+08 2.324538E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.548426E+08 2.536973E+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 = 13 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 17 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 16 exited 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 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 8 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 4 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 4 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0807E+20 nbi_getprofiles ne*dvol sum (ions): 1.0807E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+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 23 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 889 - 0 (killed) + 427 (dep) = 1316 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 = 1.845593E+08 1.843946E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.440057E+08 1.439965E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.544770E+08 1.537460E+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 = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 11 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 20 exited 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 = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 28 ==> 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 = 16 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 31 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_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_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): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0727E+20 nbi_getprofiles ne*dvol sum (ions): 1.0727E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 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 = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 826 - 0 (killed) + 389 (dep) = 1215 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 = 1.723029E+08 1.721383E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.854591E+08 1.851393E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.035701E+08 2.012562E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.372327E+08 1.364406E+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 = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 17 ==> 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 = 22 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 4 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 27 ==> 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 = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 13 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbi_getprofiles ne*dvol sum (input): 1.1208E+20 nbi_getprofiles ne*dvol sum (ions): 1.1208E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.582E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 -> 688 - 0 (killed) + 429 (dep) = 1117 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 = 2.762399E+08 2.723482E+08 %cxline - vtor.gt.zvion; vtor,zvion = 2.260971E+08 2.259351E+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 = 12 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 28 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 26 exited 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 = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 21 ==> 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 = 27 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 8 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 7 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (input): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbi_getprofiles ne*dvol sum (ions): 1.1613E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+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 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 -> 535 - 0 (killed) + 504 (dep) = 1039 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 = 1.468911E+08 1.467363E+08 %orball: in processor 0: orbit # iorb= 30 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 24 nbfinish... entering outptb2 exited 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 = 24 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 30 ==> 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 = 23 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 18 ==> 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 = 12 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 4 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4238E+20 nbi_getprofiles ne*dvol sum (ions): 3.4238E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 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 = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 501 - 0 (killed) + 546 (dep) = 1047 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 5 ==> 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 24 ==> 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 = 26 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 10 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_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_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): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbi_getprofiles ne*dvol sum (input): 3.4131E+20 nbi_getprofiles ne*dvol sum (ions): 3.4131E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 360 - 0 (killed) + 640 (dep) = 1000 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... %orball: in processor 0: orbit # iorb= 21 never inside plasma. orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 20 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 21 exited 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 = 29 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> 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 = 23 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 4 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbi_getprofiles ne*dvol sum (input): 3.4266E+20 nbi_getprofiles ne*dvol sum (ions): 3.4266E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 -> 394 - 0 (killed) + 623 (dep) = 1017 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 12 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 exited 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 = 30 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 5 ==> 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 = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 20 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_alloc2: 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_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): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbi_getprofiles ne*dvol sum (input): 3.5072E+20 nbi_getprofiles ne*dvol sum (ions): 3.5072E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 453 - 0 (killed) + 592 (dep) = 1045 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 exited 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 = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 ==> 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 = 18 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 16 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 12 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_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_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6684E+20 nbi_getprofiles ne*dvol sum (ions): 3.6684E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 442 - 0 (killed) + 584 (dep) = 1026 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 3 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 4 ==> 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 = 30 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 26 exited 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 = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 29 ==> 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 = 22 ==> 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 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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_alloc2: ebb_rel_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_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_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): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbi_getprofiles ne*dvol sum (ions): 4.5644E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 7 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 = 1.596E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 385 - 0 (killed) + 615 (dep) = 1000 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 18 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 12 exited 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 = 16 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; 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_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): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbi_getprofiles ne*dvol sum (input): 4.6896E+20 nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6896E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 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 = 1.596E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %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 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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: 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 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 -> 313 - 0 (killed) + 687 (dep) = 1000 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 24 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 17 exited 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 = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 25 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 15 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_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): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbi_getprofiles ne*dvol sum (input): 4.6241E+20 nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6241E+20 nbstart... %nbi_states: cpu 1 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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: 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 -> 362 - 0 (killed) + 666 (dep) = 1028 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 26 exited 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 = 7 ==> entering nubeam_step_child, mpi myidd = 22 ==> 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 = 14 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 10 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6188E+20 nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6188E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 425 - 0 (killed) + 683 (dep) = 1108 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 20 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 26 exited 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 = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> 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 = 25 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> 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 = 28 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 1 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6502E+20 nbi_getprofiles ne*dvol sum (ions): 4.6502E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 497 - 0 (killed) + 598 (dep) = 1095 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 24 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 3 ==> 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 26 exited 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 = 22 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2692E+20 nbi_getprofiles ne*dvol sum (ions): 5.2692E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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: 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: 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) + 564 (dep) = 1045 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 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 exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 24 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 7 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2868E+20 nbi_getprofiles ne*dvol sum (ions): 5.2868E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 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 = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 369 - 0 (killed) + 631 (dep) = 1000 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 17 exited 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 = 29 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 20 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_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_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_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): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2364E+20 nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2364E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 = 1.600E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 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 = 1.601E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+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 29 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 = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+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 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 376 - 0 (killed) + 632 (dep) = 1008 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 20 exited 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 = 31 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 26 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 21 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbi_getprofiles ne*dvol sum (input): 5.2599E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2599E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 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 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+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 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+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 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 437 - 0 (killed) + 593 (dep) = 1030 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 30 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 3 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 16 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 22 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (input): 5.2729E+20 nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2729E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 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 = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 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 = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+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 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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: 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 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 -> 402 - 0 (killed) + 598 (dep) = 1000 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 depall exited 0 orball... 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 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 18 exited 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 = 1 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 10 %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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbi_getprofiles ne*dvol sum (input): 5.7260E+20 nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7260E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 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 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+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 = 1.599E+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 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 380 - 0 (killed) + 620 (dep) = 1000 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 = 1.240009E+08 1.238337E+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 = 23 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 13 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 1 ==> 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 = 21 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 12 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 24 ==> 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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbi_getprofiles ne*dvol sum (ions): 5.6792E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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: 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: 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 -> 409 - 0 (killed) + 602 (dep) = 1011 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 12 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 16 exited 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 = 11 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 25 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; 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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbi_getprofiles ne*dvol sum (input): 5.6841E+20 nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.6841E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+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 = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+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 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 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 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 398 - 0 (killed) + 603 (dep) = 1001 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 orball... depall exited 0 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... 