==>runtrx start: date: Tue May 22 12:21:46 EDT 2012 ( ellis021.pppl.gov ) argv = 2 iarg = 2 cmd_opt = run runtrx: tok.yy = AUGD.04 ==========(runtrx)====================== date: Tue May 22 12:21:46 EDT 2012 ( ellis021.pppl.gov ) args: 18941A02 run ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP link & load============ ==========(runtrx)====================== date: Tue May 22 12:21:46 EDT 2012 ( ellis021.pppl.gov ) --> copy_expert_for: standard expert source copied to: 18941A02ex.for --> copy_expert_for: up-to-date expert object copied to: 18941A02ex.o **** uplink 18941A02tr nolib check_xlibvars: setenv TRLIB_PATH (null) make: `/p/tshare/transp/RHEL5/PS/obj/freeshare/port.o' is up to date. make: `/p/tshare/transp/RHEL5/PS/obj/freeshare/blockd.o' is up to date. make: `/local/tr_mcavedon/transp_compute/AUGD/18941A02/18941A02ex.o' is up to date. make: `/p/tshare/transp/RHEL5/PS/obj/mpi_transp/subtransp.o' is up to date. make: `/p/tshare/transp/RHEL5/PS/obj/freeshare/fspdata.o' is up to date. csh -f /local/tr_mcavedon/transp_compute/AUGD/18941A02/18941A02tr.sh csh/linkload detected: C++ libraries requirement with f90 linkage ==>runtrx: TRANSP link successful ==========(runtrx)====================== ==========TRANSP execution============== date: Tue May 22 12:21:56 EDT 2012 ( ellis021.pppl.gov ) ==========(runtrx)====================== ...in runtrx, MPI_CMD is: mpiexec ...runtrx executing: mpiexec -np 2 /l/ellis021/tr_mcavedon/transp_compute/AUGD/18941A02/18941A02TR.EXE 18941A02 ... %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. Default value will be used. !trmpi_init.f90 (rank 0): MAX_MPI_R8_BLOCK environment variable: undefined. Default value will be used. %initcpl: MDS_CACHE enabled. trmpi_requestor broadcast (cpu0): CREATE_SUBDIR 18941A02_log %trmpi_openlog: LOGFILE_LEVEL = warn trmpi_requestor broadcast (cpu0): RUNID 18941A02 DATE 22-May-2012 12:21:58 %NLIST: open namelist file18941A02TR.ZDA %trgdat: NLBCCW= T from PH.CDF file %trgdat: NLJCCW= F from PH.CDF file %trcom_allocate: reallocate: RLIM_PTS %trcom_allocate: reallocate: YLIM_PTS %trgdat: NMOM= 8 TRANSP in TRADITIONAL mode, TINIT = 1.00000E+00 %DATCHK_MPI: NBI_PSERVE = 1 %trmpi_set_numprocs: TRANSP w/MPI linked in, numprocs= 2. ************************** **** TRANSP MPI MODE: **** ************************** TRANSP_NPROCS = 2 trmpi_env_update broadcast (cpu0): mpi_share_env done. %datchk: reset MRSTRT to -5 %datchk: restart records once every -5 minutes. %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. Note: nlfsp_server FALSE => nlfsp_species FALSE. Note: nlfsp_server FALSE => nlfsp_psirz FALSE. DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC %DATCHK -- UP-DOWN ASYMMETRY DETECTED %DATCHK: NYXINV incremented to be odd: 101 161 %DATCHK: no ECH/ECCD, NLECRF=F, nantech=0 set. TIDXSW defaulted: value of 0.05 assigned. %DATCHK: NMODEL=2, Const. v & with minimal diffusivity: DFIMIN= 0.E+0 cm2/sec. %DATCKICH: TORIC-5 solver, with numerical MHD equilibrium geometry. %DATCKICH: copy shared parameters to Antenna # 1 %DATCKICH: copy shared parameters to Antenna # 2 %DATCKICH: copy shared parameters to Antenna # 3 %DATCKICH: copy shared parameters to Antenna # 4 %DATCKA: ACfile times pre-screen... %DATCKA: ACfile times pre-screen... %DATCKA -- CHECKING NON-DEFAULT SPECIFICATIONS FOR AC FILE I/O GIVEN IN NAMELIST CHARACTER DATA ARRAYS "SELOUT" AND "SELAVG" %ASCXFIN -- AC FILE OPERATION COMPLETED SUCCESSFULLY. %LH_ONOFF: no LH on/off times found. %EC_ONOFF: no ECH on/off times found. %ICRF_ONOFF: ICRF on/off times (s): 9.9980E-01 6.1301E+00 %NB_ONOFF: NBI on/off times (s): 2.9800E-01 2.0940E+00 ps_init_tag: Plasma State v2.034 f90 module initialization. AUXVAL-- INITITIALIZE shared data structures. %DATCKA: ACfile times pre-screen... %DATCKA: ACfile times pre-screen... arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init MCINIT: RANDOM NUMBER GEN INITIALIZED - 890370881 890370881 %tabort_update: no namelist TABORT requests after t= 1. trmpi_requestor broadcast (cpu0): CREATE_SUBDIR 18941A02_fi/ trmpi_requestor broadcast (cpu0): CREATE_SUBDIR 18941A02_lh/ trmpi_requestor broadcast (cpu0): CREATE_SUBDIR 18941A02_ecrf/ trmpi_requestor broadcast (cpu0): CREATE_SUBDIR 18941A02_icrf/ AUXVAL-- INITIALIZE PLOTTING OUTPUT SYSTEM AUXVAL-- INITIALIZE TEMPERATURE AND DENSITY PROFILES AUXVAL-- GEOMETRY INITIALIZATION PART 2. GFRAM0: bdy curvature ratio OK at t= 1.0022E+00 seconds: 1.2982E-01 GFRAM0: bdy curvature ratio OK at t= 1.0000E+00 seconds: 1.3043E-01 %get_rygrid: no grids for Psi(R,Y) %get_rygrid: no grids for Psi(R,Y) %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %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 %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. dmg_datbuf_expand call from dmgini_sized: isize= 0 ...reading TF.PLN header data... %inital: nstep0= 1 ----------------------- %frantic_sorce1 -- resolution increased: previous: 20 ; now: 40 minimum resolution = min(50,nzones) ----------------------- *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 9.00000E-01 CPU TIME= 1.37479E+00 SECONDS. DT= 1.00000E-04 Arrays in dchi_dgrad_data module allocated %inital: nstep0= 2 %inital: nstep0= 3 %inital: nstep0= 4 %inital: nstep0= 5 %inital: nstep0= 6 %INITAL: pseudo time advanced to 9.011259E-01 %inital: nstep0= 7 %inital: nstep0= 8 %inital: nstep0= 9 %INITAL: pseudo time advanced to 9.024185E-01 %inital: nstep0= 10 %inital: nstep0= 11 %inital: nstep0= 12 %INITAL: pseudo time advanced to 9.037208E-01 %inital: nstep0= 13 %inital: nstep0= 14 %inital: nstep0= 15 %INITAL: pseudo time advanced to 9.049923E-01 %inital: nstep0= 16 %inital: nstep0= 17 %inital: nstep0= 18 %INITAL: pseudo time advanced to 9.062016E-01 %inital: nstep0= 19 %inital: nstep0= 20 %inital: nstep0= 21 %INITAL: pseudo time advanced to 9.074109E-01 %inital: nstep0= 22 %inital: nstep0= 23 %inital: nstep0= 24 %INITAL: pseudo time advanced to 9.086202E-01 %inital: nstep0= 25 %inital: nstep0= 26 %inital: nstep0= 27 %INITAL: pseudo time advanced to 9.098295E-01 %inital: nstep0= 28 %inital: nstep0= 29 %inital: nstep0= 30 %INITAL: pseudo time advanced to 9.110388E-01 %inital: nstep0= 31 %inital: nstep0= 32 %inital: nstep0= 33 %INITAL: pseudo time advanced to 9.122481E-01 %inital: nstep0= 34 %inital: nstep0= 35 %inital: nstep0= 36 %INITAL: pseudo time advanced to 9.134574E-01 %inital: nstep0= 37 %inital: nstep0= 38 %inital: nstep0= 39 %INITAL: pseudo time advanced to 9.146667E-01 %inital: nstep0= 40 %inital: nstep0= 41 %inital: nstep0= 42 %INITAL: pseudo time advanced to 9.158760E-01 %inital: nstep0= 43 %inital: nstep0= 44 %inital: nstep0= 45 %INITAL: pseudo time advanced to 9.170854E-01 %inital: nstep0= 46 %inital: nstep0= 47 %inital: nstep0= 48 %INITAL: pseudo time advanced to 9.182947E-01 %inital: nstep0= 49 %inital: nstep0= 50 %inital: nstep0= 51 %INITAL: pseudo time advanced to 9.195040E-01 %inital: nstep0= 52 %inital: nstep0= 53 % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %treqbox_init_tr: clearing eqbox and loading tr attributes %treqbox_init_psirz: loading iso attributes for isolver psi(R,Z) analysis %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.845E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 0 0 100 0 0.00E+00 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6052E+00 0.0000E+00 -2.6890E-02 0.0000E+00 1.6522E+00 2.5625E-02 1 0 4.7902E-01 4.6020E-02 4.6020E-02 8.9981E-01 2 0 3.0047E-02 5.1380E-02 3.1676E-03 -2.3545E-02 3 0 2.5825E-02 -6.0650E-03 -3.7172E-03 -7.5941E-03 4 0 -2.3408E-03 -3.2012E-03 -1.7620E-03 3.5089E-03 5 0 -7.6430E-04 1.3073E-03 1.1969E-03 2.0833E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.27E-01 2.02E-02 3.30E-02 3.00E-03 9.10E-04 1.10E+00 1.652E+00 2.562E-02 3.19408E+01 4.58E-03 1.000 1.25 1.23 100 2.10E-06 1.13E-06 9.09E-07 5.05E-10 6.13E-10 1.10E+00 1.665E+00 7.415E-02 3.02588E+01 4.91E-03 1.000 1.25 1.39 108 9.05E-07 3.46E-07 3.10E-07 1.11E-10 4.63E-10 1.10E+00 1.666E+00 7.438E-02 3.02587E+01 4.91E-03 1.000 1.25 1.39 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.60E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.246E-07 d(ln R0)/dt = 2.941E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.88E-02 5.73E-02 1.22E-04 1.45E-08 4.23E-08 1.10E+00 1.666E+00 7.441E-02 3.02604E+01 4.92E-03 1.000 1.25 1.41 100 6.60E-07 2.65E-07 1.39E-08 2.83E-12 1.33E-11 1.10E+00 1.671E+00 7.609E-02 2.41304E+01 6.17E-03 0.894 1.25 1.25 200 6.86E-09 2.10E-09 2.27E-10 2.33E-14 5.99E-14 1.10E+00 1.671E+00 7.592E-02 2.39805E+01 6.21E-03 0.891 1.25 1.25 300 1.36E-09 3.23E-10 1.29E-11 5.63E-16 1.31E-15 1.10E+00 1.671E+00 7.587E-02 2.38898E+01 6.23E-03 0.889 1.25 1.25 321 1.00E-09 2.60E-10 8.45E-12 2.97E-16 8.25E-16 1.10E+00 1.671E+00 7.587E-02 2.38782E+01 6.23E-03 0.889 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 3.34E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.167E-05 d(ln R0)/dt = 1.214E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.41 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %meq_resize: allocating meq storage of size = 5 %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.074085 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 4.3194E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3043E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.845E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6049E+00 0.0000E+00 -2.7111E-02 0.0000E+00 1.6522E+00 2.5625E-02 1 0 4.7889E-01 4.6076E-02 4.6076E-02 8.9969E-01 2 0 3.0156E-02 5.1501E-02 3.0990E-03 -2.3628E-02 3 0 2.5849E-02 -6.0995E-03 -3.7657E-03 -7.6002E-03 4 0 -2.3409E-03 -3.2157E-03 -1.7739E-03 3.5209E-03 5 0 -7.5354E-04 1.2931E-03 1.1971E-03 2.0846E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.27E-01 2.04E-02 3.31E-02 3.01E-03 9.15E-04 1.10E+00 1.652E+00 2.562E-02 3.19566E+01 4.58E-03 1.000 1.25 1.23 100 2.15E-06 1.15E-06 9.38E-07 5.11E-10 6.18E-10 1.10E+00 1.665E+00 7.420E-02 3.02681E+01 4.90E-03 1.000 1.25 1.39 108 9.25E-07 3.53E-07 3.13E-07 1.15E-10 4.59E-10 1.10E+00 1.666E+00 7.442E-02 3.02681E+01 4.91E-03 1.000 1.25 1.39 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.80E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.245E-07 d(ln R0)/dt = 2.904E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.90E-02 5.80E-02 1.23E-04 1.46E-08 4.26E-08 1.10E+00 1.666E+00 7.445E-02 3.02698E+01 4.91E-03 1.000 1.25 1.41 100 6.47E-07 2.60E-07 1.39E-08 2.79E-12 1.31E-11 1.10E+00 1.671E+00 7.607E-02 2.42116E+01 6.15E-03 0.895 1.25 1.25 200 6.91E-09 2.09E-09 2.23E-10 2.28E-14 5.90E-14 1.10E+00 1.671E+00 7.589E-02 2.40601E+01 6.18E-03 0.892 1.25 1.25 300 1.38E-09 3.26E-10 1.30E-11 5.65E-16 1.31E-15 1.10E+00 1.671E+00 7.584E-02 2.39689E+01 6.21E-03 0.890 1.25 1.25 322 9.88E-10 2.57E-10 8.40E-12 2.88E-16 7.91E-16 1.10E+00 1.671E+00 7.584E-02 2.39568E+01 6.21E-03 0.890 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 3.36E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.148E-05 d(ln R0)/dt = 1.255E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.41 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.073958 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 4.3693E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2982E-01 %get_rygrid: no grids for Psi(R,Y) %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %inital: nstep0= 54 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 9.20310E-01 CPU TIME= 1.47578E+00 SECONDS. DT= 5.03877E-04 %INITAL: pseudo time advanced to 9.207099E-01 %inital: nstep0= 55 %inital: nstep0= 56 %inital: nstep0= 57 %INITAL: pseudo time advanced to 9.219089E-01 %inital: nstep0= 58 %inital: nstep0= 59 %inital: nstep0= 60 %INITAL: pseudo time advanced to 9.231059E-01 %inital: nstep0= 61 %inital: nstep0= 62 %inital: nstep0= 63 %INITAL: pseudo time advanced to 9.243019E-01 %inital: nstep0= 64 %inital: nstep0= 65 %inital: nstep0= 66 %INITAL: pseudo time advanced to 9.254921E-01 %inital: nstep0= 67 %inital: nstep0= 68 %inital: nstep0= 69 %INITAL: pseudo time advanced to 9.267815E-01 %inital: nstep0= 70 %inital: nstep0= 71 %inital: nstep0= 72 %INITAL: pseudo time advanced to 9.281931E-01 %inital: nstep0= 73 %inital: nstep0= 74 %inital: nstep0= 75 %INITAL: pseudo time advanced to 9.296045E-01 %inital: nstep0= 76 %inital: nstep0= 77 %inital: nstep0= 78 %INITAL: pseudo time advanced to 9.310160E-01 %inital: nstep0= 79 %inital: nstep0= 80 %inital: nstep0= 81 %INITAL: pseudo time advanced to 9.324274E-01 %inital: nstep0= 82 %inital: nstep0= 83 %inital: nstep0= 84 %INITAL: pseudo time advanced to 9.338389E-01 %inital: nstep0= 85 %inital: nstep0= 86 %inital: nstep0= 87 %INITAL: pseudo time advanced to 9.352504E-01 %inital: nstep0= 88 %inital: nstep0= 89 %inital: nstep0= 90 %INITAL: pseudo time advanced to 9.366618E-01 %inital: nstep0= 91 %inital: nstep0= 92 %inital: nstep0= 93 %INITAL: pseudo time advanced to 9.380733E-01 %inital: nstep0= 94 %inital: nstep0= 95 %inital: nstep0= 96 %INITAL: pseudo time advanced to 9.394847E-01 %inital: nstep0= 97 %inital: nstep0= 98 % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.871E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6052E+00 0.0000E+00 -2.6890E-02 0.0000E+00 1.6713E+00 7.5836E-02 1 0 4.7902E-01 4.6020E-02 4.6020E-02 8.9981E-01 2 0 3.0047E-02 5.1380E-02 3.1676E-03 -2.3545E-02 3 0 2.5825E-02 -6.0650E-03 -3.7172E-03 -7.5941E-03 4 0 -2.3408E-03 -3.2012E-03 -1.7620E-03 3.5089E-03 5 0 -7.6430E-04 1.3073E-03 1.1969E-03 2.0833E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.65E-01 2.42E-02 4.07E-02 3.68E-03 3.83E-04 1.10E+00 1.671E+00 7.584E-02 3.29720E+01 3.62E-03 1.000 1.25 1.10 100 3.02E-06 1.47E-06 1.40E-06 1.61E-10 1.17E-09 1.10E+00 1.664E+00 7.223E-02 3.08147E+01 3.91E-03 1.000 1.25 1.28 111 8.36E-07 5.05E-07 3.19E-07 5.96E-10 4.00E-10 1.10E+00 1.665E+00 7.294E-02 3.08146E+01 3.91E-03 1.000 1.25 1.29 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.90E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.344E-07 d(ln R0)/dt = 5.405E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.79E-02 6.63E-02 1.41E-04 1.26E-08 4.21E-08 1.10E+00 1.665E+00 7.299E-02 3.08159E+01 3.94E-03 1.000 1.25 1.30 100 7.21E-07 4.90E-07 1.47E-08 3.60E-12 1.80E-11 1.10E+00 1.670E+00 7.542E-02 2.85535E+01 4.25E-03 0.963 1.25 1.25 200 1.41E-08 3.91E-09 7.18E-10 6.61E-14 1.50E-13 1.10E+00 1.670E+00 7.551E-02 2.81786E+01 4.31E-03 0.956 1.25 1.25 300 3.32E-09 7.95E-10 5.39E-11 2.22E-15 5.78E-15 1.10E+00 1.671E+00 7.548E-02 2.79966E+01 4.34E-03 0.953 1.25 1.25 400 9.87E-10 2.29E-10 8.08E-12 1.75E-16 4.50E-16 1.10E+00 1.671E+00 7.550E-02 2.78936E+01 4.35E-03 0.952 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.16E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.374E-05 d(ln R0)/dt = 2.326E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.49 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.075412 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.1792E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3043E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.871E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6049E+00 0.0000E+00 -2.7111E-02 0.0000E+00 1.6713E+00 7.5836E-02 1 0 4.7889E-01 4.6076E-02 4.6076E-02 8.9969E-01 2 0 3.0156E-02 5.1501E-02 3.0990E-03 -2.3628E-02 3 0 2.5849E-02 -6.0995E-03 -3.7657E-03 -7.6002E-03 4 0 -2.3409E-03 -3.2157E-03 -1.7739E-03 3.5209E-03 5 0 -7.5354E-04 1.2931E-03 1.1971E-03 2.0846E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.66E-01 2.44E-02 4.08E-02 3.69E-03 3.85E-04 1.10E+00 1.671E+00 7.584E-02 3.29886E+01 3.61E-03 1.000 1.25 1.10 100 3.07E-06 1.48E-06 1.43E-06 1.61E-10 1.18E-09 1.10E+00 1.664E+00 7.221E-02 3.08242E+01 3.91E-03 1.000 1.25 1.28 111 8.48E-07 5.13E-07 3.23E-07 5.97E-10 4.03E-10 1.10E+00 1.665E+00 7.293E-02 3.08241E+01 3.91E-03 1.000 1.25 1.29 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.70E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.321E-07 d(ln R0)/dt = 5.342E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.82E-02 6.67E-02 1.41E-04 1.27E-08 4.21E-08 1.10E+00 1.665E+00 7.298E-02 3.08254E+01 3.93E-03 1.000 1.25 1.30 100 6.88E-07 4.63E-07 1.45E-08 3.57E-12 1.78E-11 1.10E+00 1.669E+00 7.541E-02 2.86533E+01 4.23E-03 0.964 1.25 1.26 200 1.41E-08 3.94E-09 7.18E-10 6.54E-14 1.48E-13 1.10E+00 1.670E+00 7.548E-02 2.82731E+01 4.29E-03 0.958 1.25 1.25 300 3.34E-09 8.00E-10 5.42E-11 2.22E-15 5.76E-15 1.10E+00 1.670E+00 7.545E-02 2.80889E+01 4.32E-03 0.955 1.25 1.25 400 9.93E-10 2.30E-10 8.11E-12 1.75E-16 4.51E-16 1.10E+00 1.670E+00 7.547E-02 2.79850E+01 4.34E-03 0.953 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.17E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.360E-05 d(ln R0)/dt = 2.296E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.49 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.075278 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.1592E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2982E-01 %get_rygrid: no grids for Psi(R,Y) %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %inital: nstep0= 99 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 9.40426E-01 CPU TIME= 1.44278E+00 SECONDS. DT= 5.88108E-04 %INITAL: pseudo time advanced to 9.408826E-01 %inital: nstep0= 100 %inital: nstep0= 101 %inital: nstep0= 102 %INITAL: pseudo time advanced to 9.422531E-01 %inital: nstep0= 103 %inital: nstep0= 104 %inital: nstep0= 105 %INITAL: pseudo time advanced to 9.436236E-01 %inital: nstep0= 106 %inital: nstep0= 107 %inital: nstep0= 108 %INITAL: pseudo time advanced to 9.449941E-01 %inital: nstep0= 109 %inital: nstep0= 110 %inital: nstep0= 111 %INITAL: pseudo time advanced to 9.463646E-01 %inital: nstep0= 112 %inital: nstep0= 113 %inital: nstep0= 114 %INITAL: pseudo time advanced to 9.477351E-01 %inital: nstep0= 115 %inital: nstep0= 116 %inital: nstep0= 117 %INITAL: pseudo time advanced to 9.491056E-01 %inital: nstep0= 118 %inital: nstep0= 119 %inital: nstep0= 120 %INITAL: pseudo time advanced to 9.504761E-01 %inital: nstep0= 121 %inital: nstep0= 122 %inital: nstep0= 123 %INITAL: pseudo time advanced to 9.518466E-01 %inital: nstep0= 124 %inital: nstep0= 125 %inital: nstep0= 126 %INITAL: pseudo time advanced to 9.532171E-01 %inital: nstep0= 127 %inital: nstep0= 128 %inital: nstep0= 129 %INITAL: pseudo time advanced to 9.545876E-01 %inital: nstep0= 130 %inital: nstep0= 131 %inital: nstep0= 132 %INITAL: pseudo time advanced to 9.559581E-01 %inital: nstep0= 133 %inital: nstep0= 134 %inital: nstep0= 135 %INITAL: pseudo time advanced to 9.573286E-01 %inital: nstep0= 136 %inital: nstep0= 137 %inital: nstep0= 138 %INITAL: pseudo time advanced to 9.586991E-01 %inital: nstep0= 139 %inital: nstep0= 140 %inital: nstep0= 141 %INITAL: pseudo time advanced to 9.600695E-01 % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.869E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6052E+00 0.0000E+00 -2.6890E-02 0.0000E+00 1.6704E+00 7.5470E-02 1 0 4.7902E-01 4.6020E-02 4.6020E-02 8.9981E-01 2 0 3.0047E-02 5.1380E-02 3.1676E-03 -2.3545E-02 3 0 2.5825E-02 -6.0650E-03 -3.7172E-03 -7.5941E-03 4 0 -2.3408E-03 -3.2012E-03 -1.7620E-03 3.5089E-03 5 0 -7.6430E-04 1.3073E-03 1.1969E-03 2.0833E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.63E-01 2.38E-02 4.03E-02 3.66E-03 3.79E-04 1.10E+00 1.670E+00 7.547E-02 3.28942E+01 3.60E-03 1.000 1.25 1.07 100 3.30E-06 1.66E-06 1.42E-06 1.77E-10 1.20E-09 1.10E+00 1.665E+00 7.237E-02 3.07671E+01 3.88E-03 1.000 1.25 1.25 111 9.03E-07 5.52E-07 3.31E-07 6.40E-10 4.13E-10 1.10E+00 1.666E+00 7.304E-02 3.07670E+01 3.89E-03 1.000 1.25 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.90E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.351E-07 d(ln R0)/dt = 5.145E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.83E-02 6.89E-02 1.52E-04 1.27E-08 4.28E-08 1.10E+00 1.666E+00 7.308E-02 3.07684E+01 3.91E-03 1.000 1.25 1.27 100 6.46E-07 3.97E-07 1.44E-08 3.86E-12 1.97E-11 1.10E+00 1.669E+00 7.535E-02 2.98154E+01 4.04E-03 0.984 1.25 1.25 200 1.58E-08 4.32E-09 8.94E-10 7.76E-14 1.77E-13 1.10E+00 1.670E+00 7.550E-02 2.93496E+01 4.11E-03 0.977 1.25 1.25 300 4.15E-09 9.37E-10 7.49E-11 3.01E-15 7.76E-15 1.10E+00 1.670E+00 7.546E-02 2.91406E+01 4.14E-03 0.973 1.25 1.25 400 1.27E-09 2.85E-10 1.10E-11 2.41E-16 6.09E-16 1.10E+00 1.670E+00 7.548E-02 2.90162E+01 4.15E-03 0.971 1.25 1.25 420 9.95E-10 2.42E-10 7.88E-12 1.68E-16 3.99E-16 1.10E+00 1.670E+00 7.548E-02 2.90012E+01 4.16E-03 0.971 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.38E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.397E-05 d(ln R0)/dt = 1.857E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.52 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.073924 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.3692E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3043E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.869E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6049E+00 0.0000E+00 -2.7111E-02 0.0000E+00 1.6704E+00 7.5470E-02 1 0 4.7889E-01 4.6076E-02 4.6076E-02 8.9969E-01 2 0 3.0156E-02 5.1501E-02 3.0990E-03 -2.3628E-02 3 0 2.5849E-02 -6.0995E-03 -3.7657E-03 -7.6002E-03 4 0 -2.3409E-03 -3.2157E-03 -1.7739E-03 3.5209E-03 5 0 -7.5354E-04 1.2931E-03 1.1971E-03 2.0846E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.64E-01 2.40E-02 4.05E-02 3.66E-03 3.81E-04 1.10E+00 1.670E+00 7.547E-02 3.29108E+01 3.59E-03 1.000 1.25 1.07 100 3.10E-06 1.54E-06 1.36E-06 1.64E-10 1.17E-09 1.10E+00 1.664E+00 7.230E-02 3.07766E+01 3.88E-03 1.000 1.25 1.25 111 8.65E-07 5.20E-07 3.20E-07 6.26E-10 4.10E-10 1.10E+00 1.665E+00 7.298E-02 3.07765E+01 3.88E-03 1.000 1.25 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.00E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.411E-07 d(ln R0)/dt = 5.286E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.84E-02 6.90E-02 1.52E-04 1.28E-08 4.28E-08 1.10E+00 1.665E+00 7.302E-02 3.07779E+01 3.91E-03 1.000 1.25 1.27 100 6.55E-07 3.98E-07 1.46E-08 3.99E-12 2.03E-11 1.10E+00 1.669E+00 7.532E-02 2.99234E+01 4.02E-03 0.986 1.25 1.26 200 1.61E-08 4.44E-09 9.20E-10 7.95E-14 1.80E-13 1.10E+00 1.670E+00 7.547E-02 2.94504E+01 4.09E-03 0.978 1.25 1.25 300 4.23E-09 9.53E-10 7.70E-11 3.11E-15 7.98E-15 1.10E+00 1.670E+00 7.543E-02 2.92388E+01 4.12E-03 0.975 1.25 1.25 400 1.29E-09 2.91E-10 1.13E-11 2.48E-16 6.27E-16 1.10E+00 1.670E+00 7.545E-02 2.91123E+01 4.14E-03 0.973 1.25 1.25 425 9.92E-10 2.22E-10 7.39E-12 1.51E-16 3.68E-16 1.10E+00 1.670E+00 7.545E-02 2.90936E+01 4.14E-03 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.42E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.378E-05 d(ln R0)/dt = 1.790E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.52 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.073798 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.4492E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2982E-01 %get_rygrid: no grids for Psi(R,Y) %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %inital: nstep0= 142 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 9.60070E-01 CPU TIME= 1.48377E+00 SECONDS. DT= 5.71039E-04 %inital: nstep0= 143 %inital: nstep0= 144 %INITAL: pseudo time advanced to 9.614301E-01 %inital: nstep0= 145 %inital: nstep0= 146 %inital: nstep0= 147 %INITAL: pseudo time advanced to 9.627560E-01 %inital: nstep0= 148 %inital: nstep0= 149 %inital: nstep0= 150 %INITAL: pseudo time advanced to 9.640118E-01 %inital: nstep0= 151 %inital: nstep0= 152 %inital: nstep0= 153 %INITAL: pseudo time advanced to 9.652371E-01 %inital: nstep0= 154 %inital: nstep0= 155 %inital: nstep0= 156 %INITAL: pseudo time advanced to 9.664470E-01 %inital: nstep0= 157 %inital: nstep0= 158 %inital: nstep0= 159 %INITAL: pseudo time advanced to 9.676442E-01 %inital: nstep0= 160 %inital: nstep0= 161 %inital: nstep0= 162 %INITAL: pseudo time advanced to 9.688408E-01 %inital: nstep0= 163 %inital: nstep0= 164 %inital: nstep0= 165 %INITAL: pseudo time advanced to 9.700362E-01 %inital: nstep0= 166 %inital: nstep0= 167 %inital: nstep0= 168 %INITAL: pseudo time advanced to 9.712317E-01 %inital: nstep0= 169 %inital: nstep0= 170 %inital: nstep0= 171 %INITAL: pseudo time advanced to 9.724271E-01 %inital: nstep0= 172 %inital: nstep0= 173 %inital: nstep0= 174 %INITAL: pseudo time advanced to 9.736225E-01 %inital: nstep0= 175 %inital: nstep0= 176 %inital: nstep0= 177 %INITAL: pseudo time advanced to 9.748180E-01 %inital: nstep0= 178 %inital: nstep0= 179 %inital: nstep0= 180 %INITAL: pseudo time advanced to 9.760134E-01 %inital: nstep0= 181 %inital: nstep0= 182 %inital: nstep0= 183 %INITAL: pseudo time advanced to 9.772088E-01 %inital: nstep0= 184 %inital: nstep0= 185 %inital: nstep0= 186 %INITAL: pseudo time advanced to 9.784043E-01 %inital: nstep0= 187 %inital: nstep0= 188 %inital: nstep0= 189 %INITAL: pseudo time advanced to 9.795997E-01 %inital: nstep0= 190 %inital: nstep0= 191 % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.868E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6052E+00 0.0000E+00 -2.6890E-02 0.0000E+00 1.6701E+00 7.5454E-02 1 0 4.7902E-01 4.6020E-02 4.6020E-02 8.9981E-01 2 0 3.0047E-02 5.1380E-02 3.1676E-03 -2.3545E-02 3 0 2.5825E-02 -6.0650E-03 -3.7172E-03 -7.5941E-03 4 0 -2.3408E-03 -3.2012E-03 -1.7620E-03 3.5089E-03 5 0 -7.6430E-04 1.3073E-03 1.1969E-03 2.0833E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.63E-01 2.37E-02 4.02E-02 3.65E-03 3.79E-04 1.10E+00 1.670E+00 7.545E-02 3.28685E+01 