==>runtrx start: date: Fri Aug 29 14:09:41 EDT 2025 ( mccune004.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = NSTU.16 ==========(runtrx)====================== date: Fri Aug 29 14:09:41 EDT 2025 ( mccune004.pppl.gov ) args: 204112B62 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Fri Aug 29 14:09:41 EDT 2025 ( mccune004.pppl.gov ) --> copy_expert_for: standard expert source copied to: 204112B62ex.for --> copy_expert_for: up-to-date expert object copied to: 204112B62ex.o **** uplink 204112B62tr 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/204112B62/204112B62ex.o' is up to date. csh -f /local/tr_rraman/transp_compute/NSTU/204112B62/204112B62tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Fri Aug 29 14:13:30 EDT 2025 ( mccune004.pppl.gov ) ==========(runtrx)====================== runtrx: Check File System runtrx: mpirun_option= true found proclist.dat %shell_server_exec: Testing file system ... %shell_server_exec: runid = 204112B62 %shell_server_exec: dir0 = /local/tr_rraman/transp_compute/NSTU/204112B62 %shell_server_exec: dirN = /local/tr_rraman/transp_compute/NSTU/204112B62 %shell_server_exec: testfile = 204112B62_31808_test.dat %shell_server_exec: parallel file system, only one node mccune004.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/mccune004/tr_rraman/transp_compute/NSTU/204112B62/204112B62TR.EXE 204112B62 ... %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 14:13:31 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 file204112B62TR.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 = 0.254 %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 - 1024240129 1024240129 %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= 1.39440E-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 = 0.266 %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: 9.101E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.005% Edge Q: 28.279, target: 18.779, error: 50.587% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4171E+01 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5876E-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: 5.620E-03 Plasma Current: 2.313E+05, target: 2.224E+05, error: 4.012% Edge Q: 29.183, target: 18.779, error: 55.401% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.1383E+02 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 8.1941E-02 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-2.93051E-02 CPU TIME= 4.50400E-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: 7.393E-03 Plasma Current: 1.639E+05, target: 2.154E+05, error: 23.943% Edge Q: 21.474, target: 32.074, error: 33.048% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7793E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4471E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012017447833 34.6558541805193 R2(t%rmajmp, data): 146.640782386149 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012017447833 34.6558541805193 R2(t%rmajmp, data): 146.640782386149 146.512661871317 (fixup applied). %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012017447833 34.6558541805193 R2(t%rmajmp, data): 146.640782386149 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): 31.5012017447833 34.6558541805193 R2(t%rmajmp, data): 146.640782386149 146.512661871317 (fixup applied). Avg. GS error: 7.055E-03 Plasma Current: 1.802E+05, target: 2.224E+05, error: 18.993% Edge Q: 21.449, target: 32.074, error: 33.125% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9949E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5024E-01 %tdb_profin: t%rmajmp and input data major radius grids not matched: R1(t%rmajmp, data): 31.5012455012442 34.6558541805193 R2(t%rmajmp, data): 147.168734291143 146.512661871317 (fixup applied). *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA=-9.30505E-03 CPU TIME= 4.52900E-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: 5.158E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.001% Edge Q: 18.126, target: 17.404, error: 4.147% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.3379E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5806E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.761E-03 Plasma Current: 2.224E+05, target: 2.224E+05, error: 0.003% Edge Q: 17.302, target: 17.404, error: 0.587% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5423E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5415E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 1.06949E-02 CPU TIME= 4.50800E-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: 4.971E-03 Plasma Current: 2.154E+05, target: 2.154E+05, error: 0.002% Edge Q: 17.673, target: 17.461, error: 1.219% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4711E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5473E-01 % MHDEQ: TG1= 0.050000 ; TG2= 0.052200 ; DTG= 2.200E-03 *** Isolver *** Avg. GS error: 4.831E-03 Plasma Current: 2.224E+05, target: 2.224E+05, error: 0.004% Edge Q: 17.384, target: 17.461, error: 0.437% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4757E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5357E-01 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 3.06949E-02 CPU TIME= 4.56500E-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= 7.01600E-03 SECONDS. DT= 1.00000E-03 %check_save_state: SLURM_JOB_ID = 6993139 %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 = 4.172194444436172E-002 %check_save_state: izleft hours = 79.8905555555556 %wrstf: start call wrstf. %wrstf: open new restart file:204112B62RS.DAT %wrstf: open204112B62RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B62_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 = 1.891E+03 MB. --> plasma_hash("gframe"): TA= 5.000000E-02 NSTEP= 1 Hash code: 95763462 ->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: 3.131E-03 Plasma Current: 2.167E+05, target: 2.167E+05, error: 0.001% Edge Q: 17.568, target: 17.763, error: 1.095% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8103E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5385E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050000 TO TG2= 0.050392 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 3.3141640385790D+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 --> plasma_hash("gframe"): TA= 5.039216E-02 NSTEP= 2 Hash code: 17853588 ->PRGCHK: bdy curvature ratio at t= 5.0689E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050392 ; TG2= 0.050689 ; DTG= 2.971E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.522E-07 FluxDiff MaxDT: 3.651E-04 Avg. GS error: 3.287E-03 Plasma Current: 2.177E+05, target: 2.177E+05, error: 0.000% Edge Q: 17.715, target: 17.536, error: 1.019% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7333E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5494E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050392 TO TG2= 0.050689 @ NSTEP 2 GFRAME TG2 MOMENTS CHECKSUM: 3.3215440709931D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2 TA= 5.03922E-02 CPU TIME= 7.18700E-03 SECONDS. DT= 2.97089E-04 --> plasma_hash("gframe"): TA= 5.068925E-02 NSTEP= 3 Hash code: 87227601 ->PRGCHK: bdy curvature ratio at t= 5.1017E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.050689 ; TG2= 0.051017 ; DTG= 3.273E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.011E-06 FluxDiff MaxDT: 7.627E-04 Avg. GS error: 4.114E-03 Plasma Current: 2.187E+05, target: 2.187E+05, error: 0.001% Edge Q: 18.148, target: 17.977, error: 0.948% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7163E+00 SECONDS DATA R*BT AT EDGE: 5.9044E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5123E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.050689 TO TG2= 0.051017 @ NSTEP 3 GFRAME TG2 MOMENTS CHECKSUM: 3.3367953033001D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 3 TA= 5.06892E-02 CPU TIME= 7.15700E-03 SECONDS. DT= 3.27301E-04 --> plasma_hash("gframe"): TA= 5.101655E-02 NSTEP= 4 Hash code: 62811316 ->PRGCHK: bdy curvature ratio at t= 5.1695E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.051017 ; TG2= 0.051695 ; DTG= 6.780E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.465E-07 FluxDiff MaxDT: 1.751E-03 Avg. GS error: 3.832E-03 Plasma Current: 2.209E+05, target: 2.209E+05, error: 0.001% Edge Q: 18.061, target: 18.035, error: 0.141% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5009E+00 SECONDS DATA R*BT AT EDGE: 5.9046E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5129E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.051017 TO TG2= 0.051695 @ NSTEP 4 GFRAME TG2 MOMENTS CHECKSUM: 3.3427544526277D+03 --> plasma_hash("gframe"): TA= 5.169453E-02 NSTEP= 5 Hash code: 93273099 ->PRGCHK: bdy curvature ratio at t= 5.2610E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.051695 ; TG2= 0.052610 ; DTG= 9.153E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.364E-07 FluxDiff MaxDT: 1.200E-03 Avg. GS error: 3.898E-03 Plasma Current: 2.236E+05, target: 2.236E+05, error: 0.001% Edge Q: 17.844, target: 18.318, error: 2.586% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6678E+00 SECONDS DATA R*BT AT EDGE: 5.9048E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5205E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.051695 TO TG2= 0.052610 @ NSTEP 5 GFRAME TG2 MOMENTS CHECKSUM: 3.3449388908347D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 5 TA= 5.16945E-02 CPU TIME= 7.20600E-03 SECONDS. DT= 9.15274E-04 --> plasma_hash("gframe"): TA= 5.260980E-02 NSTEP= 6 Hash code: 88549668 ->PRGCHK: bdy curvature ratio at t= 5.3769E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.052610 ; TG2= 0.053769 ; DTG= 1.159E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.137E-07 FluxDiff MaxDT: 9.363E-04 Avg. GS error: 3.509E-03 Plasma Current: 2.272E+05, target: 2.272E+05, error: 0.001% Edge Q: 17.592, target: 17.824, error: 1.305% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4819E+00 SECONDS DATA R*BT AT EDGE: 5.9049E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5348E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.052610 TO TG2= 0.053769 @ NSTEP 6 GFRAME TG2 MOMENTS CHECKSUM: 3.3466938713376D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 6 TA= 5.26098E-02 CPU TIME= 7.20400E-03 SECONDS. DT= 1.00000E-03 --> plasma_hash("gframe"): TA= 5.376915E-02 NSTEP= 8 Hash code: 99616006 ->PRGCHK: bdy curvature ratio at t= 5.4671E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.053769 ; TG2= 0.054671 ; DTG= 9.017E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.729E-06 FluxDiff MaxDT: 8.596E-04 Avg. GS error: 3.438E-03 Plasma Current: 2.298E+05, target: 2.298E+05, error: 0.001% Edge Q: 17.434, target: 17.773, error: 1.902% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3821E+00 SECONDS DATA R*BT AT EDGE: 5.9048E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5414E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.053769 TO TG2= 0.054671 @ NSTEP 8 GFRAME TG2 MOMENTS CHECKSUM: 3.3488733980588D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 8 TA= 5.37691E-02 CPU TIME= 7.20300E-03 SECONDS. DT= 9.01714E-04 --> plasma_hash("gframe"): TA= 5.467086E-02 NSTEP= 9 Hash code: 95042001 ->PRGCHK: bdy curvature ratio at t= 5.5522E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.054671 ; TG2= 0.055522 ; DTG= 8.516E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.752E-07 FluxDiff MaxDT: 8.498E-04 Avg. GS error: 3.424E-03 Plasma Current: 2.321E+05, target: 2.321E+05, error: 0.000% Edge Q: 17.294, target: 17.431, error: 0.785% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3036E+00 SECONDS DATA R*BT AT EDGE: 5.9047E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5499E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.054671 TO TG2= 0.055522 @ NSTEP 9 GFRAME TG2 MOMENTS CHECKSUM: 3.3502853406692D+03 --> plasma_hash("gframe"): TA= 5.552248E-02 NSTEP= 10 Hash code: 25353552 ->PRGCHK: bdy curvature ratio at t= 5.6327E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.055522 ; TG2= 0.056327 ; DTG= 8.043E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.100E-06 FluxDiff MaxDT: 8.664E-04 Avg. GS error: 3.418E-03 Plasma Current: 2.341E+05, target: 2.341E+05, error: 0.001% Edge Q: 17.186, target: 17.458, error: 1.560% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3239E+00 SECONDS DATA R*BT AT EDGE: 5.9044E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5549E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.055522 TO TG2= 0.056327 @ NSTEP 10 GFRAME TG2 MOMENTS CHECKSUM: 3.3517185867182D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 10 TA= 5.55225E-02 CPU TIME= 7.22200E-03 SECONDS. DT= 8.04307E-04 --> plasma_hash("gframe"): TA= 5.632679E-02 NSTEP= 11 Hash code: 86166982 ->PRGCHK: bdy curvature ratio at t= 5.7181E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.056327 ; TG2= 0.057181 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.154E-07 FluxDiff MaxDT: 8.907E-04 Avg. GS error: 3.355E-03 Plasma Current: 2.363E+05, target: 2.363E+05, error: 0.000% Edge Q: 17.064, target: 17.182, error: 0.686% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3234E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5622E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.056327 TO TG2= 0.057181 @ NSTEP 11 GFRAME TG2 MOMENTS CHECKSUM: 3.3529035839568D+03 --> plasma_hash("gframe"): TA= 5.718136E-02 NSTEP= 12 Hash code: 7428241 ->PRGCHK: bdy curvature ratio at t= 5.8036E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.057181 ; TG2= 0.058036 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.223E-06 FluxDiff MaxDT: 8.953E-04 Avg. GS error: 3.340E-03 Plasma Current: 2.385E+05, target: 2.385E+05, error: 0.001% Edge Q: 16.953, target: 17.222, error: 1.560% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3104E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5681E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.057181 TO TG2= 0.058036 @ NSTEP 12 GFRAME TG2 MOMENTS CHECKSUM: 3.3543352791588D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 12 TA= 5.71814E-02 CPU TIME= 7.27400E-03 SECONDS. DT= 8.54576E-04 --> plasma_hash("gframe"): TA= 5.803594E-02 NSTEP= 13 Hash code: 49641309 ->PRGCHK: bdy curvature ratio at t= 5.8891E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.058036 ; TG2= 0.058891 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.060E-06 FluxDiff MaxDT: 9.116E-04 Avg. GS error: 3.273E-03 Plasma Current: 2.406E+05, target: 2.406E+05, error: 0.000% Edge Q: 16.839, target: 16.951, error: 0.659% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3132E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5756E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.058036 TO TG2= 0.058891 @ NSTEP 13 GFRAME TG2 MOMENTS CHECKSUM: 3.3556252788439D+03 --> plasma_hash("gframe"): TA= 5.889051E-02 NSTEP= 14 Hash code: 88549221 ->PRGCHK: bdy curvature ratio at t= 5.9745E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.058891 ; TG2= 0.059745 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.263E-06 FluxDiff MaxDT: 9.037E-04 Avg. GS error: 3.285E-03 Plasma Current: 2.429E+05, target: 2.429E+05, error: 0.001% Edge Q: 16.728, target: 16.991, error: 1.545% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3135E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5828E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.058891 TO TG2= 0.059745 @ NSTEP 14 GFRAME TG2 MOMENTS CHECKSUM: 3.3570026027333D+03 --> plasma_hash("gframe"): TA= 5.974509E-02 NSTEP= 15 Hash code: 58740585 ->PRGCHK: bdy curvature ratio at t= 6.0600E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.059745 ; TG2= 0.060600 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.315E-06 FluxDiff MaxDT: 8.887E-04 Avg. GS error: 3.218E-03 Plasma Current: 2.453E+05, target: 2.453E+05, error: 0.001% Edge Q: 16.605, target: 16.728, error: 0.737% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3199E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5907E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.059745 TO TG2= 0.060600 @ NSTEP 15 GFRAME TG2 MOMENTS CHECKSUM: 3.3583336514812D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 15 TA= 5.97451E-02 CPU TIME= 7.22100E-03 SECONDS. DT= 8.54576E-04 --> plasma_hash("gframe"): TA= 6.059967E-02 NSTEP= 16 Hash code: 33242796 ->PRGCHK: bdy curvature ratio at t= 6.1454E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.060600 ; TG2= 0.061454 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.483E-06 FluxDiff MaxDT: 8.824E-04 Avg. GS error: 3.234E-03 Plasma Current: 2.478E+05, target: 2.478E+05, error: 0.001% Edge Q: 16.487, target: 16.750, error: 1.569% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3484E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5938E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.060600 TO TG2= 0.061454 @ NSTEP 16 GFRAME TG2 MOMENTS CHECKSUM: 3.3597641209314D+03 --> plasma_hash("gframe"): TA= 6.145424E-02 NSTEP= 17 Hash code: 32238772 ->PRGCHK: bdy curvature ratio at t= 6.2309E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.061454 ; TG2= 0.062309 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.551E-06 FluxDiff MaxDT: 8.903E-04 Avg. GS error: 3.148E-03 Plasma Current: 2.502E+05, target: 2.502E+05, error: 0.001% Edge Q: 16.367, target: 16.490, error: 0.745% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3147E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5994E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.061454 TO TG2= 0.062309 @ NSTEP 17 GFRAME TG2 MOMENTS CHECKSUM: 3.3609911573247D+03 --> plasma_hash("gframe"): TA= 6.230882E-02 NSTEP= 18 Hash code: 103323518 ->PRGCHK: bdy curvature ratio at t= 6.3163E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.062309 ; TG2= 0.063163 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.594E-06 FluxDiff MaxDT: 9.059E-04 Avg. GS error: 3.171E-03 Plasma Current: 2.525E+05, target: 2.525E+05, error: 0.001% Edge Q: 16.259, target: 16.508, error: 1.513% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3404E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6015E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.062309 TO TG2= 0.063163 @ NSTEP 18 GFRAME TG2 MOMENTS CHECKSUM: 3.3621341915127D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 18 TA= 6.23088E-02 CPU TIME= 7.19500E-03 SECONDS. DT= 8.54576E-04 --> plasma_hash("gframe"): TA= 6.316339E-02 NSTEP= 19 Hash code: 71651647 ->PRGCHK: bdy curvature ratio at t= 6.4018E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.063163 ; TG2= 0.064018 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.607E-06 FluxDiff MaxDT: 9.202E-04 Avg. GS error: 3.101E-03 Plasma Current: 2.548E+05, target: 2.548E+05, error: 0.001% Edge Q: 16.148, target: 16.265, error: 0.717% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3125E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6051E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.063163 TO TG2= 0.064018 @ NSTEP 19 GFRAME TG2 MOMENTS CHECKSUM: 3.3632163285750D+03 --> plasma_hash("gframe"): TA= 6.401797E-02 NSTEP= 20 Hash code: 27711048 ->PRGCHK: bdy curvature ratio at t= 6.4873E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.064018 ; TG2= 0.064873 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.637E-06 FluxDiff MaxDT: 9.460E-04 Avg. GS error: 3.129E-03 Plasma Current: 2.569E+05, target: 2.569E+05, error: 0.001% Edge Q: 16.051, target: 16.286, error: 1.440% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3202E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6081E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.064018 TO TG2= 0.064873 @ NSTEP 20 GFRAME TG2 MOMENTS CHECKSUM: 3.3642006578366D+03 --> plasma_hash("gframe"): TA= 6.487254E-02 NSTEP= 21 Hash code: 14227392 ->PRGCHK: bdy curvature ratio at t= 6.5727E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.064873 ; TG2= 0.065727 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.633E-06 FluxDiff MaxDT: 9.682E-04 Avg. GS error: 3.078E-03 Plasma Current: 2.590E+05, target: 2.590E+05, error: 0.001% Edge Q: 15.953, target: 16.060, error: 0.667% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3158E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6124E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.064873 TO TG2= 0.065727 @ NSTEP 21 GFRAME TG2 MOMENTS CHECKSUM: 3.3650745962958D+03 --> plasma_hash("gframe"): TA= 6.572712E-02 NSTEP= 22 Hash code: 50873172 ->PRGCHK: bdy curvature ratio at t= 6.6582E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.065727 ; TG2= 0.066582 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.663E-06 FluxDiff MaxDT: 9.852E-04 Avg. GS error: 3.108E-03 Plasma Current: 2.610E+05, target: 2.610E+05, error: 0.001% Edge Q: 15.862, target: 16.087, error: 1.393% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3204E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6152E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.065727 TO TG2= 0.066582 @ NSTEP 22 GFRAME TG2 MOMENTS CHECKSUM: 3.3658861841734D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 22 TA= 6.57271E-02 CPU TIME= 7.16800E-03 SECONDS. DT= 8.54576E-04 --> plasma_hash("gframe"): TA= 6.658170E-02 NSTEP= 23 Hash code: 99437717 ->PRGCHK: bdy curvature ratio at t= 6.7436E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.066582 ; TG2= 0.067436 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.671E-06 FluxDiff MaxDT: 1.002E-03 Avg. GS error: 3.071E-03 Plasma Current: 2.630E+05, target: 2.630E+05, error: 0.001% Edge Q: 15.769, target: 15.873, error: 0.655% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3264E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6196E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.066582 TO TG2= 0.067436 @ NSTEP 23 GFRAME TG2 MOMENTS CHECKSUM: 3.3666913230178D+03 --> plasma_hash("gframe"): TA= 6.743627E-02 NSTEP= 24 Hash code: 53189782 ->PRGCHK: bdy curvature ratio at t= 6.8291E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.067436 ; TG2= 0.068291 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.694E-06 FluxDiff MaxDT: 1.024E-03 Avg. GS error: 3.098E-03 Plasma Current: 2.649E+05, target: 2.649E+05, error: 0.001% Edge Q: 15.684, target: 15.899, error: 1.353% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3286E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6231E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.067436 TO TG2= 0.068291 @ NSTEP 24 GFRAME TG2 MOMENTS CHECKSUM: 3.3674608997557D+03 --> plasma_hash("gframe"): TA= 6.829085E-02 NSTEP= 25 Hash code: 67314213 ->PRGCHK: bdy curvature ratio at t= 6.9145E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.068291 ; TG2= 0.069145 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.688E-06 FluxDiff MaxDT: 1.063E-03 Avg. GS error: 3.071E-03 Plasma Current: 2.667E+05, target: 2.667E+05, error: 0.001% Edge Q: 15.602, target: 15.696, error: 0.597% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2990E+00 SECONDS DATA R*BT AT EDGE: 5.9039E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6276E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.068291 TO TG2= 0.069145 @ NSTEP 25 GFRAME TG2 MOMENTS CHECKSUM: 3.3680871811436D+03 --> plasma_hash("gframe"): TA= 6.914542E-02 NSTEP= 26 Hash code: 57125666 ->PRGCHK: bdy curvature ratio at t= 7.0000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.069145 ; TG2= 0.070000 ; DTG= 8.546E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.682E-06 FluxDiff MaxDT: 1.108E-03 Avg. GS error: 3.089E-03 Plasma Current: 2.682E+05, target: 2.682E+05, error: 0.001% Edge Q: 15.532, target: 15.730, error: 1.256% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2968E+00 SECONDS DATA R*BT AT EDGE: 5.9041E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6310E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.069145 TO TG2= 0.070000 @ NSTEP 26 GFRAME TG2 MOMENTS CHECKSUM: 3.3686254222663D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 26 TA= 6.91454E-02 CPU TIME= 7.14300E-03 SECONDS. DT= 8.54576E-04 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 27 TA= 7.00000E-02 CPU TIME= 6.97500E-03 SECONDS. DT= 1.06822E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 6.138749999968240E-002 %check_save_state: izleft hours = 79.8711111111111 --> plasma_hash("gframe"): TA= 7.000000E-02 NSTEP= 27 Hash code: 111143684 ->PRGCHK: bdy curvature ratio at t= 7.1053E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.070000 ; TG2= 0.071053 ; DTG= 1.053E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.012E-06 FluxDiff MaxDT: 1.175E-03 Avg. GS error: 3.056E-03 Plasma Current: 2.699E+05, target: 2.699E+05, error: 0.001% Edge Q: 15.446, target: 15.545, error: 0.639% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3300E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6354E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.070000 TO TG2= 0.071053 @ NSTEP 27 GFRAME TG2 MOMENTS CHECKSUM: 3.3689331953883D+03 --> plasma_hash("gframe"): TA= 7.105263E-02 NSTEP= 28 Hash code: 4655517 ->PRGCHK: bdy curvature ratio at t= 7.2167E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.071053 ; TG2= 0.072167 ; DTG= 1.115E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.932E-06 FluxDiff MaxDT: 1.216E-03 Avg. GS error: 3.075E-03 Plasma Current: 2.716E+05, target: 2.716E+05, error: 0.001% Edge Q: 15.370, target: 15.571, error: 1.291% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2898E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6390E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.071053 TO TG2= 0.072167 @ NSTEP 28 GFRAME TG2 MOMENTS CHECKSUM: 3.3694881565862D+03 --> plasma_hash("gframe"): TA= 7.216718E-02 NSTEP= 30 Hash code: 22415249 ->PRGCHK: bdy curvature ratio at t= 7.3356E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.072167 ; TG2= 0.073356 ; DTG= 1.189E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.971E-06 FluxDiff MaxDT: 1.265E-03 Avg. GS error: 3.045E-03 Plasma Current: 2.733E+05, target: 2.733E+05, error: 0.001% Edge Q: 15.286, target: 15.383, error: 0.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2930E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6426E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.072167 TO TG2= 0.073356 @ NSTEP 30 GFRAME TG2 MOMENTS CHECKSUM: 3.3698984126132D+03 --> plasma_hash("gframe"): TA= 7.335604E-02 NSTEP= 31 Hash code: 9410051 ->PRGCHK: bdy curvature ratio at t= 7.4545E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.073356 ; TG2= 0.074545 ; DTG= 1.189E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.338E-06 FluxDiff MaxDT: 1.287E-03 Avg. GS error: 3.059E-03 Plasma Current: 2.750E+05, target: 2.750E+05, error: 0.001% Edge Q: 15.209, target: 15.410, error: 1.300% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2958E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6456E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.073356 TO TG2= 0.074545 @ NSTEP 31 GFRAME TG2 MOMENTS CHECKSUM: 3.3703943924552D+03 --> plasma_hash("gframe"): TA= 7.454489E-02 NSTEP= 32 Hash code: 100009220 ->PRGCHK: bdy curvature ratio at t= 7.5734E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.074545 ; TG2= 0.075734 ; DTG= 1.189E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.137E-06 FluxDiff MaxDT: 1.346E-03 Avg. GS error: 3.030E-03 Plasma Current: 2.765E+05, target: 2.764E+05, error: 0.001% Edge Q: 15.135, target: 15.222, error: 0.575% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3044E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6487E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.074545 TO TG2= 0.075734 @ NSTEP 32 GFRAME TG2 MOMENTS CHECKSUM: 3.3706463605433D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 32 TA= 7.45449E-02 CPU TIME= 7.18200E-03 SECONDS. DT= 1.18885E-03 --> plasma_hash("gframe"): TA= 7.573375E-02 NSTEP= 33 Hash code: 113340821 ->PRGCHK: bdy curvature ratio at t= 7.7031E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.075734 ; TG2= 0.077031 ; DTG= 1.297E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.522E-06 FluxDiff MaxDT: 1.436E-03 Avg. GS error: 3.053E-03 Plasma Current: 2.777E+05, target: 2.777E+05, error: 0.001% Edge Q: 15.070, target: 15.257, error: 1.227% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3073E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6512E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.075734 TO TG2= 0.077031 @ NSTEP 33 GFRAME TG2 MOMENTS CHECKSUM: 3.3707567606769D+03 --> plasma_hash("gframe"): TA= 7.703068E-02 NSTEP= 34 Hash code: 10324219 ->PRGCHK: bdy curvature ratio at t= 7.8328E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.077031 ; TG2= 0.078328 ; DTG= 1.297E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.787E-06 FluxDiff MaxDT: 1.533E-03 Avg. GS error: 3.031E-03 Plasma Current: 2.787E+05, target: 2.787E+05, error: 0.001% Edge Q: 15.015, target: 15.084, error: 0.452% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2769E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6532E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.077031 TO TG2= 0.078328 @ NSTEP 34 GFRAME TG2 MOMENTS CHECKSUM: 3.3708179760176D+03 --> plasma_hash("gframe"): TA= 7.832761E-02 NSTEP= 35 Hash code: 60615168 ->PRGCHK: bdy curvature ratio at t= 7.9787E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.078328 ; TG2= 0.079787 ; DTG= 1.459E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.086E-06 FluxDiff MaxDT: 1.539E-03 Avg. GS error: 3.050E-03 Plasma Current: 2.800E+05, target: 2.800E+05, error: 0.001% Edge Q: 14.947, target: 15.138, error: 1.259% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3367E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6535E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.078328 TO TG2= 0.079787 @ NSTEP 35 GFRAME TG2 MOMENTS CHECKSUM: 3.3708788311864D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 36 TA= 7.96629E-02 CPU TIME= 7.15500E-03 SECONDS. DT= 1.23774E-04 --> plasma_hash("gframe"): TA= 7.978666E-02 NSTEP= 37 Hash code: 92258394 ->PRGCHK: bdy curvature ratio at t= 8.1246E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.079787 ; TG2= 0.081246 ; DTG= 1.459E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.922E-06 FluxDiff MaxDT: 1.461E-03 Avg. GS error: 3.016E-03 Plasma Current: 2.818E+05, target: 2.818E+05, error: 0.001% Edge Q: 14.863, target: 14.960, error: 0.654% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2699E+00 SECONDS DATA R*BT AT EDGE: 5.9026E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6544E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.079787 TO TG2= 0.081246 @ NSTEP 37 GFRAME TG2 MOMENTS CHECKSUM: 3.3712560051081D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 8.000000000000000E-002 -------------------------------- Namelist update: 204112B62TR.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... !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= -1.32706E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.124571E-02 NSTEP= 44 Hash code: 3790105 ->PRGCHK: bdy curvature ratio at t= 8.2705E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.081246 ; TG2= 0.082705 ; DTG= 1.459E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.671E-06 FluxDiff MaxDT: 1.402E-03 Avg. GS error: 3.009E-03 Plasma Current: 2.840E+05, target: 2.840E+05, error: 0.001% Edge Q: 14.762, target: 14.983, error: 1.474% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2912E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6545E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.081246 TO TG2= 0.082705 @ NSTEP 44 GFRAME TG2 MOMENTS CHECKSUM: 3.3718276529243D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45 TA= 8.14483E-02 CPU TIME= 7.12000E-03 SECONDS. DT= 2.53181E-04 --> plasma_hash("gframe"): TA= 8.270476E-02 NSTEP= 52 Hash code: 91588927 ->PRGCHK: bdy curvature ratio at t= 8.3921E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.082705 ; TG2= 0.083921 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.976E-06 FluxDiff MaxDT: 1.403E-03 Avg. GS error: 2.969E-03 Plasma Current: 2.860E+05, target: 2.860E+05, error: 0.001% Edge Q: 14.674, target: 14.774, error: 0.675% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2860E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6555E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.082705 TO TG2= 0.083921 @ NSTEP 52 GFRAME TG2 MOMENTS CHECKSUM: 3.3724743000802D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 53 TA= 8.28957E-02 CPU TIME= 2.01910E-01 SECONDS. DT= 2.38668E-04 --> plasma_hash("gframe"): TA= 8.392063E-02 NSTEP= 59 Hash code: 107991247 ->PRGCHK: bdy curvature ratio at t= 8.5137E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.083921 ; TG2= 0.085137 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.118E-06 FluxDiff MaxDT: 1.459E-03 Avg. GS error: 2.977E-03 Plasma Current: 2.880E+05, target: 2.880E+05, error: 0.001% Edge Q: 14.587, target: 14.794, error: 1.394% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2670E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6559E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.083921 TO TG2= 0.085137 @ NSTEP 59 GFRAME TG2 MOMENTS CHECKSUM: 3.3728982259647D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 60 TA= 8.41019E-02 CPU TIME= 7.09000E-03 SECONDS. DT= 2.49227E-04 --> plasma_hash("gframe"): TA= 8.513650E-02 NSTEP= 66 Hash code: 112136660 ->PRGCHK: bdy curvature ratio at t= 8.6352E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.085137 ; TG2= 0.086352 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.581E-06 FluxDiff MaxDT: 1.458E-03 Avg. GS error: 2.909E-03 Plasma Current: 2.901E+05, target: 2.901E+05, error: 0.001% Edge Q: 14.495, target: 14.598, error: 0.704% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6492E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6568E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.085137 TO TG2= 0.086352 @ NSTEP 66 GFRAME TG2 MOMENTS CHECKSUM: 3.3734644326178D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 67 TA= 8.53194E-02 CPU TIME= 1.98316E-01 SECONDS. DT= 2.28639E-04 --> plasma_hash("gframe"): TA= 8.635238E-02 NSTEP= 73 Hash code: 15320503 ->PRGCHK: bdy curvature ratio at t= 8.7568E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.086352 ; TG2= 0.087568 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.421E-06 FluxDiff MaxDT: 1.451E-03 Avg. GS error: 2.685E-03 Plasma Current: 2.923E+05, target: 2.923E+05, error: 0.001% Edge Q: 14.400, target: 14.611, error: 1.449% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2887E+00 SECONDS DATA R*BT AT EDGE: 5.9038E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6575E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.086352 TO TG2= 0.087568 @ NSTEP 73 GFRAME TG2 MOMENTS CHECKSUM: 3.3740421415358D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 74 TA= 8.65256E-02 CPU TIME= 5.07580E-02 SECONDS. DT= 2.16539E-04 --> plasma_hash("gframe"): TA= 8.756825E-02 NSTEP= 81 Hash code: 84173723 ->PRGCHK: bdy curvature ratio at t= 8.8784E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.087568 ; TG2= 0.088784 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.593E-06 FluxDiff MaxDT: 1.450E-03 Avg. GS error: 2.615E-03 Plasma Current: 2.946E+05, target: 2.946E+05, error: 0.001% Edge Q: 14.301, target: 14.408, error: 0.747% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2995E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6572E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.087568 TO TG2= 0.088784 @ NSTEP 81 GFRAME TG2 MOMENTS CHECKSUM: 3.3746427188752D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 81 TA= 8.75683E-02 CPU TIME= 7.08600E-03 SECONDS. DT= 1.95964E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 87 TA= 8.85858E-02 CPU TIME= 1.64135E-01 SECONDS. DT= 1.98354E-04 --> plasma_hash("gframe"): TA= 8.878413E-02 NSTEP= 89 Hash code: 89065513 ->PRGCHK: bdy curvature ratio at t= 9.0000E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.088784 ; TG2= 0.090000 ; DTG= 1.216E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.581E-06 FluxDiff MaxDT: 1.442E-03 Avg. GS error: 2.601E-03 Plasma Current: 2.970E+05, target: 2.970E+05, error: 0.001% Edge Q: 14.201, target: 14.414, error: 1.480% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3045E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6562E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.088784 TO TG2= 0.090000 @ NSTEP 89 GFRAME TG2 MOMENTS CHECKSUM: 3.3753071269974D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 94 TA= 8.96206E-02 CPU TIME= 3.75580E-02 SECONDS. DT= 2.05793E-04 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 97 TA= 9.00000E-02 CPU TIME= 7.11600E-03 SECONDS. DT= 6.75444E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 7.860972222192686E-002 %check_save_state: izleft hours = 79.8538888888889 --> plasma_hash("gframe"): TA= 9.000000E-02 NSTEP= 97 Hash code: 2784554 ->PRGCHK: bdy curvature ratio at t= 9.1429E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.090000 ; TG2= 0.091429 ; DTG= 1.429E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.592E-06 FluxDiff MaxDT: 1.491E-03 Avg. GS error: 2.541E-03 Plasma Current: 2.995E+05, target: 2.995E+05, error: 0.001% Edge Q: 14.088, target: 14.208, error: 0.843% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3291E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6562E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.090000 TO TG2= 0.091429 @ NSTEP 97 GFRAME TG2 MOMENTS CHECKSUM: 3.3757373389590D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. --> plasma_hash("gframe"): TA= 9.142857E-02 NSTEP= 104 Hash code: 72218188 ->PRGCHK: bdy curvature ratio at t= 9.2857E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.091429 ; TG2= 0.092857 ; DTG= 1.429E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.302E-06 FluxDiff MaxDT: 1.508E-03 Avg. GS error: 2.556E-03 Plasma Current: 3.019E+05, target: 3.019E+05, error: 0.001% Edge Q: 13.990, target: 14.199, error: 1.471% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2997E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6558E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.091429 TO TG2= 0.092857 @ NSTEP 104 GFRAME TG2 MOMENTS CHECKSUM: 3.3763359409079D+03 --> plasma_hash("gframe"): TA= 9.285714E-02 NSTEP= 107 Hash code: 50656632 ->PRGCHK: bdy curvature ratio at t= 9.4286E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.092857 ; TG2= 0.094286 ; DTG= 1.429E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.983E-06 FluxDiff MaxDT: 1.468E-03 Avg. GS error: 2.515E-03 Plasma Current: 3.045E+05, target: 3.045E+05, error: 0.001% Edge Q: 13.884, target: 13.996, error: 0.797% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3049E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6545E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.092857 TO TG2= 0.094286 @ NSTEP 107 GFRAME TG2 MOMENTS CHECKSUM: 3.3769604132026D+03 --> plasma_hash("gframe"): TA= 9.428571E-02 NSTEP= 109 Hash code: 61394357 ->PRGCHK: bdy curvature ratio at t= 9.5714E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.094286 ; TG2= 0.095714 ; DTG= 1.429E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.304E-06 FluxDiff MaxDT: 1.392E-03 Avg. GS error: 2.518E-03 Plasma Current: 3.075E+05, target: 3.075E+05, error: 0.001% Edge Q: 13.773, target: 13.992, error: 1.565% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3282E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6519E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.094286 TO TG2= 0.095714 @ NSTEP 109 GFRAME TG2 MOMENTS CHECKSUM: 3.3777047708300D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 110 TA= 9.50962E-02 CPU TIME= 8.18600E-03 SECONDS. DT= 6.18090E-04 --> plasma_hash("gframe"): TA= 9.571429E-02 NSTEP= 111 Hash code: 74327467 ->PRGCHK: bdy curvature ratio at t= 9.7013E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.095714 ; TG2= 0.097013 ; DTG= 1.299E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.713E-06 FluxDiff MaxDT: 1.304E-03 Avg. GS error: 2.467E-03 Plasma Current: 3.105E+05, target: 3.105E+05, error: 0.001% Edge Q: 13.659, target: 13.778, error: 0.863% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3225E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6491E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.095714 TO TG2= 0.097013 @ NSTEP 111 GFRAME TG2 MOMENTS CHECKSUM: 3.3786146276606D+03 --> plasma_hash("gframe"): TA= 9.701299E-02 NSTEP= 113 Hash code: 113261872 ->PRGCHK: bdy curvature ratio at t= 9.8312E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.097013 ; TG2= 0.098312 ; DTG= 1.299E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.562E-06 FluxDiff MaxDT: 1.212E-03 Avg. GS error: 2.464E-03 Plasma Current: 3.142E+05, target: 3.142E+05, error: 0.001% Edge Q: 13.532, target: 13.762, error: 1.678% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3296E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6451E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.097013 TO TG2= 0.098312 @ NSTEP 113 GFRAME TG2 MOMENTS CHECKSUM: 3.3795538784390D+03 --> plasma_hash("gframe"): TA= 9.831169E-02 NSTEP= 115 Hash code: 121396042 ->PRGCHK: bdy curvature ratio at t= 9.9481E-02 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.098312 ; TG2= 0.099481 ; DTG= 1.169E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.287E-06 FluxDiff MaxDT: 1.141E-03 Avg. GS error: 2.417E-03 Plasma Current: 3.178E+05, target: 3.178E+05, error: 0.001% Edge Q: 13.409, target: 13.536, error: 0.944% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3345E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6414E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.098312 TO TG2= 0.099481 @ NSTEP 115 GFRAME TG2 MOMENTS CHECKSUM: 3.3805869677053D+03 --> plasma_hash("gframe"): TA= 9.948052E-02 NSTEP= 116 Hash code: 122744513 ->PRGCHK: bdy curvature ratio at t= 1.0053E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.099481 ; TG2= 0.100532 ; DTG= 1.052E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.406E-06 FluxDiff MaxDT: 1.093E-03 Avg. GS error: 2.421E-03 Plasma Current: 3.213E+05, target: 3.213E+05, error: 0.001% Edge Q: 13.292, target: 13.508, error: 1.600% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3373E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6371E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.099481 TO TG2= 0.100532 @ NSTEP 116 GFRAME TG2 MOMENTS CHECKSUM: 3.3815696652783D+03 --> plasma_hash("gframe"): TA= 1.005325E-01 NSTEP= 117 Hash code: 119228844 ->PRGCHK: bdy curvature ratio at t= 1.0158E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.100532 ; TG2= 0.101584 ; DTG= 1.052E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.450E-06 FluxDiff MaxDT: 1.056E-03 Avg. GS error: 2.378E-03 Plasma Current: 3.251E+05, target: 3.251E+05, error: 0.001% Edge Q: 13.167, target: 13.295, error: 0.959% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3612E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6362E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.100532 TO TG2= 0.101584 @ NSTEP 117 GFRAME TG2 MOMENTS CHECKSUM: 3.3825241966079D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 117 TA= 1.00532E-01 CPU TIME= 7.24200E-03 SECONDS. DT= 1.05195E-03 --> plasma_hash("gframe"): TA= 1.015844E-01 NSTEP= 118 Hash code: 53380402 ->PRGCHK: bdy curvature ratio at t= 1.0264E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.101584 ; TG2= 0.102636 ; DTG= 1.052E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.604E-06 FluxDiff MaxDT: 1.040E-03 Avg. GS error: 2.385E-03 Plasma Current: 3.290E+05, target: 3.290E+05, error: 0.001% Edge Q: 13.045, target: 13.263, error: 1.642% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3601E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6356E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.101584 TO TG2= 0.102636 @ NSTEP 118 GFRAME TG2 MOMENTS CHECKSUM: 3.3834655653782D+03 --> plasma_hash("gframe"): TA= 1.026364E-01 NSTEP= 119 Hash code: 15196001 ->PRGCHK: bdy curvature ratio at t= 1.0356E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.102636 ; TG2= 0.103557 ; DTG= 9.205E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.002E-06 FluxDiff MaxDT: 1.046E-03 Avg. GS error: 2.350E-03 Plasma Current: 3.323E+05, target: 3.323E+05, error: 0.001% Edge Q: 12.942, target: 13.048, error: 0.810% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3334E+00 SECONDS DATA R*BT AT EDGE: 5.9043E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6353E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.102636 TO TG2= 0.103557 @ NSTEP 119 GFRAME TG2 MOMENTS CHECKSUM: 3.3842641266581D+03 --> plasma_hash("gframe"): TA= 1.035568E-01 NSTEP= 120 Hash code: 110879799 ->PRGCHK: bdy curvature ratio at t= 1.0448E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.103557 ; TG2= 0.104477 ; DTG= 9.205E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.695E-06 FluxDiff MaxDT: 1.083E-03 Avg. GS error: 2.363E-03 Plasma Current: 3.354E+05, target: 3.354E+05, error: 0.001% Edge Q: 12.847, target: 13.036, error: 1.448% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3352E+00 SECONDS DATA R*BT AT EDGE: 5.9042E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6353E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.103557 TO TG2= 0.104477 @ NSTEP 120 GFRAME TG2 MOMENTS CHECKSUM: 3.3848252900046D+03 --> plasma_hash("gframe"): TA= 1.044773E-01 NSTEP= 121 Hash code: 123074883 ->PRGCHK: bdy curvature ratio at t= 1.0540E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.104477 ; TG2= 0.105398 ; DTG= 9.205E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.836E-06 FluxDiff MaxDT: 1.141E-03 Avg. GS error: 2.339E-03 Plasma Current: 3.380E+05, target: 3.380E+05, error: 0.001% Edge Q: 12.761, target: 12.849, error: 0.683% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3376E+00 SECONDS DATA R*BT AT EDGE: 5.9040E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6361E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.104477 TO TG2= 0.105398 @ NSTEP 121 GFRAME TG2 MOMENTS CHECKSUM: 3.3852168246986D+03 --> plasma_hash("gframe"): TA= 1.053977E-01 NSTEP= 122 Hash code: 36585599 ->PRGCHK: bdy curvature ratio at t= 1.0632E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.105398 ; TG2= 0.106318 ; DTG= 9.205E-04 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 2.686E-06 FluxDiff MaxDT: 1.242E-03 Avg. GS error: 2.367E-03 Plasma Current: 3.402E+05, target: 3.402E+05, error: 0.001% Edge Q: 12.692, target: 12.854, error: 1.257% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3417E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6366E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.105398 TO TG2= 0.106318 @ NSTEP 122 GFRAME TG2 MOMENTS CHECKSUM: 3.3853806911478D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 122 TA= 1.05398E-01 CPU TIME= 7.25500E-03 SECONDS. DT= 9.20455E-04 --> plasma_hash("gframe"): TA= 1.063182E-01 NSTEP= 123 Hash code: 29520199 ->PRGCHK: bdy curvature ratio at t= 1.0755E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.106318 ; TG2= 0.107545 ; DTG= 1.227E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.139E-06 FluxDiff MaxDT: 1.405E-03 Avg. GS error: 2.359E-03 Plasma Current: 3.422E+05, target: 3.422E+05, error: 0.001% Edge Q: 12.617, target: 12.695, error: 0.610% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3438E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6381E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.106318 TO TG2= 0.107545 @ NSTEP 123 GFRAME TG2 MOMENTS CHECKSUM: 3.3851071545299D+03 --> plasma_hash("gframe"): TA= 1.075455E-01 NSTEP= 124 Hash code: 46570963 ->PRGCHK: bdy curvature ratio at t= 1.0877E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.107545 ; TG2= 0.108773 ; DTG= 1.227E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.768E-06 FluxDiff MaxDT: 1.611E-03 Avg. GS error: 2.422E-03 Plasma Current: 3.436E+05, target: 3.435E+05, error: 0.001% Edge Q: 12.569, target: 12.710, error: 1.110% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3185E+00 SECONDS DATA R*BT AT EDGE: 5.9029E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6377E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.107545 TO TG2= 0.108773 @ NSTEP 124 GFRAME TG2 MOMENTS CHECKSUM: 3.3848845176843D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 124 TA= 1.07545E-01 CPU TIME= 7.23300E-03 SECONDS. DT= 1.22727E-03 --> plasma_hash("gframe"): TA= 1.087727E-01 NSTEP= 125 Hash code: 115557938 ->PRGCHK: bdy curvature ratio at t= 1.1000E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.108773 ; TG2= 0.110000 ; DTG= 1.227E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 4.126E-06 FluxDiff MaxDT: 1.834E-03 Avg. GS error: 2.456E-03 Plasma Current: 3.447E+05, target: 3.447E+05, error: 0.001% Edge Q: 12.525, target: 12.567, error: 0.333% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2889E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6343E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.108773 TO TG2= 0.110000 @ NSTEP 125 GFRAME TG2 MOMENTS CHECKSUM: 3.3847666676402D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 125 TA= 1.08773E-01 CPU TIME= 7.30700E-03 SECONDS. DT= 1.22727E-03 %fi_finish: enter *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 126 TA= 1.10000E-01 