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 25 exited 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 = 28 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 16 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 26 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; 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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbi_getprofiles ne*dvol sum (input): 5.7678E+20 nbi_getprofiles ne*dvol sum (ions): 5.7678E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+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 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 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 = 1.598E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 -> 393 - 0 (killed) + 607 (dep) = 1000 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 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 exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 25 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 15 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 27 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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_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): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbi_getprofiles ne*dvol sum (input): 5.7843E+20 nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7843E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+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 = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+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 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 351 - 0 (killed) + 649 (dep) = 1000 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 26 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> 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 = 29 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 16 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 28 ==> entering nubeam_step_child, mpi myidd = 0 ==> entering nubeam_step_child, mpi myidd = 4 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.9961E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.9961E+20 nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 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 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 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 = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 412 - 0 (killed) + 616 (dep) = 1028 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 26 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 5 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+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: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 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 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_nbi_fld_ state.cdf %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 20 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 29 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; 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_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): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbi_getprofiles ne*dvol sum (input): 6.0738E+20 nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0738E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 13 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 = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 18 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 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+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 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 392 - 0 (killed) + 615 (dep) = 1007 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 18 exited 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 = 13 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 29 ==> 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 = 22 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 30 ==> 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_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0826E+20 nbi_getprofiles ne*dvol sum (ions): 6.0826E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 19 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 = 1.599E+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 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 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 = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 27 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 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 346 - 0 (killed) + 654 (dep) = 1000 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 3 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 29 ==> 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 = 9 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 18 nbfinish... entering outptb2 exited 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 = 19 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 18 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 31 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0741E+20 nbi_getprofiles ne*dvol sum (ions): 6.0741E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+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 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 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 10 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 = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 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 = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 392 - 0 (killed) + 630 (dep) = 1022 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 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 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... 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 = 24 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 31 ==> 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 28 ==> 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 10 exited 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 = 29 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 8 ==> 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 = 3 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 32 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0935E+20 nbi_getprofiles ne*dvol sum (ions): 6.0935E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 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 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 = 1.613E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 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 -> 363 - 0 (killed) + 637 (dep) = 1000 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 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 = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 29 ==> 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 = 3 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 14 nbfinish... entering outptb2 exited 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 = 7 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 33 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2748E+20 nbi_getprofiles ne*dvol sum (ions): 6.2748E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 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 = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 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 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.614E+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 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+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 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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 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 -> 383 - 0 (killed) + 627 (dep) = 1010 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 20 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> 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 = 23 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 18 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 34 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2578E+20 nbi_getprofiles ne*dvol sum (ions): 6.2578E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %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 2 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+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 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 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 = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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: 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 