3.59E-03 1.000 1.25 1.06 100 3.75E-06 1.92E-06 1.55E-06 2.08E-10 1.28E-09 1.10E+00 1.665E+00 7.249E-02 3.07505E+01 3.88E-03 1.000 1.25 1.24 113 9.03E-07 4.96E-07 2.91E-07 9.49E-11 6.80E-10 1.10E+00 1.666E+00 7.321E-02 3.07503E+01 3.88E-03 1.000 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.00E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.794E-07 d(ln R0)/dt = 5.688E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.96E-02 7.08E-02 1.56E-04 1.16E-08 4.46E-08 1.10E+00 1.666E+00 7.326E-02 3.07518E+01 3.90E-03 1.000 1.25 1.26 100 6.54E-07 3.78E-07 1.43E-08 3.96E-12 2.02E-11 1.10E+00 1.669E+00 7.531E-02 3.02137E+01 3.98E-03 0.991 1.25 1.25 200 1.66E-08 4.54E-09 9.71E-10 8.30E-14 1.90E-13 1.10E+00 1.670E+00 7.550E-02 2.97195E+01 4.04E-03 0.983 1.25 1.25 300 4.50E-09 9.95E-10 8.45E-11 3.39E-15 8.73E-15 1.10E+00 1.670E+00 7.545E-02 2.95016E+01 4.07E-03 0.980 1.25 1.25 400 1.38E-09 3.10E-10 1.23E-11 2.73E-16 6.82E-16 1.10E+00 1.670E+00 7.548E-02 2.93691E+01 4.09E-03 0.977 1.25 1.25 428 9.92E-10 2.36E-10 7.86E-12 1.69E-16 3.71E-16 1.10E+00 1.670E+00 7.548E-02 2.93465E+01 4.10E-03 0.977 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.57E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.560E-05 d(ln R0)/dt = 1.893E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.54 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.073358 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.6391E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.3043E-01 %get_rygrid: no grids for Psi(R,Y) % MHDEQ: TG1= 1.000000 ; TG2= 1.002200 ; DTG= 2.200E-03 %vmec6 startup: coarse radial resolution: 11 ..non-startup resolution will be: 11 %vmec6 startup: fine radial resolution: 31 ..non-startup resolution will be: 31 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.868E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6049E+00 0.0000E+00 -2.7111E-02 0.0000E+00 1.6701E+00 7.5454E-02 1 0 4.7889E-01 4.6076E-02 4.6076E-02 8.9969E-01 2 0 3.0156E-02 5.1501E-02 3.0990E-03 -2.3628E-02 3 0 2.5849E-02 -6.0995E-03 -3.7657E-03 -7.6002E-03 4 0 -2.3409E-03 -3.2157E-03 -1.7739E-03 3.5209E-03 5 0 -7.5354E-04 1.2931E-03 1.1971E-03 2.0846E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.63E-01 2.39E-02 4.04E-02 3.65E-03 3.80E-04 1.10E+00 1.670E+00 7.545E-02 3.28850E+01 3.58E-03 1.000 1.25 1.06 100 3.42E-06 1.73E-06 1.45E-06 1.83E-10 1.22E-09 1.10E+00 1.664E+00 7.238E-02 3.07600E+01 3.87E-03 1.000 1.25 1.24 111 9.38E-07 5.75E-07 3.38E-07 6.57E-10 4.21E-10 1.10E+00 1.666E+00 7.304E-02 3.07599E+01 3.87E-03 1.000 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.50E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.355E-07 d(ln R0)/dt = 5.073E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.92E-02 7.01E-02 1.57E-04 1.29E-08 4.31E-08 1.10E+00 1.666E+00 7.308E-02 3.07613E+01 3.90E-03 1.000 1.25 1.26 100 6.60E-07 3.78E-07 1.47E-08 4.12E-12 2.09E-11 1.10E+00 1.669E+00 7.529E-02 3.03264E+01 3.96E-03 0.993 1.25 1.26 200 1.67E-08 4.62E-09 9.90E-10 8.40E-14 1.90E-13 1.10E+00 1.670E+00 7.547E-02 2.98207E+01 4.03E-03 0.985 1.25 1.25 300 4.57E-09 1.01E-09 8.61E-11 3.48E-15 8.90E-15 1.10E+00 1.670E+00 7.543E-02 2.96008E+01 4.06E-03 0.981 1.25 1.25 400 1.40E-09 3.17E-10 1.26E-11 2.78E-16 6.95E-16 1.10E+00 1.670E+00 7.545E-02 2.94663E+01 4.08E-03 0.979 1.25 1.25 430 9.98E-10 2.35E-10 7.65E-12 1.55E-16 3.78E-16 1.10E+00 1.670E+00 7.545E-02 2.94420E+01 4.08E-03 0.978 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.50E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.548E-05 d(ln R0)/dt = 1.834E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.53 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.073278 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.5491E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2982E-01 %get_rygrid: no grids for Psi(R,Y) %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %inital: nstep0= 192 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 0 TA= 9.80397E-01 CPU TIME= 1.48278E+00 SECONDS. DT= 4.98096E-04 %INITAL: pseudo time advanced to 9.807951E-01 %inital: nstep0= 193 %inital: nstep0= 194 %inital: nstep0= 195 %INITAL: pseudo time advanced to 9.819905E-01 %inital: nstep0= 196 %inital: nstep0= 197 %inital: nstep0= 198 %INITAL: pseudo time advanced to 9.831859E-01 %inital: nstep0= 199 %inital: nstep0= 200 %inital: nstep0= 201 %INITAL: pseudo time advanced to 9.843813E-01 %inital: nstep0= 202 %inital: nstep0= 203 %inital: nstep0= 204 %INITAL: pseudo time advanced to 9.855767E-01 %inital: nstep0= 205 %inital: nstep0= 206 %inital: nstep0= 207 %INITAL: pseudo time advanced to 9.867721E-01 %inital: nstep0= 208 %inital: nstep0= 209 %inital: nstep0= 210 %INITAL: pseudo time advanced to 9.879675E-01 %inital: nstep0= 211 %inital: nstep0= 212 %inital: nstep0= 213 %INITAL: pseudo time advanced to 9.891629E-01 %inital: nstep0= 214 %inital: nstep0= 215 %inital: nstep0= 216 %INITAL: pseudo time advanced to 9.903583E-01 %inital: nstep0= 217 %inital: nstep0= 218 %inital: nstep0= 219 %INITAL: pseudo time advanced to 9.915537E-01 %inital: nstep0= 220 %inital: nstep0= 221 %inital: nstep0= 222 %INITAL: pseudo time advanced to 9.927491E-01 %inital: nstep0= 223 %inital: nstep0= 224 %inital: nstep0= 225 %INITAL: pseudo time advanced to 9.939445E-01 %inital: nstep0= 226 %inital: nstep0= 227 %inital: nstep0= 228 %INITAL: pseudo time advanced to 9.951398E-01 %inital: nstep0= 229 %inital: nstep0= 230 %inital: nstep0= 231 %INITAL: pseudo time advanced to 9.963352E-01 %inital: nstep0= 232 %inital: nstep0= 233 %inital: nstep0= 234 %INITAL: pseudo time advanced to 9.975306E-01 %inital: nstep0= 235 %inital: nstep0= 236 %inital: nstep0= 237 %INITAL: pseudo time advanced to 9.987260E-01 %inital: nstep0= 238 %inital: nstep0= 239 %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. %EFIELD WARNING: NLVSUR TEMPORARILY DISABLED, BECAUSE OF NEFLD= 7 OPTION SELECTION. sce_equil_init: Equilibration feature not active (noption_equil <= 0 in namelist). trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0898332595825195 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5917E+00 3.0064E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. cpu time (sec) in nubeam_ctrl_init: 2.9602E-03 trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 3.5748E+20 nbi_getprofiles ne*dVol sum (ions): 3.5748E+20 NBSTART... % nbi_alloc2_init: nbi_alloc2 done % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL depall_mpi_split initinal done %DEPALL nuse(isb)= 0 %DEPALL specie #1 -> 0 - 0 (killed) + 6367 (dep) = 6367 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 133 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 411 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 643 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 681 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 716 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 924 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 938 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1042 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1047 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1332 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1338 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1427 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1480 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1573 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1646 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1728 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1822 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1933 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2005 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2034 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2086 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2127 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2624 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2638 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2886 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2978 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3051 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3172 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3183 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG= 6367 SPL= 0 TOT= 5456 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %fpwrnml: starting file: 18941A02FPPRF.DATA %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1 TA= 1.00000E+00 CPU TIME= 2.80054E+00 SECONDS. DT= 4.98081E-04 %check_save_state: PBS_JOBID = 184352 %check_save_state: QSHARE=/p/transpgrid/qshare %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.057E+03 MB. --> plasma_hash("gframe"): TA= 1.000000E+00 NSTEP= 1 Hash code: 18621341 ->PRGCHK: bdy curvature ratio at t= 1.0050E+00 seconds is: 1.2904E-01 % MHDEQ: TG1= 1.000000 ; TG2= 1.005000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.865E+00 1.258E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6046E+00 0.0000E+00 -2.7392E-02 0.0000E+00 1.6700E+00 7.5450E-02 1 0 4.7873E-01 4.6147E-02 4.6147E-02 8.9954E-01 2 0 3.0295E-02 5.1654E-02 3.0117E-03 -2.3733E-02 3 0 2.5881E-02 -6.1435E-03 -3.8273E-03 -7.6080E-03 4 0 -2.3410E-03 -3.2341E-03 -1.7890E-03 3.5363E-03 5 0 -7.3985E-04 1.2751E-03 1.1973E-03 2.0863E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.64E-01 2.41E-02 4.06E-02 3.66E-03 3.82E-04 1.10E+00 1.670E+00 7.545E-02 3.28321E+01 3.57E-03 1.000 1.26 1.05 100 3.21E-06 1.60E-06 1.39E-06 1.68E-10 1.19E-09 1.10E+00 1.664E+00 7.231E-02 3.07054E+01 3.86E-03 1.000 1.26 1.24 111 9.02E-07 5.42E-07 3.27E-07 6.44E-10 4.18E-10 1.10E+00 1.665E+00 7.298E-02 3.07053E+01 3.86E-03 1.000 1.26 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.425E-07 d(ln R0)/dt = 5.199E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.96E-02 7.05E-02 1.59E-04 1.30E-08 4.32E-08 1.10E+00 1.665E+00 7.302E-02 3.07067E+01 3.88E-03 1.000 1.26 1.26 100 5.90E-07 3.21E-07 1.42E-08 3.92E-12 2.01E-11 1.10E+00 1.669E+00 7.528E-02 3.05905E+01 3.90E-03 0.998 1.26 1.26 200 1.64E-08 4.56E-09 9.75E-10 8.06E-14 1.82E-13 1.10E+00 1.670E+00 7.542E-02 3.00675E+01 3.97E-03 0.990 1.26 1.26 300 4.66E-09 1.02E-09 8.67E-11 3.42E-15 8.73E-15 1.10E+00 1.670E+00 7.539E-02 2.98421E+01 4.00E-03 0.986 1.26 1.26 400 1.42E-09 3.25E-10 1.28E-11 2.77E-16 6.95E-16 1.10E+00 1.670E+00 7.541E-02 2.97050E+01 4.02E-03 0.984 1.26 1.26 434 9.95E-10 2.22E-10 7.17E-12 1.55E-16 3.35E-16 1.10E+00 1.670E+00 7.541E-02 2.96771E+01 4.02E-03 0.983 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.45E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.547E-05 d(ln R0)/dt = 1.663E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.072401 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6989E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2904E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.000000 TO TG2= 1.005000 @ NSTEP 1 GFRAME TG2 MOMENTS CHECKSUM: 9.1938079023699E+03 GASFL called from sbrtn pbal GASFL called from sbrtn pbal %nclass_geometry: Deallocating module variables %nclass_geometry: Allocating module variables %nclass_geometry_mod: replacing geometry module variables in the ncbox %nclass_driver: Deallocating module variables %nclass_driver: Allocating module variables %nclass_driver_mod: replacing geometry module variables in the ncbox %MFRCHK - LABEL "QMINORB", # 13= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 3.92364E-44 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 6.26464E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.34371E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.57842E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.34371E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.57842E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0004981E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.054E+03 MB. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 7 TA= 1.00237E+00 CPU TIME= 2.28766E+00 SECONDS. DT= 5.45082E-04 --> plasma_hash("gframe"): TA= 1.005000E+00 NSTEP= 13 Hash code: 107258561 ->PRGCHK: bdy curvature ratio at t= 1.0100E+00 seconds is: 1.2765E-01 % MHDEQ: TG1= 1.005000 ; TG2= 1.010000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.863E+00 1.263E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6041E+00 0.0000E+00 -2.7894E-02 0.0000E+00 1.6697E+00 7.5410E-02 1 0 4.7845E-01 4.6273E-02 4.6273E-02 8.9927E-01 2 0 3.0544E-02 5.1929E-02 2.8559E-03 -2.3921E-02 3 0 2.5936E-02 -6.2220E-03 -3.9374E-03 -7.6218E-03 4 0 -2.3411E-03 -3.2669E-03 -1.8161E-03 3.5637E-03 5 0 -7.1540E-04 1.2429E-03 1.1977E-03 2.0893E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.65E-01 2.44E-02 4.09E-02 3.66E-03 3.86E-04 1.10E+00 1.670E+00 7.541E-02 3.28076E+01 3.85E-03 1.000 1.26 1.05 100 3.01E-06 1.45E-06 1.34E-06 1.61E-10 1.13E-09 1.10E+00 1.664E+00 7.247E-02 3.06774E+01 4.16E-03 1.000 1.26 1.24 111 8.72E-07 5.45E-07 3.19E-07 6.42E-10 4.05E-10 1.10E+00 1.665E+00 7.312E-02 3.06773E+01 4.16E-03 1.000 1.26 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.403E-07 d(ln R0)/dt = 5.222E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.64E-02 6.96E-02 1.54E-04 1.18E-08 3.89E-08 1.10E+00 1.665E+00 7.316E-02 3.06785E+01 4.19E-03 1.000 1.26 1.26 100 5.73E-07 3.03E-07 1.45E-08 3.90E-12 1.91E-11 1.10E+00 1.669E+00 7.531E-02 3.05328E+01 4.21E-03 0.998 1.26 1.26 200 1.72E-08 4.75E-09 1.05E-09 8.44E-14 1.89E-13 1.10E+00 1.670E+00 7.538E-02 2.99858E+01 4.29E-03 0.989 1.26 1.26 300 5.01E-09 1.05E-09 9.21E-11 3.60E-15 8.82E-15 1.10E+00 1.670E+00 7.536E-02 2.97515E+01 4.32E-03 0.985 1.26 1.26 400 1.47E-09 3.52E-10 1.35E-11 2.99E-16 7.42E-16 1.10E+00 1.670E+00 7.538E-02 2.96145E+01 4.34E-03 0.983 1.26 1.26 437 9.78E-10 2.32E-10 7.26E-12 1.42E-16 3.64E-16 1.10E+00 1.670E+00 7.538E-02 2.95828E+01 4.35E-03 0.982 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.52E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.609E-05 d(ln R0)/dt = 1.660E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.075023 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7886E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2765E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.005000 TO TG2= 1.010000 @ NSTEP 13 GFRAME TG2 MOMENTS CHECKSUM: 9.1912910336500E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 16 TA= 1.00643E+00 CPU TIME= 2.39261E+00 SECONDS. DT= 5.83140E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.108856201171875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5927E+00 3.0071E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 3.8106E+20 nbi_getprofiles ne*dVol sum (ions): 3.8106E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 5456 - 0 (killed) + 12630 (dep) = 18086 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 756 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 1546 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3332 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3336 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3644 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4176 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4246 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4297 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4386 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4410 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4530 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4840 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4923 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5223 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5445 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5832 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5863 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5874 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5884 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6023 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6194 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6283 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6623 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6714 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6732 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6858 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6914 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7057 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7076 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7101 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7200 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7668 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7674 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7730 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7736 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7808 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8390 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8403 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8435 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8528 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8616 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8857 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8890 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9040 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9123 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9214 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=18086 SPL= 0 TOT=15572 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 23 TA= 1.01000E+00 CPU TIME= 3.34644E+00 SECONDS. DT= 4.96630E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.057E+03 MB. --> plasma_hash("gframe"): TA= 1.010000E+00 NSTEP= 23 Hash code: 62341318 ->PRGCHK: bdy curvature ratio at t= 1.0150E+00 seconds is: 1.2627E-01 % MHDEQ: TG1= 1.010000 ; TG2= 1.015000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.861E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6036E+00 0.0000E+00 -2.8396E-02 0.0000E+00 1.6698E+00 7.5383E-02 1 0 4.7816E-01 4.6399E-02 4.6399E-02 8.9901E-01 2 0 3.0793E-02 5.2203E-02 2.7000E-03 -2.4108E-02 3 0 2.5992E-02 -6.3004E-03 -4.0475E-03 -7.6356E-03 4 0 -2.3413E-03 -3.2997E-03 -1.8431E-03 3.5912E-03 5 0 -6.9095E-04 1.2107E-03 1.1982E-03 2.0922E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.67E-01 2.48E-02 4.13E-02 3.68E-03 3.89E-04 1.10E+00 1.670E+00 7.538E-02 3.27842E+01 4.32E-03 1.000 1.27 1.06 100 2.78E-06 1.30E-06 1.28E-06 1.51E-10 1.08E-09 1.10E+00 1.664E+00 7.262E-02 3.06401E+01 4.66E-03 1.000 1.27 1.25 111 8.52E-07 5.37E-07 3.15E-07 6.42E-10 3.90E-10 1.10E+00 1.666E+00 7.329E-02 3.06400E+01 4.67E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.449E-07 d(ln R0)/dt = 5.408E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.62E-02 6.98E-02 1.55E-04 1.13E-08 3.68E-08 1.10E+00 1.666E+00 7.333E-02 3.06411E+01 4.70E-03 1.000 1.27 1.27 100 6.07E-07 3.05E-07 1.51E-08 4.05E-12 1.87E-11 1.10E+00 1.669E+00 7.548E-02 3.05988E+01 4.71E-03 0.999 1.27 1.27 200 1.83E-08 5.17E-09 1.13E-09 8.96E-14 1.99E-13 1.10E+00 1.670E+00 7.553E-02 3.00307E+01 4.80E-03 0.990 1.27 1.27 300 5.46E-09 1.13E-09 1.01E-10 4.01E-15 9.62E-15 1.10E+00 1.670E+00 7.553E-02 2.97886E+01 4.84E-03 0.986 1.27 1.27 400 1.54E-09 3.83E-10 1.42E-11 3.14E-16 7.77E-16 1.10E+00 1.670E+00 7.555E-02 2.96442E+01 4.86E-03 0.984 1.27 1.27 441 9.86E-10 2.28E-10 7.07E-12 1.43E-16 3.03E-16 1.10E+00 1.670E+00 7.555E-02 2.96065E+01 4.87E-03 0.983 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.53E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.695E-05 d(ln R0)/dt = 1.753E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.077872 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7792E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2627E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.010000 TO TG2= 1.015000 @ NSTEP 23 GFRAME TG2 MOMENTS CHECKSUM: 9.1902819056282E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 23 TA= 1.01000E+00 CPU TIME= 2.35474E+00 SECONDS. DT= 4.96630E-04 %MFRCHK - LABEL "QMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 6.07854E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.20402E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.28807E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.20402E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.28807E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 30 TA= 1.01214E+00 CPU TIME= 2.19165E+00 SECONDS. DT= 4.67841E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 31 TA= 1.01249E+00 CPU TIME= 2.23761E+00 SECONDS. DT= 4.33138E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 37 TA= 1.01461E+00 CPU TIME= 2.14172E+00 SECONDS. DT= 3.87326E-04 --> plasma_hash("gframe"): TA= 1.015000E+00 NSTEP= 38 Hash code: 45992372 ->PRGCHK: bdy curvature ratio at t= 1.0200E+00 seconds is: 1.2490E-01 % MHDEQ: TG1= 1.015000 ; TG2= 1.020000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.858E+00 1.276E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6030E+00 0.0000E+00 -2.8898E-02 0.0000E+00 1.6703E+00 7.5552E-02 1 0 4.7788E-01 4.6526E-02 4.6526E-02 8.9874E-01 2 0 3.1042E-02 5.2477E-02 2.5442E-03 -2.4296E-02 3 0 2.6048E-02 -6.3789E-03 -4.1577E-03 -7.6494E-03 4 0 -2.3415E-03 -3.3325E-03 -1.8702E-03 3.6186E-03 5 0 -6.6650E-04 1.1784E-03 1.1986E-03 2.0952E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.69E-01 2.54E-02 4.19E-02 3.71E-03 3.94E-04 1.10E+00 1.670E+00 7.555E-02 3.27657E+01 4.85E-03 1.000 1.28 1.06 100 2.45E-06 1.13E-06 1.20E-06 1.40E-10 1.04E-09 1.10E+00 1.664E+00 7.266E-02 3.05931E+01 5.25E-03 1.000 1.28 1.25 111 8.27E-07 4.99E-07 3.07E-07 6.32E-10 3.67E-10 1.10E+00 1.666E+00 7.338E-02 3.05930E+01 5.25E-03 1.000 1.28 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.00E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.605E-07 d(ln R0)/dt = 5.748E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.64E-02 7.00E-02 1.56E-04 1.13E-08 3.62E-08 1.10E+00 1.666E+00 7.343E-02 3.05937E+01 5.29E-03 1.000 1.28 1.27 100 5.67E-07 2.64E-07 1.53E-08 4.04E-12 1.79E-11 1.10E+00 1.670E+00 7.574E-02 3.06744E+01 5.28E-03 1.001 1.28 1.28 200 1.85E-08 5.29E-09 1.15E-09 8.77E-14 1.94E-13 1.10E+00 1.671E+00 7.580E-02 3.00929E+01 5.39E-03 0.992 1.28 1.28 300 5.53E-09 1.16E-09 1.04E-10 4.18E-15 9.97E-15 1.10E+00 1.671E+00 7.582E-02 2.98499E+01 5.43E-03 0.988 1.28 1.28 400 1.51E-09 3.80E-10 1.39E-11 2.95E-16 7.38E-16 1.10E+00 1.671E+00 7.585E-02 2.97001E+01 5.46E-03 0.985 1.28 1.28 438 9.88E-10 2.30E-10 7.00E-12 1.31E-16 3.27E-16 1.10E+00 1.671E+00 7.585E-02 2.96638E+01 5.47E-03 0.985 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.53E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.808E-05 d(ln R0)/dt = 1.820E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.53 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.061726 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.5682E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2490E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.015000 TO TG2= 1.020000 @ NSTEP 38 GFRAME TG2 MOMENTS CHECKSUM: 9.1903407990289E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 38 TA= 1.01500E+00 CPU TIME= 2.14563E+00 SECONDS. DT= 4.54524E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 39 TA= 1.01533E+00 CPU TIME= 2.12164E+00 SECONDS. DT= 4.10658E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 45 TA= 1.01761E+00 CPU TIME= 2.14264E+00 SECONDS. DT= 4.33427E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.100830078125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5945E+00 3.0078E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.0833E+20 nbi_getprofiles ne*dVol sum (ions): 4.0833E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15572 - 0 (killed) + 8269 (dep) = 23841 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0020E+00 %ORBALL: In processor 0: orbit # IORB= 3544 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3917 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5052 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5310 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6059 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0018E+00 %ORBALL: In processor 0: orbit # IORB= 7950 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7980 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8004 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8179 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8225 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8349 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8371 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8419 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8489 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8579 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8601 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8723 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8746 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8755 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9274 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9301 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9324 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9543 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9827 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9944 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10338 