CPU TIME= 7.49400E-03 SECONDS. DT= 1.53409E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 9.131138888915302E-002 %check_save_state: izleft hours = 79.8411111111111 --> plasma_hash("gframe"): TA= 1.100000E-01 NSTEP= 126 Hash code: 109740719 ->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: 5.775E-06 FluxDiff MaxDT: 1.797E-03 Avg. GS error: 2.511E-03 Plasma Current: 3.471E+05, target: 3.470E+05, error: 0.001% Edge Q: 12.455, target: 12.625, error: 1.345% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3508E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6258E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.110000 TO TG2= 0.111470 @ NSTEP 126 GFRAME TG2 MOMENTS CHECKSUM: 3.3850928909159D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -2.36815E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.22997E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.114700E-01 NSTEP= 127 Hash code: 105693754 ->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: 7.371E-06 FluxDiff MaxDT: 1.580E-03 Avg. GS error: 2.483E-03 Plasma Current: 3.509E+05, target: 3.509E+05, error: 0.001% Edge Q: 12.347, target: 12.432, error: 0.690% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3533E+00 SECONDS DATA R*BT AT EDGE: 5.9021E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.6123E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.111470 TO TG2= 0.113053 @ NSTEP 127 GFRAME TG2 MOMENTS CHECKSUM: 3.3860994231505D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 128 TA= 1.13004E-01 CPU TIME= 7.75700E-03 SECONDS. DT= 4.89855E-05 --> plasma_hash("gframe"): TA= 1.130531E-01 NSTEP= 129 Hash code: 119421260 ->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: 6.929E-06 FluxDiff MaxDT: 1.429E-03 Avg. GS error: 2.480E-03 Plasma Current: 3.552E+05, target: 3.552E+05, error: 0.001% Edge Q: 12.237, target: 12.445, error: 1.673% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3675E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5959E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.113053 TO TG2= 0.114514 @ NSTEP 129 GFRAME TG2 MOMENTS CHECKSUM: 3.3873132400803D+03 --> plasma_hash("gframe"): TA= 1.145144E-01 NSTEP= 130 Hash code: 26580568 ->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: 5.961E-06 FluxDiff MaxDT: 1.422E-03 Avg. GS error: 2.437E-03 Plasma Current: 3.588E+05, target: 3.588E+05, error: 0.001% Edge Q: 12.140, target: 12.205, error: 0.530% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3651E+00 SECONDS DATA R*BT AT EDGE: 5.9024E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5923E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.114514 TO TG2= 0.115863 @ NSTEP 130 GFRAME TG2 MOMENTS CHECKSUM: 3.3880263959738D+03 --> plasma_hash("gframe"): TA= 1.158633E-01 NSTEP= 131 Hash code: 64245303 ->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: 5.753E-06 FluxDiff MaxDT: 1.533E-03 Avg. GS error: 2.447E-03 Plasma Current: 3.616E+05, target: 3.615E+05, error: 0.001% Edge Q: 12.068, target: 12.235, error: 1.364% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3502E+00 SECONDS DATA R*BT AT EDGE: 5.9027E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5868E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.115863 TO TG2= 0.117212 @ NSTEP 131 GFRAME TG2 MOMENTS CHECKSUM: 3.3882929538918D+03 --> plasma_hash("gframe"): TA= 1.172122E-01 NSTEP= 132 Hash code: 45880327 ->PRGCHK: bdy curvature ratio at t= 1.1870E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.117212 ; TG2= 0.118696 ; DTG= 1.484E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.628E-06 FluxDiff MaxDT: 1.657E-03 Avg. GS error: 2.436E-03 Plasma Current: 3.639E+05, target: 3.639E+05, error: 0.001% Edge Q: 12.003, target: 12.040, error: 0.314% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3435E+00 SECONDS DATA R*BT AT EDGE: 5.9032E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5725E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.117212 TO TG2= 0.118696 @ NSTEP 132 GFRAME TG2 MOMENTS CHECKSUM: 3.3883618596721D+03 --> plasma_hash("gframe"): TA= 1.186959E-01 NSTEP= 133 Hash code: 98732504 ->PRGCHK: bdy curvature ratio at t= 1.2018E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.118696 ; TG2= 0.120180 ; DTG= 1.484E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.814E-06 FluxDiff MaxDT: 1.670E-03 Avg. GS error: 2.465E-03 Plasma Current: 3.664E+05, target: 3.664E+05, error: 0.001% Edge Q: 11.939, target: 12.097, error: 1.307% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3447E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5639E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.118696 TO TG2= 0.120180 @ NSTEP 133 GFRAME TG2 MOMENTS CHECKSUM: 3.3885885937618D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 133 TA= 1.18696E-01 CPU TIME= 7.72800E-03 SECONDS. DT= 1.48378E-03 --> plasma_hash("gframe"): TA= 1.201797E-01 NSTEP= 134 Hash code: 50269647 ->PRGCHK: bdy curvature ratio at t= 1.2166E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.120180 ; TG2= 0.121664 ; DTG= 1.484E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 6.870E-06 FluxDiff MaxDT: 1.574E-03 Avg. GS error: 2.453E-03 Plasma Current: 3.697E+05, target: 3.697E+05, error: 0.001% Edge Q: 11.857, target: 11.910, error: 0.444% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3757E+00 SECONDS DATA R*BT AT EDGE: 5.9035E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5528E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.120180 TO TG2= 0.121664 @ NSTEP 134 GFRAME TG2 MOMENTS CHECKSUM: 3.3892513122377D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= -1.23682E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.216635E-01 NSTEP= 135 Hash code: 86574432 ->PRGCHK: bdy curvature ratio at t= 1.2315E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.121664 ; TG2= 0.123147 ; DTG= 1.484E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.283E-06 FluxDiff MaxDT: 1.473E-03 Avg. GS error: 2.471E-03 Plasma Current: 3.737E+05, target: 3.737E+05, error: 0.001% Edge Q: 11.765, target: 11.946, error: 1.516% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3915E+00 SECONDS DATA R*BT AT EDGE: 5.9031E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5503E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.121664 TO TG2= 0.123147 @ NSTEP 135 GFRAME TG2 MOMENTS CHECKSUM: 3.3901204103257D+03 --> plasma_hash("gframe"): TA= 1.231473E-01 NSTEP= 136 Hash code: 40152393 ->PRGCHK: bdy curvature ratio at t= 1.2442E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.123147 ; TG2= 0.124419 ; DTG= 1.272E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.719E-06 FluxDiff MaxDT: 1.503E-03 Avg. GS error: 2.569E-03 Plasma Current: 3.770E+05, target: 3.770E+05, error: 0.001% Edge Q: 11.691, target: 11.731, error: 0.338% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3529E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5433E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.123147 TO TG2= 0.124419 @ NSTEP 136 GFRAME TG2 MOMENTS CHECKSUM: 3.3912034083955D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 136 TA= 1.23147E-01 CPU TIME= 7.65800E-03 SECONDS. DT= 1.27181E-03 --> plasma_hash("gframe"): TA= 1.244191E-01 NSTEP= 137 Hash code: 109759513 ->PRGCHK: bdy curvature ratio at t= 1.2569E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.124419 ; TG2= 0.125691 ; DTG= 1.272E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 5.270E-06 FluxDiff MaxDT: 1.641E-03 Avg. GS error: 2.624E-03 Plasma Current: 3.796E+05, target: 3.796E+05, error: 0.001% Edge Q: 11.634, target: 11.779, error: 1.232% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3523E+00 SECONDS DATA R*BT AT EDGE: 5.9020E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5387E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.124419 TO TG2= 0.125691 @ NSTEP 137 GFRAME TG2 MOMENTS CHECKSUM: 3.3916579695512D+03 --> plasma_hash("gframe"): TA= 1.256909E-01 NSTEP= 138 Hash code: 82800782 ->PRGCHK: bdy curvature ratio at t= 1.2728E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.125691 ; TG2= 0.127281 ; DTG= 1.590E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.992E-06 FluxDiff MaxDT: 1.838E-03 Avg. GS error: 2.578E-03 Plasma Current: 3.820E+05, target: 3.820E+05, error: 0.001% Edge Q: 11.577, target: 11.597, error: 0.177% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3815E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5345E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.125691 TO TG2= 0.127281 @ NSTEP 138 GFRAME TG2 MOMENTS CHECKSUM: 3.3917842832239D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 138 TA= 1.25691E-01 CPU TIME= 7.72200E-03 SECONDS. DT= 1.58977E-03 --> plasma_hash("gframe"): TA= 1.272807E-01 NSTEP= 139 Hash code: 49582988 ->PRGCHK: bdy curvature ratio at t= 1.2887E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.127281 ; TG2= 0.128870 ; DTG= 1.590E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.170E-06 FluxDiff MaxDT: 1.988E-03 Avg. GS error: 2.677E-03 Plasma Current: 3.842E+05, target: 3.842E+05, error: 0.001% Edge Q: 11.534, target: 11.667, error: 1.142% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3559E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5279E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.127281 TO TG2= 0.128870 @ NSTEP 139 GFRAME TG2 MOMENTS CHECKSUM: 3.3921029969172D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 139 TA= 1.27281E-01 CPU TIME= 7.72000E-03 SECONDS. DT= 1.58977E-03 --> plasma_hash("gframe"): TA= 1.288705E-01 NSTEP= 140 Hash code: 11694830 ->PRGCHK: bdy curvature ratio at t= 1.3046E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.128870 ; TG2= 0.130460 ; DTG= 1.590E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 7.930E-06 FluxDiff MaxDT: 2.065E-03 Avg. GS error: 2.721E-03 Plasma Current: 3.865E+05, target: 3.865E+05, error: 0.001% Edge Q: 11.489, target: 11.490, error: 0.009% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3654E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5180E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.128870 TO TG2= 0.130460 @ NSTEP 140 GFRAME TG2 MOMENTS CHECKSUM: 3.3926061372695D+03 --> plasma_hash("gframe"): TA= 1.304602E-01 NSTEP= 141 Hash code: 82156467 ->PRGCHK: bdy curvature ratio at t= 1.3205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.130460 ; TG2= 0.132050 ; DTG= 1.590E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.050E-06 FluxDiff MaxDT: 2.082E-03 Avg. GS error: 2.744E-03 Plasma Current: 3.889E+05, target: 3.889E+05, error: 0.000% Edge Q: 11.447, target: 11.581, error: 1.157% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3607E+00 SECONDS DATA R*BT AT EDGE: 5.9023E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5114E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.130460 TO TG2= 0.132050 @ NSTEP 141 GFRAME TG2 MOMENTS CHECKSUM: 3.3930773827594D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 141 TA= 1.30460E-01 CPU TIME= 7.75600E-03 SECONDS. DT= 1.58977E-03 %MFRCHK - LABEL "BALE0_SGF", # 20= -3.68917E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -1.92718E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.76199E-38 RESET TO ZERO cpu time (sec) in nubeam_ctrl_init: 1.0920E-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): 4.3630E+19 nbi_getprofiles ne*dvol sum (ions): 4.3630E+19 nbstart... % nbi_alloc2_init: nbi_alloc2 done % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %fi_finish: enter %fimain: eflux cpu time = 7.000000096013537E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 142 TA= 1.32050E-01 CPU TIME= 8.90000E-03 SECONDS. DT= 1.98721E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.104067222222284 %check_save_state: izleft hours = 79.8283333333333 --> plasma_hash("gframe"): TA= 1.320500E-01 NSTEP= 142 Hash code: 67921078 ->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: 1.052E-05 FluxDiff MaxDT: 2.019E-03 Avg. GS error: 2.834E-03 Plasma Current: 3.917E+05, target: 3.917E+05, error: 0.000% Edge Q: 11.392, target: 11.402, error: 0.089% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4032E+00 SECONDS DATA R*BT AT EDGE: 5.9030E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.5008E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.132050 TO TG2= 0.133868 @ NSTEP 142 GFRAME TG2 MOMENTS CHECKSUM: 3.3935491550444D+03 --> plasma_hash("gframe"): TA= 1.338682E-01 NSTEP= 143 Hash code: 25929647 ->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: 1.125E-05 FluxDiff MaxDT: 1.799E-03 Avg. GS error: 2.955E-03 Plasma Current: 3.957E+05, target: 3.957E+05, error: 0.000% Edge Q: 11.331, target: 11.479, error: 1.285% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4375E+00 SECONDS DATA R*BT AT EDGE: 5.9034E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4718E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.133868 TO TG2= 0.135686 @ NSTEP 143 GFRAME TG2 MOMENTS CHECKSUM: 3.3961807765461D+03 --> plasma_hash("gframe"): TA= 1.356864E-01 NSTEP= 144 Hash code: 23541839 ->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: 9.741E-06 FluxDiff MaxDT: 1.655E-03 Avg. GS error: 2.967E-03 Plasma Current: 4.001E+05, target: 4.001E+05, error: 0.000% Edge Q: 11.264, target: 11.284, error: 0.176% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4059E+00 SECONDS DATA R*BT AT EDGE: 5.9037E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4572E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.135686 TO TG2= 0.137323 @ NSTEP 144 GFRAME TG2 MOMENTS CHECKSUM: 3.3994792467187D+03 --> plasma_hash("gframe"): TA= 1.373227E-01 NSTEP= 145 Hash code: 24332948 ->PRGCHK: bdy curvature ratio at t= 1.3896E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.137323 ; TG2= 0.138959 ; DTG= 1.636E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.011E-05 FluxDiff MaxDT: 1.597E-03 Avg. GS error: 3.006E-03 Plasma Current: 4.048E+05, target: 4.048E+05, error: 0.000% Edge Q: 11.197, target: 11.342, error: 1.279% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4514E+00 SECONDS DATA R*BT AT EDGE: 5.9036E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4462E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.137323 TO TG2= 0.138959 @ NSTEP 145 GFRAME TG2 MOMENTS CHECKSUM: 3.4031715334686D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 145 TA= 1.37323E-01 CPU TIME= 9.05500E-03 SECONDS. DT= 1.63636E-03 --> plasma_hash("gframe"): TA= 1.389591E-01 NSTEP= 146 Hash code: 59754355 ->PRGCHK: bdy curvature ratio at t= 1.4041E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.138959 ; TG2= 0.140414 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.366E-06 FluxDiff MaxDT: 1.626E-03 Avg. GS error: 3.064E-03 Plasma Current: 4.087E+05, target: 4.087E+05, error: 0.000% Edge Q: 11.146, target: 11.149, error: 0.027% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4179E+00 SECONDS DATA R*BT AT EDGE: 5.9033E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4520E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.138959 TO TG2= 0.140414 @ NSTEP 146 GFRAME TG2 MOMENTS CHECKSUM: 3.4068841279627D+03 --> plasma_hash("gframe"): TA= 1.404136E-01 NSTEP= 147 Hash code: 72043626 ->PRGCHK: bdy curvature ratio at t= 1.4187E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.140414 ; TG2= 0.141868 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.274E-06 FluxDiff MaxDT: 1.677E-03 Avg. GS error: 3.130E-03 Plasma Current: 4.123E+05, target: 4.123E+05, error: 0.000% Edge Q: 11.103, target: 11.220, error: 1.038% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4533E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4334E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.140414 TO TG2= 0.141868 @ NSTEP 147 GFRAME TG2 MOMENTS CHECKSUM: 3.4105747004056D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= 4.13824E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 2.14236E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 1.99588E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.418682E-01 NSTEP= 148 Hash code: 20882759 ->PRGCHK: bdy curvature ratio at t= 1.4332E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.141868 ; TG2= 0.143323 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.508E-06 FluxDiff MaxDT: 1.705E-03 Avg. GS error: 3.210E-03 Plasma Current: 4.158E+05, target: 4.158E+05, error: 0.001% Edge Q: 11.063, target: 11.060, error: 0.021% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4586E+00 SECONDS DATA R*BT AT EDGE: 5.9022E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.4079E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.141868 TO TG2= 0.143323 @ NSTEP 148 GFRAME TG2 MOMENTS CHECKSUM: 3.4145846721215D+03 --> plasma_hash("gframe"): TA= 1.433227E-01 NSTEP= 149 Hash code: 13395585 ->PRGCHK: bdy curvature ratio at t= 1.4478E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.143323 ; TG2= 0.144777 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.619E-06 FluxDiff MaxDT: 1.766E-03 Avg. GS error: 3.319E-03 Plasma Current: 4.190E+05, target: 4.190E+05, error: 0.000% Edge Q: 11.033, target: 11.131, error: 0.879% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4401E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3877E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.143323 TO TG2= 0.144777 @ NSTEP 149 GFRAME TG2 MOMENTS CHECKSUM: 3.4187534223695D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 149 TA= 1.43323E-01 CPU TIME= 8.99600E-03 SECONDS. DT= 1.45455E-03 --> plasma_hash("gframe"): TA= 1.447773E-01 NSTEP= 150 Hash code: 81851800 ->PRGCHK: bdy curvature ratio at t= 1.4623E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.144777 ; TG2= 0.146232 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.724E-06 FluxDiff MaxDT: 1.840E-03 Avg. GS error: 3.447E-03 Plasma Current: 4.218E+05, target: 4.218E+05, error: 0.000% Edge Q: 11.010, target: 10.997, error: 0.126% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4553E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3699E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.144777 TO TG2= 0.146232 @ NSTEP 150 GFRAME TG2 MOMENTS CHECKSUM: 3.4230073253365D+03 --> plasma_hash("gframe"): TA= 1.462318E-01 NSTEP= 151 Hash code: 98439473 ->PRGCHK: bdy curvature ratio at t= 1.4769E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.146232 ; TG2= 0.147686 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.828E-06 FluxDiff MaxDT: 1.924E-03 Avg. GS error: 3.591E-03 Plasma Current: 4.242E+05, target: 4.242E+05, error: 0.000% Edge Q: 10.999, target: 11.076, error: 0.697% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4283E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3388E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.146232 TO TG2= 0.147686 @ NSTEP 151 GFRAME TG2 MOMENTS CHECKSUM: 3.4275413351930D+03 --> plasma_hash("gframe"): TA= 1.476864E-01 NSTEP= 152 Hash code: 56963869 ->PRGCHK: bdy curvature ratio at t= 1.4914E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.147686 ; TG2= 0.149141 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.621E-06 FluxDiff MaxDT: 1.956E-03 Avg. GS error: 3.759E-03 Plasma Current: 4.267E+05, target: 4.267E+05, error: 0.000% Edge Q: 10.989, target: 10.970, error: 0.171% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4059E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.3112E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.147686 TO TG2= 0.149141 @ NSTEP 152 GFRAME TG2 MOMENTS CHECKSUM: 3.4320948624343D+03 --> plasma_hash("gframe"): TA= 1.491409E-01 NSTEP= 153 Hash code: 96291626 ->PRGCHK: bdy curvature ratio at t= 1.5060E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.149141 ; TG2= 0.150595 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 8.568E-06 FluxDiff MaxDT: 1.843E-03 Avg. GS error: 3.947E-03 Plasma Current: 4.299E+05, target: 4.299E+05, error: 0.001% Edge Q: 10.972, target: 11.051, error: 0.715% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4562E+00 SECONDS DATA R*BT AT EDGE: 5.9021E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2857E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.149141 TO TG2= 0.150595 @ NSTEP 153 GFRAME TG2 MOMENTS CHECKSUM: 3.4374569729464D+03 --> plasma_hash("gframe"): TA= 1.505954E-01 NSTEP= 154 Hash code: 108001419 ->PRGCHK: bdy curvature ratio at t= 1.5205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.150595 ; TG2= 0.152050 ; DTG= 1.455E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 9.235E-06 FluxDiff MaxDT: 1.760E-03 Avg. GS error: 4.124E-03 Plasma Current: 4.336E+05, target: 4.336E+05, error: 0.002% Edge Q: 10.947, target: 10.944, error: 0.028% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4658E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2831E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.150595 TO TG2= 0.152050 @ NSTEP 154 GFRAME TG2 MOMENTS CHECKSUM: 3.4430407959170D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= 2.07057E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.22016E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 1.59240E-38 RESET TO ZERO %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 = 3.999999989900971E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 155 TA= 1.52050E-01 CPU TIME= 8.87900E-03 SECONDS. DT= 1.81818E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.114893055555513 %check_save_state: izleft hours = 79.8175000000000 --> plasma_hash("gframe"): TA= 1.520500E-01 NSTEP= 155 Hash code: 52465578 ->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: 1.232E-05 FluxDiff MaxDT: 1.668E-03 Avg. GS error: 4.332E-03 Plasma Current: 4.382E+05, target: 4.382E+05, error: 0.002% Edge Q: 10.909, target: 11.000, error: 0.826% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5032E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2643E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.152050 TO TG2= 0.153717 @ NSTEP 155 GFRAME TG2 MOMENTS CHECKSUM: 3.4489408931958D+03 --> plasma_hash("gframe"): TA= 1.537167E-01 NSTEP= 157 Hash code: 57699133 ->PRGCHK: bdy curvature ratio at t= 1.5538E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.153717 ; TG2= 0.155383 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.434E-05 FluxDiff MaxDT: 1.693E-03 Avg. GS error: 4.260E-03 Plasma Current: 4.425E+05, target: 4.425E+05, error: 0.002% Edge Q: 10.898, target: 10.882, error: 0.145% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4113E+00 SECONDS DATA R*BT AT EDGE: 5.9028E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.2286E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.153717 TO TG2= 0.155383 @ NSTEP 157 GFRAME TG2 MOMENTS CHECKSUM: 3.4586767834873D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 158 TA= 1.54968E-01 CPU TIME= 9.07200E-03 SECONDS. DT= 4.15772E-04 --> plasma_hash("gframe"): TA= 1.553833E-01 NSTEP= 159 Hash code: 85405124 ->PRGCHK: bdy curvature ratio at t= 1.5705E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.155383 ; TG2= 0.157050 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.286E-05 FluxDiff MaxDT: 1.768E-03 Avg. GS error: 4.242E-03 Plasma Current: 4.465E+05, target: 4.464E+05, error: 0.002% Edge Q: 10.884, target: 10.952, error: 0.623% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4181E+00 SECONDS DATA R*BT AT EDGE: 5.9025E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1872E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.155383 TO TG2= 0.157050 @ NSTEP 159 GFRAME TG2 MOMENTS CHECKSUM: 3.4666922908944D+03 --> plasma_hash("gframe"): TA= 1.570500E-01 NSTEP= 161 Hash code: 59172283 ->PRGCHK: bdy curvature ratio at t= 1.5872E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.157050 ; TG2= 0.158717 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.263E-05 FluxDiff MaxDT: 1.761E-03 Avg. GS error: 4.263E-03 Plasma Current: 4.507E+05, target: 4.507E+05, error: 0.002% Edge Q: 10.859, target: 10.863, error: 0.035% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4272E+00 SECONDS DATA R*BT AT EDGE: 5.9019E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1678E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.157050 TO TG2= 0.158717 @ NSTEP 161 GFRAME TG2 MOMENTS CHECKSUM: 3.4742733008054D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 162 TA= 1.58389E-01 CPU TIME= 8.98700E-03 SECONDS. DT= 3.27870E-04 --> plasma_hash("gframe"): TA= 1.587167E-01 NSTEP= 163 Hash code: 103824524 ->PRGCHK: bdy curvature ratio at t= 1.6038E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.158717 ; TG2= 0.160383 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.271E-05 FluxDiff MaxDT: 1.724E-03 Avg. GS error: 4.308E-03 Plasma Current: 4.554E+05, target: 4.554E+05, error: 0.003% Edge Q: 10.827, target: 10.909, error: 0.752% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4198E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1563E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.158717 TO TG2= 0.160383 @ NSTEP 163 GFRAME TG2 MOMENTS CHECKSUM: 3.4813987224817D+03 --> plasma_hash("gframe"): TA= 1.603833E-01 NSTEP= 165 Hash code: 77131722 ->PRGCHK: bdy curvature ratio at t= 1.6205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.160383 ; TG2= 0.162050 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.296E-05 FluxDiff MaxDT: 1.698E-03 Avg. GS error: 4.362E-03 Plasma Current: 4.602E+05, target: 4.602E+05, error: 0.003% Edge Q: 10.787, target: 10.807, error: 0.191% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4250E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.1296E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.160383 TO TG2= 0.162050 @ NSTEP 165 GFRAME TG2 MOMENTS CHECKSUM: 3.4880747018674D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 166 TA= 1.61473E-01 CPU TIME= 9.01900E-03 SECONDS. DT= 5.76995E-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", # 20= -5.42162E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -2.40757E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -3.01405E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 1.620500E-01 NSTEP= 167 Hash code: 275918 ->PRGCHK: bdy curvature ratio at t= 1.6372E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.162050 ; TG2= 0.163717 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.318E-05 FluxDiff MaxDT: 1.757E-03 Avg. GS error: 4.465E-03 Plasma Current: 4.646E+05, target: 4.646E+05, error: 0.003% Edge Q: 10.752, target: 10.831, error: 0.728% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4432E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0846E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.162050 TO TG2= 0.163717 @ NSTEP 167 GFRAME TG2 MOMENTS CHECKSUM: 3.4939972419834D+03 --> plasma_hash("gframe"): TA= 1.637167E-01 NSTEP= 169 Hash code: 48253634 ->PRGCHK: bdy curvature ratio at t= 1.6538E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.163717 ; TG2= 0.165383 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.268E-05 FluxDiff MaxDT: 1.808E-03 Avg. GS error: 4.555E-03 Plasma Current: 4.687E+05, target: 4.687E+05, error: 0.002% Edge Q: 10.718, target: 10.738, error: 0.185% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4327E+00 SECONDS DATA R*BT AT EDGE: 5.9012E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0313E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.163717 TO TG2= 0.165383 @ NSTEP 169 GFRAME TG2 MOMENTS CHECKSUM: 3.4993589468868D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 170 TA= 1.64805E-01 CPU TIME= 9.05300E-03 SECONDS. DT= 5.78402E-04 --> plasma_hash("gframe"): TA= 1.653833E-01 NSTEP= 171 Hash code: 47097847 ->PRGCHK: bdy curvature ratio at t= 1.6705E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.165383 ; TG2= 0.167050 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.262E-05 FluxDiff MaxDT: 1.855E-03 Avg. GS error: 4.674E-03 Plasma Current: 4.727E+05, target: 4.727E+05, error: 0.001% Edge Q: 10.686, target: 10.763, error: 0.708% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4304E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 3.0026E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.165383 TO TG2= 0.167050 @ NSTEP 171 GFRAME TG2 MOMENTS CHECKSUM: 3.5039791412104D+03 --> plasma_hash("gframe"): TA= 1.670500E-01 NSTEP= 173 Hash code: 114634881 ->PRGCHK: bdy curvature ratio at t= 1.6872E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.167050 ; TG2= 0.168717 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.239E-05 FluxDiff MaxDT: 1.906E-03 Avg. GS error: 4.844E-03 Plasma Current: 4.764E+05, target: 4.764E+05, error: 0.001% Edge Q: 10.654, target: 10.676, error: 0.208% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4345E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9992E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.167050 TO TG2= 0.168717 @ NSTEP 173 GFRAME TG2 MOMENTS CHECKSUM: 3.5085645759884D+03 --> plasma_hash("gframe"): TA= 1.687167E-01 NSTEP= 175 Hash code: 83204584 ->PRGCHK: bdy curvature ratio at t= 1.7038E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.168717 ; TG2= 0.170383 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.223E-05 FluxDiff MaxDT: 1.982E-03 Avg. GS error: 5.010E-03 Plasma Current: 4.798E+05, target: 4.798E+05, error: 0.000% Edge Q: 10.625, target: 10.697, error: 0.666% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4708E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9948E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.168717 TO TG2= 0.170383 @ NSTEP 175 GFRAME TG2 MOMENTS CHECKSUM: 3.5127026744314D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 175 TA= 1.68717E-01 CPU TIME= 8.99600E-03 SECONDS. DT= 1.35471E-03 --> plasma_hash("gframe"): TA= 1.703833E-01 NSTEP= 177 Hash code: 33401853 ->PRGCHK: bdy curvature ratio at t= 1.7205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.170383 ; TG2= 0.172050 ; DTG= 1.667E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.181E-05 FluxDiff MaxDT: 1.990E-03 Avg. GS error: 5.179E-03 Plasma Current: 4.834E+05, target: 4.834E+05, error: 0.001% Edge Q: 10.593, target: 10.619, error: 0.248% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4804E+00 SECONDS DATA R*BT AT EDGE: 5.9017E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9825E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.170383 TO TG2= 0.172050 @ NSTEP 177 GFRAME TG2 MOMENTS CHECKSUM: 3.5167374477578D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= -1.56550E-38 RESET TO ZERO %fi_finish: enter %fimain: eflux cpu time = 2.999999878738890E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 179 TA= 1.72050E-01 CPU TIME= 8.85100E-03 SECONDS. DT= 7.36993E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 0.126590555555822 %check_save_state: izleft hours = 79.8058333333333 --> plasma_hash("gframe"): TA= 1.720500E-01 NSTEP= 179 Hash code: 59397052 ->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: 1.442E-05 FluxDiff MaxDT: 1.907E-03 Avg. GS error: 5.458E-03 Plasma Current: 4.880E+05, target: 4.880E+05, error: 0.001% Edge Q: 10.545, target: 10.633, error: 0.831% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4917E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9638E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.172050 TO TG2= 0.173868 @ NSTEP 179 GFRAME TG2 MOMENTS CHECKSUM: 3.5206107555896D+03 --> plasma_hash("gframe"): TA= 1.738682E-01 NSTEP= 182 Hash code: 13442499 ->PRGCHK: bdy curvature ratio at t= 1.7569E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.173868 ; TG2= 0.175686 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.776E-05 FluxDiff MaxDT: 1.938E-03 Avg. GS error: 5.701E-03 Plasma Current: 4.927E+05, target: 4.927E+05, error: 0.001% Edge Q: 10.529, target: 10.537, error: 0.079% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7109E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.9431E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.173868 TO TG2= 0.175686 @ NSTEP 182 GFRAME TG2 MOMENTS CHECKSUM: 3.5282784113152D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 183 TA= 1.74766E-01 CPU TIME= 9.05500E-03 SECONDS. DT= 9.19921E-04 --> plasma_hash("gframe"): TA= 1.756864E-01 NSTEP= 184 Hash code: 45235247 ->PRGCHK: bdy curvature ratio at t= 1.7750E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.175686 ; TG2= 0.177505 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.559E-05 FluxDiff MaxDT: 2.010E-03 Avg. GS error: 5.871E-03 Plasma Current: 4.971E+05, target: 4.971E+05, error: 0.001% Edge Q: 10.510, target: 10.571, error: 0.576% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6640E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8943E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.175686 TO TG2= 0.177505 @ NSTEP 184 GFRAME TG2 MOMENTS CHECKSUM: 3.5341963257724D+03 --> plasma_hash("gframe"): TA= 1.775045E-01 NSTEP= 186 Hash code: 60555672 ->PRGCHK: bdy curvature ratio at t= 1.7932E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.177505 ; TG2= 0.179323 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.583E-05 FluxDiff MaxDT: 2.075E-03 Avg. GS error: 6.065E-03 Plasma Current: 5.011E+05, target: 5.011E+05, error: 0.000% Edge Q: 10.495, target: 10.506, error: 0.104% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6928E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.8189E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.177505 TO TG2= 0.179323 @ NSTEP 186 GFRAME TG2 MOMENTS CHECKSUM: 3.5400042683007D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 187 TA= 1.78327E-01 CPU TIME= 4.63090E-02 SECONDS. DT= 9.96009E-04 --> plasma_hash("gframe"): TA= 1.793227E-01 NSTEP= 188 Hash code: 6275737 ->PRGCHK: bdy curvature ratio at t= 1.8114E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.179323 ; TG2= 0.181141 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.515E-05 FluxDiff MaxDT: 2.140E-03 Avg. GS error: 6.242E-03 Plasma Current: 5.049E+05, target: 5.049E+05, error: 0.000% Edge Q: 10.484, target: 10.536, error: 0.489% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6892E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7575E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.179323 TO TG2= 0.181141 @ NSTEP 188 GFRAME TG2 MOMENTS CHECKSUM: 3.5452856763811D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.180000000000000 -------------------------------- Namelist update: 204112B62TR.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... *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 194 TA= 1.80225E-01 CPU TIME= 9.04100E-03 SECONDS. DT= 6.43454E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 200 TA= 1.80510E-01 CPU TIME= 9.54500E-03 SECONDS. DT= 6.28326E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 206 TA= 1.80806E-01 CPU TIME= 2.03990E-01 SECONDS. DT= 6.17969E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 212 TA= 1.81124E-01 CPU TIME= 9.29400E-03 SECONDS. DT= 1.64839E-05 --> plasma_hash("gframe"): TA= 1.811409E-01 NSTEP= 213 Hash code: 107706393 ->PRGCHK: bdy curvature ratio at t= 1.8296E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.181141 ; TG2= 0.182959 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.461E-05 FluxDiff MaxDT: 2.332E-03 Avg. GS error: 6.528E-03 Plasma Current: 5.075E+05, target: 5.075E+05, error: 0.000% Edge Q: 10.489, target: 10.483, error: 0.059% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8075E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7273E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.181141 TO TG2= 0.182959 @ NSTEP 213 GFRAME TG2 MOMENTS CHECKSUM: 3.5500522698487D+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 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: 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= 322 TA= 1.81432E-01 CPU TIME= 9.09700E-03 SECONDS. DT= 1.44718E-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 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: 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= 543 TA= 1.81756E-01 CPU TIME= 1.73330E-02 SECONDS. DT= 2.81275E-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 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: 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= 680 TA= 1.82098E-01 CPU TIME= 9.13100E-03 SECONDS. DT= 7.97919E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 732 TA= 1.82458E-01 CPU TIME= 1.39070E-02 SECONDS. DT= 6.32714E-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= 836 TA= 1.82833E-01 CPU TIME= 2.15981E-01 SECONDS. DT= 4.94050E-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 --> plasma_hash("gframe"): TA= 1.829591E-01 NSTEP= 870 Hash code: 61158849 ->PRGCHK: bdy curvature ratio at t= 1.8478E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.182959 ; TG2= 0.184777 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.302E-05 FluxDiff MaxDT: 2.401E-03 Avg. GS error: 7.011E-03 Plasma Current: 5.094E+05, target: 5.094E+05, error: 0.000% Edge Q: 10.518, target: 10.533, error: 0.142% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7526E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.7058E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.182959 TO TG2= 0.184777 @ NSTEP 870 GFRAME TG2 MOMENTS CHECKSUM: 3.5539864458516D+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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 933 TA= 1.83228E-01 CPU TIME= 1.19478E-01 SECONDS. DT= 6.89163E-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= 1025 TA= 1.83644E-01 CPU TIME= 3.42350E-02 SECONDS. DT= 5.52044E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1114 TA= 1.84081E-01 CPU TIME= 9.11900E-03 SECONDS. DT= 6.18563E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1200 TA= 1.84538E-01 CPU TIME= 1.56272E-01 SECONDS. DT= 6.45212E-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 %check_save_state: nbflag = F %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.12703888888859 %check_save_state: izleft hours = 78.8052777777778 ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: too many iterations. ?pt_dvs_solver: debug files written: state files: pt_ta.debug.cdf pt_tb.debug.cdf control obj: ctrl.debug.cdf ?pt_dvs_solver: itmax= 100 ?pt_dvs_solver: 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= 1.847773E-01 NSTEP= 1243 Hash code: 65331291 ->PRGCHK: bdy curvature ratio at t= 1.8660E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.184777 ; TG2= 0.186595 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.270E-05 FluxDiff MaxDT: 2.345E-03 Avg. GS error: 7.603E-03 Plasma Current: 5.114E+05, target: 5.114E+05, error: 0.001% Edge Q: 10.560, target: 10.521, error: 0.371% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6415E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6656E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.184777 TO TG2= 0.186595 @ NSTEP 1243 GFRAME TG2 MOMENTS CHECKSUM: 3.5580944110802D+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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1283 TA= 1.85021E-01 CPU TIME= 4.75560E-02 SECONDS. DT= 9.11287E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1368 TA= 1.85523E-01 CPU TIME= 9.16700E-03 SECONDS. DT= 6.91306E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1454 TA= 1.86054E-01 CPU TIME= 5.66590E-02 SECONDS. DT= 6.55535E-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= 1.865954E-01 NSTEP= 1534 Hash code: 23190300 ->PRGCHK: bdy curvature ratio at t= 1.8841E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.186595 ; TG2= 0.188414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.288E-05 FluxDiff MaxDT: 2.226E-03 Avg. GS error: 8.360E-03 Plasma Current: 5.142E+05, target: 5.142E+05, error: 0.002% Edge Q: 10.600, target: 10.604, error: 0.041% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5773E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.6164E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.186595 TO TG2= 0.188414 @ NSTEP 1534 GFRAME TG2 MOMENTS CHECKSUM: 3.5625213554058D+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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1537 TA= 1.86615E-01 CPU TIME= 6.56830E-02 SECONDS. DT= 1.01845E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1618 TA= 1.87197E-01 CPU TIME= 9.23700E-03 SECONDS. DT= 8.42412E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1699 TA= 1.87808E-01 CPU TIME= 1.25829E-01 SECONDS. DT= 1.15173E-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 --> plasma_hash("gframe"): TA= 1.884136E-01 NSTEP= 1774 Hash code: 31615839 ->PRGCHK: bdy curvature ratio at t= 1.9023E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.188414 ; TG2= 0.190232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.344E-05 FluxDiff MaxDT: 2.213E-03 Avg. GS error: 9.116E-03 Plasma Current: 5.172E+05, target: 5.172E+05, error: 0.002% Edge Q: 10.639, target: 10.598, error: 0.383% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5133E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.5592E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.188414 TO TG2= 0.190232 @ NSTEP 1774 GFRAME TG2 MOMENTS CHECKSUM: 3.5669973112003D+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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1779 TA= 1.88451E-01 CPU TIME= 9.20300E-03 SECONDS. DT= 1.10854E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1863 TA= 1.89125E-01 CPU TIME= 9.33100E-03 SECONDS. DT= 1.58633E-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 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1945 TA= 1.89832E-01 CPU TIME= 1.95430E-02 SECONDS. DT= 9.02088E-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 --> plasma_hash("gframe"): TA= 1.902318E-01 NSTEP= 1973 Hash code: 14734391 ->PRGCHK: bdy curvature ratio at t= 1.9205E-01 seconds is: 8.3037E-02 % MHDEQ: TG1= 0.190232 ; TG2= 0.192050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 1.318E-05 FluxDiff MaxDT: 2.310E-03 Avg. GS error: 9.855E-03 Plasma Current: 5.199E+05, target: 5.199E+05, error: 0.002% Edge Q: 10.686, target: 10.681, error: 0.044% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5499E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.5047E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.190232 TO TG2= 0.192050 @ NSTEP 1973 GFRAME TG2 MOMENTS CHECKSUM: 3.5713728347356D+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= -2.84093E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.84476E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1981 TA= 1.92021E-01 CPU TIME= 9.19000E-03 SECONDS. DT= 2.93400E-05 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1982 TA= 1.92050E-01 CPU TIME= 9.05300E-03 SECONDS. DT= 4.03426E-05 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 1.88254027777748 %check_save_state: izleft hours = 78.0497222222222 %wrstf: start call wrstf. %wrstf: open new restart file:204112B62RS.DAT %wrstf: open204112B62RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B62_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 = 4.436E+03 MB. --> plasma_hash("gframe"): TA= 1.920500E-01 NSTEP= 1982 Hash code: 50381092 ->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: 1.274E-05 FluxDiff MaxDT: 2.539E-03 Avg. GS error: 1.026E-02 Plasma Current: 5.221E+05, target: 5.221E+05, error: 0.002% Edge Q: 10.729, target: 10.688, error: 0.380% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7854E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4770E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.192050 TO TG2= 0.193868 @ NSTEP 1982 GFRAME TG2 MOMENTS CHECKSUM: 3.5757362635498D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1992 TA= 1.93659E-01 CPU TIME= 9.21500E-03 SECONDS. DT= 2.08977E-04 --> plasma_hash("gframe"): TA= 1.938682E-01 NSTEP= 1993 Hash code: 13204687 ->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: 1.831E-05 FluxDiff MaxDT: 2.818E-03 Avg. GS error: 1.035E-02 Plasma Current: 5.244E+05, target: 5.244E+05, error: 0.002% Edge Q: 10.888, target: 10.776, error: 1.041% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9550E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4575E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.193868 TO TG2= 0.195686 @ NSTEP 1993 GFRAME TG2 MOMENTS CHECKSUM: 3.5855718830579D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1996 TA= 1.95601E-01 CPU TIME= 9.18400E-03 SECONDS. DT= 8.49415E-05 --> plasma_hash("gframe"): TA= 1.956864E-01 NSTEP= 1997 Hash code: 83388164 ->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: 1.070E-05 FluxDiff MaxDT: 3.116E-03 Avg. GS error: 1.057E-02 Plasma Current: 5.269E+05, target: 5.269E+05, error: 0.002% Edge Q: 11.012, target: 10.918, error: 0.867% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8679E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.4396E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.195686 TO TG2= 0.197505 @ NSTEP 1997 GFRAME TG2 MOMENTS CHECKSUM: 3.5934084594560D+03 --> plasma_hash("gframe"): TA= 1.975045E-01 NSTEP= 1999 Hash code: 118228439 ->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: 1.155E-05 FluxDiff MaxDT: 3.420E-03 Avg. GS error: 1.080E-02 Plasma Current: 5.294E+05, target: 5.294E+05, error: 0.003% Edge Q: 11.129, target: 11.072, error: 0.520% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9099E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.3451E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.197505 TO TG2= 0.199323 @ NSTEP 1999 GFRAME TG2 MOMENTS CHECKSUM: 3.6005427241789D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1999 TA= 1.97505E-01 CPU TIME= 9.21300E-03 SECONDS. DT= 1.10991E-03 --> plasma_hash("gframe"): TA= 1.993227E-01 NSTEP= 2001 Hash code: 43102895 ->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: 8.991E-06 FluxDiff MaxDT: 3.927E-03 Avg. GS error: 1.106E-02 Plasma Current: 5.314E+05, target: 5.313E+05, error: 0.004% Edge Q: 11.241, target: 11.167, error: 0.669% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8962E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.2690E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.199323 TO TG2= 0.201141 @ NSTEP 2001 GFRAME TG2 MOMENTS CHECKSUM: 3.6068371606753D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2002 TA= 2.00396E-01 CPU TIME= 9.37100E-03 SECONDS. DT= 7.44990E-04 --> plasma_hash("gframe"): TA= 2.011409E-01 NSTEP= 2003 Hash code: 66744415 ->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: 8.208E-06 FluxDiff MaxDT: 4.086E-03 Avg. GS error: 1.137E-02 Plasma Current: 5.335E+05, target: 5.335E+05, error: 0.004% Edge Q: 11.346, target: 11.310, error: 0.320% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8425E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.2059E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.201141 TO TG2= 0.202959 @ NSTEP 2003 GFRAME TG2 MOMENTS CHECKSUM: 3.6125667099962D+03 %MFRCHK - LABEL "BALE0_SGF", # 20= 4.70103E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 1.85080E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 2.85023E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.029591E-01 NSTEP= 2005 Hash code: 33532302 ->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: 7.546E-06 FluxDiff MaxDT: 3.475E-03 Avg. GS error: 1.138E-02 Plasma Current: 5.367E+05, target: 5.367E+05, error: 0.004% Edge Q: 11.445, target: 11.387, error: 0.515% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8212E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.1419E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.202959 TO TG2= 0.204777 @ NSTEP 2005 GFRAME TG2 MOMENTS CHECKSUM: 3.6211379865788D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2005 TA= 2.02959E-01 CPU TIME= 9.15700E-03 SECONDS. DT= 1.31487E-03 --> plasma_hash("gframe"): TA= 2.047773E-01 NSTEP= 2007 Hash code: 57190780 ->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: 8.087E-06 FluxDiff MaxDT: 2.971E-03 Avg. GS error: 1.108E-02 Plasma Current: 5.409E+05, target: 5.409E+05, error: 0.003% Edge Q: 11.541, target: 11.502, error: 0.336% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7010E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 2.0651E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.204777 TO TG2= 0.206595 @ NSTEP 2007 GFRAME TG2 MOMENTS CHECKSUM: 3.6311726110081D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2008 TA= 2.05975E-01 CPU TIME= 9.17600E-03 SECONDS. DT= 6.20363E-04 --> plasma_hash("gframe"): TA= 2.065954E-01 NSTEP= 2009 Hash code: 12047191 ->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: 8.356E-06 FluxDiff MaxDT: 2.803E-03 Avg. GS error: 1.044E-02 Plasma Current: 5.447E+05, target: 5.447E+05, error: 0.003% Edge Q: 11.663, target: 11.567, error: 0.838% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7698E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.9757E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.206595 TO TG2= 0.208414 @ NSTEP 2009 GFRAME TG2 MOMENTS CHECKSUM: 3.6444278745907D+03 --> plasma_hash("gframe"): TA= 2.084136E-01 NSTEP= 2011 Hash code: 69785672 ->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: 8.064E-06 FluxDiff MaxDT: 2.809E-03 Avg. GS error: 1.024E-02 Plasma Current: 5.484E+05, target: 5.484E+05, error: 0.001% Edge Q: 11.788, target: 11.718, error: 0.591% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7114E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.8774E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.208414 TO TG2= 0.210232 @ NSTEP 2011 