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 -> 366 - 0 (killed) + 636 (dep) = 1002 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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> 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 = 7 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 11 exited 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 = 21 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 12 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 35 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2728E+20 nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2728E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %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 2 virtual memory size = 1.600E+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 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+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 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 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 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 13 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 = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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: 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 -> 372 - 0 (killed) + 629 (dep) = 1001 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 6 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 16 exited 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 = 11 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 1 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 36 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_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_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_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2691E+20 nbi_getprofiles ne*dvol sum (ions): 6.2691E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 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 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 14 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 = 1.600E+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 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 -> 360 - 0 (killed) + 640 (dep) = 1000 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 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.289615E+08 1.276739E+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 = 13 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 12 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 26 ==> 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 = 4 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 14 ==> 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 15 exited 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 = 10 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 9 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 37 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: 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_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): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2997E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2997E+20 nbstart... nbstart... nbstart... %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 = 1.613E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 19 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 7 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+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 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B61_fi/204112B61_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: 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: 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 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 -> 368 - 0 (killed) + 706 (dep) = 1074 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 29 ==> exiting nubeam_step_child, mpi myidd = 21 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> 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 = 11 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 30 ==> 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 = 2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 1 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 trmpi_listener: service request "EXIT" on cpu# 22 trmpi_listener: service request "EXIT" on cpu# 28 trmpi_listener: service request "EXIT" on cpu# 13 trmpi_listener: service request "EXIT" on cpu# 11 trmpi_listener: service request "EXIT" on cpu# 14 trmpi_listener: service request "EXIT" on cpu# 30 trmpi_listener: service request "EXIT" on cpu# 3 trmpi_listener: service request "EXIT" on cpu# 19 trmpi_listener: service request "EXIT" on cpu# 8 trmpi_listener: service request "EXIT" on cpu# 29 trmpi_listener: service request "EXIT" on cpu# 7 trmpi_listener: service request "EXIT" on cpu# 31 trmpi_listener: service request "EXIT" on cpu# 6 trmpi_listener: service request "EXIT" on cpu# 21 trmpi_listener: service request "EXIT" on cpu# 5 trmpi_listener: service request "EXIT" on cpu# 24 trmpi_listener: service request "EXIT" on cpu# 27 trmpi_listener: service request "EXIT" on cpu# 12 trmpi_listener: service request "EXIT" on cpu# 18 trmpi_listener: service request "EXIT" on cpu# 2 trmpi_listener: service request "EXIT" on cpu# 17 trmpi_listener: service request "EXIT" on cpu# 10 trmpi_listener: service request "EXIT" on cpu# 15 trmpi_listener: service request "EXIT" on cpu# 4 trmpi_listener: service request "EXIT" on cpu# 1 trmpi_listener: service request "EXIT" on cpu# 9 trmpi_listener: service request "EXIT" on cpu# 26 trmpi_listener: service request "EXIT" on cpu# 20 trmpi_listener: service request "EXIT" on cpu# 16 trmpi_listener: service request "EXIT" on cpu# 25 trmpi_listener: service request "EXIT" on cpu# 23 ==>runtrx: TRANSP run successful ==========(runtrx)====================== ==========TRANSP output conversion====== date: Fri Aug 29 16:48:42 EDT 2025 ( mccune002.pppl.gov ) ==========(runtrx)====================== srart tr_finish_mpi.pl false pppl.gov 204112B61 NSTU ---------------> starting: plotcon 204112B61 2025/08/29:16:48:42 %initcpl: MDS_CACHE enabled. %PoPlot -- reading .PLN files %POPLT2-- PROCESSING RUN 204112B61 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 204112B61MF.PLN size = 138M %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 Aug 29 16:48:51 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: 822121 avg & max steps: 1.8234E-03 8.0116E-02 #decreasing steps: 592263 avg & max steps: 2.5210E-03 1.3316E-01 #zero steps: 16 B_FIELD 12 1136 49923 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 2443287 avg & max steps: 3.2069E-02 3.9428E+00 #decreasing steps: 1800055 avg & max steps: 4.3517E-02 5.9241E+00 #zero steps: 28 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/204112B61 /local/tr_rraman/transp_compute/NSTU/204112B61/204112B61.CDF /local/tr_rraman/transp_compute/NSTU/204112B61/204112B61PH.CDF %targz_pseq: no directory: 204112B61_replay (normal exit) %targz_solv: in /local/tr_rraman/transp_compute/NSTU/204112B61 on host mccune002 %targz_solv: no TGLF debug info found (normal exit) %targz_solv: no TGLF debug info found (normal exit) --------------->plotcon: normal exit. 2025/08/29:16:48:52 ==>runtrx: TRANSP postprocessing OK ==========(runtrx)====================== ==========TRANSP add to MDSplus ======== date: Fri Aug 29 16:48:52 EDT 2025 ( mccune002.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 2041120261 TRANSP_NSTU ...connecting to server: TRANSPGRID.PPPL.GOV ...tcl("EDIT TRANSP_NSTU/SHOT=2041120261") 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 204112B61_nubeam_init.dat add_file: 160 lines - 80 delete node .TRDATA tcl("write") ...mdsplot: normal exit. ==========(runtrx)====================== ==========TRANSP finish and cleanup===== date: Fri Aug 29 16:49:59 EDT 2025 ( mccune002.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 204112B61.CDF /u/tr_rraman/transp/result/NSTU.16/204112B61.CDF mv 204112B61ex.for /u/tr_rraman/transp/result/NSTU.16/204112B61ex.for mv 204112B61_mmm.nml /u/tr_rraman/transp/result/NSTU.16/204112B61_mmm.nml mv 204112B61_nubeam_init.dat /u/tr_rraman/transp/result/NSTU.16/204112B61_nubeam_init.dat mv 204112B61PH.CDF /u/tr_rraman/transp/result/NSTU.16/204112B61PH.CDF mv 204112B61_pt.nml /u/tr_rraman/transp/result/NSTU.16/204112B61_pt.nml mv 204112B61TR.DAT /u/tr_rraman/transp/result/NSTU.16/204112B61TR.DAT mv 204112B61TR.INF /u/tr_rraman/transp/result/NSTU.16/204112B61TR.INF %finishup: retaining 204112B61tr.log mv 204112B61TR.MSG /u/tr_rraman/transp/result/NSTU.16/204112B61TR.MSG mv 204112B61.yml /u/tr_rraman/transp/result/NSTU.16/204112B61.yml rm: No match. %finishup -I- both the GRID and the PPPL flags are set. /l/transpgrid/pshare/qshare/204112B61_NSTU.qarc status 0 ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Fri Aug 29 16:50:01 EDT 2025 ( mccune002.pppl.gov ) ==========>runtrx runsite = pppl.gov<======