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10442 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10511 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10597 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10663 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10667 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10705 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10712 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11133 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11179 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11285 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11387 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11630 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11645 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11733 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11786 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11901 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11980 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=23841 SPL= 0 TOT=19675 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51 TA= 1.02000E+00 CPU TIME= 3.24048E+00 SECONDS. DT= 4.50998E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.057E+03 MB. --> plasma_hash("gframe"): TA= 1.020000E+00 NSTEP= 51 Hash code: 4816349 ->PRGCHK: bdy curvature ratio at t= 1.0250E+00 seconds is: 1.2353E-01 % MHDEQ: TG1= 1.020000 ; TG2= 1.025000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.854E+00 1.279E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6025E+00 0.0000E+00 -2.9400E-02 0.0000E+00 1.6711E+00 7.5847E-02 1 0 4.7759E-01 4.6652E-02 4.6652E-02 8.9848E-01 2 0 3.1291E-02 5.2751E-02 2.3883E-03 -2.4484E-02 3 0 2.6104E-02 -6.4574E-03 -4.2678E-03 -7.6632E-03 4 0 -2.3417E-03 -3.3654E-03 -1.8972E-03 3.6460E-03 5 0 -6.4205E-04 1.1462E-03 1.1991E-03 2.0982E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.73E-01 2.62E-02 4.26E-02 3.75E-03 4.01E-04 1.10E+00 1.671E+00 7.585E-02 3.27245E+01 5.37E-03 1.000 1.28 1.06 100 2.93E-06 1.40E-06 1.44E-06 1.44E-10 1.15E-09 1.10E+00 1.665E+00 7.296E-02 3.05146E+01 5.82E-03 1.000 1.28 1.25 112 9.04E-07 4.63E-07 3.22E-07 2.94E-10 5.66E-10 1.10E+00 1.666E+00 7.369E-02 3.05145E+01 5.82E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.89E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.694E-07 d(ln R0)/dt = 5.700E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 4.76E-02 7.18E-02 1.59E-04 1.07E-08 3.55E-08 1.10E+00 1.666E+00 7.374E-02 3.05147E+01 5.87E-03 1.000 1.28 1.27 100 5.59E-07 2.56E-07 1.55E-08 4.06E-12 1.66E-11 1.10E+00 1.671E+00 7.596E-02 3.05788E+01 5.87E-03 1.001 1.28 1.28 200 1.87E-08 5.44E-09 1.18E-09 8.85E-14 1.95E-13 1.10E+00 1.672E+00 7.608E-02 3.00040E+01 5.98E-03 0.992 1.28 1.28 300 5.51E-09 1.17E-09 1.06E-10 4.33E-15 1.04E-14 1.10E+00 1.672E+00 7.613E-02 2.97612E+01 6.03E-03 0.988 1.28 1.28 400 1.49E-09 3.72E-10 1.38E-11 2.98E-16 7.40E-16 1.10E+00 1.672E+00 7.615E-02 2.96114E+01 6.06E-03 0.985 1.28 1.28 434 9.90E-10 2.37E-10 7.60E-12 1.61E-16 3.13E-16 1.10E+00 1.672E+00 7.615E-02 2.95781E+01 6.07E-03 0.985 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.41E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.950E-05 d(ln R0)/dt = 2.022E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.52 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.053325 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.4102E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2353E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.020000 TO TG2= 1.025000 @ NSTEP 51 GFRAME TG2 MOMENTS CHECKSUM: 9.1906361929587E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 51 TA= 1.02000E+00 CPU TIME= 2.24487E+00 SECONDS. DT= 4.50998E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 52 TA= 1.02032E+00 CPU TIME= 2.18665E+00 SECONDS. DT= 4.01342E-04 %MFRCHK - LABEL "QMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.57128E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.21507E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.57128E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.21507E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 5.50988E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.32675E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 5.50988E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.32675E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 58 TA= 1.02255E+00 CPU TIME= 2.11487E+00 SECONDS. DT= 4.23896E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 64 TA= 1.02490E+00 CPU TIME= 2.21558E+00 SECONDS. DT= 1.03628E-04 --> plasma_hash("gframe"): TA= 1.025000E+00 NSTEP= 65 Hash code: 10509555 ->PRGCHK: bdy curvature ratio at t= 1.0300E+00 seconds is: 1.2218E-01 % MHDEQ: TG1= 1.025000 ; TG2= 1.030000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.850E+00 1.282E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6019E+00 0.0000E+00 -2.9902E-02 0.0000E+00 1.6720E+00 7.6148E-02 1 0 4.7731E-01 4.6778E-02 4.6778E-02 8.9821E-01 2 0 3.1540E-02 5.3025E-02 2.2325E-03 -2.4671E-02 3 0 2.6159E-02 -6.5359E-03 -4.3779E-03 -7.6771E-03 4 0 -2.3419E-03 -3.3982E-03 -1.9243E-03 3.6735E-03 5 0 -6.1761E-04 1.1140E-03 1.1995E-03 2.1011E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.77E-01 2.70E-02 4.34E-02 3.79E-03 4.07E-04 1.10E+00 1.672E+00 7.615E-02 3.26911E+01 5.72E-03 1.000 1.28 1.06 100 5.79E-06 3.11E-06 2.80E-06 2.38E-10 1.81E-09 1.10E+00 1.667E+00 7.359E-02 3.04424E+01 6.21E-03 1.000 1.28 1.26 116 9.95E-07 5.38E-07 2.28E-07 1.99E-10 2.33E-10 1.10E+00 1.668E+00 7.446E-02 3.04423E+01 6.22E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.28E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 1.547E-07 d(ln R0)/dt = 1.720E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.13E-02 7.80E-02 1.71E-04 1.05E-08 3.62E-08 1.10E+00 1.668E+00 7.450E-02 3.04427E+01 6.27E-03 1.000 1.28 1.28 100 5.05E-07 2.31E-07 1.55E-08 3.88E-12 1.44E-11 1.10E+00 1.671E+00 7.620E-02 3.04660E+01 6.27E-03 1.000 1.28 1.28 200 1.85E-08 5.55E-09 1.13E-09 8.21E-14 1.80E-13 1.10E+00 1.672E+00 7.633E-02 2.99009E+01 6.39E-03 0.991 1.28 1.28 300 5.62E-09 1.23E-09 1.06E-10 4.42E-15 1.06E-14 1.10E+00 1.672E+00 7.638E-02 2.96638E+01 6.44E-03 0.987 1.28 1.28 400 1.55E-09 3.75E-10 1.39E-11 3.03E-16 7.37E-16 1.10E+00 1.673E+00 7.640E-02 2.95124E+01 6.47E-03 0.985 1.28 1.28 435 9.96E-10 2.43E-10 7.61E-12 1.65E-16 3.05E-16 1.10E+00 1.673E+00 7.640E-02 2.94776E+01 6.48E-03 0.984 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 4.51E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.020E-05 d(ln R0)/dt = 2.315E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.53 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.056431 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 5.5408E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2218E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.025000 TO TG2= 1.030000 @ NSTEP 65 GFRAME TG2 MOMENTS CHECKSUM: 9.1911357127616E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 65 TA= 1.02500E+00 CPU TIME= 2.10083E+00 SECONDS. DT= 4.47051E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 66 TA= 1.02545E+00 CPU TIME= 2.18469E+00 SECONDS. DT= 5.58814E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 72 TA= 1.02796E+00 CPU TIME= 2.10168E+00 SECONDS. DT= 5.92140E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0958251953125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5945E+00 3.0053E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1661E+20 nbi_getprofiles ne*dVol sum (ions): 4.1661E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %depall: avoid RR %DEPALL: ptcl.list was extended from MINB= 12705 to MINB= 13992 %DEPALL specie #1 -> 19675 - 0 (killed) + 6901 (dep) = 26576 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4210 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0004E+00 %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0239E+00 %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0068E+00 %ORBALL: In processor 0: orbit # IORB= 8620 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9901 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9945 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9962 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10224 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10271 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10329 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10389 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10411 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10542 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10603 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10607 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10737 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10812 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10824 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10840 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10941 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10998 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11039 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11163 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11223 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11224 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11276 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11333 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11449 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11480 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11574 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0081E+00 %ORBALL: In processor 0: orbit # IORB= 11591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11690 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11796 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11927 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11963 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11964 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11986 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12045 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12074 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12150 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12153 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12220 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12244 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12300 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12305 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12358 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12361 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12525 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12677 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12754 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12879 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13016 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13260 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=26576 SPL= 0 TOT=21279 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77 TA= 1.03000E+00 CPU TIME= 3.03455E+00 SECONDS. DT= 3.60215E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.058E+03 MB. --> plasma_hash("gframe"): TA= 1.030000E+00 NSTEP= 77 Hash code: 121186920 ->PRGCHK: bdy curvature ratio at t= 1.0350E+00 seconds is: 1.2084E-01 % MHDEQ: TG1= 1.030000 ; TG2= 1.035000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.848E+00 1.281E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6014E+00 0.0000E+00 -3.0404E-02 0.0000E+00 1.6726E+00 7.6405E-02 1 0 4.7702E-01 4.6905E-02 4.6905E-02 8.9795E-01 2 0 3.1789E-02 5.3300E-02 2.0766E-03 -2.4859E-02 3 0 2.6215E-02 -6.6144E-03 -4.4880E-03 -7.6909E-03 4 0 -2.3420E-03 -3.4310E-03 -1.9513E-03 3.7009E-03 5 0 -5.9316E-04 1.0818E-03 1.1999E-03 2.1041E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.80E-01 2.78E-02 4.40E-02 3.82E-03 4.13E-04 1.10E+00 1.673E+00 7.640E-02 3.26870E+01 6.07E-03 1.000 1.28 1.07 100 4.52E-06 2.49E-06 2.28E-06 2.01E-10 1.49E-09 1.10E+00 1.667E+00 7.377E-02 3.04074E+01 6.59E-03 1.000 1.28 1.26 116 8.55E-07 4.56E-07 2.03E-07 1.77E-10 1.93E-10 1.10E+00 1.668E+00 7.466E-02 3.04072E+01 6.60E-03 1.000 1.28 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 1.688E-07 d(ln R0)/dt = 2.101E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.12E-02 7.72E-02 1.71E-04 1.05E-08 3.55E-08 1.10E+00 1.668E+00 7.470E-02 3.04076E+01 6.65E-03 1.000 1.28 1.28 100 4.95E-07 2.29E-07 1.60E-08 4.02E-12 1.46E-11 1.10E+00 1.672E+00 7.647E-02 3.01559E+01 6.71E-03 0.996 1.28 1.28 200 1.91E-08 5.86E-09 1.16E-09 8.07E-14 1.79E-13 1.10E+00 1.673E+00 7.660E-02 2.95675E+01 6.85E-03 0.986 1.28 1.28 300 5.95E-09 1.37E-09 1.13E-10 4.73E-15 1.15E-14 1.10E+00 1.673E+00 7.666E-02 2.93296E+01 6.90E-03 0.982 1.28 1.28 400 1.70E-09 4.03E-10 1.52E-11 3.32E-16 8.11E-16 1.10E+00 1.673E+00 7.668E-02 2.91748E+01 6.94E-03 0.980 1.28 1.28 444 9.77E-10 2.42E-10 6.92E-12 1.30E-16 3.34E-16 1.10E+00 1.673E+00 7.669E-02 2.91315E+01 6.95E-03 0.979 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.64E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.919E-05 d(ln R0)/dt = 2.447E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.067458 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9482E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.2084E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.030000 TO TG2= 1.035000 @ NSTEP 77 GFRAME TG2 MOMENTS CHECKSUM: 9.1937133937464E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 77 TA= 1.03000E+00 CPU TIME= 2.36560E+00 SECONDS. DT= 3.60215E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 78 TA= 1.03036E+00 CPU TIME= 2.32166E+00 SECONDS. DT= 4.50268E-04 %MFRCHK - LABEL "QMINORB", # 12= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 4= -7.34660E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.02533E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 4= -7.34660E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.02533E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.28565E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.09904E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.28565E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.09904E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 84 TA= 1.03291E+00 CPU TIME= 2.11951E+00 SECONDS. DT= 4.87715E-04 --> plasma_hash("gframe"): TA= 1.035000E+00 NSTEP= 89 Hash code: 3600771 ->PRGCHK: bdy curvature ratio at t= 1.0400E+00 seconds is: 1.1950E-01 % MHDEQ: TG1= 1.035000 ; TG2= 1.040000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.846E+00 1.279E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6009E+00 0.0000E+00 -3.0906E-02 0.0000E+00 1.6732E+00 7.6685E-02 1 0 4.7673E-01 4.7031E-02 4.7031E-02 8.9768E-01 2 0 3.2037E-02 5.3574E-02 1.9208E-03 -2.5047E-02 3 0 2.6271E-02 -6.6929E-03 -4.5981E-03 -7.7047E-03 4 0 -2.3422E-03 -3.4639E-03 -1.9784E-03 3.7284E-03 5 0 -5.6871E-04 1.0496E-03 1.2004E-03 2.1070E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.84E-01 2.86E-02 4.47E-02 3.86E-03 4.20E-04 1.10E+00 1.673E+00 7.669E-02 3.26926E+01 6.26E-03 1.000 1.28 1.07 100 5.81E-06 3.38E-06 2.89E-06 2.84E-10 1.72E-09 1.10E+00 1.667E+00 7.411E-02 3.03782E+01 6.81E-03 1.000 1.28 1.26 117 9.13E-07 5.91E-07 2.82E-07 3.91E-10 3.27E-10 1.10E+00 1.668E+00 7.491E-02 3.03781E+01 6.81E-03 1.000 1.28 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.14E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 1.396E-07 d(ln R0)/dt = 1.323E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.43E-02 8.05E-02 1.79E-04 1.06E-08 3.62E-08 1.10E+00 1.668E+00 7.492E-02 3.03774E+01 6.90E-03 1.000 1.28 1.28 100 4.79E-07 2.23E-07 1.62E-08 4.23E-12 1.37E-11 1.10E+00 1.673E+00 7.662E-02 2.99819E+01 7.00E-03 0.994 1.28 1.28 200 2.01E-08 6.13E-09 1.20E-09 8.10E-14 1.81E-13 1.10E+00 1.674E+00 7.689E-02 2.93758E+01 7.14E-03 0.984 1.28 1.28 300 6.33E-09 1.54E-09 1.20E-10 5.00E-15 1.18E-14 1.10E+00 1.674E+00 7.697E-02 2.91303E+01 7.20E-03 0.979 1.28 1.28 400 1.92E-09 4.46E-10 1.71E-11 3.85E-16 9.30E-16 1.10E+00 1.674E+00 7.699E-02 2.89744E+01 7.24E-03 0.977 1.28 1.28 456 9.85E-10 2.29E-10 6.58E-12 1.23E-16 3.09E-16 1.10E+00 1.674E+00 7.699E-02 2.89199E+01 7.26E-03 0.976 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.95E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.824E-05 d(ln R0)/dt = 2.736E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.71 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.094499 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.3389E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1950E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.035000 TO TG2= 1.040000 @ NSTEP 89 GFRAME TG2 MOMENTS CHECKSUM: 9.1943956142452E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 89 TA= 1.03500E+00 CPU TIME= 2.18860E+00 SECONDS. DT= 5.05617E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 90 TA= 1.03551E+00 CPU TIME= 2.14771E+00 SECONDS. DT= 6.32021E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 96 TA= 1.03835E+00 CPU TIME= 2.30579E+00 SECONDS. DT= 6.71093E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1138916015625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5961E+00 3.0059E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1978E+20 nbi_getprofiles ne*dVol sum (ions): 4.1978E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 21279 - 0 (killed) + 6133 (dep) = 27412 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0004E+00 %ORBALL: In processor 0: orbit # IORB= 5139 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7518 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7815 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8240 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8310 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10759 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10797 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10833 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10848 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10969 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10978 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11173 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11209 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11280 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11321 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11373 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11385 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11478 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11492 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11551 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11596 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11807 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11931 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12070 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12113 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12261 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 12314 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12362 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12499 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12653 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12753 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12798 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12869 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12946 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13116 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13278 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13451 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13467 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13528 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=27412 SPL= 0 TOT=21408 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 100 TA= 1.04000E+00 CPU TIME= 3.14160E+00 SECONDS. DT= 2.72080E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.058E+03 MB. --> plasma_hash("gframe"): TA= 1.040000E+00 NSTEP= 100 Hash code: 99820437 ->PRGCHK: bdy curvature ratio at t= 1.0450E+00 seconds is: 1.1818E-01 % MHDEQ: TG1= 1.040000 ; TG2= 1.045000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.845E+00 1.281E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.6003E+00 0.0000E+00 -3.1408E-02 0.0000E+00 1.6742E+00 7.6992E-02 1 0 4.7645E-01 4.7157E-02 4.7157E-02 8.9741E-01 2 0 3.2286E-02 5.3848E-02 1.7649E-03 -2.5234E-02 3 0 2.6327E-02 -6.7714E-03 -4.7082E-03 -7.7185E-03 4 0 -2.3424E-03 -3.4967E-03 -2.0054E-03 3.7558E-03 5 0 -5.4426E-04 1.0174E-03 1.2008E-03 2.1100E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.89E-01 2.96E-02 4.56E-02 3.90E-03 4.28E-04 1.10E+00 1.674E+00 7.699E-02 3.27358E+01 6.43E-03 1.000 1.28 1.06 100 4.18E-06 2.56E-06 2.08E-06 1.76E-10 1.47E-09 1.10E+00 1.666E+00 7.377E-02 3.03726E+01 7.01E-03 1.000 1.28 1.26 116 9.74E-07 4.06E-07 2.03E-07 1.58E-10 1.54E-10 1.10E+00 1.667E+00 7.466E-02 3.03725E+01 7.02E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.08E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 1.931E-07 d(ln R0)/dt = 2.214E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.59E-02 8.12E-02 1.87E-04 1.18E-08 4.10E-08 1.10E+00 1.667E+00 7.471E-02 3.03707E+01 7.14E-03 1.000 1.28 1.28 100 5.27E-07 2.49E-07 1.76E-08 4.66E-12 1.46E-11 1.10E+00 1.673E+00 7.676E-02 3.01030E+01 7.21E-03 0.996 1.28 1.28 200 2.22E-08 6.77E-09 1.32E-09 8.84E-14 1.98E-13 1.10E+00 1.675E+00 7.712E-02 2.94600E+01 7.37E-03 0.985 1.28 1.28 300 6.98E-09 1.76E-09 1.36E-10 5.74E-15 1.30E-14 1.10E+00 1.675E+00 7.722E-02 2.92017E+01 7.43E-03 0.981 1.28 1.28 400 2.21E-09 5.15E-10 2.02E-11 4.69E-16 1.13E-15 1.10E+00 1.675E+00 7.724E-02 2.90395E+01 7.48E-03 0.978 1.28 1.28 468 9.87E-10 2.36E-10 6.26E-12 1.24E-16 3.12E-16 1.10E+00 1.675E+00 7.725E-02 2.89705E+01 7.49E-03 0.977 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.85E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.878E-05 d(ln R0)/dt = 3.429E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.69 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.200532 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.1289E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1818E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.040000 TO TG2= 1.045000 @ NSTEP 100 GFRAME TG2 MOMENTS CHECKSUM: 9.1935810947743E+03 %MFRCHK - LABEL "QMINORB", # 12= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 5.04467E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.20393E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.14150E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.20393E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.14150E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.83661E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.22698E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.83661E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.22698E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.045000E+00 NSTEP= 108 Hash code: 37025452 ->PRGCHK: bdy curvature ratio at t= 1.0500E+00 seconds is: 1.1686E-01 % MHDEQ: TG1= 1.045000 ; TG2= 1.050000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.844E+00 1.283E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5998E+00 0.0000E+00 -3.1910E-02 0.0000E+00 1.6750E+00 7.7247E-02 1 0 4.7616E-01 4.7284E-02 4.7284E-02 8.9715E-01 2 0 3.2535E-02 5.4122E-02 1.6091E-03 -2.5422E-02 3 0 2.6382E-02 -6.8499E-03 -4.8184E-03 -7.7323E-03 4 0 -2.3426E-03 -3.5295E-03 -2.0325E-03 3.7832E-03 5 0 -5.1981E-04 9.8519E-04 1.2012E-03 2.1130E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.93E-01 3.05E-02 4.63E-02 3.94E-03 4.35E-04 1.10E+00 1.675E+00 7.725E-02 3.27729E+01 6.68E-03 1.000 1.28 1.06 100 3.31E-06 2.00E-06 1.59E-06 2.40E-10 1.26E-09 1.10E+00 1.665E+00 7.356E-02 3.03666E+01 7.29E-03 1.000 1.28 1.26 112 9.42E-07 5.72E-07 3.79E-07 4.45E-10 4.50E-10 1.10E+00 1.666E+00 7.431E-02 3.03665E+01 7.29E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.03E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.653E-07 d(ln R0)/dt = 4.907E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.52E-02 7.94E-02 1.92E-04 1.44E-08 4.09E-08 1.10E+00 1.666E+00 7.435E-02 3.03647E+01 7.41E-03 1.000 1.28 1.28 100 5.90E-07 2.85E-07 1.93E-08 5.01E-12 1.63E-11 1.10E+00 1.673E+00 7.689E-02 3.02265E+01 7.46E-03 0.998 1.28 1.28 200 2.45E-08 7.43E-09 1.48E-09 9.84E-14 2.19E-13 1.10E+00 1.675E+00 7.717E-02 2.95442E+01 7.63E-03 0.987 1.28 1.28 300 7.55E-09 1.95E-09 1.53E-10 6.46E-15 1.44E-14 1.10E+00 1.675E+00 7.727E-02 2.92743E+01 7.70E-03 0.982 1.28 1.28 400 2.44E-09 5.75E-10 2.28E-11 5.35E-16 1.30E-15 1.10E+00 1.675E+00 7.730E-02 2.91047E+01 7.74E-03 0.979 1.28 1.28 478 9.97E-10 2.34E-10 6.00E-12 1.51E-16 2.37E-16 1.10E+00 1.675E+00 7.731E-02 2.90236E+01 7.77E-03 0.978 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.00E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.847E-05 d(ln R0)/dt = 3.771E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.70 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.193228 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.2485E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1686E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.045000 