GFRAME TG2 MOMENTS CHECKSUM: 3.6569048084248D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2012 TA= 2.09711E-01 CPU TIME= 9.16000E-03 SECONDS. DT= 5.20415E-04 --> plasma_hash("gframe"): TA= 2.102318E-01 NSTEP= 2013 Hash code: 41789774 ->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: 8.163E-06 FluxDiff MaxDT: 2.654E-03 Avg. GS error: 1.092E-02 Plasma Current: 5.530E+05, target: 5.530E+05, error: 0.001% Edge Q: 11.895, target: 11.824, error: 0.599% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6879E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7878E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.210232 TO TG2= 0.212050 @ NSTEP 2013 GFRAME TG2 MOMENTS CHECKSUM: 3.6691631370344D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -1.24597E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 8.24817E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 8.32149E-38 RESET TO ZERO %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2015 TA= 2.12050E-01 CPU TIME= 8.95700E-03 SECONDS. DT= 2.44966E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.89719194444456 %check_save_state: izleft hours = 78.0352777777778 --> plasma_hash("gframe"): TA= 2.120500E-01 NSTEP= 2015 Hash code: 55158384 ->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: 9.301E-06 FluxDiff MaxDT: 2.754E-03 Avg. GS error: 1.143E-02 Plasma Current: 5.585E+05, target: 5.585E+05, error: 0.000% Edge Q: 11.942, target: 11.953, error: 0.095% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5247E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7366E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.212050 TO TG2= 0.213868 @ NSTEP 2015 GFRAME TG2 MOMENTS CHECKSUM: 3.6745856175149D+03 --> plasma_hash("gframe"): TA= 2.138682E-01 NSTEP= 2020 Hash code: 64675342 ->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: 9.433E-06 FluxDiff MaxDT: 2.822E-03 Avg. GS error: 1.130E-02 Plasma Current: 5.633E+05, target: 5.633E+05, error: 0.001% Edge Q: 11.922, target: 11.983, error: 0.513% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0259E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6636E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.213868 TO TG2= 0.215686 @ NSTEP 2020 GFRAME TG2 MOMENTS CHECKSUM: 3.6695071506619D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2022 TA= 2.15214E-01 CPU TIME= 6.09460E-02 SECONDS. DT= 4.72541E-04 --> plasma_hash("gframe"): TA= 2.156864E-01 NSTEP= 2023 Hash code: 84707424 ->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: 1.008E-05 FluxDiff MaxDT: 3.622E-03 Avg. GS error: 1.049E-02 Plasma Current: 5.674E+05, target: 5.674E+05, error: 0.002% Edge Q: 11.845, target: 11.970, error: 1.046% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8914E+00 SECONDS DATA R*BT AT EDGE: 5.9015E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6796E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.215686 TO TG2= 0.217505 @ NSTEP 2023 GFRAME TG2 MOMENTS CHECKSUM: 3.6568688077755D+03 --> plasma_hash("gframe"): TA= 2.175045E-01 NSTEP= 2025 Hash code: 76664805 ->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: 8.190E-06 FluxDiff MaxDT: 3.419E-03 Avg. GS error: 9.832E-03 Plasma Current: 5.720E+05, target: 5.720E+05, error: 0.002% Edge Q: 11.776, target: 11.886, error: 0.931% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9943E+00 SECONDS DATA R*BT AT EDGE: 5.9018E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6792E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.217505 TO TG2= 0.219323 @ NSTEP 2025 GFRAME TG2 MOMENTS CHECKSUM: 3.6444127033285D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2026 TA= 2.18673E-01 CPU TIME= 9.15900E-03 SECONDS. DT= 6.50091E-04 --> plasma_hash("gframe"): TA= 2.193227E-01 NSTEP= 2027 Hash code: 67875710 ->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: 9.206E-06 FluxDiff MaxDT: 2.998E-03 Avg. GS error: 9.369E-03 Plasma Current: 5.777E+05, target: 5.777E+05, error: 0.001% Edge Q: 11.693, target: 11.819, error: 1.070% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 3.2074E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7251E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.219323 TO TG2= 0.221141 @ NSTEP 2027 GFRAME TG2 MOMENTS CHECKSUM: 3.6326362560084D+03 --> plasma_hash("gframe"): TA= 2.211409E-01 NSTEP= 2029 Hash code: 114752668 ->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: 1.062E-05 FluxDiff MaxDT: 3.074E-03 Avg. GS error: 8.909E-03 Plasma Current: 5.827E+05, target: 5.827E+05, error: 0.003% Edge Q: 11.617, target: 11.719, error: 0.866% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9505E+00 SECONDS DATA R*BT AT EDGE: 5.9011E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7752E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.221141 TO TG2= 0.222959 @ NSTEP 2029 GFRAME TG2 MOMENTS CHECKSUM: 3.6203866229235D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 1.40008E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -4.26438E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -4.74228E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.229591E-01 NSTEP= 2030 Hash code: 26061587 ->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: 1.069E-05 FluxDiff MaxDT: 3.753E-03 Avg. GS error: 8.510E-03 Plasma Current: 5.856E+05, target: 5.856E+05, error: 0.002% Edge Q: 11.569, target: 11.658, error: 0.764% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8983E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7822E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.222959 TO TG2= 0.224777 @ NSTEP 2030 GFRAME TG2 MOMENTS CHECKSUM: 3.6070305039883D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2030 TA= 2.22959E-01 CPU TIME= 9.13700E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 2.247773E-01 NSTEP= 2031 Hash code: 110863172 ->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: 9.019E-06 FluxDiff MaxDT: 4.686E-03 Avg. GS error: 8.287E-03 Plasma Current: 5.868E+05, target: 5.868E+05, error: 0.002% Edge Q: 11.546, target: 11.619, error: 0.635% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7219E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7842E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.224777 TO TG2= 0.226595 @ NSTEP 2031 GFRAME TG2 MOMENTS CHECKSUM: 3.5931929374569D+03 --> plasma_hash("gframe"): TA= 2.265954E-01 NSTEP= 2033 Hash code: 120139441 ->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: 7.695E-06 FluxDiff MaxDT: 5.198E-03 Avg. GS error: 8.545E-03 Plasma Current: 5.874E+05, target: 5.874E+05, error: 0.001% Edge Q: 11.538, target: 11.612, error: 0.633% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6177E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.7157E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.226595 TO TG2= 0.228414 @ NSTEP 2033 GFRAME TG2 MOMENTS CHECKSUM: 3.5795481892062D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2033 TA= 2.26595E-01 CPU TIME= 9.38500E-03 SECONDS. DT= 1.75335E-03 --> plasma_hash("gframe"): TA= 2.284136E-01 NSTEP= 2035 Hash code: 32679849 ->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: 7.128E-06 FluxDiff MaxDT: 5.590E-03 Avg. GS error: 8.717E-03 Plasma Current: 5.878E+05, target: 5.878E+05, error: 0.002% Edge Q: 11.553, target: 11.609, error: 0.477% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7121E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6970E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.228414 TO TG2= 0.230232 @ NSTEP 2035 GFRAME TG2 MOMENTS CHECKSUM: 3.5667668455353D+03 --> plasma_hash("gframe"): TA= 2.302318E-01 NSTEP= 2037 Hash code: 79043176 ->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: 6.443E-06 FluxDiff MaxDT: 5.414E-03 Avg. GS error: 8.885E-03 Plasma Current: 5.881E+05, target: 5.881E+05, error: 0.002% Edge Q: 11.587, target: 11.646, error: 0.508% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6145E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6646E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.230232 TO TG2= 0.232050 @ NSTEP 2037 GFRAME TG2 MOMENTS CHECKSUM: 3.5590960785730D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2038 TA= 2.31950E-01 CPU TIME= 6.20510E-02 SECONDS. DT= 9.97492E-05 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2039 TA= 2.32050E-01 CPU TIME= 8.94700E-03 SECONDS. DT= 1.24687E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.91291111111150 %check_save_state: izleft hours = 78.0194444444444 --> plasma_hash("gframe"): TA= 2.320500E-01 NSTEP= 2039 Hash code: 106815799 ->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: 6.111E-06 FluxDiff MaxDT: 4.966E-03 Avg. GS error: 8.958E-03 Plasma Current: 5.886E+05, target: 5.886E+05, error: 0.003% Edge Q: 11.627, target: 11.679, error: 0.447% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5439E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.6264E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.232050 TO TG2= 0.233868 @ NSTEP 2039 GFRAME TG2 MOMENTS CHECKSUM: 3.5569145702700D+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_GF_H", # 20= -6.18267E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -8.28037E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.338682E-01 NSTEP= 2046 Hash code: 6523971 ->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: 6.565E-06 FluxDiff MaxDT: 3.795E-03 Avg. GS error: 8.949E-03 Plasma Current: 5.898E+05, target: 5.898E+05, error: 0.001% Edge Q: 11.679, target: 11.730, error: 0.431% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8509E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.5608E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.233868 TO TG2= 0.235686 @ NSTEP 2046 GFRAME TG2 MOMENTS CHECKSUM: 3.5605646062033D+03 --> plasma_hash("gframe"): TA= 2.356864E-01 NSTEP= 2050 Hash code: 40918473 ->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: 8.256E-06 FluxDiff MaxDT: 3.560E-03 Avg. GS error: 8.959E-03 Plasma Current: 5.916E+05, target: 5.916E+05, error: 0.000% Edge Q: 11.709, target: 11.774, error: 0.556% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.9154E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4915E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.235686 TO TG2= 0.237505 @ NSTEP 2050 GFRAME TG2 MOMENTS CHECKSUM: 3.5636584379998D+03 --> plasma_hash("gframe"): TA= 2.375045E-01 NSTEP= 2052 Hash code: 75941285 ->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: 8.054E-06 FluxDiff MaxDT: 3.332E-03 Avg. GS error: 8.930E-03 Plasma Current: 5.939E+05, target: 5.939E+05, error: 0.001% Edge Q: 11.728, target: 11.813, error: 0.718% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7578E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4282E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.237505 TO TG2= 0.239323 @ NSTEP 2052 GFRAME TG2 MOMENTS CHECKSUM: 3.5683565395559D+03 --> plasma_hash("gframe"): TA= 2.393227E-01 NSTEP= 2054 Hash code: 101652008 ->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: 8.544E-06 FluxDiff MaxDT: 2.885E-03 Avg. GS error: 8.789E-03 Plasma Current: 5.968E+05, target: 5.968E+05, error: 0.001% Edge Q: 11.753, target: 11.827, error: 0.632% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7993E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3941E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.239323 TO TG2= 0.241141 @ NSTEP 2054 GFRAME TG2 MOMENTS CHECKSUM: 3.5778462798215D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2055 TA= 2.40774E-01 CPU TIME= 1.23540E-02 SECONDS. DT= 3.66640E-04 --> plasma_hash("gframe"): TA= 2.411409E-01 NSTEP= 2056 Hash code: 64684246 ->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: 9.034E-06 FluxDiff MaxDT: 2.552E-03 Avg. GS error: 9.044E-03 Plasma Current: 6.003E+05, target: 6.003E+05, error: 0.001% Edge Q: 11.795, target: 11.855, error: 0.506% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0269E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4060E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.241141 TO TG2= 0.242959 @ NSTEP 2056 GFRAME TG2 MOMENTS CHECKSUM: 3.5936750563637D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 13= 1.42124E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 9.12133E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 9.04836E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.429591E-01 NSTEP= 2058 Hash code: 51607038 ->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: 9.551E-06 FluxDiff MaxDT: 2.342E-03 Avg. GS error: 9.763E-03 Plasma Current: 6.037E+05, target: 6.037E+05, error: 0.003% Edge Q: 11.858, target: 11.902, error: 0.369% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8296E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.4798E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.242959 TO TG2= 0.244777 @ NSTEP 2058 GFRAME TG2 MOMENTS CHECKSUM: 3.6151458640967D+03 --> plasma_hash("gframe"): TA= 2.447773E-01 NSTEP= 2060 Hash code: 123435038 ->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: 1.067E-05 FluxDiff MaxDT: 2.273E-03 Avg. GS error: 9.667E-03 Plasma Current: 6.071E+05, target: 6.071E+05, error: 0.003% Edge Q: 11.948, target: 11.973, error: 0.204% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8667E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2866E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.244777 TO TG2= 0.246595 @ NSTEP 2060 GFRAME TG2 MOMENTS CHECKSUM: 3.6359083227334D+03 --> plasma_hash("gframe"): TA= 2.465954E-01 NSTEP= 2062 Hash code: 16702663 ->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: 1.147E-05 FluxDiff MaxDT: 2.167E-03 Avg. GS error: 9.535E-03 Plasma Current: 6.109E+05, target: 6.109E+05, error: 0.003% Edge Q: 12.077, target: 12.078, error: 0.010% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7926E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0889E-01 % GFRAME - GEOMETRY TIMESTEP TG1= 0.246595 TO TG2= 0.248414 @ NSTEP 2062 GFRAME TG2 MOMENTS CHECKSUM: 3.6564186982879D+03 --> plasma_hash("gframe"): TA= 2.484136E-01 NSTEP= 2064 Hash code: 8840980 ->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: 1.227E-05 FluxDiff MaxDT: 2.183E-03 Avg. GS error: 9.496E-03 Plasma Current: 6.154E+05, target: 6.154E+05, error: 0.003% Edge Q: 12.249, target: 12.229, error: 0.156% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9322E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.8740E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.248414 TO TG2= 0.250232 @ NSTEP 2064 GFRAME TG2 MOMENTS CHECKSUM: 3.6747537643062D+03 --> plasma_hash("gframe"): TA= 2.502318E-01 NSTEP= 2066 Hash code: 71892982 ->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: 1.289E-05 FluxDiff MaxDT: 2.645E-03 Avg. GS error: 1.004E-02 Plasma Current: 6.190E+05, target: 6.190E+05, error: 0.002% Edge Q: 12.437, target: 12.464, error: 0.218% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7504E+00 SECONDS DATA R*BT AT EDGE: 5.9014E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2888E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.250232 TO TG2= 0.252050 @ NSTEP 2066 GFRAME TG2 MOMENTS CHECKSUM: 3.6890292138400D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2067 TA= 2.52050E-01 CPU TIME= 8.99100E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.93372500000009 %check_save_state: izleft hours = 77.9986111111111 --> plasma_hash("gframe"): TA= 2.520500E-01 NSTEP= 2067 Hash code: 112310378 ->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: 1.162E-05 FluxDiff MaxDT: 3.868E-03 Avg. GS error: 1.008E-02 Plasma Current: 6.215E+05, target: 6.215E+05, error: 0.004% Edge Q: 12.007, target: 12.778, error: 6.027% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9671E+00 SECONDS DATA R*BT AT EDGE: 5.9016E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2806E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.252050 TO TG2= 0.253868 @ NSTEP 2067 GFRAME TG2 MOMENTS CHECKSUM: 3.6901239447265D+03 %MFRCHK - LABEL "BALE0_SGF", # 10= 1.92519E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 2.00600E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 15= 1.74835E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.538682E-01 NSTEP= 2068 Hash code: 43855609 ->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: 1.109E-05 FluxDiff MaxDT: 3.851E-03 Avg. GS error: 9.755E-03 Plasma Current: 6.235E+05, target: 6.235E+05, error: 0.000% Edge Q: 11.629, target: 12.315, error: 5.568% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7680E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4763E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.253868 TO TG2= 0.255686 @ NSTEP 2068 GFRAME TG2 MOMENTS CHECKSUM: 3.6925628888471D+03 --> plasma_hash("gframe"): TA= 2.556864E-01 NSTEP= 2069 Hash code: 30789928 ->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: 1.171E-05 FluxDiff MaxDT: 3.767E-03 Avg. GS error: 9.321E-03 Plasma Current: 6.262E+05, target: 6.262E+05, error: 0.005% Edge Q: 11.303, target: 11.928, error: 5.244% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9310E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5969E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.255686 TO TG2= 0.257505 @ NSTEP 2069 GFRAME TG2 MOMENTS CHECKSUM: 3.6943450388711D+03 --> plasma_hash("gframe"): TA= 2.575045E-01 NSTEP= 2070 Hash code: 26763580 ->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: 1.245E-05 FluxDiff MaxDT: 3.432E-03 Avg. GS error: 9.121E-03 Plasma Current: 6.293E+05, target: 6.293E+05, error: 0.004% Edge Q: 11.081, target: 11.582, error: 4.321% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7964E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5769E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.257505 TO TG2= 0.259323 @ NSTEP 2070 GFRAME TG2 MOMENTS CHECKSUM: 3.6960135502355D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2070 TA= 2.57505E-01 CPU TIME= 9.13600E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 2.593227E-01 NSTEP= 2071 Hash code: 112078633 ->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: 1.429E-05 FluxDiff MaxDT: 2.457E-03 Avg. GS error: 9.235E-03 Plasma Current: 6.320E+05, target: 6.321E+05, error: 0.005% Edge Q: 11.042, target: 11.351, error: 2.728% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0575E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5261E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.259323 TO TG2= 0.261141 @ NSTEP 2071 GFRAME TG2 MOMENTS CHECKSUM: 3.6954444870964D+03 --> plasma_hash("gframe"): TA= 2.611409E-01 NSTEP= 2073 Hash code: 102327132 ->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: 1.403E-05 FluxDiff MaxDT: 2.013E-03 Avg. GS error: 9.436E-03 Plasma Current: 6.345E+05, target: 6.345E+05, error: 0.002% Edge Q: 11.102, target: 11.310, error: 1.842% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1831E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3645E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.261141 TO TG2= 0.262959 @ NSTEP 2073 GFRAME TG2 MOMENTS CHECKSUM: 3.6931156063321D+03 --> plasma_hash("gframe"): TA= 2.629591E-01 NSTEP= 2075 Hash code: 10032621 ->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: 1.386E-05 FluxDiff MaxDT: 1.952E-03 Avg. GS error: 9.208E-03 Plasma Current: 6.379E+05, target: 6.379E+05, error: 0.002% Edge Q: 11.147, target: 11.373, error: 1.985% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0252E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1604E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.262959 TO TG2= 0.264777 @ NSTEP 2075 GFRAME TG2 MOMENTS CHECKSUM: 3.6913091672683D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -1.18395E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.647773E-01 NSTEP= 2077 Hash code: 92173992 ->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: 1.417E-05 FluxDiff MaxDT: 1.897E-03 Avg. GS error: 8.886E-03 Plasma Current: 6.425E+05, target: 6.426E+05, error: 0.004% Edge Q: 11.165, target: 11.411, error: 2.156% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0559E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7301E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.264777 TO TG2= 0.266595 @ NSTEP 2077 GFRAME TG2 MOMENTS CHECKSUM: 3.6896860196732D+03 --> plasma_hash("gframe"): TA= 2.665954E-01 NSTEP= 2079 Hash code: 109517412 ->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: 1.460E-05 FluxDiff MaxDT: 1.894E-03 Avg. GS error: 9.113E-03 Plasma Current: 6.479E+05, target: 6.479E+05, error: 0.000% Edge Q: 11.171, target: 11.425, error: 2.226% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0960E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3490E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.266595 TO TG2= 0.268414 @ NSTEP 2079 GFRAME TG2 MOMENTS CHECKSUM: 3.6873314968176D+03 --> plasma_hash("gframe"): TA= 2.684136E-01 NSTEP= 2081 Hash code: 30183188 ->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: 1.501E-05 FluxDiff MaxDT: 2.000E-03 Avg. GS error: 9.486E-03 Plasma Current: 6.531E+05, target: 6.531E+05, error: 0.004% Edge Q: 11.172, target: 11.429, error: 2.246% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1351E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1082E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.268414 TO TG2= 0.270232 @ NSTEP 2081 GFRAME TG2 MOMENTS CHECKSUM: 3.6846743626776D+03 --> plasma_hash("gframe"): TA= 2.702318E-01 NSTEP= 2083 Hash code: 18603073 ->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: 1.508E-05 FluxDiff MaxDT: 2.035E-03 Avg. GS error: 9.925E-03 Plasma Current: 6.583E+05, target: 6.583E+05, error: 0.001% Edge Q: 11.173, target: 11.441, error: 2.336% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9421E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9795E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.270232 TO TG2= 0.272050 @ NSTEP 2083 GFRAME TG2 MOMENTS CHECKSUM: 3.6813555780414D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2084 TA= 2.72050E-01 CPU TIME= 8.93200E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.94959722222234 %check_save_state: izleft hours = 77.9827777777778 --> plasma_hash("gframe"): TA= 2.720500E-01 NSTEP= 2084 Hash code: 18012027 ->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: 1.550E-05 FluxDiff MaxDT: 2.082E-03 Avg. GS error: 1.016E-02 Plasma Current: 6.632E+05, target: 6.632E+05, error: 0.001% Edge Q: 11.201, target: 11.436, error: 2.056% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0103E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9738E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.272050 TO TG2= 0.273868 @ NSTEP 2084 GFRAME TG2 MOMENTS CHECKSUM: 3.6790204482810D+03 %MFRCHK - LABEL "BALE0_SGF", # 11= -1.31559E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= 1.38816E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -5.51445E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 2.738682E-01 NSTEP= 2085 Hash code: 14514983 ->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: 1.486E-05 FluxDiff MaxDT: 2.135E-03 Avg. GS error: 9.899E-03 Plasma Current: 6.674E+05, target: 6.674E+05, error: 0.001% Edge Q: 11.259, target: 11.479, error: 1.918% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9734E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9612E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.273868 TO TG2= 0.275686 @ NSTEP 2085 GFRAME TG2 MOMENTS CHECKSUM: 3.6773515097914D+03 --> plasma_hash("gframe"): TA= 2.756864E-01 NSTEP= 2086 Hash code: 104338136 ->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: 1.455E-05 FluxDiff MaxDT: 2.225E-03 Avg. GS error: 1.007E-02 Plasma Current: 6.706E+05, target: 6.706E+05, error: 0.001% Edge Q: 11.355, target: 11.546, error: 1.655% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8646E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0200E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.275686 TO TG2= 0.277505 @ NSTEP 2086 GFRAME TG2 MOMENTS CHECKSUM: 3.6757433289149D+03 --> plasma_hash("gframe"): TA= 2.775045E-01 NSTEP= 2087 Hash code: 105552580 ->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: 1.419E-05 FluxDiff MaxDT: 2.287E-03 Avg. GS error: 1.009E-02 Plasma Current: 6.742E+05, target: 6.742E+05, error: 0.001% Edge Q: 11.466, target: 11.668, error: 1.727% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9344E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1039E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.277505 TO TG2= 0.279323 @ NSTEP 2087 GFRAME TG2 MOMENTS CHECKSUM: 3.6746989348211D+03 --> plasma_hash("gframe"): TA= 2.793227E-01 NSTEP= 2088 Hash code: 69408057 ->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: 1.451E-05 FluxDiff MaxDT: 2.244E-03 Avg. GS error: 1.016E-02 Plasma Current: 6.789E+05, target: 6.789E+05, error: 0.001% Edge Q: 11.587, target: 11.799, error: 1.801% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9000E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1054E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.279323 TO TG2= 0.281141 @ NSTEP 2088 GFRAME TG2 MOMENTS CHECKSUM: 3.6739354658308D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.280000000000000 -------------------------------- Namelist update: 204112B62TR.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)= 3.02353E+10 DN(REL)= 1.61808E-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: 1.00496E+12 NOW: 9.93162E+11 DIFF: -1.17939E+10 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: 1.56624E+11 NOW: 1.86859E+11 DIFF: 3.02353E+10 RHOB 2 PREVIOUS TIMESTEP: 8.32256E+12 NOW: 9.93674E+12 DIFF: 1.61417E+12 RHBS 1 PREVIOUS TIMESTEP: 1.00496E+12 NOW: 9.93162E+11 DIFF: -1.17939E+10 %TOO MANY ITERATIONS IN PROFNJ, REDUCING TIMESTEP *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2095 TA= 2.80164E-01 CPU TIME= 3.38650E-02 SECONDS. DT= 3.70133E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2101 TA= 2.80334E-01 CPU TIME= 9.08800E-02 SECONDS. DT= 3.57107E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2107 TA= 2.80510E-01 CPU TIME= 1.47290E-02 SECONDS. DT= 3.53353E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2113 TA= 2.80695E-01 CPU TIME= 3.01510E-02 SECONDS. DT= 3.62065E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2119 TA= 2.80897E-01 CPU TIME= 2.27200E-02 SECONDS. DT= 4.73016E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2125 TA= 2.81107E-01 CPU TIME= 2.32250E-02 SECONDS. DT= 3.40078E-05 --> plasma_hash("gframe"): TA= 2.811409E-01 NSTEP= 2126 Hash code: 93735979 ->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: 1.492E-05 FluxDiff MaxDT: 2.209E-03 Avg. GS error: 9.889E-03 Plasma Current: 6.841E+05, target: 6.841E+05, error: 0.003% Edge Q: 11.741, target: 11.951, error: 1.754% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8816E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2422E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.281141 TO TG2= 0.282959 @ NSTEP 2126 GFRAME TG2 MOMENTS CHECKSUM: 3.6735805982790D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2131 TA= 2.81324E-01 CPU TIME= 2.66110E-02 SECONDS. DT= 4.85884E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2137 TA= 2.81558E-01 CPU TIME= 9.16300E-03 SECONDS. DT= 5.09261E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2143 TA= 2.81805E-01 CPU TIME= 9.19500E-03 SECONDS. DT= 5.33846E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2149 TA= 2.82064E-01 CPU TIME= 9.19400E-03 SECONDS. DT= 5.59691E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2155 TA= 2.82337E-01 CPU TIME= 9.17700E-03 SECONDS. DT= 5.86860E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2161 TA= 2.82623E-01 CPU TIME= 9.16900E-03 SECONDS. DT= 6.15421E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2167 TA= 2.82924E-01 CPU TIME= 2.04150E-02 SECONDS. DT= 3.46480E-05 --> plasma_hash("gframe"): TA= 2.829591E-01 NSTEP= 2168 Hash code: 65269232 ->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: 1.578E-05 FluxDiff MaxDT: 3.199E-03 Avg. GS error: 9.404E-03 Plasma Current: 6.885E+05, target: 6.887E+05, error: 0.019% Edge Q: 11.442, target: 12.159, error: 5.900% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5957E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6238E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.282959 TO TG2= 0.284777 @ NSTEP 2168 GFRAME TG2 MOMENTS CHECKSUM: 3.6653201220148D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2173 TA= 2.83223E-01 CPU TIME= 9.97000E-03 SECONDS. DT= 7.13088E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2179 TA= 2.83559E-01 CPU TIME= 2.51910E-02 SECONDS. DT= 7.91294E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2185 TA= 2.83908E-01 CPU TIME= 9.79500E-03 SECONDS. DT= 8.44557E-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_GF_H", # 20= 7.30008E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= 7.07997E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2191 TA= 2.84274E-01 CPU TIME= 6.33340E-02 SECONDS. DT= 7.18831E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2197 TA= 2.84672E-01 CPU TIME= 9.20700E-03 SECONDS. DT= 7.68261E-05 --> plasma_hash("gframe"): TA= 2.847773E-01 NSTEP= 2199 Hash code: 72617023 ->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: 1.719E-05 FluxDiff MaxDT: 3.183E-03 Avg. GS error: 9.322E-03 Plasma Current: 6.924E+05, target: 6.926E+05, error: 0.026% Edge Q: 11.054, target: 11.819, error: 6.468% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0993E+00 SECONDS DATA R*BT AT EDGE: 5.9008E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3840E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.284777 TO TG2= 0.286595 @ NSTEP 2199 GFRAME TG2 MOMENTS CHECKSUM: 3.6563016209815D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2203 TA= 2.85068E-01 CPU TIME= 9.27400E-03 SECONDS. DT= 8.59685E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2209 TA= 2.85501E-01 CPU TIME= 9.27300E-03 SECONDS. DT= 9.40549E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2215 TA= 2.85958E-01 CPU TIME= 9.26900E-03 SECONDS. DT= 1.08348E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2221 TA= 2.86425E-01 CPU TIME= 5.79710E-02 SECONDS. DT= 9.33266E-05 --> plasma_hash("gframe"): TA= 2.865954E-01 NSTEP= 2223 Hash code: 107443700 ->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: 1.937E-05 FluxDiff MaxDT: 3.414E-03 Avg. GS error: 9.771E-03 Plasma Current: 6.965E+05, target: 6.966E+05, error: 0.017% Edge Q: 10.903, target: 11.371, error: 4.120% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8998E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7289E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.286595 TO TG2= 0.288414 @ NSTEP 2223 GFRAME TG2 MOMENTS CHECKSUM: 3.6527263303573D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2227 TA= 2.86947E-01 CPU TIME= 9.31000E-03 SECONDS. DT= 1.04686E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2233 TA= 2.87484E-01 CPU TIME= 6.58670E-02 SECONDS. DT= 1.18267E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2239 TA= 2.88035E-01 CPU TIME= 1.53790E-02 SECONDS. DT= 1.35373E-04 --> plasma_hash("gframe"): TA= 2.884136E-01 NSTEP= 2243 Hash code: 57522150 ->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: 1.880E-05 FluxDiff MaxDT: 3.414E-03 Avg. GS error: 1.062E-02 Plasma Current: 7.008E+05, target: 7.007E+05, error: 0.007% Edge Q: 10.880, target: 11.211, error: 2.953% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6397E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3089E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.288414 TO TG2= 0.290232 @ NSTEP 2243 GFRAME TG2 MOMENTS CHECKSUM: 3.6514533648465D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2245 TA= 2.88604E-01 CPU TIME= 9.23600E-03 SECONDS. DT= 1.18176E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2251 TA= 2.89234E-01 CPU TIME= 4.06930E-02 SECONDS. DT= 1.22305E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2257 TA= 2.89920E-01 CPU TIME= 9.31600E-03 SECONDS. DT= 1.34312E-04 --> plasma_hash("gframe"): TA= 2.902318E-01 NSTEP= 2260 Hash code: 9478270 ->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: 1.904E-05 FluxDiff MaxDT: 3.424E-03 Avg. GS error: 1.141E-02 Plasma Current: 7.042E+05, target: 7.042E+05, error: 0.008% Edge Q: 10.761, target: 11.185, error: 3.789% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6340E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5064E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.290232 TO TG2= 0.292050 @ NSTEP 2260 GFRAME TG2 MOMENTS CHECKSUM: 3.6482344692480D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2262 TA= 2.90704E-01 CPU TIME= 2.24680E-02 SECONDS. DT= 3.27911E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2265 TA= 2.91954E-01 CPU TIME= 4.12520E-02 SECONDS. DT= 9.58283E-05 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2266 TA= 2.92050E-01 CPU TIME= 9.15100E-03 SECONDS. DT= 1.19785E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 1.99111083333310 %check_save_state: izleft hours = 77.9411111111111 --> plasma_hash("gframe"): TA= 2.920500E-01 NSTEP= 2266 Hash code: 4536431 ->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: 1.793E-05 FluxDiff MaxDT: 3.755E-03 Avg. GS error: 1.201E-02 Plasma Current: 7.069E+05, target: 7.069E+05, error: 0.009% Edge Q: 10.661, target: 11.067, error: 3.668% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6166E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8954E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.292050 TO TG2= 0.293868 @ NSTEP 2266 GFRAME TG2 MOMENTS CHECKSUM: 3.6452077027079D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2272 TA= 2.93399E-01 CPU TIME= 1.08470E-02 SECONDS. DT= 4.56945E-04 --> plasma_hash("gframe"): TA= 2.938682E-01 NSTEP= 2274 Hash code: 114388441 ->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: 1.884E-05 FluxDiff MaxDT: 5.072E-03 Avg. GS error: 1.170E-02 Plasma Current: 7.096E+05, target: 7.095E+05, error: 0.008% Edge Q: 10.567, target: 10.964, error: 3.619% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5952E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3601E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.293868 TO TG2= 0.295686 @ NSTEP 2274 GFRAME TG2 MOMENTS CHECKSUM: 3.6416732661174D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.65090E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2276 TA= 2.95153E-01 CPU TIME= 1.38870E-02 SECONDS. DT= 5.33025E-04 --> plasma_hash("gframe"): TA= 2.956864E-01 NSTEP= 2277 Hash code: 98741646 ->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: 1.517E-05 FluxDiff MaxDT: 5.841E-03 Avg. GS error: 1.256E-02 Plasma Current: 7.124E+05, target: 7.123E+05, error: 0.007% Edge Q: 10.481, target: 10.886, error: 3.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5852E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0684E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.295686 TO TG2= 0.297505 @ NSTEP 2277 GFRAME TG2 MOMENTS CHECKSUM: 3.6389306304864D+03 --> plasma_hash("gframe"): TA= 2.975045E-01 NSTEP= 2279 Hash code: 82102543 ->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: 1.370E-05 FluxDiff MaxDT: 5.781E-03 Avg. GS error: 1.233E-02 Plasma Current: 7.151E+05, target: 7.151E+05, error: 0.006% Edge Q: 10.405, target: 10.788, error: 3.545% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5530E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0043E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.297505 TO TG2= 0.299323 @ NSTEP 2279 GFRAME TG2 MOMENTS CHECKSUM: 3.6365843789756D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2279 TA= 2.97505E-01 CPU TIME= 9.24700E-03 SECONDS. DT= 1.11559E-03 --> plasma_hash("gframe"): TA= 2.993227E-01 NSTEP= 2281 Hash code: 32254435 ->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: 1.202E-05 FluxDiff MaxDT: 5.840E-03 Avg. GS error: 1.229E-02 Plasma Current: 7.175E+05, target: 7.175E+05, error: 0.005% Edge Q: 10.343, target: 10.711, error: 3.438% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5577E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1209E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.299323 TO TG2= 0.301141 @ NSTEP 2281 GFRAME TG2 MOMENTS CHECKSUM: 3.6343897664350D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2282 TA= 3.00717E-01 CPU TIME= 1.14250E-02 SECONDS. DT= 4.23697E-04 --> plasma_hash("gframe"): TA= 3.011409E-01 NSTEP= 2283 Hash code: 55942973 ->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: 1.073E-05 FluxDiff MaxDT: 5.892E-03 Avg. GS error: 1.226E-02 Plasma Current: 7.199E+05, target: 7.199E+05, error: 0.004% Edge Q: 10.287, target: 10.640, error: 3.323% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5569E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0871E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.301141 TO TG2= 0.302959 @ NSTEP 2283 GFRAME TG2 MOMENTS CHECKSUM: 3.6324834544416D+03 --> plasma_hash("gframe"): TA= 3.029591E-01 NSTEP= 2285 Hash code: 113009876 ->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: 9.925E-06 FluxDiff MaxDT: 5.754E-03 Avg. GS error: 1.243E-02 Plasma Current: 7.227E+05, target: 7.227E+05, error: 0.003% Edge Q: 10.226, target: 10.582, error: 3.360% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6193E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0818E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.302959 TO TG2= 0.304777 @ NSTEP 2285 GFRAME TG2 MOMENTS CHECKSUM: 3.6306287289610D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= -2.67570E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 17= -1.31953E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 17= -1.35618E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.047773E-01 NSTEP= 2286 Hash code: 79468613 ->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: 9.774E-06 FluxDiff MaxDT: 5.636E-03 Avg. GS error: 1.225E-02 Plasma Current: 7.257E+05, target: 7.257E+05, error: 0.004% Edge Q: 10.168, target: 10.509, error: 3.246% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6851E+00 SECONDS DATA R*BT AT EDGE: 5.9004E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.8722E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.304777 TO TG2= 0.306595 @ NSTEP 2286 GFRAME TG2 MOMENTS CHECKSUM: 3.6289633349174D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2286 TA= 3.04777E-01 CPU TIME= 9.28400E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 3.065954E-01 NSTEP= 2287 Hash code: 114929542 ->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: 9.114E-06 FluxDiff MaxDT: 5.563E-03 Avg. GS error: 1.207E-02 Plasma Current: 7.284E+05, target: 7.284E+05, error: 0.005% Edge Q: 10.118, target: 10.449, error: 3.168% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6570E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7565E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.306595 TO TG2= 0.308414 @ NSTEP 2287 GFRAME TG2 MOMENTS CHECKSUM: 3.6272956398623D+03 --> plasma_hash("gframe"): TA= 3.084136E-01 NSTEP= 2288 Hash code: 71250289 ->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: 8.419E-06 FluxDiff MaxDT: 5.524E-03 Avg. GS error: 1.192E-02 Plasma Current: 7.308E+05, target: 7.308E+05, error: 0.006% Edge Q: 10.077, target: 10.394, error: 3.046% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6291E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7311E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.308414 TO TG2= 0.310232 @ NSTEP 2288 GFRAME TG2 MOMENTS CHECKSUM: 3.6257086670999D+03 --> plasma_hash("gframe"): TA= 3.102318E-01 NSTEP= 2289 Hash code: 27153636 ->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: 7.762E-06 FluxDiff MaxDT: 5.447E-03 Avg. GS error: 1.153E-02 Plasma Current: 7.330E+05, target: 7.331E+05, error: 0.008% Edge Q: 9.941, target: 10.352, error: 3.970% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6364E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2077E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.310232 TO TG2= 0.312050 @ NSTEP 2289 GFRAME TG2 MOMENTS CHECKSUM: 3.6222470209274D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2289 TA= 3.10232E-01 CPU TIME= 9.32300E-03 SECONDS. DT= 1.81818E-03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2290 TA= 3.12050E-01 CPU TIME= 9.09100E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.00282305555561 %check_save_state: izleft hours = 77.9294444444444 --> plasma_hash("gframe"): TA= 3.120500E-01 NSTEP= 2290 Hash code: 82899956 ->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: 7.505E-06 FluxDiff MaxDT: 5.392E-03 Avg. GS error: 1.137E-02 Plasma Current: 7.356E+05, target: 7.356E+05, error: 0.009% Edge Q: 9.903, target: 10.207, error: 2.977% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6790E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1699E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.312050 TO TG2= 0.313868 @ NSTEP 2290 GFRAME TG2 MOMENTS CHECKSUM: 3.6208000916538D+03 --> plasma_hash("gframe"): TA= 3.138682E-01 NSTEP= 2291 Hash code: 73612199 ->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: 7.376E-06 FluxDiff MaxDT: 5.001E-03 Avg. GS error: 1.116E-02 Plasma Current: 7.380E+05, target: 7.381E+05, error: 0.014% Edge Q: 9.846, target: 10.167, error: 3.158% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6380E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2397E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.313868 TO TG2= 0.315686 @ NSTEP 2291 GFRAME TG2 MOMENTS CHECKSUM: 3.6194594855404D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -2.63904E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.31952E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.31952E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.156864E-01 NSTEP= 2292 Hash code: 40585381 ->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: 7.450E-06 FluxDiff MaxDT: 4.960E-03 Avg. GS error: 1.101E-02 Plasma Current: 7.405E+05, target: 7.406E+05, error: 0.018% Edge Q: 9.796, target: 10.103, error: 3.038% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6547E+00 SECONDS DATA R*BT AT EDGE: 5.9005E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3058E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.315686 TO TG2= 0.317505 @ NSTEP 2292 GFRAME TG2 MOMENTS CHECKSUM: 3.6182190689427D+03 --> plasma_hash("gframe"): TA= 3.175045E-01 NSTEP= 2293 Hash code: 7606076 ->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: 7.297E-06 FluxDiff MaxDT: 4.807E-03 Avg. GS error: 1.093E-02 Plasma Current: 7.435E+05, target: 7.436E+05, error: 0.022% Edge Q: 9.749, target: 10.055, error: 3.040% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7078E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3751E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.317505 TO TG2= 0.319323 @ NSTEP 2293 GFRAME TG2 MOMENTS CHECKSUM: 3.6172149093068D+03 --> plasma_hash("gframe"): TA= 3.193227E-01 NSTEP= 2294 Hash code: 41715933 ->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: 7.933E-06 FluxDiff MaxDT: 4.522E-03 Avg. GS error: 1.086E-02 Plasma Current: 7.476E+05, target: 7.478E+05, error: 0.025% Edge Q: 9.692, target: 10.000, error: 3.073% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7715E+00 SECONDS DATA R*BT AT EDGE: 5.9010E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4911E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.319323 TO TG2= 0.321141 @ NSTEP 2294 GFRAME TG2 MOMENTS CHECKSUM: 3.6165084812410D+03 --> plasma_hash("gframe"): TA= 3.211409E-01 NSTEP= 2295 Hash code: 3411848 ->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: 9.433E-06 FluxDiff MaxDT: 4.358E-03 Avg. GS error: 1.080E-02 Plasma Current: 7.520E+05, target: 7.522E+05, error: 0.026% Edge Q: 9.647, target: 9.936, error: 2.912% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7804E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6853E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.321141 TO TG2= 0.322959 @ NSTEP 2295 GFRAME TG2 MOMENTS CHECKSUM: 3.6161630724271D+03 --> plasma_hash("gframe"): TA= 3.229591E-01 NSTEP= 2296 Hash code: 103933773 ->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: 9.717E-06 FluxDiff MaxDT: 4.488E-03 Avg. GS error: 1.072E-02 Plasma Current: 7.550E+05, target: 7.552E+05, error: 0.024% Edge Q: 9.639, target: 9.887, error: 2.512% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7363E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9305E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.322959 TO TG2= 0.324777 @ NSTEP 2296 GFRAME TG2 MOMENTS CHECKSUM: 3.6159801901971D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -2.61985E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.30993E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.30993E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.247773E-01 NSTEP= 2297 Hash code: 102400884 ->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: 8.044E-06 FluxDiff MaxDT: 4.745E-03 Avg. GS error: 1.070E-02 Plasma Current: 7.567E+05, target: 7.569E+05, error: 0.020% Edge Q: 9.661, target: 9.888, error: 2.293% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6619E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0367E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.324777 TO TG2= 0.326595 @ NSTEP 2297 GFRAME TG2 MOMENTS CHECKSUM: 3.6157120026902D+03 --> plasma_hash("gframe"): TA= 3.265954E-01 NSTEP= 2298 Hash code: 116784966 ->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: 6.831E-06 FluxDiff MaxDT: 4.842E-03 Avg. GS error: 1.088E-02 Plasma Current: 7.584E+05, target: 7.584E+05, error: 0.004% Edge Q: 9.746, target: 9.916, error: 1.714% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6922E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9892E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.326595 TO TG2= 0.328414 @ NSTEP 2298 GFRAME TG2 MOMENTS CHECKSUM: 3.6167908547435D+03 --> plasma_hash("gframe"): TA= 3.284136E-01 NSTEP= 2299 Hash code: 32958032 ->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: 6.868E-06 FluxDiff MaxDT: 4.754E-03 Avg. GS error: 1.089E-02 Plasma Current: 7.604E+05, target: 7.604E+05, error: 0.007% Edge Q: 9.734, target: 10.008, error: 2.735% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7271E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3331E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.328414 TO TG2= 0.330232 @ NSTEP 2299 GFRAME TG2 MOMENTS CHECKSUM: 3.6160099421414D+03 --> plasma_hash("gframe"): TA= 3.302318E-01 NSTEP= 2300 Hash code: 75533309 ->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: 7.389E-06 FluxDiff MaxDT: 4.793E-03 Avg. GS error: 1.084E-02 Plasma Current: 7.622E+05, target: 7.623E+05, error: 0.009% Edge Q: 9.729, target: 9.993, error: 2.641% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6858E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4165E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.330232 TO TG2= 0.332050 @ NSTEP 2300 GFRAME TG2 MOMENTS CHECKSUM: 3.6154017176741D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2301 TA= 3.32050E-01 CPU TIME= 9.11600E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.01193749999993 %check_save_state: izleft hours = 77.9202777777778 --> plasma_hash("gframe"): TA= 3.320500E-01 NSTEP= 2301 Hash code: 82256200 ->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: 6.712E-06 FluxDiff MaxDT: 4.855E-03 Avg. GS error: 1.082E-02 Plasma Current: 7.637E+05, target: 7.637E+05, error: 0.010% Edge Q: 9.731, target: 9.992, error: 2.613% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6953E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5450E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.332050 TO TG2= 0.333868 @ NSTEP 2301 GFRAME TG2 MOMENTS CHECKSUM: 3.6147912543427D+03 --> plasma_hash("gframe"): TA= 3.338682E-01 NSTEP= 2302 Hash code: 79372952 ->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: 7.470E-06 FluxDiff MaxDT: 5.314E-03 Avg. GS error: 1.080E-02 Plasma Current: 7.650E+05, target: 7.651E+05, error: 0.010% Edge Q: 9.745, target: 9.995, error: 2.509% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6046E+00 SECONDS DATA R*BT AT EDGE: 5.9009E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6164E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.333868 TO TG2= 0.335686 @ NSTEP 2302 GFRAME TG2 MOMENTS CHECKSUM: 3.6154350865563D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.28474E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.356864E-01 NSTEP= 2303 Hash code: 104747235 ->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: 5.937E-06 FluxDiff MaxDT: 5.311E-03 Avg. GS error: 1.078E-02 Plasma Current: 7.668E+05, target: 7.669E+05, error: 0.011% Edge Q: 9.752, target: 10.020, error: 2.674% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6986E+00 SECONDS DATA R*BT AT EDGE: 5.9013E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5232E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.335686 TO TG2= 0.337505 @ NSTEP 2303 GFRAME TG2 MOMENTS CHECKSUM: 3.6160166540144D+03 --> plasma_hash("gframe"): TA= 3.375045E-01 NSTEP= 2304 Hash code: 92438849 ->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: 6.779E-06 FluxDiff MaxDT: 5.279E-03 Avg. GS error: 1.069E-02 Plasma Current: 7.690E+05, target: 7.690E+05, error: 0.011% Edge Q: 9.741, target: 10.022, error: 2.800% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6951E+00 SECONDS DATA R*BT AT EDGE: 5.9012E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4444E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.337505 