TO TG2= 1.050000 @ NSTEP 108 GFRAME TG2 MOMENTS CHECKSUM: 9.1916060490901E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 108 TA= 1.04500E+00 CPU TIME= 3.18555E+00 SECONDS. DT= 1.29738E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.109130859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5990E+00 3.0095E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.3 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.3 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.3 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.3 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2703E+20 nbi_getprofiles ne*dVol sum (ions): 4.2703E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 21408 - 0 (killed) + 5717 (dep) = 27125 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 36 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7637 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0005E+00 %ORBALL: In processor 0: orbit # IORB= 8959 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0019E+00 %ORBALL: In processor 0: orbit # IORB= 10756 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10843 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11006 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11069 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11077 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11154 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11183 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11280 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11405 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11505 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11543 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11573 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11835 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11893 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11942 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12021 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12028 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12105 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12125 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12142 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12330 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12386 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12466 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12467 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12828 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12846 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12900 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12911 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12969 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12981 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13328 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13387 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13561 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13610 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=27125 SPL= 0 TOT=20792 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 113 TA= 1.05000E+00 CPU TIME= 2.43237E+00 SECONDS. DT= 7.15464E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.058E+03 MB. --> plasma_hash("gframe"): TA= 1.050000E+00 NSTEP= 113 Hash code: 114297651 ->PRGCHK: bdy curvature ratio at t= 1.0550E+00 seconds is: 1.1556E-01 % MHDEQ: TG1= 1.050000 ; TG2= 1.055000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.840E+00 1.283E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5993E+00 0.0000E+00 -3.2412E-02 0.0000E+00 1.6749E+00 7.7309E-02 1 0 4.7588E-01 4.7410E-02 4.7410E-02 8.9688E-01 2 0 3.2784E-02 5.4396E-02 1.4532E-03 -2.5610E-02 3 0 2.6438E-02 -6.9283E-03 -4.9285E-03 -7.7462E-03 4 0 -2.3428E-03 -3.5623E-03 -2.0595E-03 3.8107E-03 5 0 -4.9536E-04 9.5298E-04 1.2017E-03 2.1159E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.95E-01 3.10E-02 4.68E-02 3.95E-03 4.39E-04 1.10E+00 1.675E+00 7.731E-02 3.27154E+01 6.95E-03 1.000 1.28 1.06 100 3.30E-06 2.02E-06 1.53E-06 2.69E-10 1.25E-09 1.10E+00 1.666E+00 7.369E-02 3.03005E+01 7.58E-03 1.000 1.28 1.26 112 9.34E-07 5.55E-07 3.75E-07 4.54E-10 4.42E-10 1.10E+00 1.667E+00 7.445E-02 3.03004E+01 7.59E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.696E-07 d(ln R0)/dt = 4.970E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.68E-02 8.07E-02 1.98E-04 1.49E-08 4.14E-08 1.10E+00 1.667E+00 7.449E-02 3.02988E+01 7.70E-03 1.000 1.28 1.28 100 6.10E-07 2.96E-07 2.00E-08 5.14E-12 1.66E-11 1.10E+00 1.673E+00 7.700E-02 3.01626E+01 7.74E-03 0.998 1.28 1.28 200 2.61E-08 7.89E-09 1.54E-09 1.02E-13 2.28E-13 1.10E+00 1.675E+00 7.726E-02 2.94667E+01 7.93E-03 0.986 1.28 1.28 300 7.86E-09 2.07E-09 1.63E-10 6.92E-15 1.51E-14 1.10E+00 1.675E+00 7.736E-02 2.91932E+01 8.00E-03 0.982 1.28 1.28 400 2.59E-09 6.22E-10 2.49E-11 6.08E-16 1.45E-15 1.10E+00 1.675E+00 7.739E-02 2.90219E+01 8.05E-03 0.979 1.28 1.28 484 1.00E-09 2.28E-10 5.80E-12 1.61E-16 2.22E-16 1.10E+00 1.675E+00 7.740E-02 2.89312E+01 8.08E-03 0.977 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.16E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.998E-05 d(ln R0)/dt = 4.125E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.72 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.141584 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.4609E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1556E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.050000 TO TG2= 1.055000 @ NSTEP 113 GFRAME TG2 MOMENTS CHECKSUM: 9.1900917809470E+03 %MFRCHK - LABEL "QMINORB", # 11= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 21= 8.12753E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.83685E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.11950E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.83685E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.11950E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 3.67371E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.19601E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 3.67371E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.19601E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.055000E+00 NSTEP= 118 Hash code: 22755737 ->PRGCHK: bdy curvature ratio at t= 1.0600E+00 seconds is: 1.1426E-01 % MHDEQ: TG1= 1.055000 ; TG2= 1.060000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.837E+00 1.282E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5987E+00 0.0000E+00 -3.2914E-02 0.0000E+00 1.6750E+00 7.7400E-02 1 0 4.7559E-01 4.7536E-02 4.7536E-02 8.9662E-01 2 0 3.3033E-02 5.4670E-02 1.2974E-03 -2.5797E-02 3 0 2.6494E-02 -7.0068E-03 -5.0386E-03 -7.7600E-03 4 0 -2.3430E-03 -3.5952E-03 -2.0866E-03 3.8381E-03 5 0 -4.7091E-04 9.2078E-04 1.2021E-03 2.1189E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.97E-01 3.16E-02 4.73E-02 3.96E-03 4.44E-04 1.10E+00 1.675E+00 7.740E-02 3.26625E+01 7.18E-03 1.000 1.28 1.06 100 3.62E-06 2.28E-06 1.59E-06 3.15E-10 1.29E-09 1.10E+00 1.666E+00 7.389E-02 3.02353E+01 7.85E-03 1.000 1.28 1.26 112 9.95E-07 5.89E-07 3.86E-07 4.79E-10 4.37E-10 1.10E+00 1.667E+00 7.463E-02 3.02352E+01 7.85E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 2.666E-07 d(ln R0)/dt = 4.872E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.87E-02 8.25E-02 2.04E-04 1.46E-08 4.15E-08 1.10E+00 1.667E+00 7.467E-02 3.02337E+01 7.96E-03 1.000 1.28 1.28 100 6.35E-07 3.06E-07 2.06E-08 5.27E-12 1.68E-11 1.10E+00 1.673E+00 7.711E-02 3.01057E+01 8.01E-03 0.998 1.28 1.28 200 2.84E-08 8.53E-09 1.62E-09 1.06E-13 2.38E-13 1.10E+00 1.675E+00 7.734E-02 2.93937E+01 8.20E-03 0.986 1.28 1.28 300 8.30E-09 2.20E-09 1.77E-10 7.47E-15 1.61E-14 1.10E+00 1.675E+00 7.744E-02 2.91156E+01 8.28E-03 0.982 1.28 1.28 400 2.79E-09 6.79E-10 2.71E-11 6.89E-16 1.59E-15 1.10E+00 1.675E+00 7.747E-02 2.89405E+01 8.33E-03 0.979 1.28 1.28 490 9.84E-10 2.36E-10 5.84E-12 1.50E-16 2.16E-16 1.10E+00 1.675E+00 7.749E-02 2.88401E+01 8.36E-03 0.977 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.22E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.096E-05 d(ln R0)/dt = 4.336E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.73 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.120236 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.4976E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1426E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.055000 TO TG2= 1.060000 @ NSTEP 118 GFRAME TG2 MOMENTS CHECKSUM: 9.1883728668978E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 118 TA= 1.05500E+00 CPU TIME= 3.00098E+00 SECONDS. DT= 1.27817E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5985E+00 3.0069E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3429E+20 nbi_getprofiles ne*dVol sum (ions): 4.3429E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 20792 - 0 (killed) + 5475 (dep) = 26267 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0043E+00 %ORBALL: In processor 0: orbit # IORB= 2606 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8991 never inside plasma. %CXLINE - VTOR.GT.VION; VTOR,VION = 6.174615E+07 6.147112E+07 %ORBALL: In processor 0: orbit # IORB= 9118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10029 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10518 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10569 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10578 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10673 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10742 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10761 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10829 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10835 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11097 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11157 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11170 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11245 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11414 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11506 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11545 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11594 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11638 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11770 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11814 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11880 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11882 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11928 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11949 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12101 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12229 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12253 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12319 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12382 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12456 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12524 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12568 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12610 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12706 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12824 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12854 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12883 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12925 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12964 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13013 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 13058 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=26267 SPL= 0 TOT=19712 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 123 TA= 1.06000E+00 CPU TIME= 2.14062E+00 SECONDS. DT= 3.55293E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.060000E+00 NSTEP= 123 Hash code: 89151824 ->PRGCHK: bdy curvature ratio at t= 1.0650E+00 seconds is: 1.1297E-01 % MHDEQ: TG1= 1.060000 ; TG2= 1.065000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.834E+00 1.278E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5982E+00 0.0000E+00 -3.3417E-02 0.0000E+00 1.6750E+00 7.7487E-02 1 0 4.7531E-01 4.7663E-02 4.7663E-02 8.9635E-01 2 0 3.3282E-02 5.4945E-02 1.1415E-03 -2.5985E-02 3 0 2.6549E-02 -7.0853E-03 -5.1487E-03 -7.7738E-03 4 0 -2.3431E-03 -3.6280E-03 -2.1136E-03 3.8655E-03 5 0 -4.4646E-04 8.8857E-04 1.2025E-03 2.1219E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 1.99E-01 3.23E-02 4.78E-02 3.98E-03 4.49E-04 1.10E+00 1.675E+00 7.749E-02 3.26468E+01 7.42E-03 1.000 1.28 1.06 100 4.11E-06 2.64E-06 1.68E-06 3.90E-10 1.35E-09 1.10E+00 1.666E+00 7.407E-02 3.02032E+01 8.11E-03 1.000 1.28 1.26 113 9.50E-07 4.82E-07 3.03E-07 1.31E-10 8.16E-10 1.10E+00 1.667E+00 7.485E-02 3.02031E+01 8.11E-03 1.000 1.28 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.03E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.191E-07 d(ln R0)/dt = 5.254E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.09E-02 8.48E-02 2.11E-04 1.44E-08 4.13E-08 1.10E+00 1.667E+00 7.489E-02 3.02017E+01 8.22E-03 1.000 1.28 1.28 100 6.88E-07 3.24E-07 2.14E-08 5.54E-12 1.74E-11 1.10E+00 1.673E+00 7.722E-02 2.99257E+01 8.30E-03 0.996 1.28 1.28 200 3.13E-08 9.34E-09 1.72E-09 1.13E-13 2.53E-13 1.10E+00 1.675E+00 7.746E-02 2.92027E+01 8.51E-03 0.984 1.28 1.28 300 8.80E-09 2.32E-09 1.92E-10 8.10E-15 1.71E-14 1.10E+00 1.675E+00 7.755E-02 2.89189E+01 8.59E-03 0.979 1.28 1.28 400 2.96E-09 7.30E-10 2.91E-11 7.71E-16 1.68E-15 1.10E+00 1.675E+00 7.759E-02 2.87387E+01 8.65E-03 0.976 1.28 1.28 497 9.73E-10 2.38E-10 5.64E-12 1.35E-16 1.99E-16 1.10E+00 1.675E+00 7.760E-02 2.86300E+01 8.68E-03 0.974 1.28 1.28 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.44E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.005E-05 d(ln R0)/dt = 4.226E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.62 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.098011 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.4307E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1297E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.060000 TO TG2= 1.065000 @ NSTEP 123 GFRAME TG2 MOMENTS CHECKSUM: 9.1877085010344E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 123 TA= 1.06000E+00 CPU TIME= 2.18384E+00 SECONDS. DT= 3.55293E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 124 TA= 1.06036E+00 CPU TIME= 2.11963E+00 SECONDS. DT= 4.44116E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 20= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 1.71970E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.34725E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.06849E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.34725E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.06849E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 9.18405E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.13547E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 9.18405E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.13547E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 130 TA= 1.06304E+00 CPU TIME= 2.13159E+00 SECONDS. DT= 5.19809E-04 --> plasma_hash("gframe"): TA= 1.065000E+00 NSTEP= 134 Hash code: 44417014 ->PRGCHK: bdy curvature ratio at t= 1.0700E+00 seconds is: 1.1169E-01 % MHDEQ: TG1= 1.065000 ; TG2= 1.070000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.832E+00 1.275E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5977E+00 0.0000E+00 -3.3919E-02 0.0000E+00 1.6752E+00 7.7605E-02 1 0 4.7502E-01 4.7789E-02 4.7789E-02 8.9609E-01 2 0 3.3531E-02 5.5219E-02 9.8566E-04 -2.6173E-02 3 0 2.6605E-02 -7.1638E-03 -5.2588E-03 -7.7876E-03 4 0 -2.3433E-03 -3.6608E-03 -2.1407E-03 3.8930E-03 5 0 -4.2201E-04 8.5636E-04 1.2030E-03 2.1248E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.02E-01 3.30E-02 4.83E-02 3.99E-03 4.54E-04 1.10E+00 1.675E+00 7.760E-02 3.26381E+01 7.51E-03 1.000 1.27 1.05 100 4.01E-06 2.49E-06 1.56E-06 4.66E-10 1.30E-09 1.10E+00 1.666E+00 7.408E-02 3.01745E+01 8.21E-03 1.000 1.27 1.25 113 8.59E-07 4.55E-07 2.94E-07 1.45E-10 7.69E-10 1.10E+00 1.667E+00 7.487E-02 3.01744E+01 8.22E-03 1.000 1.27 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.23E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.269E-07 d(ln R0)/dt = 5.371E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.32E-02 8.57E-02 2.18E-04 1.53E-08 4.29E-08 1.10E+00 1.667E+00 7.492E-02 3.01725E+01 8.34E-03 1.000 1.27 1.27 100 7.69E-07 3.57E-07 2.26E-08 5.99E-12 1.86E-11 1.10E+00 1.673E+00 7.734E-02 2.98710E+01 8.43E-03 0.995 1.27 1.28 200 3.54E-08 1.05E-08 1.86E-09 1.22E-13 2.77E-13 1.10E+00 1.675E+00 7.762E-02 2.91174E+01 8.65E-03 0.983 1.27 1.28 300 9.58E-09 2.54E-09 2.12E-10 8.87E-15 1.86E-14 1.10E+00 1.675E+00 7.772E-02 2.88218E+01 8.74E-03 0.978 1.27 1.27 400 3.25E-09 8.03E-10 3.15E-11 8.49E-16 1.73E-15 1.10E+00 1.676E+00 7.776E-02 2.86315E+01 8.80E-03 0.974 1.27 1.27 500 1.09E-09 2.56E-10 5.94E-12 1.05E-16 2.19E-16 1.10E+00 1.676E+00 7.778E-02 2.85182E+01 8.83E-03 0.972 1.27 1.27 508 9.91E-10 2.35E-10 5.16E-12 9.68E-17 1.77E-16 1.10E+00 1.676E+00 7.778E-02 2.85116E+01 8.84E-03 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.25E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.844E-05 d(ln R0)/dt = 4.030E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.61 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.139129 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.2769E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1169E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.065000 TO TG2= 1.070000 @ NSTEP 134 GFRAME TG2 MOMENTS CHECKSUM: 9.1870330101901E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 134 TA= 1.06500E+00 CPU TIME= 2.15747E+00 SECONDS. DT= 6.60998E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 135 TA= 1.06543E+00 CPU TIME= 2.07544E+00 SECONDS. DT= 5.43669E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 141 TA= 1.06844E+00 CPU TIME= 2.18677E+00 SECONDS. DT= 5.71674E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.102783203125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.5994E+00 3.0075E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3297E+20 nbi_getprofiles ne*dVol sum (ions): 4.3297E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 19712 - 0 (killed) + 5392 (dep) = 25104 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0071E+00 %ORBALL: In processor 0: orbit # IORB= 8268 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10070 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10159 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10259 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10373 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10605 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10678 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10751 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10881 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10988 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11001 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11033 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11103 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11262 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11345 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11391 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11566 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11639 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11719 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11808 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11813 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11874 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11875 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11891 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11921 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12013 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12062 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12096 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12131 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12294 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12414 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12448 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12452 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12548 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12607 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12646 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=25104 SPL= 0 TOT=19001 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 144 TA= 1.07000E+00 CPU TIME= 2.30029E+00 SECONDS. DT= 6.50247E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.070000E+00 NSTEP= 144 Hash code: 6738667 ->PRGCHK: bdy curvature ratio at t= 1.0750E+00 seconds is: 1.1042E-01 % MHDEQ: TG1= 1.070000 ; TG2= 1.075000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.830E+00 1.274E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5971E+00 0.0000E+00 -3.4421E-02 0.0000E+00 1.6756E+00 7.7778E-02 1 0 4.7474E-01 4.7915E-02 4.7915E-02 8.9582E-01 2 0 3.3779E-02 5.5493E-02 8.2981E-04 -2.6360E-02 3 0 2.6661E-02 -7.2423E-03 -5.3689E-03 -7.8015E-03 4 0 -2.3435E-03 -3.6937E-03 -2.1677E-03 3.9204E-03 5 0 -3.9756E-04 8.2415E-04 1.2034E-03 2.1278E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.06E-01 3.39E-02 4.90E-02 4.02E-03 4.61E-04 1.10E+00 1.676E+00 7.778E-02 3.26448E+01 7.59E-03 1.000 1.27 1.05 100 4.31E-06 2.56E-06 1.57E-06 5.48E-10 1.25E-09 1.10E+00 1.666E+00 7.419E-02 3.01515E+01 8.32E-03 1.000 1.27 1.25 113 8.55E-07 4.85E-07 3.02E-07 1.59E-10 7.42E-10 1.10E+00 1.667E+00 7.499E-02 3.01514E+01 8.32E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.262E-07 d(ln R0)/dt = 5.151E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.61E-02 8.65E-02 2.25E-04 1.61E-08 4.40E-08 1.10E+00 1.667E+00 7.503E-02 3.01490E+01 8.46E-03 1.000 1.27 1.27 100 8.43E-07 3.88E-07 2.34E-08 6.29E-12 1.93E-11 1.10E+00 1.674E+00 7.744E-02 2.99567E+01 8.52E-03 0.997 1.27 1.28 200 4.00E-08 1.18E-08 2.00E-09 1.31E-13 3.01E-13 1.10E+00 1.676E+00 7.775E-02 2.91662E+01 8.75E-03 0.984 1.27 1.27 300 1.06E-08 2.80E-09 2.35E-10 9.62E-15 2.02E-14 1.10E+00 1.676E+00 7.785E-02 2.88561E+01 8.85E-03 0.979 1.27 1.27 400 3.59E-09 8.88E-10 3.44E-11 9.60E-16 1.85E-15 1.10E+00 1.676E+00 7.789E-02 2.86552E+01 8.91E-03 0.975 1.27 1.27 500 1.25E-09 2.98E-10 7.00E-12 1.25E-16 2.61E-16 1.10E+00 1.676E+00 7.791E-02 2.85385E+01 8.95E-03 0.973 1.27 1.27 522 9.90E-10 2.36E-10 4.96E-12 1.08E-16 1.62E-16 1.10E+00 1.676E+00 7.792E-02 2.85212E+01 8.95E-03 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.62E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.541E-05 d(ln R0)/dt = 3.420E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.77 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.180560 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.8882E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.1042E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.070000 TO TG2= 1.075000 @ NSTEP 144 GFRAME TG2 MOMENTS CHECKSUM: 9.1852925301139E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 144 TA= 1.07000E+00 CPU TIME= 2.32251E+00 SECONDS. DT= 6.50247E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 145 TA= 1.07043E+00 CPU TIME= 2.15869E+00 SECONDS. DT= 5.40762E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 3.45790E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.75518E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.09245E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.75518E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.09245E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 152 TA= 1.07336E+00 CPU TIME= 2.19556E+00 SECONDS. DT= 5.09791E-04 --> plasma_hash("gframe"): TA= 1.075000E+00 NSTEP= 156 Hash code: 33958573 ->PRGCHK: bdy curvature ratio at t= 1.0800E+00 seconds is: 1.0916E-01 % MHDEQ: TG1= 1.075000 ; TG2= 1.080000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.828E+00 1.273E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5966E+00 0.0000E+00 -3.4923E-02 0.0000E+00 1.6760E+00 7.7917E-02 1 0 4.7445E-01 4.8042E-02 4.8042E-02 8.9555E-01 2 0 3.4028E-02 5.5767E-02 6.7396E-04 -2.6548E-02 3 0 2.6717E-02 -7.3208E-03 -5.4791E-03 -7.8153E-03 4 0 -2.3437E-03 -3.7265E-03 -2.1948E-03 3.9478E-03 5 0 -3.7312E-04 7.9194E-04 1.2039E-03 2.1308E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.09E-01 3.47E-02 4.97E-02 4.04E-03 4.67E-04 1.10E+00 1.676E+00 7.792E-02 3.26434E+01 7.81E-03 1.000 1.27 1.04 100 4.21E-06 2.39E-06 1.45E-06 6.80E-10 1.17E-09 1.10E+00 1.666E+00 7.417E-02 3.01238E+01 8.57E-03 1.000 1.27 1.25 113 8.33E-07 4.91E-07 3.07E-07 1.80E-10 7.29E-10 1.10E+00 1.668E+00 7.511E-02 3.01237E+01 8.57E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 9.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.493E-07 d(ln R0)/dt = 5.836E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.70E-02 8.61E-02 2.26E-04 1.48E-08 4.22E-08 1.10E+00 1.668E+00 7.515E-02 3.01220E+01 8.69E-03 1.000 1.27 1.27 100 8.91E-07 4.07E-07 2.38E-08 6.35E-12 1.97E-11 1.10E+00 1.674E+00 7.754E-02 2.99492E+01 8.75E-03 0.997 1.27 1.27 200 4.37E-08 1.29E-08 2.11E-09 1.35E-13 3.13E-13 1.10E+00 1.675E+00 7.777E-02 2.91289E+01 8.99E-03 0.984 1.27 1.27 300 1.15E-08 3.02E-09 2.59E-10 1.06E-14 2.24E-14 1.10E+00 1.675E+00 7.787E-02 2.88162E+01 9.09E-03 0.978 1.27 1.27 400 3.86E-09 9.54E-10 3.73E-11 1.11E-15 2.09E-15 1.10E+00 1.676E+00 7.791E-02 2.86080E+01 9.16E-03 0.975 1.27 1.27 500 1.39E-09 3.30E-10 7.92E-12 1.43E-16 2.87E-16 1.10E+00 1.676E+00 7.794E-02 2.84860E+01 9.20E-03 0.973 1.27 1.27 533 9.95E-10 2.35E-10 4.75E-12 9.70E-17 1.58E-16 1.10E+00 1.676E+00 7.794E-02 2.84609E+01 9.20E-03 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.379E-05 d(ln R0)/dt = 3.024E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.089003 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9312E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0916E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.075000 TO TG2= 1.080000 @ NSTEP 156 GFRAME TG2 MOMENTS CHECKSUM: 9.1830959386949E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 156 TA= 1.07500E+00 CPU TIME= 2.11182E+00 SECONDS. DT= 4.96885E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 157 TA= 1.07539E+00 CPU TIME= 2.20288E+00 SECONDS. DT= 4.88728E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 164 TA= 1.07804E+00 CPU TIME= 2.15552E+00 SECONDS. DT= 4.60819E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.095947265625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6005E+00 3.0080E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4096E+20 nbi_getprofiles ne*dVol sum (ions): 4.4096E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 19001 - 0 (killed) + 5275 (dep) = 24276 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4116 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0352E+00 %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0001E+00 %ORBALL: In processor 0: orbit # IORB= 7551 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0105E+00 %ORBALL: In processor 0: orbit # IORB= 9362 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9393 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9694 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9884 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9977 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10137 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10144 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10183 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10215 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10225 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10251 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10286 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10384 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10743 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10962 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10992 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11056 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11075 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11285 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11286 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11305 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11487 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11692 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11725 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11742 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11746 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11757 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11831 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11839 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11850 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11867 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11874 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11882 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11941 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12057 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12081 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12108 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12201 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 12204 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=24276 SPL= 0 TOT=18115 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 170 TA= 1.08000E+00 CPU TIME= 2.08447E+00 SECONDS. DT= 2.05728E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.080000E+00 NSTEP= 170 Hash code: 81364500 ->PRGCHK: bdy curvature ratio at t= 1.0850E+00 seconds is: 1.0791E-01 % MHDEQ: TG1= 1.080000 ; TG2= 1.085000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.827E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5961E+00 0.0000E+00 -3.5425E-02 0.0000E+00 1.6758E+00 7.7942E-02 1 0 4.7416E-01 4.8168E-02 4.8168E-02 8.9529E-01 2 0 3.4277E-02 5.6041E-02 5.1811E-04 -2.6736E-02 3 0 2.6772E-02 -7.3993E-03 -5.5892E-03 -7.8291E-03 4 0 -2.3439E-03 -3.7593E-03 -2.2218E-03 3.9753E-03 5 0 -3.4867E-04 7.5973E-04 1.2043E-03 2.1337E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.11E-01 3.52E-02 5.01E-02 4.05E-03 4.71E-04 1.10E+00 1.676E+00 7.794E-02 3.26438E+01 8.04E-03 1.000 1.27 1.04 100 4.19E-06 2.36E-06 1.38E-06 7.41E-10 1.14E-09 1.10E+00 1.667E+00 7.426E-02 3.01140E+01 8.82E-03 1.000 1.27 1.25 113 8.43E-07 4.99E-07 3.11E-07 1.89E-10 7.24E-10 1.10E+00 1.668E+00 7.526E-02 3.01138E+01 8.82E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.30E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.636E-07 d(ln R0)/dt = 6.230E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.88E-02 8.76E-02 2.31E-04 1.38E-08 4.11E-08 1.10E+00 1.668E+00 7.531E-02 3.01128E+01 8.91E-03 1.000 1.27 1.27 100 9.43E-07 4.18E-07 2.39E-08 6.34E-12 1.96E-11 1.10E+00 1.674E+00 7.763E-02 2.99512E+01 8.97E-03 0.997 1.27 1.27 200 4.56E-08 1.34E-08 2.18E-09 1.38E-13 3.23E-13 1.10E+00 1.675E+00 7.779E-02 2.91130E+01 9.23E-03 0.983 1.27 1.27 300 1.23E-08 3.19E-09 2.80E-10 1.15E-14 2.42E-14 1.10E+00 1.675E+00 7.790E-02 2.87994E+01 9.33E-03 0.978 1.27 1.27 400 4.03E-09 1.00E-09 3.83E-11 1.19E-15 2.18E-15 1.10E+00 1.675E+00 7.794E-02 2.85820E+01 9.40E-03 0.975 1.27 1.27 500 1.52E-09 3.57E-10 8.75E-12 1.61E-16 3.15E-16 1.10E+00 1.676E+00 7.797E-02 2.84602E+01 9.44E-03 0.972 1.27 1.27 543 9.91E-10 2.35E-10 4.73E-12 9.78E-17 1.65E-16 1.10E+00 1.676E+00 7.797E-02 2.84290E+01 9.45E-03 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.80E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.401E-05 d(ln R0)/dt = 3.006E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.066584 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8164E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0791E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.080000 TO TG2= 1.085000 @ NSTEP 170 GFRAME TG2 MOMENTS CHECKSUM: 9.1808069567342E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 170 TA= 1.08000E+00 CPU TIME= 2.17139E+00 SECONDS. DT= 2.05728E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 171 TA= 1.08021E+00 CPU TIME= 2.12646E+00 SECONDS. DT= 2.57160E-04 %MFRCHK - LABEL "QMINORB", # 9= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 3.23405E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.46955E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -9.85954E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.46955E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -9.85954E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.83694E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.05910E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.83694E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.05910E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 179 TA= 1.08405E+00 CPU TIME= 2.06348E+00 SECONDS. DT= 7.19690E-04 --> plasma_hash("gframe"): TA= 1.085000E+00 NSTEP= 181 Hash code: 61553049 ->PRGCHK: bdy curvature ratio at t= 1.0900E+00 seconds is: 1.0666E-01 % MHDEQ: TG1= 1.085000 ; TG2= 1.090000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.826E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5955E+00 0.0000E+00 -3.5927E-02 0.0000E+00 1.6756E+00 7.7973E-02 1 0 4.7388E-01 4.8294E-02 4.8294E-02 8.9502E-01 2 0 3.4526E-02 5.6315E-02 3.6226E-04 -2.6923E-02 3 0 2.6828E-02 -7.4778E-03 -5.6993E-03 -7.8429E-03 4 0 -2.3441E-03 -3.7922E-03 -2.2489E-03 4.0027E-03 5 0 -3.2422E-04 7.2752E-04 1.2047E-03 2.1367E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.13E-01 3.58E-02 5.06E-02 4.06E-03 4.76E-04 1.10E+00 1.676E+00 7.797E-02 3.26524E+01 8.05E-03 1.000 1.27 1.04 100 3.88E-06 2.13E-06 1.27E-06 7.64E-10 1.06E-09 1.10E+00 1.667E+00 7.435E-02 3.01117E+01 8.84E-03 1.000 1.27 1.24 113 8.09E-07 4.72E-07 3.07E-07 1.94E-10 7.05E-10 1.10E+00 1.669E+00 7.540E-02 3.01115E+01 8.84E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.749E-07 d(ln R0)/dt = 6.467E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.01E-02 8.84E-02 2.35E-04 1.35E-08 4.08E-08 1.10E+00 1.669E+00 7.545E-02 3.01106E+01 8.93E-03 1.000 1.27 1.26 100 1.04E-06 4.44E-07 2.44E-08 6.41E-12 1.97E-11 1.10E+00 1.674E+00 7.777E-02 2.99932E+01 8.97E-03 0.998 1.27 1.27 200 4.73E-08 1.38E-08 2.24E-09 1.42E-13 3.37E-13 1.10E+00 1.675E+00 7.790E-02 2.91337E+01 9.24E-03 0.984 1.27 1.27 300 1.30E-08 3.37E-09 2.94E-10 1.21E-14 2.56E-14 1.10E+00 1.675E+00 7.801E-02 2.88129E+01 9.34E-03 0.978 1.27 1.27 400 4.25E-09 1.08E-09 3.88E-11 1.20E-15 2.14E-15 1.10E+00 1.676E+00 7.806E-02 2.85832E+01 9.42E-03 0.975 1.27 1.27 500 1.69E-09 3.97E-10 9.76E-12 1.87E-16 3.60E-16 1.10E+00 1.676E+00 7.808E-02 2.84657E+01 9.46E-03 0.973 1.27 1.27 552 9.89E-10 2.40E-10 4.73E-12 1.14E-16 1.63E-16 1.10E+00 1.676E+00 7.809E-02 2.84270E+01 9.47E-03 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.70E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.567E-05 d(ln R0)/dt = 3.274E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.100632 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7187E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0666E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.085000 TO TG2= 1.090000 @ NSTEP 181 GFRAME TG2 MOMENTS CHECKSUM: 9.1793962410976E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 181 TA= 1.08500E+00 CPU TIME= 1.94434E+00 SECONDS. DT= 7.14978E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 182 TA= 1.08557E+00 CPU TIME= 2.06152E+00 SECONDS. DT= 7.10241E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 189 TA= 1.08943E+00 CPU TIME= 2.07764E+00 SECONDS. DT= 5.65284E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10205078125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6032E+00 3.0116E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3423E+20 nbi_getprofiles ne*dVol sum (ions): 4.3423E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 18115 - 0 (killed) + 5220 (dep) = 23335 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0047E+00 %ORBALL: In processor 0: orbit # IORB= 6388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7903 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8222 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9149 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9368 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9789 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9964 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10046 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10059 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10079 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10155 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10159 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10245 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10370 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10520 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10573 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10719 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10730 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10754 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10755 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10817 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10837 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10857 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10881 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11033 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11047 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11116 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11143 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11376 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11532 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11567 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=23335 SPL= 0 TOT=17702 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 190 TA= 1.09000E+00 CPU TIME= 2.22363E+00 SECONDS. DT= 7.06605E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.0900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.090000E+00 NSTEP= 190 Hash code: 62921930 ->PRGCHK: bdy curvature ratio at t= 1.0950E+00 seconds is: 1.0543E-01 % MHDEQ: TG1= 1.090000 ; TG2= 1.095000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.824E+00 1.270E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5950E+00 0.0000E+00 -3.6429E-02 0.0000E+00 1.6757E+00 7.8089E-02 1 0 4.7359E-01 4.8421E-02 4.8421E-02 8.9476E-01 2 0 3.4775E-02 5.6590E-02 2.0640E-04 -2.7111E-02 3 0 2.6884E-02 -7.5562E-03 -5.8094E-03 -7.8567E-03 4 0 -2.3442E-03 -3.8250E-03 -2.2759E-03 4.0301E-03 5 0 -2.9977E-04 6.9531E-04 1.2052E-03 2.1396E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 3.66E-02 5.12E-02 4.07E-03 4.81E-04 1.10E+00 1.676E+00 7.809E-02 3.26512E+01 8.06E-03 1.000 1.27 1.04 100 3.72E-06 1.95E-06 1.20E-06 8.24E-10 9.67E-10 1.10E+00 1.668E+00 7.448E-02 3.00892E+01 8.86E-03 1.000 1.27 1.24 113 8.23E-07 4.82E-07 3.20E-07 2.03E-10 6.80E-10 1.10E+00 1.669E+00 7.562E-02 3.00890E+01 8.87E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 3.968E-07 d(ln R0)/dt = 7.012E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.18E-02 8.91E-02 2.38E-04 1.33E-08 4.01E-08 1.10E+00 1.670E+00 7.568E-02 3.00883E+01 8.95E-03 1.000 1.27 1.26 100 1.12E-06 4.56E-07 2.45E-08 6.37E-12 1.93E-11 1.10E+00 1.674E+00 7.790E-02 2.99922E+01 8.99E-03 0.998 1.27 1.27 200 4.87E-08 1.41E-08 2.28E-09 1.44E-13 3.46E-13 1.10E+00 1.675E+00 7.800E-02 2.91092E+01 9.26E-03 0.984 1.27 1.27 300 1.36E-08 3.56E-09 3.04E-10 1.24E-14 2.65E-14 1.10E+00 1.676E+00 7.812E-02 2.87808E+01 9.37E-03 0.978 1.27 1.27 400 4.54E-09 1.18E-09 4.05E-11 1.24E-15 2.18E-15 1.10E+00 1.676E+00 7.817E-02 2.85422E+01 9.45E-03 0.974 1.27 1.27 500 1.86E-09 4.40E-10 1.07E-11 2.11E-16 3.96E-16 1.10E+00 1.676E+00 7.819E-02 2.84254E+01 9.49E-03 0.972 1.27 1.27 560 9.99E-10 2.36E-10 4.46E-12 1.23E-16 1.70E-16 1.10E+00 1.676E+00 7.820E-02 2.83779E+01 9.50E-03 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.03E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.741E-05 d(ln R0)/dt = 3.614E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.139596 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2910E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0543E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.090000 TO TG2= 1.095000 @ NSTEP 190 GFRAME TG2 MOMENTS CHECKSUM: 9.1780857343507E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 190 TA= 1.09000E+00 CPU TIME= 2.35303E+00 SECONDS. DT= 7.06605E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 191 TA= 1.09050E+00 CPU TIME= 2.18359E+00 SECONDS. DT= 6.27599E-04 %MFRCHK - LABEL "QMINORB", # 9= 1.12104E-44 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 19= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 3.46987E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -9.18383E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -9.53023E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -9.18383E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -9.53023E-42 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 198 TA= 1.09463E+00 CPU TIME= 2.12842E+00 SECONDS. DT= 3.72858E-04 --> plasma_hash("gframe"): TA= 1.095000E+00 NSTEP= 199 Hash code: 10195366 ->PRGCHK: bdy curvature ratio at t= 1.1000E+00 seconds is: 1.0420E-01 % MHDEQ: TG1= 1.095000 ; TG2= 1.100000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.822E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5945E+00 0.0000E+00 -3.6931E-02 0.0000E+00 1.6759E+00 7.8200E-02 1 0 4.7331E-01 4.8547E-02 4.8547E-02 8.9449E-01 2 0 3.5024E-02 5.6864E-02 5.0552E-05 -2.7299E-02 3 0 2.6940E-02 -7.6347E-03 -5.9195E-03 -7.8706E-03 4 0 -2.3444E-03 -3.8578E-03 -2.3030E-03 4.0576E-03 5 0 -2.7532E-04 6.6311E-04 1.2056E-03 2.1426E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.19E-01 3.75E-02 5.18E-02 4.09E-03 4.88E-04 1.10E+00 1.676E+00 7.820E-02 3.26486E+01 8.20E-03 1.000 1.27 1.04 100 3.85E-06 1.97E-06 1.18E-06 1.03E-09 9.07E-10 1.10E+00 1.667E+00 7.448E-02 3.00646E+01 9.02E-03 1.000 1.27 1.24 113 8.41E-07 4.79E-07 3.30E-07 2.32E-10 6.51E-10 1.10E+00 1.669E+00 7.566E-02 3.00644E+01 9.03E-03 1.000 1.27 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.195E-07 d(ln R0)/dt = 7.523E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.36E-02 9.00E-02 2.43E-04 1.32E-08 4.10E-08 1.10E+00 1.669E+00 7.571E-02 3.00635E+01 9.12E-03 1.000 1.27 1.26 100 1.18E-06 4.68E-07 2.49E-08 6.54E-12 1.96E-11 1.10E+00 1.674E+00 7.796E-02 2.99642E+01 9.16E-03 0.998 1.27 1.27 200 5.03E-08 1.44E-08 2.38E-09 1.50E-13 3.61E-13 1.10E+00 1.675E+00 7.806E-02 2.90606E+01 9.44E-03 0.983 1.27 1.27 300 1.43E-08 3.72E-09 3.20E-10 1.31E-14 2.80E-14 1.10E+00 1.676E+00 7.818E-02 2.87252E+01 9.55E-03 0.978 1.27 1.27 400 4.79E-09 1.28E-09 4.34E-11 1.31E-15 2.31E-15 1.10E+00 1.676E+00 7.823E-02 2.84813E+01 9.63E-03 0.974 1.27 1.27 500 2.00E-09 4.74E-10 1.15E-11 2.29E-16 4.21E-16 1.10E+00 1.676E+00 7.825E-02 2.83612E+01 9.68E-03 0.972 1.27 1.27 564 9.96E-10 2.47E-10 4.48E-12 1.19E-16 1.76E-16 1.10E+00 1.676E+00 7.826E-02 2.83083E+01 9.69E-03 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.860E-05 d(ln R0)/dt = 3.832E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.150754 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8262E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0420E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.095000 TO TG2= 1.100000 @ NSTEP 199 GFRAME TG2 MOMENTS CHECKSUM: 9.1760419486529E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 199 TA= 1.09500E+00 CPU TIME= 2.10693E+00 SECONDS. DT= 8.22149E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 200 TA= 1.09554E+00 CPU TIME= 2.16943E+00 SECONDS. DT= 6.72706E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10986328125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6041E+00 3.0122E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4375E+20 nbi_getprofiles ne*dVol sum (ions): 4.4375E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17702 - 0 (killed) + 5136 (dep) = 22838 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 8081 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8163 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8211 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8568 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8641 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9025 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9050 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9162 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9164 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9254 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9267 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9314 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9379 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9477 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9537 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9595 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9710 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9739 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9762 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9764 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9788 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9898 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9922 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0153E+00 %ORBALL: In processor 0: orbit # IORB= 10177 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10216 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10392 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10579 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10699 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10843 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10857 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10980 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11050 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11063 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11088 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11408 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22838 SPL= 0 TOT=17277 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 207 TA= 1.10000E+00 CPU TIME= 2.26270E+00 SECONDS. DT= 8.03762E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.100000E+00 NSTEP= 207 Hash code: 71387225 ->PRGCHK: bdy curvature ratio at t= 1.1050E+00 seconds is: 1.0400E-01 % MHDEQ: TG1= 1.100000 ; TG2= 1.105000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.815E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5944E+00 0.0000E+00 -3.7923E-02 0.0000E+00 1.6760E+00 7.8264E-02 1 0 4.7301E-01 4.8765E-02 4.8765E-02 8.9357E-01 2 0 3.5029E-02 5.6958E-02 1.2510E-04 -2.7299E-02 3 0 2.6855E-02 -7.6394E-03 -5.9271E-03 -7.8453E-03 4 0 -2.3512E-03 -3.8300E-03 -2.3018E-03 4.0592E-03 5 0 -2.6924E-04 6.5668E-04 1.2020E-03 2.1338E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.20E-01 3.80E-02 5.19E-02 4.09E-03 4.89E-04 1.10E+00 1.676E+00 7.826E-02 3.25495E+01 8.37E-03 1.000 1.27 1.03 100 3.87E-06 1.94E-06 1.16E-06 1.15E-09 9.24E-10 1.10E+00 1.667E+00 7.366E-02 2.99688E+01 9.20E-03 1.000 1.27 1.24 113 8.31E-07 4.55E-07 3.29E-07 2.43E-10 6.46E-10 1.10E+00 1.670E+00 7.496E-02 2.99686E+01 9.21E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.86E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.401E-07 d(ln R0)/dt = 8.043E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.47E-02 9.03E-02 2.45E-04 1.31E-08 4.14E-08 1.10E+00 1.670E+00 7.502E-02 2.99677E+01 9.30E-03 1.000 1.27 1.26 100 1.10E-06 4.35E-07 2.44E-08 6.29E-12 1.89E-11 1.10E+00 1.674E+00 7.732E-02 3.01648E+01 9.25E-03 1.003 1.27 1.27 200 5.00E-08 1.42E-08 2.38E-09 1.48E-13 3.55E-13 1.10E+00 1.676E+00 7.742E-02 2.92434E+01 9.54E-03 0.988 1.27 1.27 300 1.42E-08 3.73E-09 3.20E-10 1.29E-14 2.79E-14 1.10E+00 1.676E+00 7.754E-02 2.89050E+01 9.65E-03 0.982 1.27 1.27 400 4.77E-09 1.29E-09 4.43E-11 1.30E-15 2.34E-15 1.10E+00 1.676E+00 7.760E-02 2.86600E+01 9.74E-03 0.978 1.27 1.27 500 2.01E-09 4.78E-10 1.18E-11 2.32E-16 4.24E-16 1.10E+00 1.676E+00 7.762E-02 2.85384E+01 9.78E-03 0.976 1.27 1.27 564 9.80E-10 2.45E-10 4.40E-12 1.19E-16 1.79E-16 1.10E+00 1.676E+00 7.763E-02 2.84825E+01 9.80E-03 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.953E-05 d(ln R0)/dt = 4.004E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.162630 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8018E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0400E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.100000 TO TG2= 1.105000 @ NSTEP 207 GFRAME TG2 MOMENTS CHECKSUM: 9.1705078267066E+03 %MFRCHK - LABEL "QMINORB", # 9= 8.40779E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 7.44629E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.47016E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.06625E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.47016E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.06625E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.105000E+00 NSTEP= 212 Hash code: 14913653 ->PRGCHK: bdy curvature ratio at t= 1.1100E+00 seconds is: 1.0381E-01 % MHDEQ: TG1= 1.105000 ; TG2= 1.110000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.809E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5943E+00 0.0000E+00 -3.8915E-02 0.0000E+00 1.6762E+00 7.7632E-02 1 0 4.7272E-01 4.8983E-02 4.8983E-02 8.9264E-01 2 0 3.5034E-02 5.7053E-02 1.9964E-04 -2.7300E-02 3 0 2.6771E-02 -7.6441E-03 -5.9348E-03 -7.8200E-03 4 0 -2.3580E-03 -3.8022E-03 -2.3006E-03 4.0608E-03 5 0 -2.6315E-04 6.5025E-04 1.1983E-03 2.1250E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.20E-01 3.82E-02 5.20E-02 4.10E-03 4.90E-04 1.10E+00 1.676E+00 7.763E-02 3.24559E+01 8.47E-03 1.000 1.27 1.03 100 3.71E-06 1.82E-06 1.09E-06 1.22E-09 8.96E-10 1.10E+00 1.668E+00 7.297E-02 2.98760E+01 9.32E-03 1.000 1.27 1.23 113 8.05E-07 4.26E-07 3.21E-07 2.55E-10 6.34E-10 1.10E+00 1.670E+00 7.427E-02 2.98758E+01 9.33E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.06E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.488E-07 d(ln R0)/dt = 8.118E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.42E-02 8.96E-02 2.44E-04 1.33E-08 4.16E-08 1.10E+00 1.670E+00 7.433E-02 2.98749E+01 9.42E-03 1.000 1.27 1.25 100 1.08E-06 4.22E-07 2.45E-08 6.23E-12 1.88E-11 1.10E+00 1.675E+00 7.673E-02 3.01980E+01 9.33E-03 1.005 1.27 1.27 200 4.98E-08 1.40E-08 2.39E-09 1.49E-13 