TO TG2= 0.339323 @ NSTEP 2304 GFRAME TG2 MOMENTS CHECKSUM: 3.6174308178885D+03 --> plasma_hash("gframe"): TA= 3.393227E-01 NSTEP= 2305 Hash code: 39060904 ->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: 7.105E-06 FluxDiff MaxDT: 5.006E-03 Avg. GS error: 1.052E-02 Plasma Current: 7.719E+05, target: 7.720E+05, error: 0.012% Edge Q: 9.712, target: 10.009, error: 2.971% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6920E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2940E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.339323 TO TG2= 0.341141 @ NSTEP 2305 GFRAME TG2 MOMENTS CHECKSUM: 3.6192459753920D+03 --> plasma_hash("gframe"): TA= 3.411409E-01 NSTEP= 2306 Hash code: 68060581 ->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: 8.422E-06 FluxDiff MaxDT: 4.785E-03 Avg. GS error: 1.015E-02 Plasma Current: 7.754E+05, target: 7.755E+05, error: 0.011% Edge Q: 9.647, target: 9.967, error: 3.211% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7303E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1011E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.341141 TO TG2= 0.342959 @ NSTEP 2306 GFRAME TG2 MOMENTS CHECKSUM: 3.6229938744295D+03 --> plasma_hash("gframe"): TA= 3.429591E-01 NSTEP= 2307 Hash code: 51159291 ->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: 8.893E-06 FluxDiff MaxDT: 4.466E-03 Avg. GS error: 9.825E-03 Plasma Current: 7.790E+05, target: 7.791E+05, error: 0.010% Edge Q: 9.586, target: 9.889, error: 3.062% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7648E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9980E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.342959 TO TG2= 0.344777 @ NSTEP 2307 GFRAME TG2 MOMENTS CHECKSUM: 3.6264936999688D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.27411E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.447773E-01 NSTEP= 2308 Hash code: 55963515 ->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: 8.951E-06 FluxDiff MaxDT: 4.377E-03 Avg. GS error: 9.581E-03 Plasma Current: 7.821E+05, target: 7.822E+05, error: 0.009% Edge Q: 9.537, target: 9.823, error: 2.919% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8680E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8922E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.344777 TO TG2= 0.346595 @ NSTEP 2308 GFRAME TG2 MOMENTS CHECKSUM: 3.6299419670526D+03 --> plasma_hash("gframe"): TA= 3.465954E-01 NSTEP= 2309 Hash code: 116867227 ->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: 8.657E-06 FluxDiff MaxDT: 4.440E-03 Avg. GS error: 9.611E-03 Plasma Current: 7.847E+05, target: 7.847E+05, error: 0.007% Edge Q: 9.492, target: 9.774, error: 2.886% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9401E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8361E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.346595 TO TG2= 0.348414 @ NSTEP 2309 GFRAME TG2 MOMENTS CHECKSUM: 3.6331751274257D+03 --> plasma_hash("gframe"): TA= 3.484136E-01 NSTEP= 2310 Hash code: 99272651 ->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: 8.437E-06 FluxDiff MaxDT: 4.475E-03 Avg. GS error: 9.842E-03 Plasma Current: 7.869E+05, target: 7.869E+05, error: 0.005% Edge Q: 9.449, target: 9.730, error: 2.889% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0047E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7837E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.348414 TO TG2= 0.350232 @ NSTEP 2310 GFRAME TG2 MOMENTS CHECKSUM: 3.6362120579522D+03 --> plasma_hash("gframe"): TA= 3.502318E-01 NSTEP= 2311 Hash code: 85025543 ->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: 8.529E-06 FluxDiff MaxDT: 4.511E-03 Avg. GS error: 1.000E-02 Plasma Current: 7.897E+05, target: 7.897E+05, error: 0.004% Edge Q: 9.384, target: 9.688, error: 3.140% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0337E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7177E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.350232 TO TG2= 0.352050 @ NSTEP 2311 GFRAME TG2 MOMENTS CHECKSUM: 3.6391896468400D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2312 TA= 3.52050E-01 CPU TIME= 9.14900E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.02158194444428 %check_save_state: izleft hours = 77.9108333333333 --> plasma_hash("gframe"): TA= 3.520500E-01 NSTEP= 2312 Hash code: 70269163 ->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: 9.531E-06 FluxDiff MaxDT: 4.256E-03 Avg. GS error: 9.637E-03 Plasma Current: 7.930E+05, target: 7.931E+05, error: 0.004% Edge Q: 9.310, target: 9.616, error: 3.176% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0038E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6284E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.352050 TO TG2= 0.353868 @ NSTEP 2312 GFRAME TG2 MOMENTS CHECKSUM: 3.6422969726929D+03 --> plasma_hash("gframe"): TA= 3.538682E-01 NSTEP= 2313 Hash code: 28166297 ->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: 9.891E-06 FluxDiff MaxDT: 4.115E-03 Avg. GS error: 9.270E-03 Plasma Current: 7.962E+05, target: 7.963E+05, error: 0.006% Edge Q: 9.241, target: 9.533, error: 3.065% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9300E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5655E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.353868 TO TG2= 0.355686 @ NSTEP 2313 GFRAME TG2 MOMENTS CHECKSUM: 3.6449524829092D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.47677E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.83794E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -3.12901E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.556864E-01 NSTEP= 2314 Hash code: 69971573 ->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: 9.747E-06 FluxDiff MaxDT: 3.978E-03 Avg. GS error: 8.929E-03 Plasma Current: 7.987E+05, target: 7.988E+05, error: 0.007% Edge Q: 9.188, target: 9.457, error: 2.846% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9123E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5615E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.355686 TO TG2= 0.357505 @ NSTEP 2314 GFRAME TG2 MOMENTS CHECKSUM: 3.6485256482343D+03 --> plasma_hash("gframe"): TA= 3.575045E-01 NSTEP= 2315 Hash code: 16039472 ->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: 9.627E-06 FluxDiff MaxDT: 3.864E-03 Avg. GS error: 8.595E-03 Plasma Current: 8.013E+05, target: 8.014E+05, error: 0.008% Edge Q: 9.139, target: 9.402, error: 2.799% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9304E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5329E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.357505 TO TG2= 0.359323 @ NSTEP 2315 GFRAME TG2 MOMENTS CHECKSUM: 3.6524838431554D+03 --> plasma_hash("gframe"): TA= 3.593227E-01 NSTEP= 2316 Hash code: 105906829 ->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: 1.009E-05 FluxDiff MaxDT: 3.638E-03 Avg. GS error: 8.633E-03 Plasma Current: 8.045E+05, target: 8.046E+05, error: 0.007% Edge Q: 9.089, target: 9.350, error: 2.789% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0227E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4703E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.359323 TO TG2= 0.361141 @ NSTEP 2316 GFRAME TG2 MOMENTS CHECKSUM: 3.6580074649784D+03 --> plasma_hash("gframe"): TA= 3.611409E-01 NSTEP= 2317 Hash code: 76936938 ->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: 1.103E-05 FluxDiff MaxDT: 3.518E-03 Avg. GS error: 8.966E-03 Plasma Current: 8.083E+05, target: 8.083E+05, error: 0.005% Edge Q: 9.032, target: 9.299, error: 2.864% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0923E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3918E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.361141 TO TG2= 0.362959 @ NSTEP 2317 GFRAME TG2 MOMENTS CHECKSUM: 3.6634013629078D+03 --> plasma_hash("gframe"): TA= 3.629591E-01 NSTEP= 2318 Hash code: 79766927 ->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: 1.180E-05 FluxDiff MaxDT: 3.370E-03 Avg. GS error: 8.805E-03 Plasma Current: 8.121E+05, target: 8.121E+05, error: 0.002% Edge Q: 8.976, target: 9.242, error: 2.877% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0954E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3324E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.362959 TO TG2= 0.364777 @ NSTEP 2318 GFRAME TG2 MOMENTS CHECKSUM: 3.6688340508286D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.44078E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -2.75448E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -3.03699E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.647773E-01 NSTEP= 2319 Hash code: 45876073 ->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: 1.250E-05 FluxDiff MaxDT: 3.384E-03 Avg. GS error: 8.376E-03 Plasma Current: 8.157E+05, target: 8.156E+05, error: 0.001% Edge Q: 8.913, target: 9.180, error: 2.911% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9287E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3099E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.364777 TO TG2= 0.366595 @ NSTEP 2319 GFRAME TG2 MOMENTS CHECKSUM: 3.6726536211671D+03 --> plasma_hash("gframe"): TA= 3.665954E-01 NSTEP= 2320 Hash code: 45589815 ->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: 1.260E-05 FluxDiff MaxDT: 3.433E-03 Avg. GS error: 7.924E-03 Plasma Current: 8.183E+05, target: 8.183E+05, error: 0.005% Edge Q: 8.859, target: 9.111, error: 2.766% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8304E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3852E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.366595 TO TG2= 0.368414 @ NSTEP 2320 GFRAME TG2 MOMENTS CHECKSUM: 3.6753265365999D+03 --> plasma_hash("gframe"): TA= 3.684136E-01 NSTEP= 2321 Hash code: 121087856 ->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: 1.246E-05 FluxDiff MaxDT: 3.754E-03 Avg. GS error: 7.482E-03 Plasma Current: 8.205E+05, target: 8.204E+05, error: 0.004% Edge Q: 8.792, target: 9.057, error: 2.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7996E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2214E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.368414 TO TG2= 0.370232 @ NSTEP 2321 GFRAME TG2 MOMENTS CHECKSUM: 3.6756466827202D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2321 TA= 3.68414E-01 CPU TIME= 9.31100E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 3.702318E-01 NSTEP= 2322 Hash code: 117402414 ->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: 1.269E-05 FluxDiff MaxDT: 3.687E-03 Avg. GS error: 7.210E-03 Plasma Current: 8.231E+05, target: 8.231E+05, error: 0.001% Edge Q: 8.723, target: 8.991, error: 2.983% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9204E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2629E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.370232 TO TG2= 0.372050 @ NSTEP 2322 GFRAME TG2 MOMENTS CHECKSUM: 3.6755874625688D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2323 TA= 3.72050E-01 CPU TIME= 9.05700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.03194083333301 %check_save_state: izleft hours = 77.9005555555556 --> plasma_hash("gframe"): TA= 3.720500E-01 NSTEP= 2323 Hash code: 112152865 ->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: 1.396E-05 FluxDiff MaxDT: 3.520E-03 Avg. GS error: 7.062E-03 Plasma Current: 8.270E+05, target: 8.271E+05, error: 0.008% Edge Q: 8.640, target: 8.918, error: 3.119% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0277E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2960E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.372050 TO TG2= 0.373868 @ NSTEP 2323 GFRAME TG2 MOMENTS CHECKSUM: 3.6757083333568D+03 --> plasma_hash("gframe"): TA= 3.738682E-01 NSTEP= 2324 Hash code: 109626342 ->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: 1.472E-05 FluxDiff MaxDT: 3.188E-03 Avg. GS error: 6.846E-03 Plasma Current: 8.313E+05, target: 8.314E+05, error: 0.012% Edge Q: 8.566, target: 8.830, error: 2.981% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0179E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3303E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.373868 TO TG2= 0.375686 @ NSTEP 2324 GFRAME TG2 MOMENTS CHECKSUM: 3.6753625431308D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 1.42040E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 1.38092E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.31014E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.756864E-01 NSTEP= 2325 Hash code: 81612981 ->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: 1.576E-05 FluxDiff MaxDT: 3.084E-03 Avg. GS error: 6.704E-03 Plasma Current: 8.349E+05, target: 8.350E+05, error: 0.012% Edge Q: 8.514, target: 8.754, error: 2.747% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9937E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.3393E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.375686 TO TG2= 0.377505 @ NSTEP 2325 GFRAME TG2 MOMENTS CHECKSUM: 3.6747961782887D+03 --> plasma_hash("gframe"): TA= 3.775045E-01 NSTEP= 2326 Hash code: 99770042 ->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: 1.645E-05 FluxDiff MaxDT: 2.918E-03 Avg. GS error: 6.495E-03 Plasma Current: 8.385E+05, target: 8.385E+05, error: 0.010% Edge Q: 8.484, target: 8.706, error: 2.550% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9647E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2546E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.377505 TO TG2= 0.379323 @ NSTEP 2326 GFRAME TG2 MOMENTS CHECKSUM: 3.6736008342658D+03 --> plasma_hash("gframe"): TA= 3.793227E-01 NSTEP= 2327 Hash code: 4980596 ->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: 1.711E-05 FluxDiff MaxDT: 2.884E-03 Avg. GS error: 6.323E-03 Plasma Current: 8.417E+05, target: 8.418E+05, error: 0.006% Edge Q: 8.461, target: 8.677, error: 2.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9247E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1570E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.379323 TO TG2= 0.381141 @ NSTEP 2327 GFRAME TG2 MOMENTS CHECKSUM: 3.6725090401959D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2327 TA= 3.79323E-01 CPU TIME= 9.46900E-03 SECONDS. DT= 6.77280E-04 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.380000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2334 TA= 3.80860E-01 CPU TIME= 9.78200E-03 SECONDS. DT= 2.02503E-04 --> plasma_hash("gframe"): TA= 3.811409E-01 NSTEP= 2336 Hash code: 17837054 ->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: 1.778E-05 FluxDiff MaxDT: 2.875E-03 Avg. GS error: 6.163E-03 Plasma Current: 8.446E+05, target: 8.447E+05, error: 0.002% Edge Q: 8.449, target: 8.658, error: 2.406% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9496E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.1240E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.381141 TO TG2= 0.382959 @ NSTEP 2336 GFRAME TG2 MOMENTS CHECKSUM: 3.6719487825019D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2340 TA= 3.81749E-01 CPU TIME= 4.31540E-02 SECONDS. DT= 1.72412E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2346 TA= 3.82704E-01 CPU TIME= 1.53210E-02 SECONDS. DT= 1.81948E-04 --> plasma_hash("gframe"): TA= 3.829591E-01 NSTEP= 2348 Hash code: 97747393 ->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: 1.613E-05 FluxDiff MaxDT: 2.683E-03 Avg. GS error: 6.094E-03 Plasma Current: 8.472E+05, target: 8.472E+05, error: 0.001% Edge Q: 8.456, target: 8.649, error: 2.230% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0824E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.0237E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.382959 TO TG2= 0.384777 @ NSTEP 2348 GFRAME TG2 MOMENTS CHECKSUM: 3.6742161818242D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2353 TA= 3.83788E-01 CPU TIME= 9.27800E-03 SECONDS. DT= 2.38432E-04 --> plasma_hash("gframe"): TA= 3.847773E-01 NSTEP= 2359 Hash code: 123306856 ->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: 1.789E-05 FluxDiff MaxDT: 2.524E-03 Avg. GS error: 6.030E-03 Plasma Current: 8.512E+05, target: 8.513E+05, error: 0.001% Edge Q: 8.454, target: 8.659, error: 2.369% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1443E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9089E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.384777 TO TG2= 0.386595 @ NSTEP 2359 GFRAME TG2 MOMENTS CHECKSUM: 3.6789462907783D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2360 TA= 3.84979E-01 CPU TIME= 9.28800E-03 SECONDS. DT= 2.51621E-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= 3.70429E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.65043E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= 2.05386E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2366 TA= 3.86111E-01 CPU TIME= 2.50310E-02 SECONDS. DT= 2.66874E-04 --> plasma_hash("gframe"): TA= 3.865954E-01 NSTEP= 2369 Hash code: 1475028 ->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: 1.974E-05 FluxDiff MaxDT: 2.263E-03 Avg. GS error: 6.000E-03 Plasma Current: 8.567E+05, target: 8.568E+05, error: 0.003% Edge Q: 8.450, target: 8.652, error: 2.334% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1765E+00 SECONDS DATA R*BT AT EDGE: 5.9002E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7702E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.386595 TO TG2= 0.388414 @ NSTEP 2369 GFRAME TG2 MOMENTS CHECKSUM: 3.6876851397961D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2373 TA= 3.87402E-01 CPU TIME= 9.34500E-03 SECONDS. DT= 2.82556E-04 --> plasma_hash("gframe"): TA= 3.884136E-01 NSTEP= 2378 Hash code: 16525352 ->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: 2.278E-05 FluxDiff MaxDT: 2.226E-03 Avg. GS error: 5.742E-03 Plasma Current: 8.624E+05, target: 8.625E+05, error: 0.005% Edge Q: 8.446, target: 8.643, error: 2.276% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1536E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6865E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.388414 TO TG2= 0.390232 @ NSTEP 2378 GFRAME TG2 MOMENTS CHECKSUM: 3.6964651180433D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2379 TA= 3.88606E-01 CPU TIME= 1.86670E-02 SECONDS. DT= 2.40285E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2385 TA= 3.89973E-01 CPU TIME= 2.04250E-02 SECONDS. DT= 2.59186E-04 --> plasma_hash("gframe"): TA= 3.902318E-01 NSTEP= 2386 Hash code: 97689943 ->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: 2.277E-05 FluxDiff MaxDT: 2.250E-03 Avg. GS error: 5.460E-03 Plasma Current: 8.672E+05, target: 8.673E+05, error: 0.007% Edge Q: 8.452, target: 8.641, error: 2.177% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.1804E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5055E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.390232 TO TG2= 0.392050 @ NSTEP 2386 GFRAME TG2 MOMENTS CHECKSUM: 3.7045001110918D+03 %fi_finish: enter %fimain: eflux cpu time = 9.000010322779417E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2391 TA= 3.92050E-01 CPU TIME= 9.08200E-03 SECONDS. DT= 1.43839E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.05069111111152 %check_save_state: izleft hours = 77.8816666666667 --> plasma_hash("gframe"): TA= 3.920500E-01 NSTEP= 2391 Hash code: 25991921 ->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: 2.476E-05 FluxDiff MaxDT: 2.389E-03 Avg. GS error: 5.318E-03 Plasma Current: 8.720E+05, target: 8.721E+05, error: 0.006% Edge Q: 8.438, target: 8.648, error: 2.432% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0646E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.4111E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.392050 TO TG2= 0.393868 @ NSTEP 2391 GFRAME TG2 MOMENTS CHECKSUM: 3.7106414257328D+03 --> plasma_hash("gframe"): TA= 3.938682E-01 NSTEP= 2398 Hash code: 55561413 ->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: 2.836E-05 FluxDiff MaxDT: 2.460E-03 Avg. GS error: 5.345E-03 Plasma Current: 8.773E+05, target: 8.773E+05, error: 0.005% Edge Q: 8.409, target: 8.634, error: 2.610% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9567E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.3774E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.393868 TO TG2= 0.395686 @ NSTEP 2398 GFRAME TG2 MOMENTS CHECKSUM: 3.7161172570804D+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= 8.96839E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.30903E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 4.48422E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.30846E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 4.48418E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 3.956864E-01 NSTEP= 2401 Hash code: 71288891 ->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: 3.078E-05 FluxDiff MaxDT: 2.557E-03 Avg. GS error: 5.418E-03 Plasma Current: 8.827E+05, target: 8.827E+05, error: 0.001% Edge Q: 8.358, target: 8.606, error: 2.884% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8498E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.3545E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.395686 TO TG2= 0.397505 @ NSTEP 2401 GFRAME TG2 MOMENTS CHECKSUM: 3.7187398093377D+03 --> plasma_hash("gframe"): TA= 3.975045E-01 NSTEP= 2403 Hash code: 97392365 ->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: 3.190E-05 FluxDiff MaxDT: 2.552E-03 Avg. GS error: 5.499E-03 Plasma Current: 8.877E+05, target: 8.878E+05, error: 0.001% Edge Q: 8.315, target: 8.555, error: 2.797% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8810E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.3857E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.397505 TO TG2= 0.399323 @ NSTEP 2403 GFRAME TG2 MOMENTS CHECKSUM: 3.7214289242734D+03 --> plasma_hash("gframe"): TA= 3.993227E-01 NSTEP= 2405 Hash code: 10733722 ->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: 3.221E-05 FluxDiff MaxDT: 2.632E-03 Avg. GS error: 5.630E-03 Plasma Current: 8.920E+05, target: 8.920E+05, error: 0.003% Edge Q: 8.282, target: 8.516, error: 2.745% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8834E+00 SECONDS DATA R*BT AT EDGE: 5.8996E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.4396E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.399323 TO TG2= 0.401141 @ NSTEP 2405 GFRAME TG2 MOMENTS CHECKSUM: 3.7236752902636D+03 --> plasma_hash("gframe"): TA= 4.011409E-01 NSTEP= 2407 Hash code: 43985947 ->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: 3.418E-05 FluxDiff MaxDT: 2.746E-03 Avg. GS error: 5.721E-03 Plasma Current: 8.953E+05, target: 8.954E+05, error: 0.006% Edge Q: 8.273, target: 8.484, error: 2.495% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8555E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.5568E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.401141 TO TG2= 0.402959 @ NSTEP 2407 GFRAME TG2 MOMENTS CHECKSUM: 3.7252240485782D+03 --> plasma_hash("gframe"): TA= 4.029591E-01 NSTEP= 2409 Hash code: 106286399 ->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: 3.556E-05 FluxDiff MaxDT: 2.958E-03 Avg. GS error: 5.790E-03 Plasma Current: 8.978E+05, target: 8.978E+05, error: 0.008% Edge Q: 8.286, target: 8.479, error: 2.282% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8283E+00 SECONDS DATA R*BT AT EDGE: 5.9007E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.6768E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.402959 TO TG2= 0.404777 @ NSTEP 2409 GFRAME TG2 MOMENTS CHECKSUM: 3.7264748196725D+03 --> plasma_hash("gframe"): TA= 4.047773E-01 NSTEP= 2410 Hash code: 105167530 ->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: 3.866E-05 FluxDiff MaxDT: 3.174E-03 Avg. GS error: 5.837E-03 Plasma Current: 8.997E+05, target: 8.998E+05, error: 0.009% Edge Q: 8.322, target: 8.497, error: 2.057% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8005E+00 SECONDS DATA R*BT AT EDGE: 5.9006E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.7622E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.404777 TO TG2= 0.406595 @ NSTEP 2410 GFRAME TG2 MOMENTS CHECKSUM: 3.7271353903564D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2410 TA= 4.04777E-01 CPU TIME= 9.32000E-03 SECONDS. DT= 1.81818E-03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.97222E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.68110E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.68132E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.065954E-01 NSTEP= 2411 Hash code: 55363503 ->PRGCHK: bdy curvature ratio at t= 4.0841E-01 seconds is: 5.4470E-02 % MHDEQ: TG1= 0.406595 ; TG2= 0.408414 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.797E-05 FluxDiff MaxDT: 3.523E-03 Avg. GS error: 5.906E-03 Plasma Current: 9.013E+05, target: 9.014E+05, error: 0.008% Edge Q: 8.359, target: 8.540, error: 2.110% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7313E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.8503E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.406595 TO TG2= 0.408414 @ NSTEP 2411 GFRAME TG2 MOMENTS CHECKSUM: 3.7279260915775D+03 --> plasma_hash("gframe"): TA= 4.084136E-01 NSTEP= 2412 Hash code: 116456774 ->PRGCHK: bdy curvature ratio at t= 4.1023E-01 seconds is: 5.2522E-02 % MHDEQ: TG1= 0.408414 ; TG2= 0.410232 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.639E-05 FluxDiff MaxDT: 3.834E-03 Avg. GS error: 5.969E-03 Plasma Current: 9.028E+05, target: 9.028E+05, error: 0.006% Edge Q: 8.395, target: 8.581, error: 2.160% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6780E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 4.9485E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.408414 TO TG2= 0.410232 @ NSTEP 2412 GFRAME TG2 MOMENTS CHECKSUM: 3.7285048040773D+03 --> plasma_hash("gframe"): TA= 4.102318E-01 NSTEP= 2413 Hash code: 89838857 ->PRGCHK: bdy curvature ratio at t= 4.1205E-01 seconds is: 5.1569E-02 % MHDEQ: TG1= 0.410232 ; TG2= 0.412050 ; DTG= 1.818E-03 *** Isolver *** !get_mhd_diff_input: using existing NE, TE Rel. Circ. Bal: 3.797E-05 FluxDiff MaxDT: 4.400E-03 Avg. GS error: 6.049E-03 Plasma Current: 9.040E+05, target: 9.040E+05, error: 0.004% Edge Q: 8.420, target: 8.621, error: 2.326% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6419E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.2309E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.410232 TO TG2= 0.412050 @ NSTEP 2413 GFRAME TG2 MOMENTS CHECKSUM: 3.7256979125806D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2413 TA= 4.10232E-01 CPU TIME= 9.34100E-03 SECONDS. DT= 1.81818E-03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2414 TA= 4.12050E-01 CPU TIME= 9.14800E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.06313805555578 %check_save_state: izleft hours = 77.8691666666667 --> plasma_hash("gframe"): TA= 4.120500E-01 NSTEP= 2414 Hash code: 72726709 ->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: 3.449E-05 FluxDiff MaxDT: 5.195E-03 Avg. GS error: 6.232E-03 Plasma Current: 9.049E+05, target: 9.049E+05, error: 0.000% Edge Q: 8.435, target: 8.648, error: 2.452% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6849E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4299E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.412050 TO TG2= 0.413868 @ NSTEP 2414 GFRAME TG2 MOMENTS CHECKSUM: 3.7207601396489D+03 --> plasma_hash("gframe"): TA= 4.138682E-01 NSTEP= 2415 Hash code: 14674055 ->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: 2.601E-05 FluxDiff MaxDT: 6.281E-03 Avg. GS error: 6.546E-03 Plasma Current: 9.051E+05, target: 9.050E+05, error: 0.004% Edge Q: 8.443, target: 8.667, error: 2.589% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6702E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5041E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.413868 TO TG2= 0.415686 @ NSTEP 2415 GFRAME TG2 MOMENTS CHECKSUM: 3.7126938261736D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 1.99252E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.40283E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.32900E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.156864E-01 NSTEP= 2416 Hash code: 36905713 ->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: 2.217E-05 FluxDiff MaxDT: 7.107E-03 Avg. GS error: 6.837E-03 Plasma Current: 9.046E+05, target: 9.045E+05, error: 0.009% Edge Q: 8.459, target: 8.678, error: 2.521% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6359E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5495E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.415686 TO TG2= 0.417505 @ NSTEP 2416 GFRAME TG2 MOMENTS CHECKSUM: 3.7047213565098D+03 --> plasma_hash("gframe"): TA= 4.175045E-01 NSTEP= 2417 Hash code: 36485606 ->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: 1.870E-05 FluxDiff MaxDT: 7.485E-03 Avg. GS error: 6.723E-03 Plasma Current: 9.040E+05, target: 9.039E+05, error: 0.010% Edge Q: 8.481, target: 8.700, error: 2.519% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6379E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6183E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.417505 TO TG2= 0.419323 @ NSTEP 2417 GFRAME TG2 MOMENTS CHECKSUM: 3.6972683668303D+03 --> plasma_hash("gframe"): TA= 4.193227E-01 NSTEP= 2418 Hash code: 27394880 ->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: 1.771E-05 FluxDiff MaxDT: 6.723E-03 Avg. GS error: 6.634E-03 Plasma Current: 9.041E+05, target: 9.040E+05, error: 0.010% Edge Q: 8.510, target: 8.718, error: 2.388% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6118E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7088E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.419323 TO TG2= 0.421141 @ NSTEP 2418 GFRAME TG2 MOMENTS CHECKSUM: 3.6924125044074D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2418 TA= 4.19323E-01 CPU TIME= 9.35100E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.211409E-01 NSTEP= 2419 Hash code: 121130168 ->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: 1.834E-05 FluxDiff MaxDT: 5.863E-03 Avg. GS error: 6.714E-03 Plasma Current: 9.050E+05, target: 9.049E+05, error: 0.007% Edge Q: 8.548, target: 8.744, error: 2.234% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5998E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8239E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.421141 TO TG2= 0.422959 @ NSTEP 2419 GFRAME TG2 MOMENTS CHECKSUM: 3.6905264737717D+03 --> plasma_hash("gframe"): TA= 4.229591E-01 NSTEP= 2420 Hash code: 44661582 ->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: 1.771E-05 FluxDiff MaxDT: 5.487E-03 Avg. GS error: 6.921E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.003% Edge Q: 8.608, target: 8.781, error: 1.966% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6104E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9193E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.422959 TO TG2= 0.424777 @ NSTEP 2420 GFRAME TG2 MOMENTS CHECKSUM: 3.6912810768386D+03 --> plasma_hash("gframe"): TA= 4.247773E-01 NSTEP= 2421 Hash code: 6827638 ->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: 1.501E-05 FluxDiff MaxDT: 5.949E-03 Avg. GS error: 7.160E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.000% Edge Q: 8.676, target: 8.847, error: 1.937% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6075E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0039E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.424777 TO TG2= 0.426595 @ NSTEP 2421 GFRAME TG2 MOMENTS CHECKSUM: 3.6919130470081D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -1.47817E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -1.92490E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.265954E-01 NSTEP= 2422 Hash code: 22418505 ->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: 1.278E-05 FluxDiff MaxDT: 6.491E-03 Avg. GS error: 7.424E-03 Plasma Current: 9.053E+05, target: 9.053E+05, error: 0.003% Edge Q: 8.743, target: 8.921, error: 1.998% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6070E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0675E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.426595 TO TG2= 0.428414 @ NSTEP 2422 GFRAME TG2 MOMENTS CHECKSUM: 3.6923942054438D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2422 TA= 4.26595E-01 CPU TIME= 9.28800E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.284136E-01 NSTEP= 2423 Hash code: 61203885 ->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: 1.182E-05 FluxDiff MaxDT: 7.142E-03 Avg. GS error: 7.728E-03 Plasma Current: 9.054E+05, target: 9.055E+05, error: 0.004% Edge Q: 8.799, target: 8.995, error: 2.180% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6352E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0733E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.428414 TO TG2= 0.430232 @ NSTEP 2423 GFRAME TG2 MOMENTS CHECKSUM: 3.6924482946153D+03 --> plasma_hash("gframe"): TA= 4.302318E-01 NSTEP= 2424 Hash code: 90140525 ->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: 1.125E-05 FluxDiff MaxDT: 7.986E-03 Avg. GS error: 7.958E-03 Plasma Current: 9.056E+05, target: 9.057E+05, error: 0.006% Edge Q: 8.841, target: 9.053, error: 2.345% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6130E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0581E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.430232 TO TG2= 0.432050 @ NSTEP 2424 GFRAME TG2 MOMENTS CHECKSUM: 3.6917840437981D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2425 TA= 4.32050E-01 CPU TIME= 9.11700E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.07343694444467 %check_save_state: izleft hours = 77.8588888888889 --> plasma_hash("gframe"): TA= 4.320500E-01 NSTEP= 2425 Hash code: 121616824 ->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: 1.017E-05 FluxDiff MaxDT: 8.964E-03 Avg. GS error: 8.147E-03 Plasma Current: 9.053E+05, target: 9.054E+05, error: 0.008% Edge Q: 8.879, target: 9.096, error: 2.386% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5767E+00 SECONDS DATA R*BT AT EDGE: 5.8993E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0879E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.432050 TO TG2= 0.433868 @ NSTEP 2425 GFRAME TG2 MOMENTS CHECKSUM: 3.6905534598082D+03 --> plasma_hash("gframe"): TA= 4.338682E-01 NSTEP= 2426 Hash code: 45322499 ->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: 9.687E-06 FluxDiff MaxDT: 1.042E-02 Avg. GS error: 8.259E-03 Plasma Current: 9.052E+05, target: 9.053E+05, error: 0.009% Edge Q: 8.918, target: 9.136, error: 2.391% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4053E+00 SECONDS DATA R*BT AT EDGE: 5.8999E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1403E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.433868 TO TG2= 0.435686 @ NSTEP 2426 GFRAME TG2 MOMENTS CHECKSUM: 3.6896910598773D+03 %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.76941E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.356864E-01 NSTEP= 2427 Hash code: 1473967 ->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: 8.220E-06 FluxDiff MaxDT: 9.988E-03 Avg. GS error: 8.226E-03 Plasma Current: 9.058E+05, target: 9.059E+05, error: 0.009% Edge Q: 8.951, target: 9.178, error: 2.478% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5363E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2067E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.435686 TO TG2= 0.437505 @ NSTEP 2427 GFRAME TG2 MOMENTS CHECKSUM: 3.6889726575109D+03 --> plasma_hash("gframe"): TA= 4.375045E-01 NSTEP= 2428 Hash code: 21484283 ->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: 8.585E-06 FluxDiff MaxDT: 9.339E-03 Avg. GS error: 7.530E-03 Plasma Current: 9.070E+05, target: 9.071E+05, error: 0.008% Edge Q: 8.982, target: 9.203, error: 2.398% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5625E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2860E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.437505 TO TG2= 0.439323 @ NSTEP 2428 GFRAME TG2 MOMENTS CHECKSUM: 3.6884399182202D+03 --> plasma_hash("gframe"): TA= 4.393227E-01 NSTEP= 2429 Hash code: 62047991 ->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: 7.967E-06 FluxDiff MaxDT: 9.094E-03 Avg. GS error: 7.535E-03 Plasma Current: 9.080E+05, target: 9.080E+05, error: 0.005% Edge Q: 9.031, target: 9.232, error: 2.178% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5548E+00 SECONDS DATA R*BT AT EDGE: 5.8998E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3680E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.439323 TO TG2= 0.441141 @ NSTEP 2429 GFRAME TG2 MOMENTS CHECKSUM: 3.6878529477466D+03 --> plasma_hash("gframe"): TA= 4.411409E-01 NSTEP= 2430 Hash code: 82231102 ->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: 6.594E-06 FluxDiff MaxDT: 9.819E-03 Avg. GS error: 7.660E-03 Plasma Current: 9.081E+05, target: 9.081E+05, error: 0.001% Edge Q: 9.098, target: 9.281, error: 1.978% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5885E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4712E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.441141 TO TG2= 0.442959 @ NSTEP 2430 GFRAME TG2 MOMENTS CHECKSUM: 3.6875818927934D+03 --> plasma_hash("gframe"): TA= 4.429591E-01 NSTEP= 2431 Hash code: 19503765 ->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: 5.301E-06 FluxDiff MaxDT: 1.104E-02 Avg. GS error: 7.799E-03 Plasma Current: 9.076E+05, target: 9.076E+05, error: 0.000% Edge Q: 9.171, target: 9.357, error: 1.986% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6037E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7842E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.442959 TO TG2= 0.444777 @ NSTEP 2431 GFRAME TG2 MOMENTS CHECKSUM: 3.6871790686593D+03 --> plasma_hash("gframe"): TA= 4.447773E-01 NSTEP= 2432 Hash code: 52611202 ->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: 4.630E-06 FluxDiff MaxDT: 1.237E-02 Avg. GS error: 7.960E-03 Plasma Current: 9.070E+05, target: 9.070E+05, error: 0.001% Edge Q: 9.242, target: 9.436, error: 2.065% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6011E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0224E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.444777 TO TG2= 0.446595 @ NSTEP 2432 GFRAME TG2 MOMENTS CHECKSUM: 3.6869600979759D+03 %MFRCHK - LABEL "BALE0_GF_D", # 20= -1.79719E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.465954E-01 NSTEP= 2433 Hash code: 64743453 ->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: 4.187E-06 FluxDiff MaxDT: 1.413E-02 Avg. GS error: 8.163E-03 Plasma Current: 9.062E+05, target: 9.062E+05, error: 0.000% Edge Q: 9.305, target: 9.514, error: 2.192% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5412E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1197E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.446595 TO TG2= 0.448414 @ NSTEP 2433 GFRAME TG2 MOMENTS CHECKSUM: 3.6867941972036D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2433 TA= 4.46595E-01 CPU TIME= 9.30500E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.484136E-01 NSTEP= 2434 Hash code: 48148888 ->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: 3.861E-06 FluxDiff MaxDT: 1.658E-02 Avg. GS error: 8.319E-03 Plasma Current: 9.055E+05, target: 9.055E+05, error: 0.001% Edge Q: 9.349, target: 9.581, error: 2.425% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4251E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1550E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.448414 TO TG2= 0.450232 @ NSTEP 2434 GFRAME TG2 MOMENTS CHECKSUM: 3.6869679213610D+03 --> plasma_hash("gframe"): TA= 4.502318E-01 NSTEP= 2435 Hash code: 19282610 ->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: 3.949E-06 FluxDiff MaxDT: 1.602E-02 Avg. GS error: 8.426E-03 Plasma Current: 9.056E+05, target: 9.056E+05, error: 0.002% Edge Q: 9.374, target: 9.624, error: 2.601% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4216E+00 SECONDS DATA R*BT AT EDGE: 5.9000E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0988E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.450232 TO TG2= 0.452050 @ NSTEP 2435 GFRAME TG2 MOMENTS CHECKSUM: 3.6874037919436D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2436 TA= 4.52050E-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 = 2.08267333333333 %check_save_state: izleft hours = 77.8497222222222 --> plasma_hash("gframe"): TA= 4.520500E-01 NSTEP= 2436 Hash code: 63181049 ->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: 4.358E-06 FluxDiff MaxDT: 1.508E-02 Avg. GS error: 8.548E-03 Plasma Current: 9.061E+05, target: 9.061E+05, error: 0.004% Edge Q: 9.393, target: 9.642, error: 2.582% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4383E+00 SECONDS DATA R*BT AT EDGE: 5.9003E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0365E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.452050 TO TG2= 0.453868 @ NSTEP 2436 GFRAME TG2 MOMENTS CHECKSUM: 3.6878982502390D+03 --> plasma_hash("gframe"): TA= 4.538682E-01 NSTEP= 2437 Hash code: 29291996 ->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: 4.376E-06 FluxDiff MaxDT: 1.852E-02 Avg. GS error: 8.695E-03 Plasma Current: 9.058E+05, target: 9.058E+05, error: 0.005% Edge Q: 9.429, target: 9.661, error: 2.408% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4627E+00 SECONDS DATA R*BT AT EDGE: 5.9001E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.1084E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.453868 TO TG2= 0.455686 @ NSTEP 2437 GFRAME TG2 MOMENTS CHECKSUM: 3.6897198733431D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.57755E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.17680E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.17680E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.556864E-01 NSTEP= 2438 Hash code: 120589537 ->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: 3.329E-06 FluxDiff MaxDT: 1.982E-02 Avg. GS error: 8.847E-03 Plasma Current: 9.048E+05, target: 9.047E+05, error: 0.006% Edge Q: 9.478, target: 9.707, error: 2.360% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4637E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0630E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.455686 TO TG2= 0.457505 @ NSTEP 2438 GFRAME TG2 MOMENTS CHECKSUM: 3.6917866189132D+03 --> plasma_hash("gframe"): TA= 4.575045E-01 NSTEP= 2439 Hash code: 63592783 ->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: 3.083E-06 FluxDiff MaxDT: 1.754E-02 Avg. GS error: 8.995E-03 Plasma Current: 9.039E+05, target: 9.038E+05, error: 0.008% Edge Q: 9.537, target: 9.759, error: 2.266% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4767E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0371E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.457505 TO TG2= 0.459323 @ NSTEP 2439 GFRAME TG2 MOMENTS CHECKSUM: 3.6953271623080D+03 --> plasma_hash("gframe"): TA= 4.593227E-01 NSTEP= 2440 Hash code: 34408752 ->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: 2.909E-06 FluxDiff MaxDT: 1.688E-02 Avg. GS error: 9.138E-03 Plasma Current: 9.033E+05, target: 9.032E+05, error: 0.010% Edge Q: 9.597, target: 9.822, error: 2.293% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4625E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0391E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.459323 TO TG2= 0.461141 @ NSTEP 2440 GFRAME TG2 MOMENTS CHECKSUM: 3.6993391202737D+03 --> plasma_hash("gframe"): TA= 4.611409E-01 NSTEP= 2441 Hash code: 35822073 ->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: 2.780E-06 FluxDiff MaxDT: 1.806E-02 Avg. GS error: 9.300E-03 Plasma Current: 9.027E+05, target: 9.026E+05, error: 0.011% Edge Q: 9.656, target: 9.883, error: 2.296% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5273E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 7.0664E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.461141 TO TG2= 0.462959 @ NSTEP 2441 GFRAME TG2 MOMENTS CHECKSUM: 3.7033363509603D+03 --> plasma_hash("gframe"): TA= 4.629591E-01 NSTEP= 2442 Hash code: 68171626 ->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: 2.501E-06 FluxDiff MaxDT: 2.518E-02 Avg. GS error: 9.517E-03 Plasma Current: 9.016E+05, target: 9.015E+05, error: 0.012% Edge Q: 9.709, target: 9.948, error: 2.396% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7732E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8155E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.462959 TO TG2= 0.464777 @ NSTEP 2442 GFRAME TG2 MOMENTS CHECKSUM: 3.7074853957692D+03 --> plasma_hash("gframe"): TA= 4.647773E-01 NSTEP= 2443 Hash code: 119749619 ->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: 2.423E-06 FluxDiff MaxDT: 2.796E-02 Avg. GS error: 9.714E-03 Plasma Current: 9.013E+05, target: 9.012E+05, error: 0.014% Edge Q: 9.737, target: 10.013, error: 2.755% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5136E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7039E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.464777 TO TG2= 0.466595 @ NSTEP 2443 GFRAME TG2 MOMENTS CHECKSUM: 3.7091722684014D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.56991E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.18224E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.18224E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.665954E-01 NSTEP= 2444 Hash code: 3876302 ->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: 2.816E-06 FluxDiff MaxDT: 2.841E-02 Avg. GS error: 9.645E-03 Plasma Current: 9.021E+05, target: 9.019E+05, error: 0.017% Edge Q: 9.708, target: 10.036, error: 3.268% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3276E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.9605E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.466595 TO TG2= 0.468414 @ NSTEP 2444 GFRAME TG2 MOMENTS CHECKSUM: 3.7057752574237D+03 --> plasma_hash("gframe"): TA= 4.684136E-01 NSTEP= 2445 Hash code: 89987032 ->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: 2.853E-06 FluxDiff MaxDT: 2.884E-02 Avg. GS error: 9.853E-03 Plasma Current: 9.030E+05, target: 9.028E+05, error: 0.020% Edge Q: 9.669, target: 9.998, error: 3.292% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.4481E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.8162E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.468414 TO TG2= 0.470232 @ NSTEP 2445 GFRAME TG2 MOMENTS CHECKSUM: 3.7024724063861D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2445 TA= 4.68414E-01 CPU TIME= 9.31000E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 4.702318E-01 NSTEP= 2446 Hash code: 103365364 ->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: 2.548E-06 FluxDiff MaxDT: 2.914E-02 Avg. GS error: 1.013E-02 Plasma Current: 9.023E+05, target: 9.021E+05, error: 0.019% Edge Q: 9.648, target: 9.955, error: 3.082% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7980E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.7701E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.470232 TO TG2= 0.472050 @ NSTEP 2446 GFRAME TG2 MOMENTS CHECKSUM: 3.6989453789699D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2447 TA= 4.72050E-01 CPU TIME= 9.06200E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.09142944444443 %check_save_state: izleft hours = 77.8408333333333 --> plasma_hash("gframe"): TA= 4.720500E-01 NSTEP= 2447 Hash code: 21654142 ->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: 2.044E-06 FluxDiff MaxDT: 3.402E-02 Avg. GS error: 1.033E-02 Plasma Current: 9.008E+05, target: 9.007E+05, error: 0.018% Edge Q: 9.652, target: 9.942, error: 2.920% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4562E+00 SECONDS DATA R*BT AT EDGE: 5.8994E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.6370E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.472050 TO TG2= 0.473868 @ NSTEP 2447 GFRAME TG2 MOMENTS CHECKSUM: 3.6970442546327D+03 --> plasma_hash("gframe"): TA= 4.738682E-01 NSTEP= 2448 Hash code: 121471839 ->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: 2.380E-06 FluxDiff MaxDT: 4.129E-02 Avg. GS error: 1.020E-02 Plasma Current: 9.004E+05, target: 9.003E+05, error: 0.018% Edge Q: 9.661, target: 9.946, error: 2.874% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4152E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5738E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.473868 TO TG2= 0.475686 @ NSTEP 2448 GFRAME TG2 MOMENTS CHECKSUM: 3.6973453512164D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= -2.20794E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 15= -1.17757E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 16= 1.50866E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.756864E-01 NSTEP= 2449 Hash code: 98851566 ->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: 2.255E-06 FluxDiff MaxDT: 1.744E-02 Avg. GS error: 1.060E-02 Plasma Current: 9.013E+05, target: 9.011E+05, error: 0.020% Edge Q: 9.708, target: 9.953, error: 2.458% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7131E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4414E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.475686 TO TG2= 0.477505 @ NSTEP 2449 GFRAME TG2 MOMENTS CHECKSUM: 3.7038990248711D+03 --> plasma_hash("gframe"): TA= 4.775045E-01 NSTEP= 2450 Hash code: 63460236 ->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: 2.327E-06 FluxDiff MaxDT: 1.510E-02 Avg. GS error: 1.089E-02 Plasma Current: 