3.53E-13 1.10E+00 1.676E+00 7.682E-02 2.92706E+01 9.63E-03 0.990 1.27 1.27 300 1.41E-08 3.72E-09 3.16E-10 1.26E-14 2.75E-14 1.10E+00 1.676E+00 7.694E-02 2.89308E+01 9.74E-03 0.984 1.27 1.27 400 4.72E-09 1.30E-09 4.50E-11 1.30E-15 2.39E-15 1.10E+00 1.676E+00 7.700E-02 2.86893E+01 9.82E-03 0.980 1.27 1.27 500 1.99E-09 4.75E-10 1.17E-11 2.34E-16 4.27E-16 1.10E+00 1.676E+00 7.703E-02 2.85668E+01 9.86E-03 0.978 1.27 1.27 563 9.78E-10 2.36E-10 4.28E-12 1.07E-16 1.77E-16 1.10E+00 1.677E+00 7.704E-02 2.85094E+01 9.88E-03 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.062E-05 d(ln R0)/dt = 4.232E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.164886 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7871E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0381E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.105000 TO TG2= 1.110000 @ NSTEP 212 GFRAME TG2 MOMENTS CHECKSUM: 9.1665034800038E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 212 TA= 1.10500E+00 CPU TIME= 2.13086E+00 SECONDS. DT= 1.51447E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.11181640625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6030E+00 3.0073E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4479E+20 nbi_getprofiles ne*dVol sum (ions): 4.4479E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17277 - 0 (killed) + 5099 (dep) = 22376 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3656 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6525 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6719 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0098E+00 %ORBALL: In processor 0: orbit # IORB= 8676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8784 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8919 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9104 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9171 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9283 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9302 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9371 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9428 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9720 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9870 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9889 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9932 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9940 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9942 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9948 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10006 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10030 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10145 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10195 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10271 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10294 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10643 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10747 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11014 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11164 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11207 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22376 SPL= 0 TOT=16912 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 217 TA= 1.11000E+00 CPU TIME= 2.20312E+00 SECONDS. DT= 5.60314E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.059E+03 MB. --> plasma_hash("gframe"): TA= 1.110000E+00 NSTEP= 217 Hash code: 38631497 ->PRGCHK: bdy curvature ratio at t= 1.1150E+00 seconds is: 1.0362E-01 % MHDEQ: TG1= 1.110000 ; TG2= 1.115000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.804E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5942E+00 0.0000E+00 -3.9906E-02 0.0000E+00 1.6765E+00 7.7039E-02 1 0 4.7242E-01 4.9202E-02 4.9202E-02 8.9172E-01 2 0 3.5039E-02 5.7147E-02 2.7419E-04 -2.7300E-02 3 0 2.6686E-02 -7.6487E-03 -5.9424E-03 -7.7947E-03 4 0 -2.3647E-03 -3.7744E-03 -2.2994E-03 4.0624E-03 5 0 -2.5707E-04 6.4382E-04 1.1947E-03 2.1162E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 3.85E-02 5.22E-02 4.11E-03 4.91E-04 1.10E+00 1.677E+00 7.704E-02 3.24118E+01 8.57E-03 1.000 1.27 1.03 100 3.56E-06 1.72E-06 1.05E-06 1.25E-09 8.55E-10 1.10E+00 1.668E+00 7.231E-02 2.98233E+01 9.44E-03 1.000 1.27 1.24 113 7.90E-07 3.93E-07 3.17E-07 2.61E-10 6.24E-10 1.10E+00 1.670E+00 7.363E-02 2.98231E+01 9.44E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.519E-07 d(ln R0)/dt = 8.076E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.34E-02 8.87E-02 2.42E-04 1.34E-08 4.15E-08 1.10E+00 1.670E+00 7.369E-02 2.98223E+01 9.53E-03 1.000 1.27 1.26 100 1.20E-06 4.46E-07 2.52E-08 6.38E-12 1.92E-11 1.10E+00 1.675E+00 7.617E-02 3.00076E+01 9.48E-03 1.003 1.27 1.27 200 5.05E-08 1.40E-08 2.44E-09 1.54E-13 3.64E-13 1.10E+00 1.676E+00 7.627E-02 2.90870E+01 9.78E-03 0.988 1.27 1.27 300 1.41E-08 3.74E-09 3.17E-10 1.30E-14 2.78E-14 1.10E+00 1.677E+00 7.639E-02 2.87458E+01 9.90E-03 0.982 1.27 1.27 400 4.73E-09 1.32E-09 4.68E-11 1.37E-15 2.54E-15 1.10E+00 1.677E+00 7.645E-02 2.85108E+01 9.98E-03 0.978 1.27 1.27 500 1.96E-09 4.70E-10 1.17E-11 2.42E-16 4.30E-16 1.10E+00 1.677E+00 7.648E-02 2.83852E+01 1.00E-02 0.976 1.27 1.27 559 9.95E-10 2.45E-10 4.50E-12 1.48E-16 1.87E-16 1.10E+00 1.677E+00 7.649E-02 2.83300E+01 1.00E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.10E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.120E-05 d(ln R0)/dt = 4.392E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.134927 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3984E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0362E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.110000 TO TG2= 1.115000 @ NSTEP 217 GFRAME TG2 MOMENTS CHECKSUM: 9.1642838755988E+03 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.83740E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.17135E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.83740E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.17135E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.115000E+00 NSTEP= 223 Hash code: 99289787 ->PRGCHK: bdy curvature ratio at t= 1.1200E+00 seconds is: 1.0342E-01 % MHDEQ: TG1= 1.115000 ; TG2= 1.120000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.799E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5942E+00 0.0000E+00 -4.0898E-02 0.0000E+00 1.6770E+00 7.6491E-02 1 0 4.7213E-01 4.9420E-02 4.9420E-02 8.9079E-01 2 0 3.5045E-02 5.7242E-02 3.4874E-04 -2.7300E-02 3 0 2.6602E-02 -7.6534E-03 -5.9500E-03 -7.7695E-03 4 0 -2.3715E-03 -3.7466E-03 -2.2982E-03 4.0640E-03 5 0 -2.5098E-04 6.3739E-04 1.1911E-03 2.1074E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.23E-01 3.89E-02 5.24E-02 4.12E-03 4.92E-04 1.10E+00 1.677E+00 7.649E-02 3.23734E+01 8.64E-03 1.000 1.27 1.03 100 3.72E-06 1.81E-06 1.07E-06 1.31E-09 8.19E-10 1.10E+00 1.669E+00 7.171E-02 2.97705E+01 9.52E-03 1.000 1.27 1.23 113 8.29E-07 3.85E-07 3.26E-07 2.67E-10 6.18E-10 1.10E+00 1.671E+00 7.301E-02 2.97703E+01 9.52E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.479E-07 d(ln R0)/dt = 7.789E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.34E-02 8.82E-02 2.40E-04 1.42E-08 4.22E-08 1.10E+00 1.671E+00 7.308E-02 2.97694E+01 9.61E-03 1.000 1.27 1.25 100 1.21E-06 4.37E-07 2.51E-08 6.41E-12 1.92E-11 1.10E+00 1.676E+00 7.560E-02 2.99007E+01 9.58E-03 1.002 1.27 1.27 200 5.08E-08 1.39E-08 2.47E-09 1.56E-13 3.64E-13 1.10E+00 1.677E+00 7.571E-02 2.89765E+01 9.89E-03 0.987 1.27 1.27 300 1.41E-08 3.74E-09 3.16E-10 1.31E-14 2.79E-14 1.10E+00 1.677E+00 7.584E-02 2.86355E+01 1.00E-02 0.981 1.27 1.27 400 4.71E-09 1.32E-09 4.81E-11 1.40E-15 2.63E-15 1.10E+00 1.677E+00 7.590E-02 2.84043E+01 1.01E-02 0.977 1.27 1.27 500 1.93E-09 4.65E-10 1.16E-11 2.44E-16 4.26E-16 1.10E+00 1.677E+00 7.593E-02 2.82764E+01 1.01E-02 0.975 1.27 1.27 558 9.97E-10 2.42E-10 4.46E-12 1.30E-16 1.88E-16 1.10E+00 1.677E+00 7.594E-02 2.82216E+01 1.02E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.10E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.138E-05 d(ln R0)/dt = 4.498E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.148627 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4180E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0342E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.115000 TO TG2= 1.120000 @ NSTEP 223 GFRAME TG2 MOMENTS CHECKSUM: 9.1615129056748E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 223 TA= 1.11500E+00 CPU TIME= 2.30225E+00 SECONDS. DT= 1.34221E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.107421875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6039E+00 3.0058E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4667E+20 nbi_getprofiles ne*dVol sum (ions): 4.4667E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16912 - 0 (killed) + 5071 (dep) = 21983 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0312E+00 %ORBALL: In processor 0: orbit # IORB= 7023 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7278 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7979 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8574 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8622 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8634 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8856 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8869 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8908 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9101 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9152 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9347 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9394 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9437 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9495 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9547 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9589 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9616 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9661 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9775 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9796 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10022 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10132 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10139 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10196 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10365 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10402 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10420 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10446 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10537 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10639 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10698 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10723 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10726 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10794 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10883 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21983 SPL= 0 TOT=16675 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 228 TA= 1.12000E+00 CPU TIME= 2.25244E+00 SECONDS. DT= 1.34109E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.060E+03 MB. --> plasma_hash("gframe"): TA= 1.120000E+00 NSTEP= 228 Hash code: 118272523 ->PRGCHK: bdy curvature ratio at t= 1.1250E+00 seconds is: 1.0323E-01 % MHDEQ: TG1= 1.120000 ; TG2= 1.125000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.794E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5941E+00 0.0000E+00 -4.1890E-02 0.0000E+00 1.6775E+00 7.5939E-02 1 0 4.7183E-01 4.9638E-02 4.9638E-02 8.8987E-01 2 0 3.5050E-02 5.7337E-02 4.2328E-04 -2.7301E-02 3 0 2.6517E-02 -7.6581E-03 -5.9577E-03 -7.7442E-03 4 0 -2.3783E-03 -3.7188E-03 -2.2970E-03 4.0656E-03 5 0 -2.4490E-04 6.3096E-04 1.1875E-03 2.0985E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 3.93E-02 5.26E-02 4.14E-03 4.94E-04 1.10E+00 1.677E+00 7.594E-02 3.23273E+01 8.71E-03 1.000 1.27 1.03 100 4.19E-06 2.10E-06 1.17E-06 1.42E-09 8.09E-10 1.10E+00 1.669E+00 7.117E-02 2.97123E+01 9.60E-03 1.000 1.27 1.23 113 9.02E-07 4.06E-07 3.42E-07 2.73E-10 6.09E-10 1.10E+00 1.671E+00 7.245E-02 2.97121E+01 9.61E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.323E-07 d(ln R0)/dt = 7.270E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.39E-02 8.85E-02 2.40E-04 1.50E-08 4.29E-08 1.10E+00 1.671E+00 7.251E-02 2.97112E+01 9.69E-03 1.000 1.27 1.25 100 1.22E-06 4.28E-07 2.50E-08 6.43E-12 1.91E-11 1.10E+00 1.676E+00 7.502E-02 2.98487E+01 9.66E-03 1.002 1.27 1.27 200 5.11E-08 1.37E-08 2.49E-09 1.57E-13 3.63E-13 1.10E+00 1.677E+00 7.515E-02 2.89194E+01 9.97E-03 0.987 1.27 1.27 300 1.40E-08 3.74E-09 3.14E-10 1.32E-14 2.79E-14 1.10E+00 1.677E+00 7.528E-02 2.85781E+01 1.01E-02 0.981 1.27 1.27 400 4.69E-09 1.33E-09 4.95E-11 1.43E-15 2.73E-15 1.10E+00 1.678E+00 7.534E-02 2.83511E+01 1.02E-02 0.977 1.27 1.27 500 1.91E-09 4.60E-10 1.16E-11 2.49E-16 4.26E-16 1.10E+00 1.678E+00 7.537E-02 2.82209E+01 1.02E-02 0.975 1.27 1.27 558 9.97E-10 2.41E-10 4.45E-12 1.27E-16 1.84E-16 1.10E+00 1.678E+00 7.538E-02 2.81659E+01 1.02E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.055E-05 d(ln R0)/dt = 4.467E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.162203 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3887E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0323E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.120000 TO TG2= 1.125000 @ NSTEP 228 GFRAME TG2 MOMENTS CHECKSUM: 9.1583054184133E+03 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -3.67583E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.28793E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -3.67583E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.28793E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.125000E+00 NSTEP= 232 Hash code: 983016 ->PRGCHK: bdy curvature ratio at t= 1.1300E+00 seconds is: 1.0304E-01 % MHDEQ: TG1= 1.125000 ; TG2= 1.130000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.789E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5940E+00 0.0000E+00 -4.2882E-02 0.0000E+00 1.6779E+00 7.5383E-02 1 0 4.7154E-01 4.9856E-02 4.9856E-02 8.8895E-01 2 0 3.5055E-02 5.7431E-02 4.9783E-04 -2.7301E-02 3 0 2.6433E-02 -7.6627E-03 -5.9653E-03 -7.7189E-03 4 0 -2.3850E-03 -3.6910E-03 -2.2958E-03 4.0672E-03 5 0 -2.3882E-04 6.2453E-04 1.1838E-03 2.0897E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 3.97E-02 5.28E-02 4.15E-03 4.96E-04 1.10E+00 1.678E+00 7.538E-02 3.22785E+01 8.81E-03 1.000 1.27 1.03 100 3.92E-06 2.00E-06 1.11E-06 1.48E-09 7.59E-10 1.10E+00 1.670E+00 7.041E-02 2.96527E+01 9.72E-03 1.000 1.27 1.23 113 9.03E-07 3.73E-07 3.38E-07 2.88E-10 5.99E-10 1.10E+00 1.672E+00 7.168E-02 2.96525E+01 9.72E-03 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.422E-07 d(ln R0)/dt = 7.236E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.32E-02 8.77E-02 2.39E-04 1.46E-08 4.28E-08 1.10E+00 1.672E+00 7.174E-02 2.96515E+01 9.81E-03 1.000 1.27 1.25 100 1.21E-06 4.18E-07 2.51E-08 6.45E-12 1.93E-11 1.10E+00 1.676E+00 7.438E-02 2.98148E+01 9.77E-03 1.003 1.27 1.27 200 5.13E-08 1.36E-08 2.53E-09 1.60E-13 3.64E-13 1.10E+00 1.677E+00 7.452E-02 2.88762E+01 1.01E-02 0.987 1.27 1.27 300 1.39E-08 3.73E-09 3.11E-10 1.30E-14 2.76E-14 1.10E+00 1.678E+00 7.465E-02 2.85324E+01 1.02E-02 0.981 1.27 1.27 400 4.72E-09 1.34E-09 5.18E-11 1.49E-15 2.92E-15 1.10E+00 1.678E+00 7.471E-02 2.83127E+01 1.03E-02 0.977 1.27 1.27 500 1.90E-09 4.61E-10 1.18E-11 2.59E-16 4.39E-16 1.10E+00 1.678E+00 7.475E-02 2.81789E+01 1.03E-02 0.975 1.27 1.27 559 9.87E-10 2.45E-10 4.49E-12 1.45E-16 1.81E-16 1.10E+00 1.678E+00 7.476E-02 2.81225E+01 1.04E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.942E-05 d(ln R0)/dt = 4.370E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.150873 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3936E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0304E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.125000 TO TG2= 1.130000 @ NSTEP 232 GFRAME TG2 MOMENTS CHECKSUM: 9.1540275406540E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.103515625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6046E+00 3.0041E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5152E+20 nbi_getprofiles ne*dVol sum (ions): 4.5152E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16675 - 0 (killed) + 5053 (dep) = 21728 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0017E+00 %ORBALL: In processor 0: orbit # IORB= 5352 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5647 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0149E+00 %ORBALL: In processor 0: orbit # IORB= 6642 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8266 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8427 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8478 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8770 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8836 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8842 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9047 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9049 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9060 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9120 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9292 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9308 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9433 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9452 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9734 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9773 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9812 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9852 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9855 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9878 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9920 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10023 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10093 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10249 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10302 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10453 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10468 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10520 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10527 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10529 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10637 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10838 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10891 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21728 SPL= 0 TOT=16508 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 236 TA= 1.13000E+00 CPU TIME= 2.21533E+00 SECONDS. DT= 5.50927E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.060E+03 MB. --> plasma_hash("gframe"): TA= 1.130000E+00 NSTEP= 236 Hash code: 12868471 ->PRGCHK: bdy curvature ratio at t= 1.1350E+00 seconds is: 1.0284E-01 % MHDEQ: TG1= 1.130000 ; TG2= 1.135000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.784E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5940E+00 0.0000E+00 -4.3874E-02 0.0000E+00 1.6781E+00 7.4757E-02 1 0 4.7124E-01 5.0074E-02 5.0074E-02 8.8802E-01 2 0 3.5060E-02 5.7526E-02 5.7238E-04 -2.7302E-02 3 0 2.6348E-02 -7.6674E-03 -5.9729E-03 -7.6936E-03 4 0 -2.3918E-03 -3.6633E-03 -2.2946E-03 4.0688E-03 5 0 -2.3273E-04 6.1810E-04 1.1802E-03 2.0809E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 3.99E-02 5.29E-02 4.16E-03 4.97E-04 1.10E+00 1.678E+00 7.476E-02 3.22257E+01 8.92E-03 1.000 1.27 1.02 100 3.54E-06 1.79E-06 1.01E-06 1.50E-09 7.21E-10 1.10E+00 1.670E+00 6.960E-02 2.95951E+01 9.84E-03 1.000 1.27 1.23 113 8.89E-07 3.44E-07 3.29E-07 3.05E-10 5.98E-10 1.10E+00 1.672E+00 7.088E-02 2.95948E+01 9.84E-03 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.06E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.596E-07 d(ln R0)/dt = 7.391E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.25E-02 8.69E-02 2.38E-04 1.43E-08 4.29E-08 1.10E+00 1.672E+00 7.095E-02 2.95938E+01 9.93E-03 1.000 1.27 1.25 100 1.19E-06 4.10E-07 2.52E-08 6.43E-12 1.94E-11 1.10E+00 1.676E+00 7.374E-02 2.98704E+01 9.85E-03 1.005 1.27 1.27 200 5.16E-08 1.35E-08 2.55E-09 1.62E-13 3.66E-13 1.10E+00 1.678E+00 7.387E-02 2.89227E+01 1.02E-02 0.989 1.27 1.27 300 1.38E-08 3.72E-09 3.06E-10 1.27E-14 2.72E-14 1.10E+00 1.678E+00 7.400E-02 2.85743E+01 1.03E-02 0.983 1.27 1.27 400 4.76E-09 1.34E-09 5.42E-11 1.56E-15 3.11E-15 1.10E+00 1.678E+00 7.406E-02 2.83622E+01 1.04E-02 0.979 1.27 1.27 500 1.90E-09 4.63E-10 1.21E-11 2.71E-16 4.60E-16 1.10E+00 1.678E+00 7.410E-02 2.82253E+01 1.04E-02 0.977 1.27 1.27 560 9.94E-10 2.46E-10 4.56E-12 1.56E-16 1.84E-16 1.10E+00 1.678E+00 7.411E-02 2.81679E+01 1.05E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.898E-05 d(ln R0)/dt = 4.380E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.140729 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7920E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0284E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.130000 TO TG2= 1.135000 @ NSTEP 236 GFRAME TG2 MOMENTS CHECKSUM: 9.1490899628030E+03 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10304E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.36206E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10304E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.36206E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.135000E+00 NSTEP= 242 Hash code: 19097086 ->PRGCHK: bdy curvature ratio at t= 1.1400E+00 seconds is: 1.0265E-01 % MHDEQ: TG1= 1.135000 ; TG2= 1.140000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.779E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5939E+00 0.0000E+00 -4.4866E-02 0.0000E+00 1.6783E+00 7.4109E-02 1 0 4.7095E-01 5.0293E-02 5.0293E-02 8.8710E-01 2 0 3.5065E-02 5.7620E-02 6.4692E-04 -2.7302E-02 3 0 2.6264E-02 -7.6721E-03 -5.9806E-03 -7.6684E-03 4 0 -2.3986E-03 -3.6355E-03 -2.2934E-03 4.0704E-03 5 0 -2.2665E-04 6.1167E-04 1.1766E-03 2.0721E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.02E-02 5.29E-02 4.16E-03 4.98E-04 1.10E+00 1.678E+00 7.411E-02 3.21717E+01 9.01E-03 1.000 1.27 1.02 100 3.28E-06 1.64E-06 9.46E-07 1.53E-09 6.99E-10 1.10E+00 1.670E+00 6.880E-02 2.95388E+01 9.94E-03 1.000 1.27 1.23 113 8.81E-07 3.27E-07 3.23E-07 3.18E-10 5.98E-10 1.10E+00 1.672E+00 7.010E-02 2.95385E+01 9.95E-03 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.746E-07 d(ln R0)/dt = 7.560E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.15E-02 8.63E-02 2.36E-04 1.36E-08 4.25E-08 1.10E+00 1.672E+00 7.018E-02 2.95374E+01 1.00E-02 1.000 1.27 1.25 100 1.21E-06 4.13E-07 2.55E-08 6.43E-12 1.95E-11 1.10E+00 1.676E+00 7.309E-02 2.98663E+01 9.94E-03 1.006 1.27 1.27 200 5.18E-08 1.35E-08 2.56E-09 1.64E-13 3.69E-13 1.10E+00 1.678E+00 7.322E-02 2.89189E+01 1.03E-02 0.990 1.27 1.27 300 1.36E-08 3.67E-09 3.02E-10 1.25E-14 2.70E-14 1.10E+00 1.678E+00 7.335E-02 2.85692E+01 1.04E-02 0.984 1.27 1.27 400 4.78E-09 1.34E-09 5.65E-11 1.66E-15 3.35E-15 1.10E+00 1.678E+00 7.341E-02 2.83656E+01 1.05E-02 0.980 1.27 1.27 500 1.88E-09 4.60E-10 1.21E-11 2.81E-16 4.72E-16 1.10E+00 1.678E+00 7.345E-02 2.82251E+01 1.05E-02 0.978 1.27 1.27 560 9.97E-10 2.47E-10 4.61E-12 1.53E-16 1.79E-16 1.10E+00 1.678E+00 7.346E-02 2.81677E+01 1.05E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.81E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.870E-05 d(ln R0)/dt = 4.406E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.138190 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8115E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0265E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.135000 TO TG2= 1.140000 @ NSTEP 242 GFRAME TG2 MOMENTS CHECKSUM: 9.1443633499539E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.099609375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6052E+00 3.0026E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5632E+20 nbi_getprofiles ne*dVol sum (ions): 4.5632E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16508 - 0 (killed) + 5047 (dep) = 21555 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2589 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6099 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6774 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7758 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8511 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0069E+00 %ORBALL: In processor 0: orbit # IORB= 8533 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8648 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8914 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8980 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9007 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0011E+00 %ORBALL: In processor 0: orbit # IORB= 9054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9189 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9222 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9284 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9292 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9305 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9409 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9449 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9590 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9684 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9785 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9806 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9820 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9958 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9978 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10001 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10060 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10413 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10535 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10637 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10781 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21555 SPL= 0 TOT=16199 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 245 TA= 1.14000E+00 CPU TIME= 2.30713E+00 SECONDS. DT= 1.64838E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.060E+03 MB. --> plasma_hash("gframe"): TA= 1.140000E+00 NSTEP= 245 Hash code: 103300877 ->PRGCHK: bdy curvature ratio at t= 1.1450E+00 seconds is: 1.0242E-01 % MHDEQ: TG1= 1.140000 ; TG2= 1.145000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.775E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5938E+00 0.0000E+00 -4.5858E-02 0.0000E+00 1.6784E+00 7.3461E-02 1 0 4.7065E-01 5.0511E-02 5.0511E-02 8.8617E-01 2 0 3.5071E-02 5.7715E-02 7.2147E-04 -2.7303E-02 3 0 2.6180E-02 -7.6767E-03 -5.9882E-03 -7.6431E-03 4 0 -2.4054E-03 -3.6077E-03 -2.2922E-03 4.0720E-03 5 0 -2.2056E-04 6.0525E-04 1.1729E-03 2.0633E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.04E-02 5.30E-02 4.17E-03 4.99E-04 1.10E+00 1.678E+00 7.346E-02 3.21539E+01 9.09E-03 1.000 1.27 1.02 100 3.04E-06 1.50E-06 8.84E-07 1.57E-09 6.82E-10 1.10E+00 1.670E+00 6.799E-02 2.95149E+01 1.00E-02 1.000 1.27 1.23 113 8.82E-07 3.17E-07 3.18E-07 3.38E-10 5.99E-10 1.10E+00 1.672E+00 6.932E-02 2.95147E+01 1.00E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.955E-07 d(ln R0)/dt = 7.833E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.02E-02 8.55E-02 2.34E-04 1.29E-08 4.21E-08 1.10E+00 1.672E+00 6.939E-02 2.95133E+01 1.01E-02 1.000 1.27 1.25 100 1.22E-06 4.16E-07 2.57E-08 6.49E-12 1.98E-11 1.10E+00 1.677E+00 7.244E-02 2.98545E+01 1.00E-02 1.006 1.27 1.27 200 5.20E-08 1.35E-08 2.58E-09 1.66E-13 3.69E-13 1.10E+00 1.678E+00 7.257E-02 2.89055E+01 1.04E-02 0.990 1.27 1.27 300 1.34E-08 3.62E-09 2.96E-10 1.23E-14 2.67E-14 1.10E+00 1.678E+00 7.270E-02 2.85552E+01 1.05E-02 0.984 1.27 1.27 400 4.77E-09 1.33E-09 5.83E-11 1.75E-15 3.55E-15 1.10E+00 1.678E+00 7.276E-02 2.83590E+01 1.06E-02 0.981 1.27 1.27 500 1.86E-09 4.59E-10 1.23E-11 2.95E-16 4.91E-16 1.10E+00 1.679E+00 7.280E-02 2.82173E+01 1.06E-02 0.978 1.27 1.27 560 9.90E-10 2.45E-10 4.62E-12 1.51E-16 1.75E-16 1.10E+00 1.679E+00 7.281E-02 2.81590E+01 1.06E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.895E-05 d(ln R0)/dt = 4.509E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.136387 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3105E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0242E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.140000 TO TG2= 1.145000 @ NSTEP 245 GFRAME TG2 MOMENTS CHECKSUM: 9.1398606304627E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 245 TA= 1.14000E+00 CPU TIME= 2.19727E+00 SECONDS. DT= 1.64838E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 246 TA= 1.14059E+00 CPU TIME= 2.38379E+00 SECONDS. DT= 7.34209E-04 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.83818E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.43983E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.83818E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.43983E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 253 TA= 1.14456E+00 CPU TIME= 2.43945E+00 SECONDS. DT= 4.38862E-04 --> plasma_hash("gframe"): TA= 1.145000E+00 NSTEP= 254 Hash code: 112742544 ->PRGCHK: bdy curvature ratio at t= 1.1500E+00 seconds is: 1.0218E-01 % MHDEQ: TG1= 1.145000 ; TG2= 1.150000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.772E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5937E+00 0.0000E+00 -4.6849E-02 0.0000E+00 1.6786E+00 7.2812E-02 1 0 4.7036E-01 5.0729E-02 5.0729E-02 8.8525E-01 2 0 3.5076E-02 5.7809E-02 7.9602E-04 -2.7303E-02 3 0 2.6095E-02 -7.6814E-03 -5.9958E-03 -7.6178E-03 4 0 -2.4121E-03 -3.5799E-03 -2.2910E-03 4.0736E-03 5 0 -2.1448E-04 5.9882E-04 1.1693E-03 2.0545E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.06E-02 5.31E-02 4.18E-03 5.00E-04 1.10E+00 1.679E+00 7.281E-02 3.21362E+01 9.18E-03 1.000 1.27 1.03 100 3.00E-06 1.47E-06 8.74E-07 1.62E-09 6.59E-10 1.10E+00 1.670E+00 6.727E-02 2.94909E+01 1.01E-02 1.000 1.27 1.23 113 8.89E-07 3.21E-07 3.20E-07 3.46E-10 5.90E-10 1.10E+00 1.672E+00 6.858E-02 2.94906E+01 1.01E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.994E-07 d(ln R0)/dt = 7.705E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.90E-02 8.52E-02 2.32E-04 1.27E-08 4.15E-08 1.10E+00 1.672E+00 6.865E-02 2.94892E+01 1.02E-02 1.000 1.27 1.25 100 1.28E-06 4.29E-07 2.61E-08 6.60E-12 2.01E-11 1.10E+00 1.677E+00 7.173E-02 2.98400E+01 1.01E-02 1.006 1.27 1.27 200 5.22E-08 1.35E-08 2.59E-09 1.68E-13 3.67E-13 1.10E+00 1.678E+00 7.186E-02 2.88877E+01 1.05E-02 0.990 1.27 1.27 300 1.32E-08 3.61E-09 2.94E-10 1.21E-14 2.66E-14 1.10E+00 1.678E+00 7.200E-02 2.85373E+01 1.06E-02 0.984 1.27 1.27 400 4.80E-09 1.32E-09 5.99E-11 1.82E-15 3.73E-15 1.10E+00 1.678E+00 7.206E-02 2.83454E+01 1.07E-02 0.981 1.27 1.27 500 1.87E-09 4.65E-10 1.26E-11 3.11E-16 5.16E-16 1.10E+00 1.678E+00 7.209E-02 2.82035E+01 1.07E-02 0.978 1.27 1.27 560 9.91E-10 2.45E-10 4.65E-12 1.48E-16 1.72E-16 1.10E+00 1.678E+00 7.211E-02 2.81433E+01 1.07E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.12E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.038E-05 d(ln R0)/dt = 4.737E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.128898 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3838E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0218E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.145000 TO TG2= 1.150000 @ NSTEP 254 GFRAME TG2 MOMENTS CHECKSUM: 9.1349276170197E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 254 TA= 1.14500E+00 CPU TIME= 2.40479E+00 SECONDS. DT= 6.90797E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 255 TA= 1.14554E+00 CPU TIME= 2.30615E+00 SECONDS. DT= 6.81143E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 262 TA= 1.14923E+00 CPU TIME= 2.28076E+00 SECONDS. DT= 6.39761E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10498046875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6075E+00 3.0043E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5937E+20 nbi_getprofiles ne*dVol sum (ions): 4.5937E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16199 - 0 (killed) + 5069 (dep) = 21268 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5346 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5852 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 7644 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8203 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8205 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8345 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8469 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8504 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8565 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8683 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8726 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8853 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8911 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9059 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9076 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9207 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9357 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9380 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9394 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9468 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9614 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9679 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9748 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9750 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9753 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9812 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9944 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10310 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10445 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0036E+00 %ORBALL: In processor 0: orbit # IORB= 10457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10469 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10477 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10507 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10662 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21268 SPL= 0 TOT=16145 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 264 TA= 1.15000E+00 CPU TIME= 2.12451E+00 SECONDS. DT= 3.33904E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.061E+03 MB. --> plasma_hash("gframe"): TA= 1.150000E+00 NSTEP= 264 Hash code: 69262431 ->PRGCHK: bdy curvature ratio at t= 1.1550E+00 seconds is: 1.0195E-01 % MHDEQ: TG1= 1.150000 ; TG2= 1.155000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.766E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5937E+00 0.0000E+00 -4.7841E-02 0.0000E+00 1.6785E+00 7.2106E-02 1 0 4.7006E-01 5.0947E-02 5.0947E-02 8.8432E-01 2 0 3.5081E-02 5.7904E-02 8.7056E-04 -2.7304E-02 3 0 2.6011E-02 -7.6861E-03 -6.0035E-03 -7.5925E-03 4 0 -2.4189E-03 -3.5521E-03 -2.2898E-03 4.0752E-03 5 0 -2.0840E-04 5.9239E-04 1.1657E-03 2.0457E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.06E-02 5.31E-02 4.17E-03 4.99E-04 1.10E+00 1.678E+00 7.211E-02 3.20384E+01 9.29E-03 1.000 1.27 1.03 100 3.04E-06 1.47E-06 8.84E-07 1.62E-09 6.63E-10 1.10E+00 1.670E+00 6.661E-02 2.94040E+01 1.03E-02 1.000 1.27 1.23 113 8.80E-07 3.30E-07 3.22E-07 3.34E-10 5.85E-10 1.10E+00 1.672E+00 6.791E-02 2.94038E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.951E-07 d(ln R0)/dt = 7.585E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.86E-02 8.57E-02 2.31E-04 1.23E-08 4.08E-08 1.10E+00 1.672E+00 6.799E-02 2.94023E+01 1.04E-02 1.000 1.27 1.25 100 1.37E-06 4.49E-07 2.64E-08 6.76E-12 2.04E-11 1.10E+00 1.676E+00 7.103E-02 2.97559E+01 1.03E-02 1.006 1.27 1.27 200 5.25E-08 1.36E-08 2.59E-09 1.69E-13 3.63E-13 1.10E+00 1.678E+00 7.116E-02 2.88003E+01 1.06E-02 0.990 1.27 1.27 300 1.32E-08 3.63E-09 2.94E-10 1.21E-14 2.65E-14 1.10E+00 1.678E+00 7.130E-02 2.84503E+01 1.07E-02 0.984 1.27 1.27 400 4.84E-09 1.33E-09 6.03E-11 1.84E-15 3.77E-15 1.10E+00 1.678E+00 7.136E-02 2.82594E+01 1.08E-02 0.981 1.27 1.27 500 1.90E-09 4.76E-10 1.30E-11 3.26E-16 5.37E-16 1.10E+00 1.678E+00 7.140E-02 2.81190E+01 1.09E-02 0.978 1.27 1.27 560 9.88E-10 2.45E-10 4.63E-12 1.47E-16 1.69E-16 1.10E+00 1.678E+00 7.141E-02 2.80564E+01 1.09E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.97E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.282E-05 d(ln R0)/dt = 5.125E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.80 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.136306 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2373E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0195E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.150000 TO TG2= 1.155000 @ NSTEP 264 GFRAME TG2 MOMENTS CHECKSUM: 9.1302297676367E+03 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.02325E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.49645E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.02325E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.49645E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.28752E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.60617E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.28752E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.60617E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.155000E+00 NSTEP= 272 Hash code: 9416789 ->PRGCHK: bdy curvature ratio at t= 1.1600E+00 seconds is: 1.0171E-01 % MHDEQ: TG1= 1.155000 ; TG2= 1.160000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.759E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5936E+00 0.0000E+00 -4.8833E-02 0.0000E+00 1.6784E+00 7.1411E-02 1 0 4.6977E-01 5.1166E-02 5.1166E-02 8.8340E-01 2 0 3.5086E-02 5.7998E-02 9.4511E-04 -2.7304E-02 3 0 2.5926E-02 -7.6907E-03 -6.0111E-03 -7.5673E-03 4 0 -2.4257E-03 -3.5243E-03 -2.2886E-03 4.0769E-03 5 0 -2.0231E-04 5.8596E-04 1.1621E-03 2.0368E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.07E-02 5.30E-02 4.17E-03 4.99E-04 1.10E+00 1.678E+00 7.141E-02 3.19492E+01 9.23E-03 1.000 1.27 1.03 100 3.03E-06 1.45E-06 8.71E-07 1.62E-09 6.69E-10 1.10E+00 1.670E+00 6.593E-02 2.93237E+01 1.02E-02 1.000 1.27 1.23 113 8.90E-07 3.34E-07 3.21E-07 3.35E-10 5.91E-10 1.10E+00 1.672E+00 6.724E-02 2.93235E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.966E-07 d(ln R0)/dt = 7.523E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.86E-02 8.55E-02 2.30E-04 1.26E-08 4.13E-08 1.10E+00 1.672E+00 6.731E-02 2.93220E+01 1.03E-02 1.000 1.27 1.25 100 1.42E-06 4.75E-07 2.66E-08 6.84E-12 2.07E-11 1.10E+00 1.677E+00 7.037E-02 2.96679E+01 1.02E-02 1.006 1.27 1.27 200 5.39E-08 1.40E-08 2.63E-09 1.72E-13 3.69E-13 1.10E+00 1.678E+00 7.052E-02 2.87111E+01 1.05E-02 0.990 1.27 1.27 300 1.34E-08 3.67E-09 2.97E-10 1.23E-14 2.67E-14 1.10E+00 1.678E+00 7.066E-02 2.83599E+01 1.07E-02 0.984 1.27 1.27 400 4.90E-09 1.34E-09 6.15E-11 1.92E-15 3.88E-15 1.10E+00 1.678E+00 7.071E-02 2.81705E+01 1.07E-02 0.980 1.27 1.27 500 1.94E-09 4.88E-10 1.36E-11 3.52E-16 5.75E-16 1.10E+00 1.678E+00 7.075E-02 2.80315E+01 1.08E-02 0.978 1.27 1.27 560 9.97E-10 2.48E-10 4.71E-12 1.53E-16 1.75E-16 1.10E+00 1.679E+00 7.076E-02 2.79671E+01 1.08E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.45E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.417E-05 d(ln R0)/dt = 5.382E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.128624 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7305E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0171E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.155000 TO TG2= 1.160000 @ NSTEP 272 GFRAME TG2 MOMENTS CHECKSUM: 9.1261682418161E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 272 TA= 1.15500E+00 CPU TIME= 2.18506E+00 SECONDS. DT= 1.21771E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.12060546875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6064E+00 2.9997E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5312E+20 nbi_getprofiles ne*dVol sum (ions): 4.5312E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16145 - 0 (killed) + 5052 (dep) = 21197 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6943 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7086 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7497 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7992 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8204 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8222 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8549 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8574 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8597 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8656 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8819 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9060 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9258 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9259 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9260 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9483 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9672 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9760 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9787 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9866 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9876 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10004 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10024 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10269 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10276 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10287 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10342 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10389 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10564 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10591 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21197 SPL= 0 TOT=16211 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 277 TA= 1.16000E+00 CPU TIME= 2.74365E+00 SECONDS. DT= 6.59964E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.061E+03 MB. --> plasma_hash("gframe"): TA= 1.160000E+00 NSTEP= 277 Hash code: 108949383 ->PRGCHK: bdy curvature ratio at t= 1.1650E+00 seconds is: 1.0147E-01 % MHDEQ: TG1= 1.160000 ; TG2= 1.165000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.755E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5935E+00 0.0000E+00 -4.9825E-02 0.0000E+00 1.6785E+00 7.0765E-02 1 0 4.6947E-01 5.1384E-02 5.1384E-02 8.8248E-01 2 0 3.5092E-02 5.8093E-02 1.0197E-03 -2.7304E-02 3 0 2.5842E-02 -7.6954E-03 -6.0187E-03 -7.5420E-03 4 0 -2.4324E-03 -3.4965E-03 -2.2874E-03 4.0785E-03 5 0 -1.9623E-04 5.7953E-04 1.1584E-03 2.0280E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.09E-02 5.31E-02 4.18E-03 5.00E-04 1.10E+00 1.679E+00 7.076E-02 3.19056E+01 9.15E-03 1.000 1.27 1.03 100 3.16E-06 1.52E-06 8.94E-07 1.66E-09 6.54E-10 1.10E+00 1.670E+00 6.535E-02 2.92783E+01 1.01E-02 1.000 1.27 1.23 113 9.37E-07 3.54E-07 3.27E-07 3.34E-10 5.88E-10 1.10E+00 1.672E+00 6.661E-02 2.92781E+01 1.01E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.06E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.833E-07 d(ln R0)/dt = 7.056E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.90E-02 8.56E-02 2.29E-04 1.28E-08 4.18E-08 1.10E+00 1.672E+00 6.668E-02 2.92765E+01 1.02E-02 1.000 1.27 1.25 100 1.49E-06 4.99E-07 2.69E-08 6.88E-12 2.09E-11 1.10E+00 1.677E+00 6.970E-02 2.95748E+01 1.01E-02 1.005 1.27 1.27 200 5.52E-08 1.43E-08 2.67E-09 1.75E-13 3.77E-13 1.10E+00 1.678E+00 6.987E-02 2.86186E+01 1.05E-02 0.989 1.27 1.27 300 1.35E-08 3.71E-09 3.02E-10 1.26E-14 2.71E-14 1.10E+00 1.678E+00 7.001E-02 2.82665E+01 1.06E-02 0.983 1.27 1.27 400 4.96E-09 1.35E-09 6.23E-11 1.98E-15 3.97E-15 1.10E+00 1.678E+00 7.007E-02 2.80777E+01 1.07E-02 0.980 1.27 1.27 500 1.97E-09 4.97E-10 1.40E-11 3.73E-16 6.06E-16 1.10E+00 1.679E+00 7.010E-02 2.79402E+01 1.07E-02 0.977 1.27 1.27 561 9.94E-10 2.51E-10 4.72E-12 1.55E-16 1.74E-16 1.10E+00 1.679E+00 7.012E-02 2.78742E+01 1.07E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.75E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.457E-05 d(ln R0)/dt = 5.503E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.135221 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7432E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0147E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.160000 TO TG2= 1.165000 @ NSTEP 277 GFRAME TG2 MOMENTS CHECKSUM: 9.1222258871085E+03 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 9.19357E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.41013E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.19357E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.41013E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 3.12581E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.48818E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 3.12581E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.48818E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.165000E+00 NSTEP= 283 Hash code: 100052168 ->PRGCHK: bdy curvature ratio at t= 1.1700E+00 seconds is: 1.0123E-01 % MHDEQ: TG1= 1.165000 ; TG2= 1.170000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.750E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5935E+00 0.0000E+00 -5.0817E-02 0.0000E+00 1.6787E+00 7.0120E-02 1 0 4.6918E-01 5.1602E-02 5.1602E-02 8.8155E-01 2 0 3.5097E-02 5.8187E-02 1.0942E-03 -2.7305E-02 3 0 2.5757E-02 -7.7001E-03 -6.0264E-03 -7.5167E-03 4 0 -2.4392E-03 -3.4687E-03 -2.2862E-03 4.0801E-03 5 0 -1.9014E-04 5.7310E-04 1.1548E-03 2.0192E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.11E-02 5.32E-02 4.18E-03 5.00E-04 1.10E+00 1.679E+00 7.012E-02 3.18562E+01 9.23E-03 1.000 1.27 1.03 100 3.76E-06 1.85E-06 1.02E-06 1.78E-09 6.82E-10 1.10E+00 1.671E+00 6.499E-02 2.92272E+01 1.02E-02 1.000 1.27 1.23 114 8.27E-07 4.55E-07 2.62E-07 1.28E-10 1.21E-09 1.10E+00 1.673E+00 6.626E-02 2.92270E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.866E-07 d(ln R0)/dt = 6.186E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.07E-02 8.76E-02 2.32E-04 1.30E-08 4.09E-08 1.10E+00 1.673E+00 6.634E-02 2.92257E+01 1.03E-02 1.000 1.27 1.25 100 1.61E-06 5.23E-07 2.69E-08 6.73E-12 2.02E-11 1.10E+00 1.677E+00 6.907E-02 2.94989E+01 1.02E-02 1.005 1.27 1.27 200 5.60E-08 1.45E-08 2.68E-09 1.78E-13 3.75E-13 1.10E+00 1.678E+00 6.924E-02 2.85459E+01 1.06E-02 0.988 1.27 1.27 300 1.37E-08 3.76E-09 3.07E-10 1.27E-14 2.72E-14 1.10E+00 1.678E+00 6.938E-02 2.81935E+01 1.07E-02 0.982 1.27 1.27 400 5.02E-09 1.35E-09 6.18E-11 1.97E-15 3.91E-15 1.10E+00 1.679E+00 6.944E-02 2.80022E+01 1.08E-02 0.979 1.27 1.27 500 1.99E-09 5.04E-10 1.42E-11 3.79E-16 6.07E-16 1.10E+00 1.679E+00 6.948E-02 2.78660E+01 1.08E-02 0.977 1.27 1.27 561 9.98E-10 2.54E-10 4.77E-12 1.59E-16 1.75E-16 1.10E+00 1.679E+00 6.949E-02 2.77995E+01 1.08E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.521E-05 d(ln R0)/dt = 5.630E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.136897 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7871E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0123E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.165000 TO TG2= 1.170000 @ NSTEP 283 GFRAME TG2 MOMENTS CHECKSUM: 9.1185918079476E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 283 TA= 1.16500E+00 CPU TIME= 2.75879E+00 SECONDS. DT= 1.21553E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10546875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6070E+00 2.9984E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4845E+20 nbi_getprofiles ne*dVol sum (ions): 4.4845E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16211 - 0 (killed) + 5031 (dep) = 21242 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0016E+00 %ORBALL: In processor 0: orbit # IORB= 3781 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6639 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7546 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7782 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8151 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8177 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8341 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8401 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8460 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8461 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8523 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8663 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8965 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9014 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9064 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9136 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9174 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9175 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9258 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9298 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9300 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9367 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9424 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9514 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9557 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9578 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9626 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9627 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9695 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9785 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9836 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9852 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9899 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10070 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10089 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10173 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10297 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10346 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10506 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10571 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21242 SPL= 0 TOT=16173 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 289 TA= 1.17000E+00 CPU TIME= 2.96387E+00 SECONDS. DT= 3.74480E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.062E+03 MB. --> plasma_hash("gframe"): TA= 1.170000E+00 NSTEP= 289 Hash code: 119972108 ->PRGCHK: bdy curvature ratio at t= 1.1750E+00 seconds is: 1.0100E-01 % MHDEQ: TG1= 1.170000 ; TG2= 