9.018E+05, target: 9.016E+05, error: 0.023% Edge Q: 9.769, target: 9.991, error: 2.222% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6153E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5368E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.477505 TO TG2= 0.479323 @ NSTEP 2450 GFRAME TG2 MOMENTS CHECKSUM: 3.7114084202801D+03 --> plasma_hash("gframe"): TA= 4.793227E-01 NSTEP= 2451 Hash code: 18153373 ->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: 2.142E-06 FluxDiff MaxDT: 1.824E-02 Avg. GS error: 1.093E-02 Plasma Current: 9.013E+05, target: 9.012E+05, error: 0.021% Edge Q: 9.842, target: 10.064, error: 2.204% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4720E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2306E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.479323 TO TG2= 0.481141 @ NSTEP 2451 GFRAME TG2 MOMENTS CHECKSUM: 3.7200996756909D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.480000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2458 TA= 4.81117E-01 CPU TIME= 2.46850E-02 SECONDS. DT= 2.37792E-05 --> plasma_hash("gframe"): TA= 4.811409E-01 NSTEP= 2459 Hash code: 83485189 ->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: 1.804E-06 FluxDiff MaxDT: 2.307E-02 Avg. GS error: 1.145E-02 Plasma Current: 9.006E+05, target: 9.004E+05, error: 0.017% Edge Q: 9.896, target: 10.151, error: 2.513% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6646E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2248E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.481141 TO TG2= 0.482959 @ NSTEP 2459 GFRAME TG2 MOMENTS CHECKSUM: 3.7259532673445D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2465 TA= 4.82321E-01 CPU TIME= 2.26130E-02 SECONDS. DT= 2.78132E-04 --> plasma_hash("gframe"): TA= 4.829591E-01 NSTEP= 2468 Hash code: 101484988 ->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: 2.000E-06 FluxDiff MaxDT: 2.767E-02 Avg. GS error: 1.249E-02 Plasma Current: 9.005E+05, target: 9.004E+05, error: 0.009% Edge Q: 9.916, target: 10.203, error: 2.817% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9183E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2606E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.482959 TO TG2= 0.484777 @ NSTEP 2468 GFRAME TG2 MOMENTS CHECKSUM: 3.7306430233729D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2471 TA= 4.83568E-01 CPU TIME= 1.39450E-02 SECONDS. DT= 2.37161E-04 --> plasma_hash("gframe"): TA= 4.847773E-01 NSTEP= 2477 Hash code: 28992939 ->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: 1.906E-06 FluxDiff MaxDT: 2.935E-02 Avg. GS error: 1.323E-02 Plasma Current: 9.011E+05, target: 9.011E+05, error: 0.009% Edge Q: 9.866, target: 10.219, error: 3.459% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9398E+00 SECONDS DATA R*BT AT EDGE: 5.8991E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2945E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.484777 TO TG2= 0.486595 @ NSTEP 2477 GFRAME TG2 MOMENTS CHECKSUM: 3.7302364499970D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2477 TA= 4.84777E-01 CPU TIME= 9.26300E-03 SECONDS. DT= 3.07282E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2483 TA= 4.86159E-01 CPU TIME= 7.86310E-02 SECONDS. DT= 3.25509E-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", # 15= -1.28572E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.24857E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -2.56981E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.865954E-01 NSTEP= 2485 Hash code: 108075668 ->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: 2.285E-06 FluxDiff MaxDT: 2.705E-02 Avg. GS error: 1.406E-02 Plasma Current: 9.017E+05, target: 9.016E+05, error: 0.005% Edge Q: 9.810, target: 10.165, error: 3.494% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0105E+00 SECONDS DATA R*BT AT EDGE: 5.8992E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2899E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.486595 TO TG2= 0.488414 @ NSTEP 2485 GFRAME TG2 MOMENTS CHECKSUM: 3.7292983293701D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2489 TA= 4.87572E-01 CPU TIME= 2.21460E-02 SECONDS. DT= 2.77107E-04 --> plasma_hash("gframe"): TA= 4.884136E-01 NSTEP= 2493 Hash code: 103784704 ->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: 2.001E-06 FluxDiff MaxDT: 2.820E-02 Avg. GS error: 1.469E-02 Plasma Current: 9.017E+05, target: 9.017E+05, error: 0.001% Edge Q: 9.763, target: 10.106, error: 3.402% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0514E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.5067E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.488414 TO TG2= 0.490232 @ NSTEP 2493 GFRAME TG2 MOMENTS CHECKSUM: 3.7273436404704D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2496 TA= 4.89166E-01 CPU TIME= 2.77570E-02 SECONDS. DT= 2.93009E-04 --> plasma_hash("gframe"): TA= 4.902318E-01 NSTEP= 2500 Hash code: 71300062 ->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: 1.988E-06 FluxDiff MaxDT: 2.979E-02 Avg. GS error: 1.515E-02 Plasma Current: 9.014E+05, target: 9.014E+05, error: 0.000% Edge Q: 9.731, target: 10.056, error: 3.233% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.0438E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.4554E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.490232 TO TG2= 0.492050 @ NSTEP 2500 GFRAME TG2 MOMENTS CHECKSUM: 3.7270946272627D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2504 TA= 4.92050E-01 CPU TIME= 9.12400E-03 SECONDS. DT= 4.95667E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.11416750000035 %check_save_state: izleft hours = 77.8183333333333 --> plasma_hash("gframe"): TA= 4.920500E-01 NSTEP= 2504 Hash code: 117621013 ->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: 1.963E-06 FluxDiff MaxDT: 4.286E-02 Avg. GS error: 1.520E-02 Plasma Current: 9.012E+05, target: 9.012E+05, error: 0.001% Edge Q: 9.715, target: 10.023, error: 3.069% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8361E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3968E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.492050 TO TG2= 0.493868 @ NSTEP 2504 GFRAME TG2 MOMENTS CHECKSUM: 3.7272940108186D+03 --> plasma_hash("gframe"): TA= 4.938682E-01 NSTEP= 2507 Hash code: 65864182 ->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: 1.347E-06 FluxDiff MaxDT: 3.354E-02 Avg. GS error: 1.519E-02 Plasma Current: 9.012E+05, target: 9.012E+05, error: 0.001% Edge Q: 9.728, target: 10.014, error: 2.857% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3910E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3646E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.493868 TO TG2= 0.495686 @ NSTEP 2507 GFRAME TG2 MOMENTS CHECKSUM: 3.7290242903339D+03 --> plasma_hash("gframe"): TA= 4.956864E-01 NSTEP= 2510 Hash code: 83457744 ->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: 1.513E-06 FluxDiff MaxDT: 3.497E-02 Avg. GS error: 1.502E-02 Plasma Current: 9.010E+05, target: 9.010E+05, error: 0.001% Edge Q: 9.745, target: 10.025, error: 2.793% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4574E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3434E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.495686 TO TG2= 0.497505 @ NSTEP 2510 GFRAME TG2 MOMENTS CHECKSUM: 3.7310037424135D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 2.93914E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.39609E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.54305E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 4.975045E-01 NSTEP= 2512 Hash code: 50648427 ->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: 1.006E-06 FluxDiff MaxDT: 3.151E-02 Avg. GS error: 1.516E-02 Plasma Current: 9.005E+05, target: 9.005E+05, error: 0.000% Edge Q: 9.763, target: 10.048, error: 2.831% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4864E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.3242E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.497505 TO TG2= 0.499323 @ NSTEP 2512 GFRAME TG2 MOMENTS CHECKSUM: 3.7328043819968D+03 --> plasma_hash("gframe"): TA= 4.993227E-01 NSTEP= 2514 Hash code: 23080181 ->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: 8.902E-07 FluxDiff MaxDT: 3.915E-02 Avg. GS error: 1.510E-02 Plasma Current: 8.999E+05, target: 8.999E+05, error: 0.002% Edge Q: 9.781, target: 10.061, error: 2.781% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4932E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.2002E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.499323 TO TG2= 0.501141 @ NSTEP 2514 GFRAME TG2 MOMENTS CHECKSUM: 3.7341096558404D+03 --> plasma_hash("gframe"): TA= 5.011409E-01 NSTEP= 2515 Hash code: 20729475 ->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: 6.490E-07 FluxDiff MaxDT: 3.479E-02 Avg. GS error: 1.496E-02 Plasma Current: 8.996E+05, target: 8.996E+05, error: 0.003% Edge Q: 9.793, target: 10.085, error: 2.895% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4202E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0613E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.501141 TO TG2= 0.502959 @ NSTEP 2515 GFRAME TG2 MOMENTS CHECKSUM: 3.7352471471469D+03 --> plasma_hash("gframe"): TA= 5.029591E-01 NSTEP= 2516 Hash code: 66103953 ->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: 7.759E-07 FluxDiff MaxDT: 4.328E-02 Avg. GS error: 1.474E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.001% Edge Q: 9.772, target: 10.087, error: 3.127% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3629E+00 SECONDS DATA R*BT AT EDGE: 5.8997E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9496E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.502959 TO TG2= 0.504777 @ NSTEP 2516 GFRAME TG2 MOMENTS CHECKSUM: 3.7349421109677D+03 --> plasma_hash("gframe"): TA= 5.047773E-01 NSTEP= 2517 Hash code: 72549767 ->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: 1.136E-06 FluxDiff MaxDT: 3.325E-02 Avg. GS error: 1.448E-02 Plasma Current: 9.014E+05, target: 9.015E+05, error: 0.004% Edge Q: 9.745, target: 10.057, error: 3.097% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5486E+00 SECONDS DATA R*BT AT EDGE: 5.8995E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8313E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.504777 TO TG2= 0.506595 @ NSTEP 2517 GFRAME TG2 MOMENTS CHECKSUM: 3.7346826386750D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 2.94318E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.39801E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.54517E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.065954E-01 NSTEP= 2518 Hash code: 35463061 ->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: 1.250E-06 FluxDiff MaxDT: 3.131E-02 Avg. GS error: 1.430E-02 Plasma Current: 9.023E+05, target: 9.024E+05, error: 0.009% Edge Q: 9.722, target: 10.021, error: 2.982% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5789E+00 SECONDS DATA R*BT AT EDGE: 5.8990E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8344E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.506595 TO TG2= 0.508414 @ NSTEP 2518 GFRAME TG2 MOMENTS CHECKSUM: 3.7341771450438D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2518 TA= 5.06595E-01 CPU TIME= 9.39300E-03 SECONDS. DT= 1.81818E-03 --> plasma_hash("gframe"): TA= 5.084136E-01 NSTEP= 2519 Hash code: 81420936 ->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: 1.075E-06 FluxDiff MaxDT: 3.402E-02 Avg. GS error: 1.412E-02 Plasma Current: 9.024E+05, target: 9.026E+05, error: 0.016% Edge Q: 9.712, target: 9.995, error: 2.830% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6491E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7361E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.508414 TO TG2= 0.510232 @ NSTEP 2519 GFRAME TG2 MOMENTS CHECKSUM: 3.7325659425791D+03 --> plasma_hash("gframe"): TA= 5.102318E-01 NSTEP= 2520 Hash code: 58356052 ->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: 6.808E-07 FluxDiff MaxDT: 3.553E-02 Avg. GS error: 1.391E-02 Plasma Current: 9.025E+05, target: 9.027E+05, error: 0.021% Edge Q: 9.707, target: 9.989, error: 2.828% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6746E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6527E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.510232 TO TG2= 0.512050 @ NSTEP 2520 GFRAME TG2 MOMENTS CHECKSUM: 3.7304350267243D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2521 TA= 5.12050E-01 CPU TIME= 9.11500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.12867305555574 %check_save_state: izleft hours = 77.8036111111111 --> plasma_hash("gframe"): TA= 5.120500E-01 NSTEP= 2521 Hash code: 60115218 ->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: 6.640E-07 FluxDiff MaxDT: 3.232E-02 Avg. GS error: 1.392E-02 Plasma Current: 9.030E+05, target: 9.032E+05, error: 0.021% Edge Q: 9.713, target: 9.985, error: 2.718% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.8850E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6151E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.512050 TO TG2= 0.513868 @ NSTEP 2521 GFRAME TG2 MOMENTS CHECKSUM: 3.7253830942178D+03 --> plasma_hash("gframe"): TA= 5.138682E-01 NSTEP= 2522 Hash code: 78873895 ->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: 5.225E-07 FluxDiff MaxDT: 3.893E-02 Avg. GS error: 1.457E-02 Plasma Current: 9.037E+05, target: 9.038E+05, error: 0.018% Edge Q: 9.718, target: 10.001, error: 2.838% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9360E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5744E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.513868 TO TG2= 0.515686 @ NSTEP 2522 GFRAME TG2 MOMENTS CHECKSUM: 3.7203443590889D+03 --> plasma_hash("gframe"): TA= 5.156864E-01 NSTEP= 2523 Hash code: 6785137 ->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: 5.671E-07 FluxDiff MaxDT: 4.308E-02 Avg. GS error: 1.443E-02 Plasma Current: 9.043E+05, target: 9.044E+05, error: 0.013% Edge Q: 9.720, target: 10.016, error: 2.956% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9628E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5537E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.515686 TO TG2= 0.517505 @ NSTEP 2523 GFRAME TG2 MOMENTS CHECKSUM: 3.7153813912862D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= 1.20599E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.93322E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.26357E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.175045E-01 NSTEP= 2524 Hash code: 39585240 ->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: 5.143E-07 FluxDiff MaxDT: 3.291E-02 Avg. GS error: 1.413E-02 Plasma Current: 9.050E+05, target: 9.051E+05, error: 0.009% Edge Q: 9.720, target: 10.024, error: 3.033% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7986E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5436E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.517505 TO TG2= 0.519323 @ NSTEP 2524 GFRAME TG2 MOMENTS CHECKSUM: 3.7118746083926D+03 --> plasma_hash("gframe"): TA= 5.193227E-01 NSTEP= 2525 Hash code: 114991765 ->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: 6.134E-07 FluxDiff MaxDT: 2.778E-02 Avg. GS error: 1.383E-02 Plasma Current: 9.053E+05, target: 9.054E+05, error: 0.006% Edge Q: 9.724, target: 10.015, error: 2.907% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6317E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5342E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.519323 TO TG2= 0.521141 @ NSTEP 2525 GFRAME TG2 MOMENTS CHECKSUM: 3.7091401204461D+03 --> plasma_hash("gframe"): TA= 5.211409E-01 NSTEP= 2526 Hash code: 7064673 ->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: 5.024E-07 FluxDiff MaxDT: 2.310E-02 Avg. GS error: 1.399E-02 Plasma Current: 9.047E+05, target: 9.047E+05, error: 0.004% Edge Q: 9.748, target: 10.017, error: 2.690% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4797E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4978E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.521141 TO TG2= 0.522959 @ NSTEP 2526 GFRAME TG2 MOMENTS CHECKSUM: 3.7105935044135D+03 --> plasma_hash("gframe"): TA= 5.229591E-01 NSTEP= 2527 Hash code: 122100360 ->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: 5.385E-07 FluxDiff MaxDT: 2.541E-02 Avg. GS error: 1.414E-02 Plasma Current: 9.034E+05, target: 9.034E+05, error: 0.003% Edge Q: 9.775, target: 10.044, error: 2.679% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4053E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4467E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.522959 TO TG2= 0.524777 @ NSTEP 2527 GFRAME TG2 MOMENTS CHECKSUM: 3.7115294323171D+03 --> plasma_hash("gframe"): TA= 5.247773E-01 NSTEP= 2528 Hash code: 64890019 ->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: 3.721E-07 FluxDiff MaxDT: 2.434E-02 Avg. GS error: 1.428E-02 Plasma Current: 9.025E+05, target: 9.026E+05, error: 0.002% Edge Q: 9.799, target: 10.077, error: 2.755% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4745E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4448E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.524777 TO TG2= 0.526595 @ NSTEP 2528 GFRAME TG2 MOMENTS CHECKSUM: 3.7127042510291D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= 1.21016E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.94398E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.27007E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.265954E-01 NSTEP= 2529 Hash code: 105770776 ->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: 5.241E-07 FluxDiff MaxDT: 2.164E-02 Avg. GS error: 1.438E-02 Plasma Current: 9.020E+05, target: 9.020E+05, error: 0.003% Edge Q: 9.823, target: 10.098, error: 2.723% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5397E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4499E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.526595 TO TG2= 0.528414 @ NSTEP 2529 GFRAME TG2 MOMENTS CHECKSUM: 3.7140602695685D+03 --> plasma_hash("gframe"): TA= 5.284136E-01 NSTEP= 2530 Hash code: 63737113 ->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: 6.120E-07 FluxDiff MaxDT: 1.915E-02 Avg. GS error: 1.449E-02 Plasma Current: 9.018E+05, target: 9.019E+05, error: 0.005% Edge Q: 9.848, target: 10.123, error: 2.720% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5726E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4759E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.528414 TO TG2= 0.530232 @ NSTEP 2530 GFRAME TG2 MOMENTS CHECKSUM: 3.7156778645506D+03 --> plasma_hash("gframe"): TA= 5.302318E-01 NSTEP= 2531 Hash code: 55078252 ->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: 8.848E-07 FluxDiff MaxDT: 1.601E-02 Avg. GS error: 1.458E-02 Plasma Current: 9.022E+05, target: 9.022E+05, error: 0.009% Edge Q: 9.878, target: 10.145, error: 2.630% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7046E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4918E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.530232 TO TG2= 0.532050 @ NSTEP 2531 GFRAME TG2 MOMENTS CHECKSUM: 3.7179751335001D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2532 TA= 5.32050E-01 CPU TIME= 9.15600E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.13833833333365 %check_save_state: izleft hours = 77.7941666666667 --> plasma_hash("gframe"): TA= 5.320500E-01 NSTEP= 2532 Hash code: 28452480 ->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: 1.123E-06 FluxDiff MaxDT: 1.514E-02 Avg. GS error: 1.465E-02 Plasma Current: 9.027E+05, target: 9.028E+05, error: 0.011% Edge Q: 9.908, target: 10.175, error: 2.624% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7114E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4992E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.532050 TO TG2= 0.533868 @ NSTEP 2532 GFRAME TG2 MOMENTS CHECKSUM: 3.7205038427960D+03 --> plasma_hash("gframe"): TA= 5.338682E-01 NSTEP= 2533 Hash code: 79182472 ->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: 1.357E-06 FluxDiff MaxDT: 1.806E-02 Avg. GS error: 1.472E-02 Plasma Current: 9.024E+05, target: 9.025E+05, error: 0.010% Edge Q: 9.950, target: 10.201, error: 2.462% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6114E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5136E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.533868 TO TG2= 0.535686 @ NSTEP 2533 GFRAME TG2 MOMENTS CHECKSUM: 3.7226320039798D+03 --> plasma_hash("gframe"): TA= 5.356864E-01 NSTEP= 2534 Hash code: 75029441 ->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: 6.393E-07 FluxDiff MaxDT: 2.584E-02 Avg. GS error: 1.481E-02 Plasma Current: 9.012E+05, target: 9.013E+05, error: 0.009% Edge Q: 9.991, target: 10.255, error: 2.573% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4487E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5153E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.535686 TO TG2= 0.537505 @ NSTEP 2534 GFRAME TG2 MOMENTS CHECKSUM: 3.7240447424203D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.43092E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.17589E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.24939E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.375045E-01 NSTEP= 2535 Hash code: 7377742 ->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: 4.094E-07 FluxDiff MaxDT: 3.201E-02 Avg. GS error: 1.490E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.008% Edge Q: 10.024, target: 10.299, error: 2.667% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4201E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5284E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.537505 TO TG2= 0.539323 @ NSTEP 2535 GFRAME TG2 MOMENTS CHECKSUM: 3.7248016947149D+03 --> plasma_hash("gframe"): TA= 5.393227E-01 NSTEP= 2536 Hash code: 38714738 ->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: 3.884E-07 FluxDiff MaxDT: 5.277E-02 Avg. GS error: 1.494E-02 Plasma Current: 8.989E+05, target: 8.990E+05, error: 0.009% Edge Q: 10.026, target: 10.336, error: 2.992% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4135E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5258E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.539323 TO TG2= 0.541141 @ NSTEP 2536 GFRAME TG2 MOMENTS CHECKSUM: 3.7236835424604D+03 --> plasma_hash("gframe"): TA= 5.411409E-01 NSTEP= 2537 Hash code: 35871760 ->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: 4.727E-07 FluxDiff MaxDT: 5.308E-02 Avg. GS error: 1.494E-02 Plasma Current: 8.985E+05, target: 8.986E+05, error: 0.009% Edge Q: 10.021, target: 10.336, error: 3.054% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2875E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5188E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.541141 TO TG2= 0.542959 @ NSTEP 2537 GFRAME TG2 MOMENTS CHECKSUM: 3.7226348210399D+03 --> plasma_hash("gframe"): TA= 5.429591E-01 NSTEP= 2538 Hash code: 3172887 ->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: 6.787E-07 FluxDiff MaxDT: 3.687E-02 Avg. GS error: 1.491E-02 Plasma Current: 8.989E+05, target: 8.990E+05, error: 0.009% Edge Q: 10.004, target: 10.327, error: 3.125% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4193E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5031E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.542959 TO TG2= 0.544777 @ NSTEP 2538 GFRAME TG2 MOMENTS CHECKSUM: 3.7219173440335D+03 --> plasma_hash("gframe"): TA= 5.447773E-01 NSTEP= 2539 Hash code: 102833861 ->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: 1.207E-06 FluxDiff MaxDT: 2.603E-02 Avg. GS error: 1.491E-02 Plasma Current: 8.997E+05, target: 8.998E+05, error: 0.011% Edge Q: 9.993, target: 10.301, error: 2.991% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4771E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4926E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.544777 TO TG2= 0.546595 @ NSTEP 2539 GFRAME TG2 MOMENTS CHECKSUM: 3.7220670319351D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.43072E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -1.17654E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.25008E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.465954E-01 NSTEP= 2540 Hash code: 114899790 ->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: 1.366E-06 FluxDiff MaxDT: 2.378E-02 Avg. GS error: 1.498E-02 Plasma Current: 8.997E+05, target: 8.998E+05, error: 0.011% Edge Q: 10.001, target: 10.289, error: 2.798% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3784E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.4938E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.546595 TO TG2= 0.548414 @ NSTEP 2540 GFRAME TG2 MOMENTS CHECKSUM: 3.7229618176493D+03 --> plasma_hash("gframe"): TA= 5.484136E-01 NSTEP= 2541 Hash code: 110793467 ->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: 1.015E-06 FluxDiff MaxDT: 2.135E-02 Avg. GS error: 1.514E-02 Plasma Current: 8.988E+05, target: 8.989E+05, error: 0.009% Edge Q: 10.039, target: 10.300, error: 2.538% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5400E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5113E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.548414 TO TG2= 0.550232 @ NSTEP 2541 GFRAME TG2 MOMENTS CHECKSUM: 3.7253824583563D+03 --> plasma_hash("gframe"): TA= 5.502318E-01 NSTEP= 2542 Hash code: 116179783 ->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: 7.361E-07 FluxDiff MaxDT: 1.937E-02 Avg. GS error: 1.525E-02 Plasma Current: 8.983E+05, target: 8.983E+05, error: 0.007% Edge Q: 10.073, target: 10.346, error: 2.636% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5489E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5264E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.550232 TO TG2= 0.552050 @ NSTEP 2542 GFRAME TG2 MOMENTS CHECKSUM: 3.7279810291874D+03 %fi_finish: enter %fimain: eflux cpu time = 2.999993739649653E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2543 TA= 5.52050E-01 CPU TIME= 9.14200E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.14698750000002 %check_save_state: izleft hours = 77.7852777777778 --> plasma_hash("gframe"): TA= 5.520500E-01 NSTEP= 2543 Hash code: 36089970 ->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: 1.064E-06 FluxDiff MaxDT: 1.742E-02 Avg. GS error: 1.528E-02 Plasma Current: 8.986E+05, target: 8.986E+05, error: 0.003% Edge Q: 10.095, target: 10.374, error: 2.686% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5834E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5335E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.552050 TO TG2= 0.553868 @ NSTEP 2543 GFRAME TG2 MOMENTS CHECKSUM: 3.7306369322070D+03 --> plasma_hash("gframe"): TA= 5.538682E-01 NSTEP= 2544 Hash code: 47822069 ->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: 1.488E-06 FluxDiff MaxDT: 1.733E-02 Avg. GS error: 1.521E-02 Plasma Current: 8.992E+05, target: 8.992E+05, error: 0.000% Edge Q: 10.110, target: 10.392, error: 2.714% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5805E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5037E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.553868 TO TG2= 0.555686 @ NSTEP 2544 GFRAME TG2 MOMENTS CHECKSUM: 3.7327915666822D+03 --> plasma_hash("gframe"): TA= 5.556864E-01 NSTEP= 2545 Hash code: 23390766 ->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: 1.572E-06 FluxDiff MaxDT: 1.917E-02 Avg. GS error: 1.514E-02 Plasma Current: 8.994E+05, target: 8.993E+05, error: 0.004% Edge Q: 10.127, target: 10.403, error: 2.655% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4072E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5104E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.555686 TO TG2= 0.557505 @ NSTEP 2545 GFRAME TG2 MOMENTS CHECKSUM: 3.7345432330398D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= 1.19119E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -1.46623E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -2.93246E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.575045E-01 NSTEP= 2546 Hash code: 16693359 ->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: 1.236E-06 FluxDiff MaxDT: 2.299E-02 Avg. GS error: 1.508E-02 Plasma Current: 8.993E+05, target: 8.993E+05, error: 0.005% Edge Q: 10.141, target: 10.423, error: 2.706% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4172E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5179E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.557505 TO TG2= 0.559323 @ NSTEP 2546 GFRAME TG2 MOMENTS CHECKSUM: 3.7353627133159D+03 --> plasma_hash("gframe"): TA= 5.593227E-01 NSTEP= 2547 Hash code: 23228923 ->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: 1.129E-06 FluxDiff MaxDT: 2.262E-02 Avg. GS error: 1.502E-02 Plasma Current: 8.994E+05, target: 8.994E+05, error: 0.007% Edge Q: 10.152, target: 10.439, error: 2.744% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4159E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5235E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.559323 TO TG2= 0.561141 @ NSTEP 2547 GFRAME TG2 MOMENTS CHECKSUM: 3.7362214441336D+03 --> plasma_hash("gframe"): TA= 5.611409E-01 NSTEP= 2548 Hash code: 51427553 ->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: 1.343E-06 FluxDiff MaxDT: 1.983E-02 Avg. GS error: 1.495E-02 Plasma Current: 9.002E+05, target: 9.001E+05, error: 0.008% Edge Q: 10.155, target: 10.448, error: 2.805% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5488E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5251E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.561141 TO TG2= 0.562959 @ NSTEP 2548 GFRAME TG2 MOMENTS CHECKSUM: 3.7371568699201D+03 --> plasma_hash("gframe"): TA= 5.629591E-01 NSTEP= 2549 Hash code: 106083315 ->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: 1.862E-06 FluxDiff MaxDT: 2.044E-02 Avg. GS error: 1.489E-02 Plasma Current: 9.009E+05, target: 9.008E+05, error: 0.008% Edge Q: 10.154, target: 10.442, error: 2.757% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4121E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5255E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.562959 TO TG2= 0.564777 @ NSTEP 2549 GFRAME TG2 MOMENTS CHECKSUM: 3.7373515150185D+03 --> plasma_hash("gframe"): TA= 5.647773E-01 NSTEP= 2550 Hash code: 41023436 ->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: 1.681E-06 FluxDiff MaxDT: 2.413E-02 Avg. GS error: 1.485E-02 Plasma Current: 9.009E+05, target: 9.008E+05, error: 0.007% Edge Q: 10.161, target: 10.443, error: 2.700% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4187E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5281E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.564777 TO TG2= 0.566595 @ NSTEP 2550 GFRAME TG2 MOMENTS CHECKSUM: 3.7369456126246D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= 1.19070E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= -1.46563E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 20= -2.93126E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.665954E-01 NSTEP= 2551 Hash code: 116055982 ->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: 1.209E-06 FluxDiff MaxDT: 2.925E-02 Avg. GS error: 1.481E-02 Plasma Current: 9.007E+05, target: 9.007E+05, error: 0.005% Edge Q: 10.162, target: 10.455, error: 2.800% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4121E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5268E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.566595 TO TG2= 0.568414 @ NSTEP 2551 GFRAME TG2 MOMENTS CHECKSUM: 3.7355160478854D+03 --> plasma_hash("gframe"): TA= 5.684136E-01 NSTEP= 2552 Hash code: 4371942 ->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: 1.332E-06 FluxDiff MaxDT: 2.763E-02 Avg. GS error: 1.477E-02 Plasma Current: 9.011E+05, target: 9.011E+05, error: 0.003% Edge Q: 10.156, target: 10.457, error: 2.876% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5565E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5219E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.568414 TO TG2= 0.570232 @ NSTEP 2552 GFRAME TG2 MOMENTS CHECKSUM: 3.7341898584310D+03 --> plasma_hash("gframe"): TA= 5.702318E-01 NSTEP= 2553 Hash code: 43216959 ->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: 1.651E-06 FluxDiff MaxDT: 2.690E-02 Avg. GS error: 1.471E-02 Plasma Current: 9.017E+05, target: 9.017E+05, error: 0.000% Edge Q: 10.147, target: 10.447, error: 2.875% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5828E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5181E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.570232 TO TG2= 0.572050 @ NSTEP 2553 GFRAME TG2 MOMENTS CHECKSUM: 3.7329057254322D+03 %fi_finish: enter %fimain: eflux cpu time = 3.999986802227795E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2554 TA= 5.72050E-01 CPU TIME= 9.15300E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.15609722222212 %check_save_state: izleft hours = 77.7763888888889 --> plasma_hash("gframe"): TA= 5.720500E-01 NSTEP= 2554 Hash code: 94773654 ->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: 1.635E-06 FluxDiff MaxDT: 3.111E-02 Avg. GS error: 1.468E-02 Plasma Current: 9.012E+05, target: 9.012E+05, error: 0.002% Edge Q: 10.154, target: 10.438, error: 2.718% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3891E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5197E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.572050 TO TG2= 0.573868 @ NSTEP 2554 GFRAME TG2 MOMENTS CHECKSUM: 3.7321507448670D+03 --> plasma_hash("gframe"): TA= 5.738682E-01 NSTEP= 2555 Hash code: 90714766 ->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: 9.403E-07 FluxDiff MaxDT: 3.705E-02 Avg. GS error: 1.470E-02 Plasma Current: 8.999E+05, target: 9.000E+05, error: 0.003% Edge Q: 10.173, target: 10.452, error: 2.676% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2969E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5626E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.573868 TO TG2= 0.575686 @ NSTEP 2555 GFRAME TG2 MOMENTS CHECKSUM: 3.7319273311553D+03 --> plasma_hash("gframe"): TA= 5.756864E-01 NSTEP= 2556 Hash code: 33635306 ->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: 7.545E-07 FluxDiff MaxDT: 2.947E-02 Avg. GS error: 1.470E-02 Plasma Current: 8.991E+05, target: 8.991E+05, error: 0.003% Edge Q: 10.187, target: 10.474, error: 2.736% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3530E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5540E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.575686 TO TG2= 0.577505 @ NSTEP 2556 GFRAME TG2 MOMENTS CHECKSUM: 3.7325257544735D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -5.22211E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= -2.64783E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -2.57428E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.775045E-01 NSTEP= 2557 Hash code: 85318240 ->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: 1.124E-06 FluxDiff MaxDT: 2.324E-02 Avg. GS error: 1.465E-02 Plasma Current: 8.992E+05, target: 8.993E+05, error: 0.002% Edge Q: 10.190, target: 10.484, error: 2.801% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3716E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5436E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.577505 TO TG2= 0.579323 @ NSTEP 2557 GFRAME TG2 MOMENTS CHECKSUM: 3.7332602165782D+03 --> plasma_hash("gframe"): TA= 5.793227E-01 NSTEP= 2558 Hash code: 40174841 ->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: 1.660E-06 FluxDiff MaxDT: 2.026E-02 Avg. GS error: 1.458E-02 Plasma Current: 8.999E+05, target: 8.999E+05, error: 0.001% Edge Q: 10.187, target: 10.479, error: 2.786% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4082E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5332E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.579323 TO TG2= 0.581141 @ NSTEP 2558 GFRAME TG2 MOMENTS CHECKSUM: 3.7340573249522D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.580000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2562 Hash code: 27890134 ->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: 1.990E-06 FluxDiff MaxDT: 2.108E-02 Avg. GS error: 1.460E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.001% Edge Q: 10.198, target: 10.472, error: 2.617% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4070E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5195E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.581141 TO TG2= 0.582959 @ NSTEP 2562 GFRAME TG2 MOMENTS CHECKSUM: 3.7347088544659D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2566 TA= 5.82951E-01 CPU TIME= 4.76920E-02 SECONDS. DT= 8.13595E-06 --> plasma_hash("gframe"): TA= 5.829591E-01 NSTEP= 2567 Hash code: 59535379 ->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: 1.330E-06 FluxDiff MaxDT: 2.151E-02 Avg. GS error: 1.473E-02 Plasma Current: 9.004E+05, target: 9.004E+05, error: 0.000% Edge Q: 10.218, target: 10.489, error: 2.586% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4104E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5349E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.582959 TO TG2= 0.584777 @ NSTEP 2567 GFRAME TG2 MOMENTS CHECKSUM: 3.7345412497294D+03 --> plasma_hash("gframe"): TA= 5.847773E-01 NSTEP= 2571 Hash code: 18264116 ->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: 1.497E-06 FluxDiff MaxDT: 2.863E-02 Avg. GS error: 1.493E-02 Plasma Current: 9.003E+05, target: 9.003E+05, error: 0.000% Edge Q: 10.255, target: 10.510, error: 2.427% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6020E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5396E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.584777 TO TG2= 0.586595 @ NSTEP 2571 GFRAME TG2 MOMENTS CHECKSUM: 3.7346901987322D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2573 TA= 5.85736E-01 CPU TIME= 9.28000E-03 SECONDS. DT= 5.40162E-04 --> plasma_hash("gframe"): TA= 5.865954E-01 NSTEP= 2575 Hash code: 105014457 ->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: 7.476E-07 FluxDiff MaxDT: 3.471E-02 Avg. GS error: 1.490E-02 Plasma Current: 8.997E+05, target: 8.997E+05, error: 0.001% Edge Q: 10.294, target: 10.562, error: 2.537% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6208E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5736E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.586595 TO TG2= 0.588414 @ NSTEP 2575 GFRAME TG2 MOMENTS CHECKSUM: 3.7341562022682D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 17= -1.28730E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 18= 1.91306E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= 1.83948E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.884136E-01 NSTEP= 2579 Hash code: 65552544 ->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: 9.912E-07 FluxDiff MaxDT: 4.945E-02 Avg. GS error: 1.465E-02 Plasma Current: 8.990E+05, target: 8.990E+05, error: 0.001% Edge Q: 10.333, target: 10.598, error: 2.502% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5031E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6003E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.588414 TO TG2= 0.590232 @ NSTEP 2579 GFRAME TG2 MOMENTS CHECKSUM: 3.7340045768797D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2580 TA= 5.88978E-01 CPU TIME= 9.30700E-03 SECONDS. DT= 7.05184E-04 --> plasma_hash("gframe"): TA= 5.902318E-01 NSTEP= 2583 Hash code: 6867375 ->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: 5.826E-07 FluxDiff MaxDT: 5.063E-02 Avg. GS error: 1.441E-02 Plasma Current: 8.987E+05, target: 8.986E+05, error: 0.003% Edge Q: 10.356, target: 10.642, error: 2.679% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5483E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6313E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.590232 TO TG2= 0.592050 @ NSTEP 2583 GFRAME TG2 MOMENTS CHECKSUM: 3.7334586097716D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2586 TA= 5.92050E-01 CPU TIME= 9.15000E-03 SECONDS. DT= 2.66684E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.16814749999980 %check_save_state: izleft hours = 77.7641666666667 --> plasma_hash("gframe"): TA= 5.920500E-01 NSTEP= 2586 Hash code: 83983257 ->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: 9.954E-07 FluxDiff MaxDT: 6.984E-02 Avg. GS error: 1.435E-02 Plasma Current: 8.986E+05, target: 8.986E+05, error: 0.004% Edge Q: 10.369, target: 10.654, error: 2.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5587E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7659E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.592050 TO TG2= 0.593868 @ NSTEP 2586 GFRAME TG2 MOMENTS CHECKSUM: 3.7342181956563D+03 --> plasma_hash("gframe"): TA= 5.938682E-01 NSTEP= 2591 Hash code: 33816640 ->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: 9.393E-07 FluxDiff MaxDT: 9.937E-02 Avg. GS error: 1.439E-02 Plasma Current: 8.980E+05, target: 8.980E+05, error: 0.006% Edge Q: 10.382, target: 10.675, error: 2.748% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7243E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7858E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.593868 TO TG2= 0.595686 @ NSTEP 2591 GFRAME TG2 MOMENTS CHECKSUM: 3.7335021941296D+03 --> plasma_hash("gframe"): TA= 5.956864E-01 NSTEP= 2594 Hash code: 70800696 ->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: 6.309E-07 FluxDiff MaxDT: 9.892E-02 Avg. GS error: 1.450E-02 Plasma Current: 8.970E+05, target: 8.969E+05, error: 0.006% Edge Q: 10.400, target: 10.692, error: 2.730% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5897E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8279E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.595686 TO TG2= 0.597505 @ NSTEP 2594 GFRAME TG2 MOMENTS CHECKSUM: 3.7327938875417D+03 !get_B_on_grid: xplasma_brz returned error code 109 ?xplasma -- scrapeoff region (limiter & grids) undefined. xplasma_brz needs scrapeoff region defined. %MFRCHK - LABEL "BALE0_SGF", # 16= 2.02430E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 5.975045E-01 NSTEP= 2596 Hash code: 2703008 ->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: 5.906E-07 FluxDiff MaxDT: 9.471E-02 Avg. GS error: 1.456E-02 Plasma Current: 8.966E+05, target: 8.965E+05, error: 0.008% Edge Q: 10.410, target: 10.714, error: 2.835% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5445E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8352E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.597505 TO TG2= 0.599323 @ NSTEP 2596 GFRAME TG2 MOMENTS CHECKSUM: 3.7323072916543D+03 --> plasma_hash("gframe"): TA= 5.993227E-01 NSTEP= 2598 Hash code: 809956 ->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: 7.946E-07 FluxDiff MaxDT: 6.895E-02 Avg. GS error: 1.463E-02 Plasma Current: 8.973E+05, target: 8.972E+05, error: 0.010% Edge Q: 10.408, target: 10.716, error: 2.881% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4073E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8234E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.599323 TO TG2= 0.601141 @ NSTEP 2598 GFRAME TG2 MOMENTS CHECKSUM: 3.7320624580774D+03 --> plasma_hash("gframe"): TA= 6.011409E-01 NSTEP= 2600 Hash code: 69896770 ->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: 9.554E-07 FluxDiff MaxDT: 4.469E-02 Avg. GS error: 1.461E-02 Plasma Current: 8.983E+05, target: 8.982E+05, error: 0.013% Edge Q: 10.408, target: 10.706, error: 2.784% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4225E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8155E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.601141 TO TG2= 0.602959 @ NSTEP 2600 GFRAME TG2 MOMENTS CHECKSUM: 3.7320519984843D+03 --> plasma_hash("gframe"): TA= 6.029591E-01 NSTEP= 2601 Hash code: 75975111 ->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: 8.763E-07 FluxDiff MaxDT: 4.662E-02 Avg. GS error: 1.457E-02 Plasma Current: 8.988E+05, target: 8.987E+05, error: 0.015% Edge Q: 10.416, target: 10.704, error: 2.690% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4138E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8204E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.602959 TO TG2= 0.604777 @ NSTEP 2601 GFRAME TG2 MOMENTS CHECKSUM: 3.7320466297390D+03 --> plasma_hash("gframe"): TA= 6.047773E-01 NSTEP= 2602 Hash code: 23083393 ->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: 6.510E-07 FluxDiff MaxDT: 5.113E-02 Avg. GS error: 1.454E-02 Plasma Current: 8.991E+05, target: 8.990E+05, error: 0.016% Edge Q: 10.427, target: 10.715, error: 2.690% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6974E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8140E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.604777 TO TG2= 0.606595 @ NSTEP 2602 GFRAME TG2 MOMENTS CHECKSUM: 3.7320789504623D+03 --> plasma_hash("gframe"): TA= 6.065954E-01 NSTEP= 2603 Hash code: 86561758 ->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: 6.147E-07 FluxDiff MaxDT: 6.981E-02 Avg. GS error: 1.453E-02 Plasma Current: 8.990E+05, target: 8.988E+05, error: 0.016% Edge Q: 10.442, target: 10.727, error: 2.655% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6469E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8301E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.606595 TO TG2= 0.608414 @ NSTEP 2603 GFRAME TG2 MOMENTS CHECKSUM: 3.7318046965017D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.03374E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.084136E-01 NSTEP= 2604 Hash code: 39514650 ->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: 3.576E-07 FluxDiff MaxDT: 8.229E-02 Avg. GS error: 1.451E-02 Plasma Current: 8.982E+05, target: 8.981E+05, error: 0.013% Edge Q: 10.460, target: 10.747, error: 2.666% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4411E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8523E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.608414 TO TG2= 0.610232 @ NSTEP 2604 GFRAME TG2 MOMENTS CHECKSUM: 3.7311134744091D+03 --> plasma_hash("gframe"): TA= 6.102318E-01 NSTEP= 2605 Hash code: 14327695 ->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: 2.308E-07 FluxDiff MaxDT: 8.132E-02 Avg. GS error: 1.449E-02 Plasma Current: 8.971E+05, target: 8.970E+05, error: 0.008% Edge Q: 10.474, target: 10.769, error: 2.741% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4693E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8862E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.610232 TO TG2= 0.612050 @ NSTEP 2605 GFRAME TG2 MOMENTS CHECKSUM: 3.7297644828913D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2606 TA= 6.12050E-01 CPU TIME= 9.38300E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.17893805555536 %check_save_state: izleft hours = 77.7533333333333 --> plasma_hash("gframe"): TA= 6.120500E-01 NSTEP= 2606 Hash code: 65402309 ->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: 1.958E-07 FluxDiff MaxDT: 7.832E-02 Avg. GS error: 1.445E-02 Plasma Current: 8.972E+05, target: 8.971E+05, error: 0.005% Edge Q: 10.466, target: 10.785, error: 2.961% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5124E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8652E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.612050 TO TG2= 0.613868 @ NSTEP 2606 GFRAME TG2 MOMENTS CHECKSUM: 3.7283779895892D+03 --> plasma_hash("gframe"): TA= 6.138682E-01 NSTEP= 2607 Hash code: 122288331 ->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: 7.450E-07 FluxDiff MaxDT: 5.529E-02 Avg. GS error: 1.439E-02 Plasma Current: 8.978E+05, target: 8.978E+05, error: 0.002% Edge Q: 10.446, target: 10.761, error: 2.922% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6717E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6701E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.613868 TO TG2= 0.615686 @ NSTEP 2607 GFRAME TG2 MOMENTS CHECKSUM: 3.7262111144548D+03 --> plasma_hash("gframe"): TA= 6.156864E-01 NSTEP= 2608 Hash code: 98055570 ->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: 1.002E-06 FluxDiff MaxDT: 5.376E-02 Avg. GS error: 1.433E-02 Plasma Current: 8.980E+05, target: 8.980E+05, error: 0.001% Edge Q: 10.438, target: 10.733, error: 2.746% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6097E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6556E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.615686 TO TG2= 0.617505 @ NSTEP 2608 GFRAME TG2 MOMENTS CHECKSUM: 3.7251474519290D+03 --> plasma_hash("gframe"): TA= 6.175045E-01 NSTEP= 2609 Hash code: 111061380 ->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: 8.245E-07 FluxDiff MaxDT: 5.980E-02 Avg. GS error: 1.428E-02 Plasma Current: 8.972E+05, target: 8.972E+05, error: 0.004% Edge Q: 10.450, target: 10.727, error: 2.577% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6284E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6554E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.617505 TO TG2= 0.619323 @ NSTEP 2609 GFRAME TG2 MOMENTS CHECKSUM: 3.7249883918532D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.06209E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.91476E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.91476E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.193227E-01 NSTEP= 2610 Hash code: 110835150 ->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: 6.568E-07 FluxDiff MaxDT: 3.730E-02 Avg. GS error: 1.417E-02 Plasma Current: 8.965E+05, target: 8.966E+05, error: 0.004% Edge Q: 10.474, target: 10.746, error: 2.532% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5292E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6582E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.619323 TO TG2= 0.621141 @ NSTEP 2610 GFRAME TG2 MOMENTS CHECKSUM: 3.7267539670957D+03 --> plasma_hash("gframe"): TA= 6.211409E-01 NSTEP= 2611 Hash code: 42629249 ->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: 1.016E-06 FluxDiff MaxDT: 2.652E-02 Avg. GS error: 1.399E-02 Plasma Current: 8.964E+05, target: 8.964E+05, error: 0.000% Edge Q: 10.497, target: 10.766, error: 2.498% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.9011E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8044E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.621141 TO TG2= 0.622959 @ NSTEP 2611 GFRAME TG2 MOMENTS CHECKSUM: 3.7305163867598D+03 --> plasma_hash("gframe"): TA= 6.229591E-01 NSTEP= 2612 Hash code: 112474312 ->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: 1.335E-06 FluxDiff MaxDT: 2.730E-02 Avg. GS error: 1.387E-02 Plasma Current: 8.961E+05, target: 8.960E+05, error: 0.002% Edge Q: 10.522, target: 10.790, error: 2.490% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.7971E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8257E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.622959 TO TG2= 0.624777 @ NSTEP 2612 GFRAME TG2 MOMENTS CHECKSUM: 3.7334278843174D+03 --> plasma_hash("gframe"): TA= 6.247773E-01 NSTEP= 2613 Hash code: 4704764 ->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: 1.208E-06 FluxDiff MaxDT: 3.882E-02 Avg. GS error: 1.383E-02 Plasma Current: 8.950E+05, target: 8.950E+05, error: 0.002% Edge Q: 10.552, target: 10.816, error: 2.440% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5891E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8695E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.624777 TO TG2= 0.626595 @ NSTEP 2613 GFRAME TG2 MOMENTS CHECKSUM: 3.7358359866719D+03 --> plasma_hash("gframe"): TA= 6.265954E-01 NSTEP= 2614 Hash code: 86426408 ->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: 7.876E-07 FluxDiff MaxDT: 5.468E-02 Avg. GS error: 1.232E-02 Plasma Current: 8.940E+05, target: 8.940E+05, error: 0.002% Edge Q: 10.574, target: 10.859, error: 2.626% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5298E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8985E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.626595 TO TG2= 0.628414 @ NSTEP 2614 GFRAME TG2 MOMENTS CHECKSUM: 3.7373276022081D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= 2.05471E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= -1.90977E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.90977E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.284136E-01 NSTEP= 2615 Hash code: 68819517 ->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: 7.999E-07 FluxDiff MaxDT: 6.865E-02 Avg. GS error: 1.231E-02 Plasma Current: 8.936E+05, target: 8.936E+05, error: 0.002% Edge Q: 10.567, target: 10.881, error: 2.882% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2907E+00 SECONDS DATA R*BT AT EDGE: 5.8960E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8796E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.628414 TO TG2= 0.630232 @ NSTEP 2615 GFRAME TG2 MOMENTS CHECKSUM: 3.7371784257972D+03 --> plasma_hash("gframe"): TA= 6.302318E-01 NSTEP= 2616 Hash code: 7830497 ->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: 1.060E-06 FluxDiff MaxDT: 5.205E-02 Avg. GS error: 1.229E-02 Plasma Current: 8.939E+05, target: 8.939E+05, error: 0.002% Edge Q: 10.545, target: 10.868, error: 2.977% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2601E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8358E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.630232 TO TG2= 0.632050 @ NSTEP 2616 GFRAME TG2 MOMENTS CHECKSUM: 3.7363403071983D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2617 TA= 6.32050E-01 CPU TIME= 9.19100E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.18783250000024 %check_save_state: izleft hours = 77.7444444444444 --> plasma_hash("gframe"): TA= 6.320500E-01 NSTEP= 2617 Hash code: 80619477 ->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: 1.434E-06 FluxDiff MaxDT: 4.760E-02 Avg. GS error: 1.384E-02 Plasma Current: 8.939E+05, target: 8.939E+05, error: 0.001% Edge Q: 10.528, target: 10.837, error: 2.857% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3998E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8092E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.632050 TO TG2= 0.633868 @ NSTEP 2617 GFRAME TG2 MOMENTS CHECKSUM: 3.7354668538447D+03 --> plasma_hash("gframe"): TA= 6.338682E-01 NSTEP= 2618 Hash code: 467357 ->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: 1.235E-06 FluxDiff MaxDT: 5.755E-02 Avg. GS error: 1.236E-02 Plasma Current: 8.934E+05, target: 8.934E+05, error: 0.004% Edge Q: 10.524, target: 10.821, error: 2.744% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3652E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8409E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.633868 TO TG2= 0.635686 @ NSTEP 2618 GFRAME TG2 MOMENTS CHECKSUM: 3.7355216181466D+03 --> plasma_hash("gframe"): TA= 6.356864E-01 NSTEP= 2619 Hash code: 2243558 ->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: 9.647E-07 FluxDiff MaxDT: 5.261E-02 Avg. GS error: 1.250E-02 Plasma Current: 8.930E+05, target: 8.930E+05, error: 0.007% Edge Q: 10.524, target: 10.824, error: 2.778% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3378E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6380E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.635686 TO TG2= 0.637505 @ NSTEP 2619 GFRAME TG2 MOMENTS CHECKSUM: 3.7349610310532D+03 --> plasma_hash("gframe"): TA= 6.375045E-01 NSTEP= 2620 Hash code: 123378510 ->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: 1.120E-06 FluxDiff MaxDT: 3.361E-02 Avg. GS error: 1.273E-02 Plasma Current: 8.933E+05, target: 8.934E+05, error: 0.006% Edge Q: 10.521, target: 10.819, error: 2.749% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5181E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6073E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.637505 TO TG2= 0.639323 @ NSTEP 2620 GFRAME TG2 MOMENTS CHECKSUM: 3.7365910450592D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.20131E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.24741E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.393227E-01 NSTEP= 2621 Hash code: 94057040 ->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: 1.641E-06 FluxDiff MaxDT: 2.725E-02 Avg. GS error: 1.295E-02 Plasma Current: 8.942E+05, target: 8.943E+05, error: 0.003% Edge Q: 10.514, target: 10.812, error: 2.765% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4662E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5884E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.639323 TO TG2= 0.641141 @ NSTEP 2621 GFRAME TG2 MOMENTS CHECKSUM: 3.7386837753524D+03 --> plasma_hash("gframe"): TA= 6.411409E-01 NSTEP= 2622 Hash code: 120432310 ->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: 2.040E-06 FluxDiff MaxDT: 2.943E-02 Avg. GS error: 1.323E-02 Plasma Current: 8.948E+05, target: 8.948E+05, error: 0.002% Edge Q: 10.512, target: 10.801, error: 2.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4344E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5922E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.641141 TO TG2= 0.642959 @ NSTEP 2622 GFRAME TG2 MOMENTS CHECKSUM: 3.7407797578601D+03 --> plasma_hash("gframe"): TA= 6.429591E-01 NSTEP= 2623 Hash code: 89895467 ->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: 1.669E-06 FluxDiff MaxDT: 4.345E-02 Avg. GS error: 1.358E-02 Plasma Current: 8.941E+05, target: 8.941E+05, error: 0.002% Edge Q: 10.523, target: 10.805, error: 2.610% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3598E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9313E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.642959 TO TG2= 0.644777 @ NSTEP 2623 GFRAME TG2 MOMENTS CHECKSUM: 3.7432395246226D+03 --> plasma_hash("gframe"): TA= 6.447773E-01 NSTEP= 2624 Hash code: 22998351 ->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: 1.017E-06 FluxDiff MaxDT: 5.963E-02 Avg. GS error: 1.389E-02 Plasma Current: 8.932E+05, target: 8.932E+05, error: 0.004% Edge Q: 10.534, target: 10.831, error: 2.749% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4007E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9487E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.644777 TO TG2= 0.646595 @ NSTEP 2624 GFRAME TG2 MOMENTS CHECKSUM: 3.7442182813764D+03 --> plasma_hash("gframe"): TA= 6.465954E-01 NSTEP= 2625 Hash code: 27538698 ->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: 1.056E-06 FluxDiff MaxDT: 6.661E-02 Avg. GS error: 1.406E-02 Plasma Current: 8.927E+05, target: 8.927E+05, error: 0.004% Edge Q: 10.521, target: 10.846, error: 3.001% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4101E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6335E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.646595 TO TG2= 0.648414 @ NSTEP 2625 GFRAME TG2 MOMENTS CHECKSUM: 3.7433413495302D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.19332E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 19= -1.24288E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.484136E-01 NSTEP= 2626 Hash code: 45783786 ->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: 1.399E-06 FluxDiff MaxDT: 4.569E-02 Avg. GS error: 1.417E-02 Plasma Current: 8.928E+05, target: 8.928E+05, error: 0.004% Edge Q: 10.495, target: 10.824, error: 3.038% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4051E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6148E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.648414 TO TG2= 0.650232 @ NSTEP 2626 GFRAME TG2 MOMENTS CHECKSUM: 3.7429914812141D+03 --> plasma_hash("gframe"): TA= 6.502318E-01 NSTEP= 2627 Hash code: 103330094 ->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: 1.804E-06 FluxDiff MaxDT: 3.872E-02 Avg. GS error: 1.425E-02 Plasma Current: 8.931E+05, target: 8.932E+05, error: 0.003% Edge Q: 10.468, target: 10.792, error: 3.004% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4093E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5892E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.650232 TO TG2= 0.652050 @ NSTEP 2627 GFRAME TG2 MOMENTS CHECKSUM: 3.7426612619217D+03 %fi_finish: enter %fimain: eflux cpu time = 3.000008291564882E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2628 TA= 6.52050E-01 CPU TIME= 9.15800E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.19683027777796 %check_save_state: izleft hours = 77.7355555555555 --> plasma_hash("gframe"): TA= 6.520500E-01 NSTEP= 2628 Hash code: 90497011 ->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: 1.973E-06 FluxDiff MaxDT: 3.233E-02 Avg. GS error: 1.612E-02 Plasma Current: 8.939E+05, target: 8.939E+05, error: 0.001% Edge Q: 10.440, target: 10.760, error: 2.977% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4151E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5575E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.652050 TO TG2= 0.653868 @ NSTEP 2628 GFRAME TG2 MOMENTS CHECKSUM: 3.7426702297155D+03 --> plasma_hash("gframe"): TA= 6.538682E-01 NSTEP= 2629 Hash code: 27053834 ->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: 2.326E-06 FluxDiff MaxDT: 3.124E-02 Avg. GS error: 1.614E-02 Plasma Current: 8.948E+05, target: 8.947E+05, error: 0.002% Edge Q: 10.417, target: 10.725, error: 2.869% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2745E+00 SECONDS DATA R*BT AT EDGE: 5.8989E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5328E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.653868 TO TG2= 0.655686 @ NSTEP 2629 GFRAME TG2 MOMENTS CHECKSUM: 3.7429605974050D+03 --> plasma_hash("gframe"): TA= 6.556864E-01 NSTEP= 2630 Hash code: 25907804 ->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: 2.055E-06 FluxDiff MaxDT: 2.926E-02 Avg. GS error: 1.625E-02 Plasma Current: 8.953E+05, target: 8.953E+05, error: 0.005% Edge Q: 10.419, target: 10.704, error: 2.665% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4127E+00 SECONDS DATA R*BT AT EDGE: 5.8987E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5358E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.655686 TO TG2= 0.657505 @ NSTEP 2630 GFRAME TG2 MOMENTS CHECKSUM: 3.7441597181095D+03 --> plasma_hash("gframe"): TA= 6.575045E-01 NSTEP= 2631 Hash code: 63797882 ->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: 1.747E-06 FluxDiff MaxDT: 3.451E-02 Avg. GS error: 1.638E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.007% Edge Q: 10.431, target: 10.708, error: 2.581% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4109E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5569E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.657505 TO TG2= 0.659323 @ NSTEP 2631 GFRAME TG2 MOMENTS CHECKSUM: 3.7454967418171D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -1.24588E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 9.37818E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.593227E-01 NSTEP= 2632 Hash code: 99833025 ->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: 1.359E-06 FluxDiff MaxDT: 3.493E-02 Avg. GS error: 1.651E-02 Plasma Current: 8.959E+05, target: 8.958E+05, error: 0.010% Edge Q: 10.437, target: 10.728, error: 2.705% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4085E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5646E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.659323 TO TG2= 0.661141 @ NSTEP 2632 GFRAME TG2 MOMENTS CHECKSUM: 3.7468841169610D+03 --> plasma_hash("gframe"): TA= 6.611409E-01 NSTEP= 2633 Hash code: 120076240 ->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: 1.679E-06 FluxDiff MaxDT: 3.279E-02 Avg. GS error: 1.661E-02 Plasma Current: 8.969E+05, target: 8.968E+05, error: 0.014% Edge Q: 10.432, target: 10.730, error: 2.778% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5395E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5510E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.661141 TO TG2= 0.662959 @ NSTEP 2633 GFRAME TG2 MOMENTS CHECKSUM: 3.7481696269121D+03 --> plasma_hash("gframe"): TA= 6.629591E-01 NSTEP= 2634 Hash code: 4236487 ->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: 1.966E-06 FluxDiff MaxDT: 3.480E-02 Avg. GS error: 1.671E-02 Plasma Current: 8.977E+05, target: 8.975E+05, error: 0.016% Edge Q: 10.426, target: 10.722, error: 2.759% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4164E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5422E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.662959 TO TG2= 0.664777 @ NSTEP 2634 GFRAME TG2 MOMENTS CHECKSUM: 3.7492761624357D+03 --> plasma_hash("gframe"): TA= 6.647773E-01 NSTEP= 2635 Hash code: 20631033 ->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: 1.819E-06 FluxDiff MaxDT: 5.374E-02 Avg. GS error: 1.682E-02 Plasma Current: 8.975E+05, target: 8.974E+05, error: 0.018% Edge Q: 10.423, target: 10.719, error: 2.757% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3150E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5486E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.664777 TO TG2= 0.666595 @ NSTEP 2635 GFRAME TG2 MOMENTS CHECKSUM: 3.7496505476330D+03 --> plasma_hash("gframe"): TA= 6.665954E-01 NSTEP= 2636 Hash code: 98602378 ->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: 1.276E-06 FluxDiff MaxDT: 7.264E-02 Avg. GS error: 1.688E-02 Plasma Current: 8.972E+05, target: 8.970E+05, error: 0.019% Edge Q: 10.423, target: 10.724, error: 2.804% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3431E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5594E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.666595 TO TG2= 0.668414 @ NSTEP 2636 GFRAME TG2 MOMENTS CHECKSUM: 3.7498737003414D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -1.24361E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 20= 9.36490E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.684136E-01 NSTEP= 2637 Hash code: 112390321 ->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: 1.303E-06 FluxDiff MaxDT: 5.443E-02 Avg. GS error: 1.692E-02 Plasma Current: 8.975E+05, target: 8.973E+05, error: 0.021% Edge Q: 10.414, target: 10.724, error: 2.888% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3133E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5509E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.668414 TO TG2= 0.670232 @ NSTEP 2637 GFRAME TG2 MOMENTS CHECKSUM: 3.7502362881094D+03 --> plasma_hash("gframe"): TA= 6.702318E-01 NSTEP= 2638 Hash code: 2860952 ->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: 1.656E-06 FluxDiff MaxDT: 4.749E-02 Avg. GS error: 1.697E-02 Plasma Current: 8.983E+05, target: 8.981E+05, error: 0.022% Edge Q: 10.401, target: 10.709, error: 2.874% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4067E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5317E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.670232 TO TG2= 0.672050 @ NSTEP 2638 GFRAME TG2 MOMENTS CHECKSUM: 3.7500064338877D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2639 TA= 6.72050E-01 CPU TIME= 9.16500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.20606611111111 %check_save_state: izleft hours = 77.7263888888889 --> plasma_hash("gframe"): TA= 6.720500E-01 NSTEP= 2639 Hash code: 46241567 ->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: 1.599E-06 FluxDiff MaxDT: 6.263E-02 Avg. GS error: 1.701E-02 Plasma Current: 8.987E+05, target: 8.985E+05, error: 0.021% Edge Q: 10.396, target: 10.696, error: 2.807% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4219E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5287E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.672050 TO TG2= 0.673868 @ NSTEP 2639 GFRAME TG2 MOMENTS CHECKSUM: 3.7493745379822D+03 --> plasma_hash("gframe"): TA= 6.738682E-01 NSTEP= 2640 Hash code: 100208206 ->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: 9.685E-07 FluxDiff MaxDT: 7.776E-02 Avg. GS error: 1.683E-02 Plasma Current: 8.983E+05, target: 8.981E+05, error: 0.017% Edge Q: 10.409, target: 10.696, error: 2.685% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6220E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5333E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.673868 TO TG2= 0.675686 @ NSTEP 2640 GFRAME TG2 MOMENTS CHECKSUM: 3.7460626040832D+03 --> plasma_hash("gframe"): TA= 6.756864E-01 NSTEP= 2641 Hash code: 55392024 ->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: 7.292E-07 FluxDiff MaxDT: 7.632E-02 Avg. GS error: 1.426E-02 Plasma Current: 8.979E+05, target: 8.978E+05, error: 0.012% Edge Q: 10.424, target: 10.717, error: 2.731% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7193E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5598E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.675686 TO TG2= 0.677505 @ NSTEP 2641 GFRAME TG2 MOMENTS CHECKSUM: 3.7429854812160D+03 --> plasma_hash("gframe"): TA= 6.775045E-01 NSTEP= 2642 Hash code: 52175481 ->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: 6.896E-07 FluxDiff MaxDT: 7.548E-02 Avg. GS error: 1.386E-02 Plasma Current: 8.976E+05, target: 8.975E+05, error: 0.009% Edge Q: 10.438, target: 10.720, error: 2.633% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7537E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5887E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.677505 TO TG2= 0.679323 @ NSTEP 2642 GFRAME TG2 MOMENTS CHECKSUM: 3.7397431231175D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= -2.66452E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 19= 1.62919E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 18= -1.55430E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.793227E-01 NSTEP= 2643 Hash code: 40413770 ->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: 6.202E-07 FluxDiff MaxDT: 7.481E-02 Avg. GS error: 1.385E-02 Plasma Current: 8.974E+05, target: 8.973E+05, error: 0.008% Edge Q: 10.449, target: 10.732, error: 2.634% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5542E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6104E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.679323 TO TG2= 0.681141 @ NSTEP 2643 GFRAME TG2 MOMENTS CHECKSUM: 3.7372776929649D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.680000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2646 Hash code: 111722617 ->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: 6.663E-07 FluxDiff MaxDT: 7.394E-02 Avg. GS error: 1.399E-02 Plasma Current: 8.967E+05, target: 8.966E+05, error: 0.005% Edge Q: 10.472, target: 10.742, error: 2.522% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5211E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6728E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.681141 TO TG2= 0.682959 @ NSTEP 2646 GFRAME TG2 MOMENTS CHECKSUM: 3.7353499086480D+03 --> plasma_hash("gframe"): TA= 6.829591E-01 NSTEP= 2649 Hash code: 37319414 ->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: 1.377E-07 FluxDiff MaxDT: 7.243E-02 Avg. GS error: 1.407E-02 Plasma Current: 8.957E+05, target: 8.956E+05, error: 0.003% Edge Q: 10.488, target: 10.780, error: 2.703% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2892E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7011E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.682959 TO TG2= 0.684777 @ NSTEP 2649 GFRAME TG2 MOMENTS CHECKSUM: 3.7349713171795D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2651 TA= 6.84313E-01 CPU TIME= 9.79000E-03 SECONDS. DT= 4.64509E-04 --> plasma_hash("gframe"): TA= 6.847773E-01 NSTEP= 2652 Hash code: 18702611 ->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: 3.859E-07 FluxDiff MaxDT: 7.124E-02 Avg. GS error: 1.408E-02 Plasma Current: 8.947E+05, target: 8.947E+05, error: 0.002% Edge Q: 10.506, target: 10.790, error: 2.629% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4590E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7472E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.684777 TO TG2= 0.686595 @ NSTEP 2652 GFRAME TG2 MOMENTS CHECKSUM: 3.7349536802302D+03 --> plasma_hash("gframe"): TA= 6.865954E-01 NSTEP= 2655 Hash code: 2843365 ->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: 2.166E-07 FluxDiff MaxDT: 7.043E-02 Avg. GS error: 1.408E-02 Plasma Current: 8.944E+05, target: 8.944E+05, error: 0.006% Edge Q: 10.514, target: 10.816, error: 2.795% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5925E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7634E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.686595 TO TG2= 0.688414 @ NSTEP 2655 GFRAME TG2 MOMENTS CHECKSUM: 3.7347756492973D+03 --> plasma_hash("gframe"): TA= 6.884136E-01 NSTEP= 2658 Hash code: 77668383 ->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: 5.722E-07 FluxDiff MaxDT: 6.294E-02 Avg. GS error: 1.408E-02 Plasma Current: 8.945E+05, target: 8.945E+05, error: 0.008% Edge Q: 10.521, target: 10.813, error: 2.704% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5980E+00 SECONDS DATA R*BT AT EDGE: 5.8983E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7909E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.688414 TO TG2= 0.690232 @ NSTEP 2658 GFRAME TG2 MOMENTS CHECKSUM: 3.7356813649022D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= 2.44659E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 14= 1.25089E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 14= 1.19570E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2659 TA= 6.89140E-01 CPU TIME= 9.31500E-03 SECONDS. DT= 9.07476E-04 --> plasma_hash("gframe"): TA= 6.902318E-01 NSTEP= 2661 Hash code: 31573501 ->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: 5.562E-07 FluxDiff MaxDT: 4.634E-02 Avg. GS error: 1.405E-02 Plasma Current: 8.947E+05, target: 8.948E+05, error: 0.010% Edge Q: 10.527, target: 10.823, error: 2.736% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6248E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8049E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.690232 TO TG2= 0.692050 @ NSTEP 2661 GFRAME TG2 MOMENTS CHECKSUM: 3.7367801480827D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2663 TA= 6.92050E-01 CPU TIME= 9.10400E-03 SECONDS. DT= 8.54796E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.21699833333355 %check_save_state: izleft hours = 77.7152777777778 --> plasma_hash("gframe"): TA= 6.920500E-01 NSTEP= 2663 Hash code: 53975673 ->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: 8.846E-07 FluxDiff MaxDT: 3.973E-02 Avg. GS error: 1.404E-02 Plasma Current: 8.944E+05, target: 8.945E+05, error: 0.012% Edge Q: 10.555, target: 10.823, error: 2.476% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7262E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0174E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.692050 TO TG2= 0.693868 @ NSTEP 2663 GFRAME TG2 MOMENTS CHECKSUM: 3.7407937266524D+03 --> plasma_hash("gframe"): TA= 6.938682E-01 NSTEP= 2665 Hash code: 119956678 ->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: 6.122E-07 FluxDiff MaxDT: 5.028E-02 Avg. GS error: 1.412E-02 Plasma Current: 8.940E+05, target: 8.942E+05, error: 0.014% Edge Q: 10.588, target: 10.866, error: 2.564% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7108E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0443E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.693868 TO TG2= 0.695686 @ NSTEP 2665 GFRAME TG2 MOMENTS CHECKSUM: 3.7442840644987D+03 --> plasma_hash("gframe"): TA= 6.956864E-01 NSTEP= 2667 Hash code: 108296524 ->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: 5.890E-07 FluxDiff MaxDT: 5.476E-02 Avg. GS error: 1.431E-02 Plasma Current: 8.933E+05, target: 8.935E+05, error: 0.015% Edge Q: 10.624, target: 10.904, error: 2.565% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7529E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0581E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.695686 TO TG2= 0.697505 @ NSTEP 2667 GFRAME TG2 MOMENTS CHECKSUM: 3.7475894537082D+03 --> plasma_hash("gframe"): TA= 6.975045E-01 NSTEP= 2669 Hash code: 58318109 ->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: 4.984E-07 FluxDiff MaxDT: 7.526E-02 Avg. GS error: 1.457E-02 Plasma Current: 8.927E+05, target: 8.929E+05, error: 0.016% Edge Q: 10.650, target: 10.949, error: 2.731% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6179E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0089E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.697505 TO TG2= 0.699323 @ NSTEP 2669 GFRAME TG2 MOMENTS CHECKSUM: 3.7500830941153D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= -3.37700E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.28739E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.28761E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 6.993227E-01 NSTEP= 2671 Hash code: 76930752 ->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: 5.703E-07 FluxDiff MaxDT: 7.769E-02 Avg. GS error: 1.477E-02 Plasma Current: 8.924E+05, target: 8.926E+05, error: 0.016% Edge Q: 10.664, target: 10.976, error: 2.836% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5504E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9750E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.699323 TO TG2= 0.701141 @ NSTEP 2671 GFRAME TG2 MOMENTS CHECKSUM: 3.7521774398783D+03 --> plasma_hash("gframe"): TA= 7.011409E-01 NSTEP= 2672 Hash code: 122038001 ->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: 7.183E-07 FluxDiff MaxDT: 8.527E-02 Avg. GS error: 1.488E-02 Plasma Current: 8.928E+05, target: 8.929E+05, error: 0.013% Edge Q: 10.642, target: 10.990, error: 3.169% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4136E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9770E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.701141 TO TG2= 0.702959 @ NSTEP 2672 GFRAME TG2 MOMENTS CHECKSUM: 3.7525059914392D+03 --> plasma_hash("gframe"): TA= 7.029591E-01 NSTEP= 2673 Hash code: 16902725 ->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: 1.153E-06 FluxDiff MaxDT: 6.194E-02 Avg. GS error: 1.497E-02 Plasma Current: 8.936E+05, target: 8.937E+05, error: 0.010% Edge Q: 10.615, target: 10.957, error: 3.118% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4240E+00 SECONDS DATA R*BT AT EDGE: 5.8981E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9773E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.702959 TO TG2= 0.704777 @ NSTEP 2673 GFRAME TG2 MOMENTS CHECKSUM: 3.7528247943699D+03 --> plasma_hash("gframe"): TA= 7.047773E-01 NSTEP= 2674 Hash code: 63079393 ->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: 1.414E-06 FluxDiff MaxDT: 6.399E-02 Avg. GS error: 1.503E-02 Plasma Current: 8.941E+05, target: 8.942E+05, error: 0.007% Edge Q: 10.591, target: 10.925, error: 3.061% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4262E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9822E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.704777 TO TG2= 0.706595 @ NSTEP 2674 GFRAME TG2 MOMENTS CHECKSUM: 3.7530235744358D+03 --> plasma_hash("gframe"): TA= 7.065954E-01 NSTEP= 2675 Hash code: 106802146 ->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: 1.269E-06 FluxDiff MaxDT: 7.232E-02 Avg. GS error: 1.513E-02 Plasma Current: 8.944E+05, target: 8.945E+05, error: 0.005% Edge Q: 10.572, target: 10.900, error: 3.011% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4129E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9742E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.706595 TO TG2= 0.708414 @ NSTEP 2675 GFRAME TG2 MOMENTS CHECKSUM: 3.7534334267541D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= -3.37163E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.25317E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.25338E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.084136E-01 NSTEP= 2676 Hash code: 28915704 ->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: 1.257E-06 FluxDiff MaxDT: 7.376E-02 Avg. GS error: 1.516E-02 Plasma Current: 8.947E+05, target: 8.947E+05, error: 0.002% Edge Q: 10.555, target: 10.882, error: 3.011% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4835E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9570E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.708414 TO TG2= 0.710232 @ NSTEP 2676 GFRAME TG2 MOMENTS CHECKSUM: 3.7532000255576D+03 --> plasma_hash("gframe"): TA= 7.102318E-01 NSTEP= 2677 Hash code: 113735525 ->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: 1.338E-06 FluxDiff MaxDT: 6.203E-02 Avg. GS error: 1.519E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.000% Edge Q: 10.541, target: 10.860, error: 2.941% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5201E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9475E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.710232 TO TG2= 0.712050 @ NSTEP 2677 GFRAME TG2 MOMENTS CHECKSUM: 3.7542109813801D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2678 TA= 7.12050E-01 CPU TIME= 9.36400E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = T %check_save_state: check at wall_hours = 2.22706222222200 %check_save_state: izleft hours = 77.7052777777778 %wrstf: start call wrstf. %wrstf: open new restart file:204112B62RS.DAT %wrstf: open204112B62RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone 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 204112B62_iso_restart.cdf % RESTART RECORD WRITTEN AT TA= 7.1204999E-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= 7.120500E-01 NSTEP= 2678 Hash code: 16346210 ->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: 1.537E-06 FluxDiff MaxDT: 5.702E-02 Avg. GS error: 1.522E-02 Plasma Current: 8.952E+05, target: 8.952E+05, error: 0.002% Edge Q: 10.530, target: 10.843, error: 2.882% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4967E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9416E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.712050 TO TG2= 0.713868 @ NSTEP 2678 GFRAME TG2 MOMENTS CHECKSUM: 3.7551648636795D+03 --> plasma_hash("gframe"): TA= 7.138682E-01 NSTEP= 2679 Hash code: 34218127 ->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: 1.686E-06 FluxDiff MaxDT: 3.901E-02 Avg. GS error: 1.514E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.004% Edge Q: 10.522, target: 10.831, error: 2.849% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4145E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9350E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.713868 TO TG2= 0.715686 @ NSTEP 2679 GFRAME TG2 MOMENTS CHECKSUM: 3.7557444909606D+03 --> plasma_hash("gframe"): TA= 7.156864E-01 NSTEP= 2680 Hash code: 56062582 ->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: 1.886E-06 FluxDiff MaxDT: 3.710E-02 Avg. GS error: 1.500E-02 Plasma Current: 8.951E+05, target: 8.951E+05, error: 0.006% Edge Q: 10.513, target: 10.814, error: 2.788% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3131E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9277E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.715686 TO TG2= 0.717505 @ NSTEP 2680 GFRAME TG2 MOMENTS CHECKSUM: 3.7559312898429D+03 --> plasma_hash("gframe"): TA= 7.175045E-01 NSTEP= 2681 Hash code: 119803374 ->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: 1.831E-06 FluxDiff MaxDT: 3.640E-02 Avg. GS error: 1.490E-02 Plasma Current: 8.955E+05, target: 8.954E+05, error: 0.008% Edge Q: 10.499, target: 10.805, error: 2.826% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2472E+00 SECONDS DATA R*BT AT EDGE: 5.8986E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8971E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.717505 TO TG2= 0.719323 @ NSTEP 2681 GFRAME TG2 MOMENTS CHECKSUM: 3.7558348252801D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.86917E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.54089E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.54160E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.193227E-01 NSTEP= 2682 Hash code: 89737751 ->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: 2.042E-06 FluxDiff MaxDT: 4.311E-02 Avg. GS error: 1.490E-02 Plasma Current: 8.957E+05, target: 8.957E+05, error: 0.009% Edge Q: 10.489, target: 10.786, error: 2.760% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4129E+00 SECONDS DATA R*BT AT EDGE: 5.8988E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8567E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.719323 TO TG2= 0.721141 @ NSTEP 2682 GFRAME TG2 MOMENTS CHECKSUM: 3.7547414989328D+03 --> plasma_hash("gframe"): TA= 7.211409E-01 NSTEP= 2683 Hash code: 89617834 ->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: 1.632E-06 FluxDiff MaxDT: 7.047E-02 Avg. GS error: 1.493E-02 Plasma Current: 8.954E+05, target: 8.954E+05, error: 0.009% Edge Q: 10.485, target: 10.782, error: 2.751% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3789E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8436E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.721141 TO TG2= 0.722959 @ NSTEP 2683 GFRAME TG2 MOMENTS CHECKSUM: 3.7536130987334D+03 --> plasma_hash("gframe"): TA= 7.229591E-01 NSTEP= 2684 Hash code: 92358980 ->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: 1.238E-06 FluxDiff MaxDT: 8.185E-02 Avg. GS error: 1.496E-02 Plasma Current: 8.946E+05, target: 8.946E+05, error: 0.008% Edge Q: 10.488, target: 10.785, error: 2.750% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3486E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8483E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.722959 TO TG2= 0.724777 @ NSTEP 2684 GFRAME TG2 MOMENTS CHECKSUM: 3.7524828162486D+03 --> plasma_hash("gframe"): TA= 7.247773E-01 NSTEP= 2685 Hash code: 80938872 ->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: 8.567E-07 FluxDiff MaxDT: 8.131E-02 Avg. GS error: 1.504E-02 Plasma Current: 8.936E+05, target: 8.935E+05, error: 0.007% Edge Q: 10.498, target: 10.793, error: 2.732% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2152E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8704E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.724777 TO TG2= 0.726595 @ NSTEP 2685 GFRAME TG2 MOMENTS CHECKSUM: 3.7516422413467D+03 --> plasma_hash("gframe"): TA= 7.265954E-01 NSTEP= 2686 Hash code: 43966316 ->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: 7.597E-07 FluxDiff MaxDT: 8.079E-02 Avg. GS error: 1.509E-02 Plasma Current: 8.927E+05, target: 8.926E+05, error: 0.006% Edge Q: 10.509, target: 10.808, error: 2.763% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4000E+00 SECONDS DATA R*BT AT EDGE: 5.8953E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8783E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.726595 TO TG2= 0.728414 @ NSTEP 2686 GFRAME TG2 MOMENTS CHECKSUM: 3.7510823827874D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.87045E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.57014E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.57086E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.284136E-01 NSTEP= 2687 Hash code: 34224046 ->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: 7.762E-07 FluxDiff MaxDT: 4.586E-02 Avg. GS error: 1.514E-02 Plasma Current: 8.927E+05, target: 8.927E+05, error: 0.009% Edge Q: 10.512, target: 10.819, error: 2.832% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5106E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8463E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.728414 TO TG2= 0.730232 @ NSTEP 2687 GFRAME TG2 MOMENTS CHECKSUM: 3.7514801104954D+03 --> plasma_hash("gframe"): TA= 7.302318E-01 NSTEP= 2688 Hash code: 76250472 ->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: 1.537E-06 FluxDiff MaxDT: 2.881E-02 Avg. GS error: 1.513E-02 Plasma Current: 8.943E+05, target: 8.941E+05, error: 0.014% Edge Q: 10.495, target: 10.810, error: 2.913% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6215E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7517E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.730232 TO TG2= 0.732050 @ NSTEP 2688 GFRAME TG2 MOMENTS CHECKSUM: 3.7520767478100D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2689 TA= 7.32050E-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 = 2.23603194444445 %check_save_state: izleft hours = 77.6963888888889 --> plasma_hash("gframe"): TA= 7.320500E-01 NSTEP= 2689 Hash code: 58508084 ->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: 2.537E-06 FluxDiff MaxDT: 2.291E-02 Avg. GS error: 1.509E-02 Plasma Current: 8.963E+05, target: 8.961E+05, error: 0.019% Edge Q: 10.470, target: 10.781, error: 2.881% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5931E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6644E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.732050 TO TG2= 0.733868 @ NSTEP 2689 GFRAME TG2 MOMENTS CHECKSUM: 3.7528828084505D+03 --> plasma_hash("gframe"): TA= 7.338682E-01 NSTEP= 2690 Hash code: 25683677 ->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: 3.041E-06 FluxDiff MaxDT: 2.962E-02 Avg. GS error: 1.503E-02 Plasma Current: 8.975E+05, target: 8.973E+05, error: 0.023% Edge Q: 10.453, target: 10.748, error: 2.741% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4214E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6320E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.733868 TO TG2= 0.735686 @ NSTEP 2690 GFRAME TG2 MOMENTS CHECKSUM: 3.7536403367939D+03 --> plasma_hash("gframe"): TA= 7.356864E-01 NSTEP= 2691 Hash code: 75121611 ->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: 2.286E-06 FluxDiff MaxDT: 3.852E-02 Avg. GS error: 1.500E-02 Plasma Current: 8.979E+05, target: 8.976E+05, error: 0.025% Edge Q: 10.445, target: 10.741, error: 2.761% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2110E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6299E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.735686 TO TG2= 0.737505 @ NSTEP 2691 GFRAME TG2 MOMENTS CHECKSUM: 3.7543801814097D+03 --> plasma_hash("gframe"): TA= 7.375045E-01 NSTEP= 2692 Hash code: 26802726 ->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: 2.066E-06 FluxDiff MaxDT: 4.272E-02 Avg. GS error: 1.503E-02 Plasma Current: 8.978E+05, target: 8.976E+05, error: 0.027% Edge Q: 10.436, target: 10.733, error: 2.766% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3153E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6360E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.737505 TO TG2= 0.739323 @ NSTEP 2692 GFRAME TG2 MOMENTS CHECKSUM: 3.7549778780846D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -2.56413E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.55614E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.55650E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.393227E-01 NSTEP= 2693 Hash code: 38897232 ->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: 1.949E-06 FluxDiff MaxDT: 4.795E-02 Avg. GS error: 1.503E-02 Plasma Current: 8.978E+05, target: 8.975E+05, error: 0.029% Edge Q: 10.429, target: 10.729, error: 2.790% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3864E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6375E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.739323 TO TG2= 0.741141 @ NSTEP 2693 GFRAME TG2 MOMENTS CHECKSUM: 3.7555003455983D+03 --> plasma_hash("gframe"): TA= 7.411409E-01 NSTEP= 2694 Hash code: 17431102 ->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: 1.911E-06 FluxDiff MaxDT: 5.027E-02 Avg. GS error: 1.501E-02 Plasma Current: 8.974E+05, target: 8.972E+05, error: 0.030% Edge Q: 10.426, target: 10.721, error: 2.755% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3894E+00 SECONDS DATA R*BT AT EDGE: 5.8965E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6507E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.741141 TO TG2= 0.742959 @ NSTEP 2694 GFRAME TG2 MOMENTS CHECKSUM: 3.7557689665814D+03 --> plasma_hash("gframe"): TA= 7.429591E-01 NSTEP= 2695 Hash code: 8141961 ->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: 1.656E-06 FluxDiff MaxDT: 5.707E-02 Avg. GS error: 1.502E-02 Plasma Current: 8.973E+05, target: 8.971E+05, error: 0.031% Edge Q: 10.418, target: 10.719, error: 2.811% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3935E+00 SECONDS DATA R*BT AT EDGE: 5.8960E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6447E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.742959 TO TG2= 0.744777 @ NSTEP 2695 GFRAME TG2 MOMENTS CHECKSUM: 3.7552599331022D+03 --> plasma_hash("gframe"): TA= 7.447773E-01 NSTEP= 2696 Hash code: 8047843 ->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: 1.674E-06 FluxDiff MaxDT: 5.593E-02 Avg. GS error: 1.504E-02 Plasma Current: 8.975E+05, target: 8.973E+05, error: 0.031% Edge Q: 10.407, target: 10.713, error: 2.856% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4280E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6323E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.744777 TO TG2= 0.746595 @ NSTEP 2696 GFRAME TG2 MOMENTS CHECKSUM: 3.7541880524320D+03 --> plasma_hash("gframe"): TA= 7.465954E-01 NSTEP= 2697 Hash code: 49697261 ->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: 1.517E-06 FluxDiff MaxDT: 5.769E-02 Avg. GS error: 1.493E-02 Plasma Current: 8.981E+05, target: 8.978E+05, error: 0.027% Edge Q: 10.391, target: 10.701, error: 2.898% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5957E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6020E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.746595 TO TG2= 0.748414 @ NSTEP 2697 GFRAME TG2 MOMENTS CHECKSUM: 3.7517172555481D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -2.56199E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.55852E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.55888E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.484136E-01 NSTEP= 2698 Hash code: 108984418 ->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: 1.487E-06 FluxDiff MaxDT: 5.354E-02 Avg. GS error: 1.474E-02 Plasma Current: 8.986E+05, target: 8.984E+05, error: 0.024% Edge Q: 10.375, target: 10.686, error: 2.905% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5996E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5838E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.748414 TO TG2= 0.750232 @ NSTEP 2698 GFRAME TG2 MOMENTS CHECKSUM: 3.7494313848609D+03 --> plasma_hash("gframe"): TA= 7.502318E-01 NSTEP= 2699 Hash code: 67373661 ->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: 1.496E-06 FluxDiff MaxDT: 5.992E-02 Avg. GS error: 1.446E-02 Plasma Current: 8.986E+05, target: 8.984E+05, error: 0.020% Edge Q: 10.369, target: 10.666, error: 2.781% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5646E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5749E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.750232 TO TG2= 0.752050 @ NSTEP 2699 GFRAME TG2 MOMENTS CHECKSUM: 3.7469998532822D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2700 TA= 7.52050E-01 CPU TIME= 9.06300E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.24500138888880 %check_save_state: izleft hours = 77.6875000000000 --> plasma_hash("gframe"): TA= 7.520500E-01 NSTEP= 2700 Hash code: 39503361 ->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: 1.123E-06 FluxDiff MaxDT: 7.144E-02 Avg. GS error: 1.432E-02 Plasma Current: 8.976E+05, target: 8.974E+05, error: 0.019% Edge Q: 10.385, target: 10.663, error: 2.606% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5374E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6231E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.752050 TO TG2= 0.753868 @ NSTEP 2700 GFRAME TG2 MOMENTS CHECKSUM: 3.7458510448002D+03 --> plasma_hash("gframe"): TA= 7.538682E-01 NSTEP= 2701 Hash code: 102245051 ->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: 7.066E-07 FluxDiff MaxDT: 7.270E-02 Avg. GS error: 1.429E-02 Plasma Current: 8.965E+05, target: 8.963E+05, error: 0.019% Edge Q: 10.409, target: 10.687, error: 2.597% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4300E+00 SECONDS DATA R*BT AT EDGE: 5.8980E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6735E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.753868 TO TG2= 0.755686 @ NSTEP 2701 GFRAME TG2 MOMENTS CHECKSUM: 3.7458897558573D+03 --> plasma_hash("gframe"): TA= 7.556864E-01 NSTEP= 2702 Hash code: 102103058 ->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: 6.908E-07 FluxDiff MaxDT: 5.235E-02 Avg. GS error: 1.440E-02 Plasma Current: 8.962E+05, target: 8.960E+05, error: 0.022% Edge Q: 10.430, target: 10.715, error: 2.657% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6368E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7229E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.755686 TO TG2= 0.757505 @ NSTEP 2702 GFRAME TG2 MOMENTS CHECKSUM: 3.7477291507040D+03 --> plasma_hash("gframe"): TA= 7.575045E-01 NSTEP= 2703 Hash code: 111004655 ->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: 1.237E-06 FluxDiff MaxDT: 4.467E-02 Avg. GS error: 1.449E-02 Plasma Current: 8.961E+05, target: 8.959E+05, error: 0.024% Edge Q: 10.446, target: 10.731, error: 2.657% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6068E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7393E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.757505 TO TG2= 0.759323 @ NSTEP 2703 GFRAME TG2 MOMENTS CHECKSUM: 3.7495158556969D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.45204E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.98933E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.98976E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.593227E-01 NSTEP= 2704 Hash code: 15301562 ->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: 1.216E-06 FluxDiff MaxDT: 5.327E-02 Avg. GS error: 1.460E-02 Plasma Current: 8.956E+05, target: 8.954E+05, error: 0.026% Edge Q: 10.469, target: 10.748, error: 2.595% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5065E+00 SECONDS DATA R*BT AT EDGE: 5.8961E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7596E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.759323 TO TG2= 0.761141 @ NSTEP 2704 GFRAME TG2 MOMENTS CHECKSUM: 3.7511577004481D+03 --> plasma_hash("gframe"): TA= 7.611409E-01 NSTEP= 2705 Hash code: 116825005 ->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: 8.708E-07 FluxDiff MaxDT: 5.994E-02 Avg. GS error: 1.466E-02 Plasma Current: 8.951E+05, target: 8.949E+05, error: 0.027% Edge Q: 10.487, target: 10.776, error: 2.684% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4033E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7894E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.761141 TO TG2= 0.762959 @ NSTEP 2705 GFRAME TG2 MOMENTS CHECKSUM: 3.7524649589508D+03 --> plasma_hash("gframe"): TA= 7.629591E-01 NSTEP= 2706 Hash code: 70168321 ->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: 9.791E-07 FluxDiff MaxDT: 4.277E-02 Avg. GS error: 1.467E-02 Plasma Current: 8.957E+05, target: 8.954E+05, error: 0.029% Edge Q: 10.487, target: 10.793, error: 2.838% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5059E+00 SECONDS DATA R*BT AT EDGE: 5.8954E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7716E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.762959 TO TG2= 0.764777 @ NSTEP 2706 GFRAME TG2 MOMENTS CHECKSUM: 3.7535546376973D+03 --> plasma_hash("gframe"): TA= 7.647773E-01 NSTEP= 2707 Hash code: 56848471 ->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: 1.597E-06 FluxDiff MaxDT: 3.492E-02 Avg. GS error: 1.462E-02 Plasma Current: 8.968E+05, target: 8.965E+05, error: 0.030% Edge Q: 10.474, target: 10.784, error: 2.876% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4470E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7508E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.764777 TO TG2= 0.766595 @ NSTEP 2707 GFRAME TG2 MOMENTS CHECKSUM: 3.7543314756418D+03 --> plasma_hash("gframe"): TA= 7.665954E-01 NSTEP= 2708 Hash code: 10499662 ->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: 1.979E-06 FluxDiff MaxDT: 3.538E-02 Avg. GS error: 1.458E-02 Plasma Current: 8.975E+05, target: 8.972E+05, error: 0.031% Edge Q: 10.468, target: 10.763, error: 2.734% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3810E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7370E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.766595 TO TG2= 0.768414 @ NSTEP 2708 GFRAME TG2 MOMENTS CHECKSUM: 3.7549752545360D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.44980E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.95695E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.95738E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.684136E-01 NSTEP= 2709 Hash code: 474315 ->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: 1.631E-06 FluxDiff MaxDT: 4.262E-02 Avg. GS error: 1.458E-02 Plasma Current: 8.975E+05, target: 8.972E+05, error: 0.031% Edge Q: 10.473, target: 10.760, error: 2.672% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2472E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7516E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.768414 TO TG2= 0.770232 @ NSTEP 2709 GFRAME TG2 MOMENTS CHECKSUM: 3.7555212827842D+03 --> plasma_hash("gframe"): TA= 7.702318E-01 NSTEP= 2710 Hash code: 31216411 ->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: 1.295E-06 FluxDiff MaxDT: 4.800E-02 Avg. GS error: 1.461E-02 Plasma Current: 8.972E+05, target: 8.969E+05, error: 0.032% Edge Q: 10.482, target: 10.769, error: 2.661% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2562E+00 SECONDS DATA R*BT AT EDGE: 5.8976E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7793E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.770232 TO TG2= 0.772050 @ NSTEP 2710 GFRAME TG2 MOMENTS CHECKSUM: 3.7562126540029D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2711 TA= 7.72050E-01 CPU TIME= 9.07500E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.25490500000024 %check_save_state: izleft hours = 77.6775000000000 --> plasma_hash("gframe"): TA= 7.720500E-01 NSTEP= 2711 Hash code: 121423274 ->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: 1.190E-06 FluxDiff MaxDT: 5.020E-02 Avg. GS error: 1.469E-02 Plasma Current: 8.968E+05, target: 8.965E+05, error: 0.032% Edge Q: 10.494, target: 10.780, error: 2.651% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2554E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.8099E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.772050 TO TG2= 0.773868 @ NSTEP 2711 GFRAME TG2 MOMENTS CHECKSUM: 3.7571347863925D+03 --> plasma_hash("gframe"): TA= 7.738682E-01 NSTEP= 2712 Hash code: 58719941 ->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: 1.239E-06 FluxDiff MaxDT: 4.812E-02 Avg. GS error: 1.465E-02 Plasma Current: 8.959E+05, target: 8.956E+05, error: 0.032% Edge Q: 10.513, target: 10.794, error: 2.606% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3411E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0006E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.773868 TO TG2= 0.775686 @ NSTEP 2712 GFRAME TG2 MOMENTS CHECKSUM: 3.7583335242646D+03 --> plasma_hash("gframe"): TA= 7.756864E-01 NSTEP= 2713 Hash code: 5244215 ->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: 1.102E-06 FluxDiff MaxDT: 5.038E-02 Avg. GS error: 1.467E-02 Plasma Current: 8.950E+05, target: 8.947E+05, error: 0.032% Edge Q: 10.532, target: 10.818, error: 2.643% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3416E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0156E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.775686 TO TG2= 0.777505 @ NSTEP 2713 GFRAME TG2 MOMENTS CHECKSUM: 3.7590988553312D+03 --> plasma_hash("gframe"): TA= 7.775045E-01 NSTEP= 2714 Hash code: 19921697 ->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: 1.079E-06 FluxDiff MaxDT: 4.133E-02 Avg. GS error: 1.458E-02 Plasma Current: 8.947E+05, target: 8.944E+05, error: 0.032% Edge Q: 10.543, target: 10.838, error: 2.725% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5168E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0163E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.777505 TO TG2= 0.779323 @ NSTEP 2714 GFRAME TG2 MOMENTS CHECKSUM: 3.7596720887099D+03 %MFRCHK - LABEL "BALE0_SGF", # 17= 1.61463E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 9.39191E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 9.39083E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.793227E-01 NSTEP= 2715 Hash code: 73496016 ->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: 1.344E-06 FluxDiff MaxDT: 3.356E-02 Avg. GS error: 1.456E-02 Plasma Current: 8.952E+05, target: 8.949E+05, error: 0.031% Edge Q: 10.543, target: 10.844, error: 2.768% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5452E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0048E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.779323 TO TG2= 0.781141 @ NSTEP 2715 GFRAME TG2 MOMENTS CHECKSUM: 3.7597498286621D+03 %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.780000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2718 Hash code: 44827585 ->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: 1.595E-06 FluxDiff MaxDT: 3.785E-02 Avg. GS error: 1.447E-02 Plasma Current: 8.955E+05, target: 8.952E+05, error: 0.030% Edge Q: 10.548, target: 10.841, error: 2.700% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5423E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0031E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.781141 TO TG2= 0.782959 @ NSTEP 2718 GFRAME TG2 MOMENTS CHECKSUM: 3.7590676352058D+03 --> plasma_hash("gframe"): TA= 7.829591E-01 NSTEP= 2721 Hash code: 104891419 ->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: 1.057E-06 FluxDiff MaxDT: 4.106E-02 Avg. GS error: 1.432E-02 Plasma Current: 8.958E+05, target: 8.955E+05, error: 0.028% Edge Q: 10.550, target: 10.851, error: 2.772% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5862E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9956E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.782959 TO TG2= 0.784777 @ NSTEP 2721 GFRAME TG2 MOMENTS CHECKSUM: 3.7573985549173D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2723 TA= 7.84605E-01 CPU TIME= 9.32300E-03 SECONDS. DT= 1.72695E-04 --> plasma_hash("gframe"): TA= 7.847773E-01 NSTEP= 2724 Hash code: 52283312 ->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: 1.185E-06 FluxDiff MaxDT: 4.449E-02 Avg. GS error: 1.418E-02 Plasma Current: 8.964E+05, target: 8.961E+05, error: 0.026% Edge Q: 10.547, target: 10.851, error: 2.794% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5769E+00 SECONDS DATA R*BT AT EDGE: 5.8984E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9879E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.784777 TO TG2= 0.786595 @ NSTEP 2724 GFRAME TG2 MOMENTS CHECKSUM: 3.7559362718192D+03 --> plasma_hash("gframe"): TA= 7.865954E-01 NSTEP= 2727 Hash code: 684241 ->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: 1.232E-06 FluxDiff MaxDT: 3.699E-02 Avg. GS error: 1.395E-02 Plasma Current: 8.976E+05, target: 8.974E+05, error: 0.024% Edge Q: 10.534, target: 10.846, error: 2.880% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5962E+00 SECONDS DATA R*BT AT EDGE: 5.8985E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9755E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.786595 TO TG2= 0.788414 @ NSTEP 2727 GFRAME TG2 MOMENTS CHECKSUM: 3.7546281370339D+03 --> plasma_hash("gframe"): TA= 7.884136E-01 NSTEP= 2730 Hash code: 109967026 ->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: 1.732E-06 FluxDiff MaxDT: 3.463E-02 Avg. GS error: 1.365E-02 Plasma Current: 8.987E+05, target: 8.985E+05, error: 0.022% Edge Q: 10.521, target: 10.820, error: 2.765% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5529E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9727E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.788414 TO TG2= 0.790232 @ NSTEP 2730 GFRAME TG2 MOMENTS CHECKSUM: 3.7535522671296D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.32473E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.84846E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.03290E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.84828E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.03333E-38 RESET TO ZERO *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2732 TA= 7.90156E-01 CPU TIME= 9.31700E-03 SECONDS. DT= 7.54288E-05 --> plasma_hash("gframe"): TA= 7.902318E-01 NSTEP= 2733 Hash code: 7616086 ->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: 1.548E-06 FluxDiff MaxDT: 4.448E-02 Avg. GS error: 1.351E-02 Plasma Current: 8.992E+05, target: 8.990E+05, error: 0.020% Edge Q: 10.520, target: 10.810, error: 2.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5190E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9831E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.790232 TO TG2= 0.792050 @ NSTEP 2733 GFRAME TG2 MOMENTS CHECKSUM: 3.7526373157219D+03 %fi_finish: enter %fimain: eflux cpu time = 3.999986802227795E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2735 TA= 7.92050E-01 CPU TIME= 9.10800E-03 SECONDS. DT= 7.59921E-04 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.26823027777777 %check_save_state: izleft hours = 77.6641666666667 --> plasma_hash("gframe"): TA= 7.920500E-01 NSTEP= 2735 Hash code: 95558057 ->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: 1.250E-06 FluxDiff MaxDT: 7.975E-02 Avg. GS error: 1.348E-02 Plasma Current: 8.983E+05, target: 8.982E+05, error: 0.019% Edge Q: 10.539, target: 10.811, error: 2.514% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5230E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0446E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.792050 TO TG2= 0.793868 @ NSTEP 2735 GFRAME TG2 MOMENTS CHECKSUM: 3.7516923739186D+03 --> plasma_hash("gframe"): TA= 7.938682E-01 NSTEP= 2738 Hash code: 75401532 ->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: 7.258E-07 FluxDiff MaxDT: 1.090E-01 Avg. GS error: 1.347E-02 Plasma Current: 8.972E+05, target: 8.971E+05, error: 0.019% Edge Q: 10.566, target: 10.841, error: 2.539% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5167E+00 SECONDS DATA R*BT AT EDGE: 5.8957E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0745E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.793868 TO TG2= 0.795686 @ NSTEP 2738 GFRAME TG2 MOMENTS CHECKSUM: 3.7511626310263D+03 --> plasma_hash("gframe"): TA= 7.956864E-01 NSTEP= 2740 Hash code: 37782662 ->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: 6.392E-07 FluxDiff MaxDT: 1.238E-01 Avg. GS error: 1.350E-02 Plasma Current: 8.962E+05, target: 8.961E+05, error: 0.018% Edge Q: 10.589, target: 10.871, error: 2.591% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5217E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0848E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.795686 TO TG2= 0.797505 @ NSTEP 2740 GFRAME TG2 MOMENTS CHECKSUM: 3.7504093079626D+03 --> plasma_hash("gframe"): TA= 7.975045E-01 NSTEP= 2742 Hash code: 82512732 ->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: 6.487E-07 FluxDiff MaxDT: 1.227E-01 Avg. GS error: 1.357E-02 Plasma Current: 8.951E+05, target: 8.949E+05, error: 0.018% Edge Q: 10.611, target: 10.895, error: 2.606% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4443E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1063E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.797505 TO TG2= 0.799323 @ NSTEP 2742 GFRAME TG2 MOMENTS CHECKSUM: 3.7499295324925D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.36249E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.37375E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 5.73313E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.37361E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 5.73219E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 7.993227E-01 NSTEP= 2743 Hash code: 12746585 ->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: 4.620E-07 FluxDiff MaxDT: 1.218E-01 Avg. GS error: 1.364E-02 Plasma Current: 8.941E+05, target: 8.939E+05, error: 0.018% Edge Q: 10.623, target: 10.923, error: 2.743% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2694E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1165E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.799323 TO TG2= 0.801141 @ NSTEP 2743 GFRAME TG2 MOMENTS CHECKSUM: 3.7496320027562D+03 --> plasma_hash("gframe"): TA= 8.011409E-01 NSTEP= 2744 Hash code: 5250990 ->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: 6.143E-07 FluxDiff MaxDT: 1.205E-01 Avg. GS error: 1.369E-02 Plasma Current: 8.941E+05, target: 8.939E+05, error: 0.020% Edge Q: 10.617, target: 10.933, error: 2.886% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3980E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.1069E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.801141 TO TG2= 0.802959 @ NSTEP 2744 GFRAME TG2 MOMENTS CHECKSUM: 3.7494949097767D+03 --> plasma_hash("gframe"): TA= 8.029591E-01 NSTEP= 2745 Hash code: 1472001 ->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: 1.021E-06 FluxDiff MaxDT: 7.536E-02 Avg. GS error: 1.368E-02 Plasma Current: 8.948E+05, target: 8.947E+05, error: 0.021% Edge Q: 10.599, target: 10.920, error: 2.936% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4026E+00 SECONDS DATA R*BT AT EDGE: 5.8974E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0856E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.802959 TO TG2= 0.804777 @ NSTEP 2745 GFRAME TG2 MOMENTS CHECKSUM: 3.7494903063934D+03 --> plasma_hash("gframe"): TA= 8.047773E-01 NSTEP= 2746 Hash code: 61721857 ->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: 1.538E-06 FluxDiff MaxDT: 9.405E-02 Avg. GS error: 1.372E-02 Plasma Current: 8.949E+05, target: 8.947E+05, error: 0.022% Edge Q: 10.591, target: 10.892, error: 2.755% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2830E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0805E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.804777 TO TG2= 0.806595 @ NSTEP 2746 GFRAME TG2 MOMENTS CHECKSUM: 3.7493631781879D+03 --> plasma_hash("gframe"): TA= 8.065954E-01 NSTEP= 2747 Hash code: 47585066 ->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: 9.168E-07 FluxDiff MaxDT: 1.172E-01 Avg. GS error: 1.392E-02 Plasma Current: 8.941E+05, target: 8.939E+05, error: 0.021% Edge Q: 10.595, target: 10.893, error: 2.742% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3929E+00 SECONDS DATA R*BT AT EDGE: 5.8973E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0861E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.806595 TO TG2= 0.808414 @ NSTEP 2747 GFRAME TG2 MOMENTS CHECKSUM: 3.7490708092950D+03 %MFRCHK - LABEL "BALE0_SGF", # 19= -2.36146E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.37291E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 5.73128E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.37277E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 5.73034E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.084136E-01 NSTEP= 2748 Hash code: 121465633 ->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: 6.789E-07 FluxDiff MaxDT: 1.164E-01 Avg. GS error: 1.389E-02 Plasma Current: 8.935E+05, target: 8.933E+05, error: 0.022% Edge Q: 10.595, target: 10.899, error: 2.793% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3752E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0901E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.808414 TO TG2= 0.810232 @ NSTEP 2748 GFRAME TG2 MOMENTS CHECKSUM: 3.7487720881094D+03 --> plasma_hash("gframe"): TA= 8.102318E-01 NSTEP= 2749 Hash code: 98108564 ->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: 7.757E-07 FluxDiff MaxDT: 1.152E-01 Avg. GS error: 1.386E-02 Plasma Current: 8.936E+05, target: 8.934E+05, error: 0.023% Edge Q: 10.583, target: 10.900, error: 2.901% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.2773E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0801E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.810232 TO TG2= 0.812050 @ NSTEP 2749 GFRAME TG2 MOMENTS CHECKSUM: 3.7485945300142D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2750 TA= 8.12050E-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 = 2.27786777777783 %check_save_state: izleft hours = 77.6544444444445 --> plasma_hash("gframe"): TA= 8.120500E-01 NSTEP= 2750 Hash code: 33005708 ->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: 1.202E-06 FluxDiff MaxDT: 8.978E-02 Avg. GS error: 1.384E-02 Plasma Current: 8.941E+05, target: 8.939E+05, error: 0.023% Edge Q: 10.568, target: 10.881, error: 2.873% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4174E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0670E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.812050 TO TG2= 0.813868 @ NSTEP 2750 GFRAME TG2 MOMENTS CHECKSUM: 3.7484372872475D+03 --> plasma_hash("gframe"): TA= 8.138682E-01 NSTEP= 2751 Hash code: 76090840 ->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: 1.257E-06 FluxDiff MaxDT: 6.194E-02 Avg. GS error: 1.382E-02 Plasma Current: 8.949E+05, target: 8.947E+05, error: 0.023% Edge Q: 10.549, target: 10.863, error: 2.893% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4495E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0515E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.813868 TO TG2= 0.815686 @ NSTEP 2751 GFRAME TG2 MOMENTS CHECKSUM: 3.7484192190145D+03 --> plasma_hash("gframe"): TA= 8.156864E-01 NSTEP= 2752 Hash code: 106813794 ->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: 1.716E-06 FluxDiff MaxDT: 4.860E-02 Avg. GS error: 1.381E-02 Plasma Current: 8.959E+05, target: 8.957E+05, error: 0.023% Edge Q: 10.531, target: 10.837, error: 2.819% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4193E+00 SECONDS DATA R*BT AT EDGE: 5.8963E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0396E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.815686 TO TG2= 0.817505 @ NSTEP 2752 GFRAME TG2 MOMENTS CHECKSUM: 3.7487761665044D+03 --> plasma_hash("gframe"): TA= 8.175045E-01 NSTEP= 2753 Hash code: 63705228 ->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: 1.836E-06 FluxDiff MaxDT: 5.175E-02 Avg. GS error: 1.401E-02 Plasma Current: 8.964E+05, target: 8.962E+05, error: 0.023% Edge Q: 10.526, target: 10.818, error: 2.702% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3150E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0362E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.817505 TO TG2= 0.819323 @ NSTEP 2753 GFRAME TG2 MOMENTS CHECKSUM: 3.7497407093658D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.50461E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.85631E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.83396E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.85618E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.83410E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.193227E-01 NSTEP= 2754 Hash code: 109584746 ->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: 1.673E-06 FluxDiff MaxDT: 8.268E-02 Avg. GS error: 1.403E-02 Plasma Current: 8.957E+05, target: 8.955E+05, error: 0.024% Edge Q: 10.539, target: 10.816, error: 2.558% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3903E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0476E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.819323 TO TG2= 0.821141 @ NSTEP 2754 GFRAME TG2 MOMENTS CHECKSUM: 3.7507510024087D+03 --> plasma_hash("gframe"): TA= 8.211409E-01 NSTEP= 2755 Hash code: 19499637 ->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: 9.152E-07 FluxDiff MaxDT: 1.104E-01 Avg. GS error: 1.412E-02 Plasma Current: 8.950E+05, target: 8.948E+05, error: 0.026% Edge Q: 10.551, target: 10.842, error: 2.680% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3470E+00 SECONDS DATA R*BT AT EDGE: 5.8970E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0560E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.821141 TO TG2= 0.822959 @ NSTEP 2755 GFRAME TG2 MOMENTS CHECKSUM: 3.7517118747615D+03 --> plasma_hash("gframe"): TA= 8.229591E-01 NSTEP= 2756 Hash code: 26994044 ->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: 1.069E-06 FluxDiff MaxDT: 8.602E-02 Avg. GS error: 1.418E-02 Plasma Current: 8.954E+05, target: 8.952E+05, error: 0.025% Edge Q: 10.542, target: 10.854, error: 2.877% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.6996E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0505E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.822959 TO TG2= 0.824777 @ NSTEP 2756 GFRAME TG2 MOMENTS CHECKSUM: 3.7524767435676D+03 --> plasma_hash("gframe"): TA= 8.247773E-01 NSTEP= 2757 Hash code: 11846915 ->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: 1.597E-06 FluxDiff MaxDT: 6.573E-02 Avg. GS error: 1.421E-02 Plasma Current: 8.962E+05, target: 8.960E+05, error: 0.023% Edge Q: 10.520, target: 10.838, error: 2.932% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4599E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.9887E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.824777 TO TG2= 0.826595 @ NSTEP 2757 GFRAME TG2 MOMENTS CHECKSUM: 3.7527131410387D+03 --> plasma_hash("gframe"): TA= 8.265954E-01 NSTEP= 2758 Hash code: 80206283 ->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: 1.696E-06 FluxDiff MaxDT: 6.645E-02 Avg. GS error: 1.421E-02 Plasma Current: 8.966E+05, target: 8.964E+05, error: 0.020% Edge Q: 10.488, target: 10.816, error: 3.029% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6115E+00 SECONDS DATA R*BT AT EDGE: 5.8957E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6474E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.826595 TO TG2= 0.828414 @ NSTEP 2758 GFRAME TG2 MOMENTS CHECKSUM: 3.7508585786428D+03 %MFRCHK - LABEL "BALE0_SGF", # 14= -1.50109E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 9.85798E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.83568E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 9.85785E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.83582E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.284136E-01 NSTEP= 2759 Hash code: 23646900 ->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: 1.441E-06 FluxDiff MaxDT: 6.100E-02 Avg. GS error: 1.424E-02 Plasma Current: 8.966E+05, target: 8.965E+05, error: 0.018% Edge Q: 10.456, target: 10.780, error: 3.002% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6977E+00 SECONDS DATA R*BT AT EDGE: 5.8955E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6270E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.828414 TO TG2= 0.830232 @ NSTEP 2759 GFRAME TG2 MOMENTS CHECKSUM: 3.7489784357136D+03 --> plasma_hash("gframe"): TA= 8.302318E-01 NSTEP= 2760 Hash code: 34201658 ->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: 1.290E-06 FluxDiff MaxDT: 6.211E-02 Avg. GS error: 1.428E-02 Plasma Current: 8.968E+05, target: 8.967E+05, error: 0.014% Edge Q: 10.423, target: 10.749, error: 3.037% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6209E+00 SECONDS DATA R*BT AT EDGE: 5.8958E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6039E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.830232 TO TG2= 0.832050 @ NSTEP 2760 GFRAME TG2 MOMENTS CHECKSUM: 3.7472002398667D+03 %fi_finish: enter %fimain: eflux cpu time = 4.999994416721165E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2761 TA= 8.32050E-01 CPU TIME= 9.09600E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.28720916666657 %check_save_state: izleft hours = 77.6452777777778 --> plasma_hash("gframe"): TA= 8.320500E-01 NSTEP= 2761 Hash code: 24697231 ->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: 1.479E-06 FluxDiff MaxDT: 6.956E-02 Avg. GS error: 1.434E-02 Plasma Current: 8.971E+05, target: 8.970E+05, error: 0.011% Edge Q: 10.400, target: 10.710, error: 2.891% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3898E+00 SECONDS DATA R*BT AT EDGE: 5.8964E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5890E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.832050 TO TG2= 0.833868 @ NSTEP 2761 GFRAME TG2 MOMENTS CHECKSUM: 3.7461125442182D+03 --> plasma_hash("gframe"): TA= 8.338682E-01 NSTEP= 2762 Hash code: 115461047 ->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: 1.406E-06 FluxDiff MaxDT: 1.176E-01 Avg. GS error: 1.437E-02 Plasma Current: 8.967E+05, target: 8.966E+05, error: 0.010% Edge Q: 10.398, target: 10.687, error: 2.709% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3527E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.5910E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.833868 TO TG2= 0.835686 @ NSTEP 2762 GFRAME TG2 MOMENTS CHECKSUM: 3.7457723096540D+03 --> plasma_hash("gframe"): TA= 8.356864E-01 NSTEP= 2763 Hash code: 83230040 ->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: 8.694E-07 FluxDiff MaxDT: 5.724E-02 Avg. GS error: 1.441E-02 Plasma Current: 8.957E+05, target: 8.955E+05, error: 0.017% Edge Q: 10.439, target: 10.693, error: 2.376% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6180E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6291E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.835686 TO TG2= 0.837505 @ NSTEP 2763 GFRAME TG2 MOMENTS CHECKSUM: 3.7477626661967D+03 --> plasma_hash("gframe"): TA= 8.375045E-01 NSTEP= 2764 Hash code: 38345573 ->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: 5.773E-07 FluxDiff MaxDT: 5.315E-02 Avg. GS error: 1.451E-02 Plasma Current: 8.947E+05, target: 8.945E+05, error: 0.024% Edge Q: 10.485, target: 10.741, error: 2.381% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7325E+00 SECONDS DATA R*BT AT EDGE: 5.8972E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.6760E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.837505 TO TG2= 0.839323 @ NSTEP 2764 GFRAME TG2 MOMENTS CHECKSUM: 3.7502691142978D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.46962E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.49748E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.49769E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.393227E-01 NSTEP= 2765 Hash code: 19698315 ->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: 5.574E-07 FluxDiff MaxDT: 5.267E-02 Avg. GS error: 1.458E-02 Plasma Current: 8.946E+05, target: 8.944E+05, error: 0.026% Edge Q: 10.517, target: 10.791, error: 2.545% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7267E+00 SECONDS DATA R*BT AT EDGE: 5.8962E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0451E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.839323 TO TG2= 0.841141 @ NSTEP 2765 GFRAME TG2 MOMENTS CHECKSUM: 3.7532756618752D+03 --> plasma_hash("gframe"): TA= 8.411409E-01 NSTEP= 2766 Hash code: 65846228 ->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: 7.765E-07 FluxDiff MaxDT: 4.054E-02 Avg. GS error: 1.456E-02 Plasma Current: 8.953E+05, target: 8.951E+05, error: 0.026% Edge Q: 10.530, target: 10.822, error: 2.694% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6970E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0502E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.841141 TO TG2= 0.842959 @ NSTEP 2766 GFRAME TG2 MOMENTS CHECKSUM: 3.7553462268659D+03 --> plasma_hash("gframe"): TA= 8.429591E-01 NSTEP= 2767 Hash code: 28149534 ->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: 1.105E-06 FluxDiff MaxDT: 4.764E-02 Avg. GS error: 1.451E-02 Plasma Current: 8.962E+05, target: 8.960E+05, error: 0.024% Edge Q: 10.535, target: 10.830, error: 2.720% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6322E+00 SECONDS DATA R*BT AT EDGE: 5.8947E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0313E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.842959 TO TG2= 0.844777 @ NSTEP 2767 GFRAME TG2 MOMENTS CHECKSUM: 3.7565061894810D+03 --> plasma_hash("gframe"): TA= 8.447773E-01 NSTEP= 2768 Hash code: 43028385 ->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: 1.062E-06 FluxDiff MaxDT: 8.434E-02 Avg. GS error: 1.435E-02 Plasma Current: 8.965E+05, target: 8.963E+05, error: 0.024% Edge Q: 10.524, target: 10.837, error: 2.884% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5639E+00 SECONDS DATA R*BT AT EDGE: 5.8947E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0262E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.844777 TO TG2= 0.846595 @ NSTEP 2768 GFRAME TG2 MOMENTS CHECKSUM: 3.7552464962524D+03 --> plasma_hash("gframe"): TA= 8.465954E-01 NSTEP= 2769 Hash code: 73238771 ->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: 8.040E-07 FluxDiff MaxDT: 1.078E-01 Avg. GS error: 1.424E-02 Plasma Current: 8.964E+05, target: 8.962E+05, error: 0.024% Edge Q: 10.517, target: 10.822, error: 2.813% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6520E+00 SECONDS DATA R*BT AT EDGE: 5.8951E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0404E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.846595 TO TG2= 0.848414 @ NSTEP 2769 GFRAME TG2 MOMENTS CHECKSUM: 3.7534107530797D+03 %MFRCHK - LABEL "BALE0_SGF", # 16= -1.47071E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.48178E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.48199E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.484136E-01 NSTEP= 2770 Hash code: 16780471 ->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: 6.867E-07 FluxDiff MaxDT: 1.442E-01 Avg. GS error: 1.419E-02 Plasma Current: 8.958E+05, target: 8.956E+05, error: 0.024% Edge Q: 10.518, target: 10.816, error: 2.760% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6592E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0540E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.848414 TO TG2= 0.850232 @ NSTEP 2770 GFRAME TG2 MOMENTS CHECKSUM: 3.7514251529309D+03 --> plasma_hash("gframe"): TA= 8.502318E-01 NSTEP= 2771 Hash code: 52903790 ->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: 4.488E-07 FluxDiff MaxDT: 1.568E-01 Avg. GS error: 1.412E-02 Plasma Current: 8.950E+05, target: 8.948E+05, error: 0.026% Edge Q: 10.528, target: 10.820, error: 2.703% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3303E+00 SECONDS DATA R*BT AT EDGE: 5.8969E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0571E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.850232 TO TG2= 0.852050 @ NSTEP 2771 GFRAME TG2 MOMENTS CHECKSUM: 3.7503029421594D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2772 TA= 8.52050E-01 CPU TIME= 9.16300E-03 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.29775000000018 %check_save_state: izleft hours = 77.6347222222222 --> plasma_hash("gframe"): TA= 8.520500E-01 NSTEP= 2772 Hash code: 41553810 ->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: 4.874E-07 FluxDiff MaxDT: 1.159E-01 Avg. GS error: 1.418E-02 Plasma Current: 8.941E+05, target: 8.939E+05, error: 0.026% Edge Q: 10.542, target: 10.829, error: 2.650% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4063E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0644E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.852050 TO TG2= 0.853868 @ NSTEP 2772 GFRAME TG2 MOMENTS CHECKSUM: 3.7495082301607D+03 --> plasma_hash("gframe"): TA= 8.538682E-01 NSTEP= 2773 Hash code: 69731562 ->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: 4.515E-07 FluxDiff MaxDT: 7.559E-02 Avg. GS error: 1.414E-02 Plasma Current: 8.934E+05, target: 8.932E+05, error: 0.028% Edge Q: 10.564, target: 10.847, error: 2.609% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.8311E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0741E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.853868 TO TG2= 0.855686 @ NSTEP 2773 GFRAME TG2 MOMENTS CHECKSUM: 3.7505083929998D+03 --> plasma_hash("gframe"): TA= 8.556864E-01 NSTEP= 2774 Hash code: 62147134 ->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: 7.468E-07 FluxDiff MaxDT: 6.905E-02 Avg. GS error: 1.415E-02 Plasma Current: 8.930E+05, target: 8.927E+05, error: 0.030% Edge Q: 10.583, target: 10.865, error: 2.592% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5652E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0804E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.855686 TO TG2= 0.857505 @ NSTEP 2774 GFRAME TG2 MOMENTS CHECKSUM: 3.7518123382570D+03 --> plasma_hash("gframe"): TA= 8.575045E-01 NSTEP= 2775 Hash code: 78294879 ->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: 7.164E-07 FluxDiff MaxDT: 5.929E-02 Avg. GS error: 1.412E-02 Plasma Current: 8.930E+05, target: 8.927E+05, error: 0.031% Edge Q: 10.595, target: 10.887, error: 2.678% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6348E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0779E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.857505 TO TG2= 0.859323 @ NSTEP 2775 GFRAME TG2 MOMENTS CHECKSUM: 3.7531089128744D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.21190E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.82870E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.82884E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.593227E-01 NSTEP= 2776 Hash code: 88903275 ->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: 9.889E-07 FluxDiff MaxDT: 4.492E-02 Avg. GS error: 1.412E-02 Plasma Current: 8.935E+05, target: 8.932E+05, error: 0.031% Edge Q: 10.598, target: 10.895, error: 2.720% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6216E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0696E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.859323 TO TG2= 0.861141 @ NSTEP 2776 GFRAME TG2 MOMENTS CHECKSUM: 3.7544920351381D+03 --> plasma_hash("gframe"): TA= 8.611409E-01 NSTEP= 2777 Hash code: 23211421 ->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: 1.332E-06 FluxDiff MaxDT: 3.331E-02 Avg. GS error: 1.403E-02 Plasma Current: 8.948E+05, target: 8.945E+05, error: 0.029% Edge Q: 10.590, target: 10.895, error: 2.796% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6855E+00 SECONDS DATA R*BT AT EDGE: 5.8954E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0526E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.861141 TO TG2= 0.862959 @ NSTEP 2777 GFRAME TG2 MOMENTS CHECKSUM: 3.7558870878029D+03 --> plasma_hash("gframe"): TA= 8.629591E-01 NSTEP= 2778 Hash code: 83784192 ->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: 2.019E-06 FluxDiff MaxDT: 2.903E-02 Avg. GS error: 1.399E-02 Plasma Current: 8.963E+05, target: 8.961E+05, error: 0.027% Edge Q: 10.578, target: 10.879, error: 2.771% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6167E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0362E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.862959 TO TG2= 0.864777 @ NSTEP 2778 GFRAME TG2 MOMENTS CHECKSUM: 3.7571897500416D+03 --> plasma_hash("gframe"): TA= 8.647773E-01 NSTEP= 2779 Hash code: 42388650 ->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: 2.297E-06 FluxDiff MaxDT: 3.064E-02 Avg. GS error: 1.399E-02 Plasma Current: 8.971E+05, target: 8.969E+05, error: 0.025% Edge Q: 10.577, target: 10.866, error: 2.663% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5467E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0599E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.864777 TO TG2= 0.866595 @ NSTEP 2779 GFRAME TG2 MOMENTS CHECKSUM: 3.7583956758694D+03 --> plasma_hash("gframe"): TA= 8.665954E-01 NSTEP= 2780 Hash code: 30077717 ->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: 1.819E-06 FluxDiff MaxDT: 3.984E-02 Avg. GS error: 1.401E-02 Plasma Current: 8.966E+05, target: 8.964E+05, error: 0.026% Edge Q: 10.594, target: 10.870, error: 2.536% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3781E+00 SECONDS DATA R*BT AT EDGE: 5.8966E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0719E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.866595 TO TG2= 0.868414 @ NSTEP 2780 GFRAME TG2 MOMENTS CHECKSUM: 3.7593426866687D+03 %MFRCHK - LABEL "BALE0_SGF", # 15= 1.20871E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 7.80856E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 7.80870E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.684136E-01 NSTEP= 2781 Hash code: 24260689 ->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: 1.140E-06 FluxDiff MaxDT: 6.557E-02 Avg. GS error: 1.410E-02 Plasma Current: 8.956E+05, target: 8.954E+05, error: 0.028% Edge Q: 10.614, target: 10.899, error: 2.613% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.1894E+00 SECONDS DATA R*BT AT EDGE: 5.8975E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0881E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.868414 TO TG2= 0.870232 @ NSTEP 2781 GFRAME TG2 MOMENTS CHECKSUM: 3.7597094080895D+03 --> plasma_hash("gframe"): TA= 8.702318E-01 NSTEP= 2782 Hash code: 82085046 ->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: 9.053E-07 FluxDiff MaxDT: 7.459E-02 Avg. GS error: 1.416E-02 Plasma Current: 8.951E+05, target: 8.948E+05, error: 0.029% Edge Q: 10.622, target: 10.924, error: 2.764% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3696E+00 SECONDS DATA R*BT AT EDGE: 5.8978E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0936E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.870232 TO TG2= 0.872050 @ NSTEP 2782 GFRAME TG2 MOMENTS CHECKSUM: 3.7599250600306D+03 %fi_finish: enter %fimain: eflux cpu time = 4.000001354143023E-006 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2783 TA= 8.72050E-01 CPU TIME= 1.02830E-02 SECONDS. DT= 2.00000E-03 %check_save_state: nbflag = T %check_save_state: iwrite_now = F %check_save_state: check at wall_hours = 2.31049416666679 %check_save_state: izleft hours = 77.6219444444444 --> plasma_hash("gframe"): TA= 8.720500E-01 NSTEP= 2783 Hash code: 67305238 ->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: 1.413E-06 FluxDiff MaxDT: 7.512E-02 Avg. GS error: 1.409E-02 Plasma Current: 8.954E+05, target: 8.951E+05, error: 0.029% Edge Q: 10.597, target: 10.929, error: 3.035% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4275E+00 SECONDS DATA R*BT AT EDGE: 5.8971E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0764E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.872050 TO TG2= 0.874046 @ NSTEP 2783 GFRAME TG2 MOMENTS CHECKSUM: 3.7588539691759D+03 --> plasma_hash("gframe"): TA= 8.740464E-01 NSTEP= 2784 Hash code: 57748576 ->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: 1.950E-06 FluxDiff MaxDT: 6.626E-02 Avg. GS error: 1.404E-02 Plasma Current: 8.955E+05, target: 8.953E+05, error: 0.029% Edge Q: 10.576, target: 10.896, error: 2.939% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3812E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0658E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.874046 TO TG2= 0.876043 @ NSTEP 2784 GFRAME TG2 MOMENTS CHECKSUM: 3.7578872170208D+03 --> plasma_hash("gframe"): TA= 8.760429E-01 NSTEP= 2785 Hash code: 71866093 ->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: 1.736E-06 FluxDiff MaxDT: 7.923E-02 Avg. GS error: 1.404E-02 Plasma Current: 8.953E+05, target: 8.950E+05, error: 0.029% Edge Q: 10.562, target: 10.875, error: 2.884% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.3782E+00 SECONDS DATA R*BT AT EDGE: 5.8951E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0607E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.876043 TO TG2= 0.878039 @ NSTEP 2785 GFRAME TG2 MOMENTS CHECKSUM: 3.7567544747830D+03 --> plasma_hash("gframe"): TA= 8.780393E-01 NSTEP= 2786 Hash code: 67078650 ->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: 1.660E-06 FluxDiff MaxDT: 5.119E-02 Avg. GS error: 1.406E-02 Plasma Current: 8.955E+05, target: 8.953E+05, error: 0.028% Edge Q: 10.548, target: 10.861, error: 2.878% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5188E+00 SECONDS DATA R*BT AT EDGE: 5.8952E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7176E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.878039 TO TG2= 0.880036 @ NSTEP 2786 GFRAME TG2 MOMENTS CHECKSUM: 3.7558826581534D+03 %MFRCHK - LABEL "BALE0_SGF", # 18= 2.20287E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 8.97173E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 2= 6.37500E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 8.97157E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 2= 6.37472E-38 RESET TO ZERO %splitn_update_check: writing update: 204112B62TR.TMP @ t= 0.880000000000000 -------------------------------- Namelist update: 204112B62TR.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= 2788 Hash code: 55412615 ->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: 2.457E-06 FluxDiff MaxDT: 3.423E-02 Avg. GS error: 1.411E-02 Plasma Current: 8.960E+05, target: 8.958E+05, error: 0.028% Edge Q: 10.537, target: 10.839, error: 2.785% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5221E+00 SECONDS DATA R*BT AT EDGE: 5.8959E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7025E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.880036 TO TG2= 0.882032 @ NSTEP 2788 GFRAME TG2 MOMENTS CHECKSUM: 3.7564817738560D+03 --> plasma_hash("gframe"): TA= 8.820321E-01 NSTEP= 2790 Hash code: 27070264 ->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: 2.488E-06 FluxDiff MaxDT: 4.952E-02 Avg. GS error: 1.411E-02 Plasma Current: 8.958E+05, target: 8.955E+05, error: 0.029% Edge Q: 10.548, target: 10.825, error: 2.561% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5702E+00 SECONDS DATA R*BT AT EDGE: 5.8968E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7396E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.882032 TO TG2= 0.884029 @ NSTEP 2790 GFRAME TG2 MOMENTS CHECKSUM: 3.7582012637135D+03 --> plasma_hash("gframe"): TA= 8.840286E-01 NSTEP= 2792 Hash code: 122744864 ->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: 1.680E-06 FluxDiff MaxDT: 4.209E-02 Avg. GS error: 1.411E-02 Plasma Current: 8.953E+05, target: 8.950E+05, error: 0.029% Edge Q: 10.555, target: 10.849, error: 2.711% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5398E+00 SECONDS DATA R*BT AT EDGE: 5.8977E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7395E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.884029 TO TG2= 0.886025 @ NSTEP 2792 GFRAME TG2 MOMENTS CHECKSUM: 3.7591323507223D+03 --> plasma_hash("gframe"): TA= 8.860250E-01 NSTEP= 2794 Hash code: 10168592 ->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: 2.450E-06 FluxDiff MaxDT: 3.945E-02 Avg. GS error: 1.403E-02 Plasma Current: 8.955E+05, target: 8.952E+05, error: 0.028% Edge Q: 10.559, target: 10.846, error: 2.643% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.4568E+00 SECONDS DATA R*BT AT EDGE: 5.8982E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 5.7400E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.886025 TO TG2= 0.888021 @ NSTEP 2794 GFRAME TG2 MOMENTS CHECKSUM: 3.7604912903813D+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 2794 TA= 8.86025E-01 CPU TIME= 1.03560E-02 SECONDS. DT= 1.15444E-03 --> plasma_hash("gframe"): TA= 8.880214E-01 NSTEP= 2796 Hash code: 118261508 ->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: 2.063E-06 FluxDiff MaxDT: 4.220E-02 Avg. GS error: 1.398E-02 Plasma Current: 8.959E+05, target: 8.957E+05, error: 0.026% Edge Q: 10.564, target: 10.854, error: 2.677% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.5265E+00 SECONDS DATA R*BT AT EDGE: 5.8979E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0588E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.888021 TO TG2= 0.890018 @ NSTEP 2796 GFRAME TG2 MOMENTS CHECKSUM: 3.7624754004305D+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= 6.30807E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 4.57751E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 1= -7.52276E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.57743E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -7.52265E-38 RESET TO ZERO --> plasma_hash("gframe"): TA= 8.900179E-01 NSTEP= 2798 Hash code: 50545187 ->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: 2.013E-06 FluxDiff MaxDT: 4.245E-02 Avg. GS error: 1.402E-02 Plasma Current: 8.960E+05, target: 8.958E+05, error: 0.024% Edge Q: 10.593, target: 10.860, error: 2.465% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7652E+00 SECONDS DATA R*BT AT EDGE: 5.8967E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0254E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.890018 TO TG2= 0.892014 @ NSTEP 2798 GFRAME TG2 MOMENTS CHECKSUM: 3.7639587008214D+03 --> plasma_hash("gframe"): TA= 8.920143E-01 NSTEP= 2800 Hash code: 1817684 ->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: 1.316E-06 FluxDiff MaxDT: 4.474E-02 Avg. GS error: 1.404E-02 Plasma Current: 8.961E+05, target: 8.959E+05, error: 0.020% Edge Q: 10.619, target: 10.904, error: 2.608% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7580E+00 SECONDS DATA R*BT AT EDGE: 5.8953E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0393E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.892014 TO TG2= 0.894011 @ NSTEP 2800 GFRAME TG2 MOMENTS CHECKSUM: 3.7651838439970D+03 --> plasma_hash("gframe"): TA= 8.940107E-01 NSTEP= 2802 Hash code: 71346515 ->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: 1.544E-06 FluxDiff MaxDT: 4.991E-02 Avg. GS error: 1.415E-02 Plasma Current: 8.964E+05, target: 8.963E+05, error: 0.017% Edge Q: 10.647, target: 10.930, error: 2.590% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.7573E+00 SECONDS DATA R*BT AT EDGE: 5.8948E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0513E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.894011 TO TG2= 0.896007 @ NSTEP 2802 GFRAME TG2 MOMENTS CHECKSUM: 3.7669513839940D+03 --> plasma_hash("gframe"): TA= 8.960071E-01 NSTEP= 2803 Hash code: 71006965 ->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: 1.211E-06 FluxDiff MaxDT: 5.850E-02 Avg. GS error: 1.409E-02 Plasma Current: 8.970E+05, target: 8.968E+05, error: 0.014% Edge Q: 10.660, target: 10.966, error: 2.794% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.6146E+00 SECONDS DATA R*BT AT EDGE: 5.8950E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0543E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.896007 TO TG2= 0.898004 @ NSTEP 2803 GFRAME TG2 MOMENTS CHECKSUM: 3.7672534956785D+03 --> plasma_hash("gframe"): TA= 8.980036E-01 NSTEP= 2804 Hash code: 109227443 ->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: 1.482E-06 FluxDiff MaxDT: 7.357E-02 Avg. GS error: 1.386E-02 Plasma Current: 8.976E+05, target: 8.975E+05, error: 0.013% Edge Q: 10.657, target: 10.975, error: 2.890% * MHD EQUILIBRIUM CALCULATED, CPU TIME = 2.5535E+00 SECONDS DATA R*BT AT EDGE: 5.8956E+01 ->EQBDY_CHECK: last flux surface curvature ratio is: 6.0517E-02 % GFRAME - GEOMETRY TIMESTEP TG1= 0.898004 TO TG2= 0.900000 @ NSTEP 2804 GFRAME TG2 MOMENTS CHECKSUM: 3.7662918662432D+03 %MFRCHK - LABEL "BALE0_SGF", # 2= 6.31968E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFH", # 1= 4.58894E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_H", # 1= -7.54153E-38 RESET TO ZERO %MFRCHK - LABEL "CFTCX_GFD", # 1= 4.58885E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 1= -7.54143E-38 RESET TO ZERO 4.2 Call trmpi_end (NORMAL EXIT) trmpi_end2 -I- 0 Ended MPI for TRANSP 4.2 TERMINATE THE RUN (NORMAL EXIT) CPU TIME USED (hours): 2.85263E+01 %kill_nubeam_server: no server READY file found. ------------ stderr ---------------- (mpi_share_env) process myid= 0 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 15 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 17 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 19 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 21 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 23 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 27 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 28 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 29 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 30 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 1 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 2 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 5 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 6 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 9 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 10 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 11 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 24 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 25 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 26 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 31 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 3 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 4 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 7 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 8 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 12 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 13 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 14 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 16 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 18 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 20 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 (mpi_share_env) process myid= 22 cwd: /local/tr_rraman/transp_compute/NSTU/204112B62 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... 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) + 261 (dep) = 261 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 2.428614E+08 2.423432E+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 = 20 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 14 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> 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 = 5 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 19 ==> 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 = 27 ==> entering nubeam_step_child, mpi myidd = 8 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 1 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5157E+19 nbi_getprofiles ne*dvol sum (ions): 4.5157E+19 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 2 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.567E+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 7 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.561E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.558E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.560E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.556E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.557E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.561E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 230 - 0 (killed) + 524 (dep) = 754 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 20 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 27 exited 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 = 20 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 11 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (input): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 nbi_getprofiles ne*dvol sum (ions): 4.6932E+19 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... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.581E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.584E+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 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.590E+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: 204112B62_fi/204112B62_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: 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: 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 depall... depall... depall... depall... depall... depall... depall... depall... depall... 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 -> 523 - 0 (killed) + 421 (dep) = 944 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 = 2.396338E+08 2.376575E+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 = 2 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 19 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> 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 = 15 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 21 %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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_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): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbi_getprofiles ne*dvol sum (input): 1.0388E+20 nbi_getprofiles ne*dvol sum (ions): 1.0388E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.581E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 728 - 0 (killed) + 350 (dep) = 1078 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... orball... depall exited 0 orball... %cxline - vtor.gt.zvion; vtor,zvion = 2.337693E+08 2.327186E+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 = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 30 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 22 ==> 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 %nbi_states: cpu 9 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 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 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+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 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_nbi_fld_ state.cdf %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> 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 = 16 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 4 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0905E+20 nbi_getprofiles ne*dvol sum (ions): 1.0905E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.585E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.587E+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 13 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.593E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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: 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 -> 834 - 0 (killed) + 438 (dep) = 1272 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 9.505895E+07 9.464779E+07 %cxline - vtor.gt.zvion; vtor,zvion = 2.346235E+08 2.337559E+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 = 7 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 28 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> 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 = 8 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> 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 = 25 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 28 ==> 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 = 14 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 12 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (input): 1.0813E+20 nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.0813E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.592E+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 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+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 24 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... 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 -> 798 - 0 (killed) + 394 (dep) = 1192 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 = 1.736083E+08 1.726258E+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 = 30 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 8 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 26 ==> 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 = 25 ==> 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 = 7 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 %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_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_alloc2: ebb_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): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 1.1345E+20 nbi_getprofiles ne*dvol sum (input): 1.1345E+20 nbi_getprofiles ne*dvol sum (ions): 1.1345E+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 = 1.598E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+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 11 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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: 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 -> 679 - 0 (killed) + 427 (dep) = 1106 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... %cxline - vtor.gt.zvion; vtor,zvion = 2.481144E+08 2.471592E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.807699E+08 1.806384E+08 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 nbfinish... entering outptb2 exited 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 = 20 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 11 ==> 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 = 8 ==> entering nubeam_step_child, mpi myidd = 21 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 1.1615E+20 nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 1.1615E+20 nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.584E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 -> 588 - 0 (killed) + 471 (dep) = 1059 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... %cxline - vtor.gt.zvion; vtor,zvion = 1.193019E+08 1.185986E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.709956E+08 1.698698E+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 = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 23 nbfinish... entering outptb2 exited 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 = 7 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 9 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbi_getprofiles ne*dvol sum (input): 3.4261E+20 nbi_getprofiles ne*dvol sum (ions): 3.4261E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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: 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 -> 495 - 0 (killed) + 540 (dep) = 1035 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 = 21 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 1 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 10 ==> 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 = 28 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 29 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4101E+20 nbi_getprofiles ne*dvol sum (ions): 3.4101E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+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 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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 -> 339 - 0 (killed) + 661 (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... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 27 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> 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 = 24 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 21 %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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (input): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbi_getprofiles ne*dvol sum (ions): 3.4274E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+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 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %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 -> 407 - 0 (killed) + 627 (dep) = 1034 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... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 20 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 19 ==> 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 exited 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 = 20 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 18 ==> 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 = 6 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 10 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.5061E+20 nbi_getprofiles ne*dvol sum (ions): 3.5061E+20 nbstart... %nbi_states: cpu 21 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.597E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.586E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.595E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: 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 -> 477 - 0 (killed) + 581 (dep) = 1058 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... 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 = 11 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 18 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 31 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 31 ==> 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 = 5 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 10 ==> 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 = 20 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 25 %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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbi_getprofiles ne*dvol sum (input): 3.6651E+20 nbi_getprofiles ne*dvol sum (ions): 3.6651E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 22 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 26 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 = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.588E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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: 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 -> 470 - 0 (killed) + 561 (dep) = 1031 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 = 31 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 14 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 17 ==> 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 = 8 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 29 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> 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 = 16 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 31 %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_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbi_getprofiles ne*dvol sum (input): 4.5587E+20 nbi_getprofiles ne*dvol sum (ions): 4.5587E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 1 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 31 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 = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: 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 -> 399 - 0 (killed) + 601 (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 = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 24 ==> 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 = 19 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 6 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 12 ==> 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 = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 3 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 14 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (input): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbi_getprofiles ne*dvol sum (ions): 4.6806E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.583E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 -> 281 - 0 (killed) + 719 (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 = 26 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 29 ==> 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 = 5 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 25 ==> 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 = 13 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 29 %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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6168E+20 nbi_getprofiles ne*dvol sum (ions): 4.6168E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.590E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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 depall... depall... depall... depall... depall... depall... depall... depall... depall... 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 -> 364 - 0 (killed) + 665 (dep) = 1029 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... orball... depall exited 0 orball... depall exited 0 orball... 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 exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 9 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 19 exited 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 = 30 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 28 ==> 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 = 20 ==> 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 = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 6 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbi_getprofiles ne*dvol sum (input): 4.6119E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6119E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.587E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 %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 -> 444 - 0 (killed) + 662 (dep) = 1106 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 = 23 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 18 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 26 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 24 ==> 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 = 29 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 15 ==> 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 = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 4.6413E+20 nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 4.6413E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 25 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 = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 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 = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+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 21 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.591E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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 -> 491 - 0 (killed) + 590 (dep) = 1081 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... orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 9 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 18 ==> 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 = 16 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 28 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 17 %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_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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2608E+20 nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2608E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.592E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.594E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+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: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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 -> 472 - 0 (killed) + 567 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 2.279252E+08 2.262016E+08 %cxline - vtor.gt.zvion; vtor,zvion = 1.570896E+08 1.552586E+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 = 20 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 23 ==> 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 18 nbfinish... entering outptb2 ==> 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 = 31 ==> entering nubeam_step_child, mpi myidd = 28 ==> 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 = 3 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 14 ==> 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 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbi_getprofiles ne*dvol sum (input): 5.2782E+20 nbi_getprofiles ne*dvol sum (ions): 5.2782E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+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 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 depall... depall... depall... depall... depall... depall... depall... depall... depall... 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 -> 358 - 0 (killed) + 642 (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 = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> 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 = 5 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 20 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 30 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 29 ==> 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 = 3 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 9 ==> 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 = 13 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbi_getprofiles ne*dvol sum (input): 5.2230E+20 nbi_getprofiles ne*dvol sum (ions): 5.2230E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.601E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.595E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+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 = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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 -> 410 - 0 (killed) + 600 (dep) = 1010 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 = 2.644251E+08 2.568902E+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 = 7 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 16 ==> 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 = 29 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 17 nbfinish... entering outptb2 exited 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 = 8 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 29 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 21 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2434E+20 nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2434E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 10 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.605E+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 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 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 = 1.599E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 373 - 0 (killed) + 627 (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 = 23 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 29 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 6 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 19 ==> 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 = 4 ==> entering nubeam_step_child, mpi myidd = 5 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (input): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbi_getprofiles ne*dvol sum (ions): 5.2558E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+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 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 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 = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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: 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 -> 380 - 0 (killed) + 624 (dep) = 1004 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 = 16 ==> 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 = 31 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 17 ==> 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 = 6 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 28 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 8 ==> 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 = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 1 ==> 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 = 13 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7328E+20 nbi_getprofiles ne*dvol sum (ions): 5.7328E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %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 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+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 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+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 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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: 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 -> 407 - 0 (killed) + 606 (dep) = 1013 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... orball... depall exited 0 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 = 1 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 10 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 31 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 29 ==> 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 = 26 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 11 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 24 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7022E+20 nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7022E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+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 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 28 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 = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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) + 632 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 9 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 19 ==> 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 = 6 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 17 %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_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7193E+20 nbi_getprofiles ne*dvol sum (ions): 5.7193E+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 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+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 16 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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: 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: 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 -> 374 - 0 (killed) + 632 (dep) = 1006 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 29 ==> 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 14 entering outptb2 exited 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 = 12 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 29 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7480E+20 nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7480E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+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 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.600E+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 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 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 = 1.603E+03 MB. %nbi_states: cpu 22 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 = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 398 - 0 (killed) + 615 (dep) = 1013 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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 24 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 31 ==> 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 = 12 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 17 nbfinish... entering outptb2 exited 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 = 21 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 12 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbi_getprofiles ne*dvol sum (input): 5.7663E+20 nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 5.7663E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.604E+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 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+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 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: 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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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 -> 406 - 0 (killed) + 607 (dep) = 1013 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 = 27 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 9 nbfinish... entering outptb2 exited 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 = 12 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 28 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0011E+20 nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0011E+20 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 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+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 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.599E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+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 26 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.603E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: 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 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 -> 367 - 0 (killed) + 633 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball need 32 cx tracks orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 28 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 31 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 13 ==> 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 = 7 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 12 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbi_getprofiles ne*dvol sum (input): 6.0502E+20 nbi_getprofiles ne*dvol sum (ions): 6.0502E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 21 virtual memory size = 1.613E+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 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+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 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 30 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.605E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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 -> 387 - 0 (killed) + 621 (dep) = 1008 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 31 ==> 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 = 18 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 17 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 14 exited 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 = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.608E+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 31 virtual memory size = 1.598E+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 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_nbi_fld_ state.cdf ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 20 ==> 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 = 24 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 11 ==> 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 = 18 %nubeam_step ++++++++ nltrk_dep0 F %nubeam_step ++++++++ nlbout (lost ptcl.) F %nubeam_step ++++++++ nbsteps 30 ==> entering nubeam_step_child, mpi myidd = 0 %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_alloc: backz already allocated; exiting. %nbi_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): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0557E+20 nbi_getprofiles ne*dvol sum (ions): 6.0557E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbi_states: cpu 21 virtual memory size = 1.613E+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 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.596E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+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 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.608E+03 MB. %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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... %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... %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 depall... %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... %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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... %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 specie #1 -> 372 - 0 (killed) + 628 (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 = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 12 ==> 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 = 22 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 20 ==> 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 = 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 = 19 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 18 ==> 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 = 7 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 16 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0462E+20 nbi_getprofiles ne*dvol sum (ions): 6.0462E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 25 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+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 30 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 28 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... 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 -> 384 - 0 (killed) + 620 (dep) = 1004 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 26 nbfinish... entering outptb2 exited 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 = 29 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 31 ==> 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 = 30 ==> entering nubeam_step_child, mpi myidd = 23 ==> 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 = 6 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 16 ==> 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 = 11 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 5 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.0660E+20 nbi_getprofiles ne*dvol sum (ions): 6.0660E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+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 9 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+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 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 24 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 = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom 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 -> 377 - 0 (killed) + 623 (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 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 13 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 21 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 30 ==> 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 = 3 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 11 ==> 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 = 18 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 27 ==> 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 = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 24 ==> 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 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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2428E+20 nbi_getprofiles ne*dvol sum (ions): 6.2428E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+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 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: 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: 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 -> 360 - 0 (killed) + 641 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 10 ==> exiting nubeam_step_child, mpi myidd = 13 ==> 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 = 15 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 25 nbfinish... entering outptb2 exited 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 = 18 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 7 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 10 ==> 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 = 2 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 11 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2264E+20 nbi_getprofiles ne*dvol sum (ions): 6.2264E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+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 = 1.614E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+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 = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_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: 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: 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: 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) + 622 (dep) = 1007 ptcls. depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... orball... orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 orball exited 0 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 22 ==> 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 = 4 ==> exiting nubeam_step_child, mpi myidd = 5 nbfinish... entering outptb2 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 30 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 21 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 19 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 7 %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_interp_profiles... %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2397E+20 nbi_getprofiles ne*dvol sum (ions): 6.2397E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 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 = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 2 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 = 1.608E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.598E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom 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 -> 367 - 0 (killed) + 633 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 12 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 19 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 18 ==> 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 = 26 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 23 ==> 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 = 29 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 26 ==> entering nubeam_step_child, mpi myidd = 23 ==> entering nubeam_step_child, mpi myidd = 8 ==> entering nubeam_step_child, mpi myidd = 1 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 13 ==> entering nubeam_step_child, mpi myidd = 12 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 2 ==> entering nubeam_step_child, mpi myidd = 24 ==> entering nubeam_step_child, mpi myidd = 27 ==> entering nubeam_step_child, mpi myidd = 3 ==> 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 = 5 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 6 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 16 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 9 ==> entering nubeam_step_child, mpi myidd = 21 %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_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_rel_co already allocated; exiting. %nbi_alloc2: ebb_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): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (input): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbi_getprofiles ne*dvol sum (ions): 6.2344E+20 nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 10 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 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 29 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 31 virtual memory size = 1.603E+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 25 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: 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: 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 -> 364 - 0 (killed) + 636 (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 depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... depall exited 0 orball... 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 = 17 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 15 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 22 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 3 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 4 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 5 ==> 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 = 2 ==> 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 = 23 ==> entering nubeam_step_child, mpi myidd = 25 ==> entering nubeam_step_child, mpi myidd = 13 ==> 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 = 12 ==> entering nubeam_step_child, mpi myidd = 18 ==> entering nubeam_step_child, mpi myidd = 22 ==> entering nubeam_step_child, mpi myidd = 3 ==> entering nubeam_step_child, mpi myidd = 29 ==> entering nubeam_step_child, mpi myidd = 8 ==> 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 = 26 ==> entering nubeam_step_child, mpi myidd = 4 ==> entering nubeam_step_child, mpi myidd = 20 ==> entering nubeam_step_child, mpi myidd = 10 ==> entering nubeam_step_child, mpi myidd = 5 ==> entering nubeam_step_child, mpi myidd = 28 ==> entering nubeam_step_child, mpi myidd = 15 ==> entering nubeam_step_child, mpi myidd = 14 ==> entering nubeam_step_child, mpi myidd = 31 ==> entering nubeam_step_child, mpi myidd = 17 ==> entering nubeam_step_child, mpi myidd = 11 ==> entering nubeam_step_child, mpi myidd = 1 %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_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_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_interp_profiles... nbi_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): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbi_getprofiles ne*dvol sum (input): 6.2609E+20 nbstart... nbstart... nbstart... nbstart... nbi_getprofiles ne*dvol sum (ions): 6.2609E+20 nbstart... nbstart... nbstart... nbstart... %nbi_states: cpu 3 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 9 virtual memory size = 1.614E+03 MB. %nbi_states: cpu 7 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 1 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 5 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 10 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 11 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 13 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 23 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 19 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 18 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 17 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 14 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 15 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 6 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 2 virtual memory size = 1.608E+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 31 virtual memory size = 1.603E+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 27 virtual memory size = 1.608E+03 MB. %nbi_states: cpu 22 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 12 virtual memory size = 1.609E+03 MB. %nbi_states: cpu 8 virtual memory size = 1.600E+03 MB. %nbi_states: cpu 26 virtual memory size = 1.612E+03 MB. %nbi_states: cpu 4 virtual memory size = 1.604E+03 MB. %nbi_states: cpu 24 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 16 virtual memory size = 1.607E+03 MB. %nbi_states: cpu 20 virtual memory size = 1.613E+03 MB. %nbi_states: cpu 21 virtual memory size = 1.613E+03 MB. % nbi_states: fld_states write OK to filename: 204112B62_fi/204112B62_debug_nb i_fld_state.cdf %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 %nbatom deposition model: lev_nbidep= 1 %nbatom deposition model: nsigexc= 0 depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... depall... %depall specie #1 -> 362 - 0 (killed) + 704 (dep) = 1066 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 = 22 ==> exiting nubeam_step_child, mpi myidd = 6 ==> exiting nubeam_step_child, mpi myidd = 24 ==> exiting nubeam_step_child, mpi myidd = 8 ==> exiting nubeam_step_child, mpi myidd = 20 ==> exiting nubeam_step_child, mpi myidd = 18 ==> exiting nubeam_step_child, mpi myidd = 13 ==> exiting nubeam_step_child, mpi myidd = 7 ==> exiting nubeam_step_child, mpi myidd = 15 ==> exiting nubeam_step_child, mpi myidd = 1 ==> exiting nubeam_step_child, mpi myidd = 28 ==> exiting nubeam_step_child, mpi myidd = 5 ==> exiting nubeam_step_child, mpi myidd = 29 ==> exiting nubeam_step_child, mpi myidd = 16 ==> exiting nubeam_step_child, mpi myidd = 11 ==> exiting nubeam_step_child, mpi myidd = 3 nbfinish... entering outptb2 ==> exiting nubeam_step_child, mpi myidd = 21 ==> exiting nubeam_step_child, mpi myidd = 12 ==> exiting nubeam_step_child, mpi myidd = 31 ==> exiting nubeam_step_child, mpi myidd = 25 ==> exiting nubeam_step_child, mpi myidd = 10 ==> exiting nubeam_step_child, mpi myidd = 17 ==> exiting nubeam_step_child, mpi myidd = 19 ==> exiting nubeam_step_child, mpi myidd = 30 ==> exiting nubeam_step_child, mpi myidd = 14 ==> exiting nubeam_step_child, mpi myidd = 27 ==> exiting nubeam_step_child, mpi myidd = 9 ==> exiting nubeam_step_child, mpi myidd = 23 ==> exiting nubeam_step_child, mpi myidd = 2 ==> exiting nubeam_step_child, mpi myidd = 26 ==> exiting nubeam_step_child, mpi myidd = 4 exited outptb2 entering nbo_load exit nbo_load exit nbfinish... ==> exiting nubeam_step_child, mpi myidd = 0 nubeam_load_state... nubeam_step: levmod_halo= 0 trmpi_listener: service request "EXIT" on cpu# 12 trmpi_listener: service request "EXIT" on cpu# 25 trmpi_listener: service request "EXIT" on cpu# 24 trmpi_listener: service request "EXIT" on cpu# 30 trmpi_listener: service request "EXIT" on cpu# 13 trmpi_listener: service request "EXIT" on cpu# 7 trmpi_listener: service request "EXIT" on cpu# 28 trmpi_listener: service request "EXIT" on cpu# 5 trmpi_listener: service request "EXIT" on cpu# 3 trmpi_listener: service request "EXIT" on cpu# 4 trmpi_listener: service request "EXIT" on cpu# 21 trmpi_listener: service request "EXIT" on cpu# 31 trmpi_listener: service request "EXIT" on cpu# 10 trmpi_listener: service request "EXIT" on cpu# 6 trmpi_listener: service request "EXIT" on cpu# 22 trmpi_listener: service request "EXIT" on cpu# 23 trmpi_listener: service request "EXIT" on cpu# 26 trmpi_listener: service request "EXIT" on cpu# 17 trmpi_listener: service request "EXIT" on cpu# 8 trmpi_listener: service request "EXIT" on cpu# 19 trmpi_listener: service request "EXIT" on cpu# 14 trmpi_listener: service request "EXIT" on cpu# 27 trmpi_listener: service request "EXIT" on cpu# 20 trmpi_listener: service request "EXIT" on cpu# 18 trmpi_listener: service request "EXIT" on cpu# 9 trmpi_listener: service request "EXIT" on cpu# 15 trmpi_listener: service request "EXIT" on cpu# 1 trmpi_listener: service request "EXIT" on cpu# 29 trmpi_listener: service request "EXIT" on cpu# 16 trmpi_listener: service request "EXIT" on cpu# 11 trmpi_listener: service request "EXIT" on cpu# 2 ==>runtrx: TRANSP run successful ==========(runtrx)====================== ==========TRANSP output conversion====== date: Fri Aug 29 16:33:19 EDT 2025 ( mccune004.pppl.gov ) ==========(runtrx)====================== srart tr_finish_mpi.pl false pppl.gov 204112B62 NSTU ---------------> starting: plotcon 204112B62 2025/08/29:16:33:19 %initcpl: MDS_CACHE enabled. %PoPlot -- reading .PLN files %POPLT2-- PROCESSING RUN 204112B62 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 204112B62MF.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 16:33:28 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: 812810 avg & max steps: 1.8305E-03 8.0131E-02 #decreasing steps: 601580 avg & max steps: 2.4640E-03 1.2352E-01 #zero steps: 10 B_FIELD 12 1136 49923 %dmgxot_spredm: non-monotonic X axis: #increasing steps: 2431028 avg & max steps: 3.2949E-02 3.9428E+00 #decreasing steps: 1812331 avg & max steps: 4.4186E-02 5.9241E+00 #zero steps: 11 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/204112B62 /local/tr_rraman/transp_compute/NSTU/204112B62/204112B62.CDF /local/tr_rraman/transp_compute/NSTU/204112B62/204112B62PH.CDF %targz_pseq: no directory: 204112B62_replay (normal exit) %targz_solv: in /local/tr_rraman/transp_compute/NSTU/204112B62 on host mccune004 %targz_solv: no TGLF debug info found (normal exit) %targz_solv: no TGLF debug info found (normal exit) --------------->plotcon: normal exit. 2025/08/29:16:33:29 ==>runtrx: TRANSP postprocessing OK ==========(runtrx)====================== ==========TRANSP add to MDSplus ======== date: Fri Aug 29 16:33:29 EDT 2025 ( mccune004.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 2041120262 TRANSP_NSTU ...connecting to server: TRANSPGRID.PPPL.GOV ...tcl("EDIT TRANSP_NSTU/SHOT=2041120262") 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 204112B62_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 16:34:41 EDT 2025 ( mccune004.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 204112B62.CDF /u/tr_rraman/transp/result/NSTU.16/204112B62.CDF mv 204112B62ex.for /u/tr_rraman/transp/result/NSTU.16/204112B62ex.for mv 204112B62_mmm.nml /u/tr_rraman/transp/result/NSTU.16/204112B62_mmm.nml mv 204112B62_nubeam_init.dat /u/tr_rraman/transp/result/NSTU.16/204112B62_nubeam_init.dat mv 204112B62PH.CDF /u/tr_rraman/transp/result/NSTU.16/204112B62PH.CDF mv 204112B62_pt.nml /u/tr_rraman/transp/result/NSTU.16/204112B62_pt.nml mv 204112B62TR.DAT /u/tr_rraman/transp/result/NSTU.16/204112B62TR.DAT mv 204112B62TR.INF /u/tr_rraman/transp/result/NSTU.16/204112B62TR.INF %finishup: retaining 204112B62tr.log mv 204112B62TR.MSG /u/tr_rraman/transp/result/NSTU.16/204112B62TR.MSG mv 204112B62.yml /u/tr_rraman/transp/result/NSTU.16/204112B62.yml rm: No match. %finishup -I- both the GRID and the PPPL flags are set. /l/transpgrid/pshare/qshare/204112B62_NSTU.qarc status 0 ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Fri Aug 29 16:34:44 EDT 2025 ( mccune004.pppl.gov ) ==========>runtrx runsite = pppl.gov<======