1.175000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.747E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5934E+00 0.0000E+00 -5.1809E-02 0.0000E+00 1.6787E+00 6.9493E-02 1 0 4.6888E-01 5.1820E-02 5.1820E-02 8.8063E-01 2 0 3.5102E-02 5.8282E-02 1.1687E-03 -2.7305E-02 3 0 2.5673E-02 -7.7047E-03 -6.0340E-03 -7.4914E-03 4 0 -2.4460E-03 -3.4409E-03 -2.2850E-03 4.0817E-03 5 0 -1.8406E-04 5.6667E-04 1.1512E-03 2.0104E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.13E-02 5.32E-02 4.18E-03 5.01E-04 1.10E+00 1.679E+00 6.949E-02 3.18377E+01 9.31E-03 1.000 1.27 1.03 100 3.82E-06 1.87E-06 1.02E-06 1.84E-09 6.93E-10 1.10E+00 1.671E+00 6.438E-02 2.92067E+01 1.03E-02 1.000 1.27 1.23 114 8.35E-07 4.58E-07 2.63E-07 1.31E-10 1.19E-09 1.10E+00 1.673E+00 6.566E-02 2.92065E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.30E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.866E-07 d(ln R0)/dt = 6.152E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.14E-02 8.77E-02 2.33E-04 1.38E-08 4.12E-08 1.10E+00 1.673E+00 6.574E-02 2.92056E+01 1.04E-02 1.000 1.27 1.25 100 1.84E-06 6.01E-07 2.84E-08 7.12E-12 2.12E-11 1.10E+00 1.677E+00 6.839E-02 2.96268E+01 1.03E-02 1.007 1.27 1.27 200 5.90E-08 1.55E-08 2.81E-09 1.89E-13 3.97E-13 1.10E+00 1.678E+00 6.856E-02 2.86566E+01 1.06E-02 0.991 1.27 1.27 300 1.43E-08 3.91E-09 3.25E-10 1.35E-14 2.83E-14 1.10E+00 1.678E+00 6.870E-02 2.82952E+01 1.07E-02 0.985 1.27 1.27 400 5.19E-09 1.38E-09 6.24E-11 1.99E-15 3.88E-15 1.10E+00 1.678E+00 6.876E-02 2.80958E+01 1.08E-02 0.981 1.27 1.27 500 2.07E-09 5.22E-10 1.47E-11 3.97E-16 6.28E-16 1.10E+00 1.679E+00 6.880E-02 2.79595E+01 1.09E-02 0.979 1.27 1.27 565 9.96E-10 2.47E-10 4.69E-12 1.45E-16 1.95E-16 1.10E+00 1.679E+00 6.881E-02 2.78888E+01 1.09E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.456E-05 d(ln R0)/dt = 5.532E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.140599 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8652E-01 SECONDS DATA R*BT AT EDGE: 3.3464E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0100E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.170000 TO TG2= 1.175000 @ NSTEP 289 GFRAME TG2 MOMENTS CHECKSUM: 9.1138185804975E+03 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 7.35857E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.42820E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.35857E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.42820E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 3.31136E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.50401E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 3.31136E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.50401E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.175000E+00 NSTEP= 296 Hash code: 120802904 ->PRGCHK: bdy curvature ratio at t= 1.1800E+00 seconds is: 1.0076E-01 % MHDEQ: TG1= 1.175000 ; TG2= 1.180000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.743E+00 1.274E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5933E+00 0.0000E+00 -5.2801E-02 0.0000E+00 1.6786E+00 6.8815E-02 1 0 4.6859E-01 5.2038E-02 5.2038E-02 8.7970E-01 2 0 3.5107E-02 5.8376E-02 1.2433E-03 -2.7306E-02 3 0 2.5588E-02 -7.7094E-03 -6.0416E-03 -7.4662E-03 4 0 -2.4527E-03 -3.4131E-03 -2.2838E-03 4.0833E-03 5 0 -1.7798E-04 5.6024E-04 1.1475E-03 2.0016E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.14E-02 5.32E-02 4.18E-03 5.01E-04 1.10E+00 1.679E+00 6.881E-02 3.18184E+01 9.27E-03 1.000 1.27 1.03 100 3.68E-06 1.78E-06 9.85E-07 1.84E-09 6.89E-10 1.10E+00 1.671E+00 6.352E-02 2.91915E+01 1.02E-02 1.000 1.27 1.23 114 8.13E-07 4.41E-07 2.61E-07 1.30E-10 1.19E-09 1.10E+00 1.672E+00 6.481E-02 2.91913E+01 1.03E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.98E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.945E-07 d(ln R0)/dt = 6.241E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.09E-02 8.77E-02 2.31E-04 1.32E-08 4.09E-08 1.10E+00 1.673E+00 6.489E-02 2.91902E+01 1.03E-02 1.000 1.27 1.25 100 1.88E-06 6.29E-07 2.86E-08 7.26E-12 2.17E-11 1.10E+00 1.676E+00 6.756E-02 2.96834E+01 1.02E-02 1.008 1.27 1.28 200 6.09E-08 1.61E-08 2.86E-09 1.92E-13 4.02E-13 1.10E+00 1.678E+00 6.774E-02 2.87113E+01 1.05E-02 0.992 1.27 1.27 300 1.42E-08 3.92E-09 3.25E-10 1.36E-14 2.83E-14 1.10E+00 1.678E+00 6.788E-02 2.83482E+01 1.07E-02 0.986 1.27 1.27 400 5.16E-09 1.37E-09 6.23E-11 1.99E-15 3.88E-15 1.10E+00 1.678E+00 6.793E-02 2.81490E+01 1.07E-02 0.982 1.27 1.27 500 2.05E-09 5.20E-10 1.46E-11 3.99E-16 6.38E-16 1.10E+00 1.678E+00 6.797E-02 2.80134E+01 1.08E-02 0.980 1.27 1.27 565 9.86E-10 2.46E-10 4.67E-12 1.42E-16 1.92E-16 1.10E+00 1.678E+00 6.799E-02 2.79428E+01 1.08E-02 0.979 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.86E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.435E-05 d(ln R0)/dt = 5.443E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.68 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.156849 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9727E-01 SECONDS DATA R*BT AT EDGE: 3.3481E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0076E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.175000 TO TG2= 1.180000 @ NSTEP 296 GFRAME TG2 MOMENTS CHECKSUM: 9.1068570830346E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 296 TA= 1.17500E+00 CPU TIME= 2.89746E+00 SECONDS. DT= 1.42853E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0966796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6092E+00 3.0003E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4455E+20 nbi_getprofiles ne*dVol sum (ions): 4.4455E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16173 - 0 (killed) + 5020 (dep) = 21193 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3718 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3984 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6548 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6821 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0021E+00 %ORBALL: In processor 0: orbit # IORB= 7323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7355 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7814 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8110 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8523 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8585 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8746 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8860 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8879 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9074 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9098 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9260 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9296 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9320 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9382 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9436 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9437 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9522 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9757 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9849 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9948 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10129 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10165 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10414 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21193 SPL= 0 TOT=16199 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 300 TA= 1.18000E+00 CPU TIME= 2.48730E+00 SECONDS. DT= 4.85367E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.062E+03 MB. --> plasma_hash("gframe"): TA= 1.180000E+00 NSTEP= 300 Hash code: 123143180 ->PRGCHK: bdy curvature ratio at t= 1.1850E+00 seconds is: 1.0053E-01 % MHDEQ: TG1= 1.180000 ; TG2= 1.185000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.736E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5932E+00 0.0000E+00 -5.3792E-02 0.0000E+00 1.6782E+00 6.7988E-02 1 0 4.6829E-01 5.2257E-02 5.2257E-02 8.7878E-01 2 0 3.5113E-02 5.8471E-02 1.3178E-03 -2.7306E-02 3 0 2.5504E-02 -7.7141E-03 -6.0493E-03 -7.4409E-03 4 0 -2.4595E-03 -3.3853E-03 -2.2826E-03 4.0849E-03 5 0 -1.7189E-04 5.5381E-04 1.1439E-03 1.9928E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.12E-02 5.30E-02 4.17E-03 5.00E-04 1.10E+00 1.678E+00 6.799E-02 3.16862E+01 9.26E-03 1.000 1.27 1.03 100 3.64E-06 1.71E-06 9.72E-07 1.76E-09 6.91E-10 1.10E+00 1.671E+00 6.273E-02 2.90807E+01 1.02E-02 1.000 1.27 1.23 114 8.07E-07 4.33E-07 2.59E-07 1.32E-10 1.21E-09 1.10E+00 1.672E+00 6.402E-02 2.90805E+01 1.02E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.973E-07 d(ln R0)/dt = 6.199E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.06E-02 8.83E-02 2.30E-04 1.27E-08 4.05E-08 1.10E+00 1.672E+00 6.411E-02 2.90793E+01 1.03E-02 1.000 1.27 1.25 100 1.78E-06 5.98E-07 2.77E-08 7.00E-12 2.11E-11 1.10E+00 1.676E+00 6.682E-02 2.93942E+01 1.02E-02 1.005 1.27 1.27 200 5.95E-08 1.56E-08 2.78E-09 1.85E-13 3.82E-13 1.10E+00 1.677E+00 6.700E-02 2.84392E+01 1.06E-02 0.989 1.27 1.27 300 1.36E-08 3.80E-09 3.06E-10 1.26E-14 2.68E-14 1.10E+00 1.678E+00 6.714E-02 2.80840E+01 1.07E-02 0.983 1.27 1.27 400 4.99E-09 1.32E-09 6.05E-11 1.93E-15 3.79E-15 1.10E+00 1.678E+00 6.719E-02 2.78933E+01 1.08E-02 0.980 1.27 1.27 500 1.96E-09 5.00E-10 1.40E-11 3.86E-16 6.19E-16 1.10E+00 1.678E+00 6.723E-02 2.77611E+01 1.08E-02 0.977 1.27 1.27 560 9.94E-10 2.51E-10 4.83E-12 1.58E-16 1.89E-16 1.10E+00 1.678E+00 6.725E-02 2.76964E+01 1.09E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.458E-05 d(ln R0)/dt = 5.464E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.173683 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3398E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0053E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.180000 TO TG2= 1.185000 @ NSTEP 300 GFRAME TG2 MOMENTS CHECKSUM: 9.1019749114550E+03 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.28785E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.47389E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.28785E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.47389E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -2.39172E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.55558E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -2.39172E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.55558E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.185000E+00 NSTEP= 307 Hash code: 103983802 ->PRGCHK: bdy curvature ratio at t= 1.1900E+00 seconds is: 1.0029E-01 % MHDEQ: TG1= 1.185000 ; TG2= 1.190000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.728E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5932E+00 0.0000E+00 -5.4784E-02 0.0000E+00 1.6781E+00 6.7245E-02 1 0 4.6800E-01 5.2475E-02 5.2475E-02 8.7785E-01 2 0 3.5118E-02 5.8566E-02 1.3924E-03 -2.7307E-02 3 0 2.5420E-02 -7.7187E-03 -6.0569E-03 -7.4156E-03 4 0 -2.4663E-03 -3.3575E-03 -2.2814E-03 4.0865E-03 5 0 -1.6581E-04 5.4739E-04 1.1403E-03 1.9840E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.13E-02 5.29E-02 4.17E-03 5.00E-04 1.10E+00 1.678E+00 6.725E-02 3.15602E+01 9.33E-03 1.000 1.27 1.03 100 3.66E-06 1.70E-06 9.67E-07 1.77E-09 6.97E-10 1.10E+00 1.670E+00 6.200E-02 2.89664E+01 1.03E-02 1.000 1.27 1.23 114 8.13E-07 4.34E-07 2.59E-07 1.36E-10 1.19E-09 1.10E+00 1.672E+00 6.329E-02 2.89662E+01 1.03E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.984E-07 d(ln R0)/dt = 6.113E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.14E-02 8.91E-02 2.31E-04 1.25E-08 4.03E-08 1.10E+00 1.672E+00 6.337E-02 2.89650E+01 1.04E-02 1.000 1.27 1.25 100 1.83E-06 5.96E-07 2.79E-08 6.80E-12 2.05E-11 1.10E+00 1.676E+00 6.610E-02 2.91603E+01 1.03E-02 1.003 1.27 1.27 200 5.95E-08 1.55E-08 2.79E-09 1.85E-13 3.79E-13 1.10E+00 1.677E+00 6.626E-02 2.82093E+01 1.07E-02 0.987 1.27 1.27 300 1.38E-08 3.84E-09 3.09E-10 1.23E-14 2.69E-14 1.10E+00 1.678E+00 6.640E-02 2.78561E+01 1.08E-02 0.981 1.27 1.27 400 5.03E-09 1.30E-09 5.87E-11 1.83E-15 3.59E-15 1.10E+00 1.678E+00 6.646E-02 2.76627E+01 1.09E-02 0.978 1.27 1.27 500 1.95E-09 4.98E-10 1.37E-11 3.68E-16 5.86E-16 1.10E+00 1.678E+00 6.649E-02 2.75327E+01 1.10E-02 0.975 1.27 1.27 560 9.91E-10 2.49E-10 4.76E-12 1.55E-16 1.91E-16 1.10E+00 1.678E+00 6.651E-02 2.74692E+01 1.10E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.14E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.378E-05 d(ln R0)/dt = 5.323E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.181275 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4570E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0029E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.185000 TO TG2= 1.190000 @ NSTEP 307 GFRAME TG2 MOMENTS CHECKSUM: 9.0973813460467E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 307 TA= 1.18500E+00 CPU TIME= 2.48145E+00 SECONDS. DT= 1.02205E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1103515625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6066E+00 2.9925E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4489E+20 nbi_getprofiles ne*dVol sum (ions): 4.4489E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16199 - 0 (killed) + 5003 (dep) = 21202 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3913 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6677 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6718 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8251 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8416 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8471 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8518 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8704 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8720 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8836 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8874 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8916 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0037E+00 %ORBALL: In processor 0: orbit # IORB= 8917 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8947 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9083 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 9156 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9578 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9705 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9845 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9921 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9993 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10076 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10363 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21202 SPL= 0 TOT=16131 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 314 TA= 1.19000E+00 CPU TIME= 2.91016E+00 SECONDS. DT= 3.12226E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.1900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.063E+03 MB. --> plasma_hash("gframe"): TA= 1.190000E+00 NSTEP= 314 Hash code: 96568542 ->PRGCHK: bdy curvature ratio at t= 1.1950E+00 seconds is: 1.0006E-01 % MHDEQ: TG1= 1.190000 ; TG2= 1.195000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.724E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5931E+00 0.0000E+00 -5.5776E-02 0.0000E+00 1.6779E+00 6.6511E-02 1 0 4.6770E-01 5.2693E-02 5.2693E-02 8.7693E-01 2 0 3.5123E-02 5.8660E-02 1.4669E-03 -2.7307E-02 3 0 2.5335E-02 -7.7234E-03 -6.0645E-03 -7.3903E-03 4 0 -2.4731E-03 -3.3297E-03 -2.2802E-03 4.0881E-03 5 0 -1.5972E-04 5.4096E-04 1.1366E-03 1.9751E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.12E-02 5.29E-02 4.16E-03 5.00E-04 1.10E+00 1.678E+00 6.651E-02 3.15290E+01 9.37E-03 1.000 1.27 1.03 100 3.68E-06 1.68E-06 9.58E-07 1.74E-09 7.03E-10 1.10E+00 1.670E+00 6.122E-02 2.89435E+01 1.03E-02 1.000 1.27 1.23 114 8.21E-07 4.34E-07 2.60E-07 1.38E-10 1.20E-09 1.10E+00 1.672E+00 6.252E-02 2.89433E+01 1.03E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.057E-07 d(ln R0)/dt = 6.094E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.32E-02 9.03E-02 2.35E-04 1.25E-08 4.04E-08 1.10E+00 1.672E+00 6.260E-02 2.89421E+01 1.04E-02 1.000 1.27 1.25 100 1.93E-06 6.09E-07 2.84E-08 6.81E-12 2.06E-11 1.10E+00 1.676E+00 6.532E-02 2.91094E+01 1.04E-02 1.003 1.27 1.27 200 6.06E-08 1.57E-08 2.86E-09 1.90E-13 3.84E-13 1.10E+00 1.677E+00 6.549E-02 2.81475E+01 1.07E-02 0.986 1.27 1.27 300 1.43E-08 3.92E-09 3.21E-10 1.24E-14 2.76E-14 1.10E+00 1.677E+00 6.563E-02 2.77918E+01 1.09E-02 0.980 1.27 1.27 400 5.16E-09 1.31E-09 5.82E-11 1.77E-15 3.48E-15 1.10E+00 1.677E+00 6.569E-02 2.75928E+01 1.10E-02 0.977 1.27 1.27 500 2.00E-09 5.10E-10 1.39E-11 3.64E-16 5.77E-16 1.10E+00 1.678E+00 6.572E-02 2.74638E+01 1.10E-02 0.974 1.27 1.27 562 9.93E-10 2.60E-10 4.86E-12 1.47E-16 1.78E-16 1.10E+00 1.678E+00 6.574E-02 2.74010E+01 1.10E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.73E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.195E-05 d(ln R0)/dt = 5.008E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.189741 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7480E-01 SECONDS DATA R*BT AT EDGE: 3.3428E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0006E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.190000 TO TG2= 1.195000 @ NSTEP 314 GFRAME TG2 MOMENTS CHECKSUM: 9.0919251395471E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 314 TA= 1.19000E+00 CPU TIME= 2.92871E+00 SECONDS. DT= 3.12226E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 315 TA= 1.19019E+00 CPU TIME= 3.06738E+00 SECONDS. DT= 2.33752E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 321 TA= 1.19148E+00 CPU TIME= 2.88574E+00 SECONDS. DT= 2.46443E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 327 TA= 1.19285E+00 CPU TIME= 2.94629E+00 SECONDS. DT= 2.59955E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 333 TA= 1.19429E+00 CPU TIME= 3.04785E+00 SECONDS. DT= 2.74201E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 3.12281E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.45763E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 3.12281E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.45763E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.28587E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.53470E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.28587E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.53470E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.195000E+00 NSTEP= 336 Hash code: 70729273 ->PRGCHK: bdy curvature ratio at t= 1.2000E+00 seconds is: 9.9822E-02 % MHDEQ: TG1= 1.195000 ; TG2= 1.200000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.721E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5930E+00 0.0000E+00 -5.6768E-02 0.0000E+00 1.6776E+00 6.5739E-02 1 0 4.6741E-01 5.2911E-02 5.2911E-02 8.7601E-01 2 0 3.5128E-02 5.8755E-02 1.5415E-03 -2.7307E-02 3 0 2.5251E-02 -7.7281E-03 -6.0722E-03 -7.3651E-03 4 0 -2.4798E-03 -3.3019E-03 -2.2790E-03 4.0897E-03 5 0 -1.5364E-04 5.3453E-04 1.1330E-03 1.9663E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.11E-02 5.27E-02 4.15E-03 4.99E-04 1.10E+00 1.678E+00 6.574E-02 3.14973E+01 9.25E-03 1.000 1.27 1.03 100 3.20E-06 1.41E-06 8.34E-07 1.65E-09 7.02E-10 1.10E+00 1.670E+00 6.019E-02 2.89246E+01 1.02E-02 1.000 1.27 1.23 114 7.54E-07 3.81E-07 2.50E-07 1.25E-10 1.23E-09 1.10E+00 1.671E+00 6.156E-02 2.89244E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.412E-07 d(ln R0)/dt = 6.764E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.39E-02 8.92E-02 2.35E-04 1.40E-08 4.23E-08 1.10E+00 1.671E+00 6.165E-02 2.89232E+01 1.03E-02 1.000 1.27 1.25 100 2.10E-06 6.74E-07 2.95E-08 7.13E-12 2.19E-11 1.10E+00 1.675E+00 6.453E-02 2.92151E+01 1.02E-02 1.005 1.27 1.27 200 6.44E-08 1.68E-08 3.00E-09 1.97E-13 4.08E-13 1.10E+00 1.677E+00 6.472E-02 2.82374E+01 1.06E-02 0.988 1.27 1.27 300 1.47E-08 4.04E-09 3.41E-10 1.38E-14 2.97E-14 1.10E+00 1.677E+00 6.486E-02 2.78792E+01 1.07E-02 0.982 1.27 1.27 400 5.36E-09 1.36E-09 6.18E-11 1.93E-15 3.73E-15 1.10E+00 1.677E+00 6.492E-02 2.76751E+01 1.08E-02 0.978 1.27 1.27 500 2.09E-09 5.34E-10 1.49E-11 3.98E-16 6.42E-16 1.10E+00 1.677E+00 6.495E-02 2.75444E+01 1.08E-02 0.976 1.27 1.27 566 9.98E-10 2.53E-10 4.79E-12 1.53E-16 1.95E-16 1.10E+00 1.677E+00 6.497E-02 2.74750E+01 1.09E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.84E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.299E-05 d(ln R0)/dt = 5.164E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.166376 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8555E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9822E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.195000 TO TG2= 1.200000 @ NSTEP 336 GFRAME TG2 MOMENTS CHECKSUM: 9.0857106326969E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 336 TA= 1.19500E+00 CPU TIME= 2.96094E+00 SECONDS. DT= 2.79119E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 337 TA= 1.19528E+00 CPU TIME= 2.99512E+00 SECONDS. DT= 3.48899E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 343 TA= 1.19685E+00 CPU TIME= 3.02148E+00 SECONDS. DT= 3.70734E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 349 TA= 1.19851E+00 CPU TIME= 2.97461E+00 SECONDS. DT= 3.91014E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.087890625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6084E+00 2.9944E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3809E+20 nbi_getprofiles ne*dVol sum (ions): 4.3809E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16131 - 0 (killed) + 5000 (dep) = 21131 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 1678 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6854 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7179 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7295 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0010E+00 %ORBALL: In processor 0: orbit # IORB= 7744 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8063 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8141 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8204 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8246 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8435 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8492 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8586 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8905 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8946 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9315 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9343 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9411 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9533 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9538 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9547 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9615 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9659 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9801 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9876 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9992 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10099 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10155 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10187 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10233 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10390 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10473 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10498 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21131 SPL= 0 TOT=16278 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 355 TA= 1.20000E+00 CPU TIME= 2.46680E+00 SECONDS. DT= 8.44348E-05 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.063E+03 MB. --> plasma_hash("gframe"): TA= 1.200000E+00 NSTEP= 355 Hash code: 62820631 ->PRGCHK: bdy curvature ratio at t= 1.2050E+00 seconds is: 9.9332E-02 % MHDEQ: TG1= 1.200000 ; TG2= 1.205000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.719E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5931E+00 0.0000E+00 -5.7380E-02 0.0000E+00 1.6774E+00 6.4970E-02 1 0 4.6714E-01 5.3110E-02 5.3110E-02 8.7582E-01 2 0 3.5189E-02 5.8829E-02 1.6654E-03 -2.7228E-02 3 0 2.5229E-02 -7.7516E-03 -6.0502E-03 -7.3544E-03 4 0 -2.4820E-03 -3.2796E-03 -2.2729E-03 4.0805E-03 5 0 -1.4869E-04 5.3358E-04 1.1300E-03 1.9632E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.23E-01 4.09E-02 5.25E-02 4.14E-03 4.98E-04 1.10E+00 1.677E+00 6.497E-02 3.14723E+01 9.14E-03 1.000 1.27 1.03 100 2.96E-06 1.25E-06 7.59E-07 1.60E-09 7.43E-10 1.10E+00 1.669E+00 5.964E-02 2.89146E+01 1.01E-02 1.000 1.27 1.23 114 7.17E-07 3.47E-07 2.44E-07 1.22E-10 1.23E-09 1.10E+00 1.671E+00 6.111E-02 2.89144E+01 1.01E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.674E-07 d(ln R0)/dt = 7.386E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.49E-02 8.87E-02 2.34E-04 1.54E-08 4.40E-08 1.10E+00 1.671E+00 6.121E-02 2.89132E+01 1.02E-02 1.000 1.27 1.25 100 2.13E-06 7.00E-07 2.98E-08 7.09E-12 2.23E-11 1.10E+00 1.675E+00 6.417E-02 2.92744E+01 1.01E-02 1.006 1.27 1.27 200 6.62E-08 1.73E-08 3.05E-09 1.99E-13 4.19E-13 1.10E+00 1.677E+00 6.435E-02 2.82951E+01 1.04E-02 0.989 1.27 1.27 300 1.48E-08 4.09E-09 3.50E-10 1.45E-14 3.11E-14 1.10E+00 1.677E+00 6.449E-02 2.79386E+01 1.06E-02 0.983 1.27 1.27 400 5.49E-09 1.40E-09 6.51E-11 2.09E-15 4.03E-15 1.10E+00 1.677E+00 6.455E-02 2.77345E+01 1.06E-02 0.980 1.27 1.27 500 2.16E-09 5.48E-10 1.55E-11 4.23E-16 6.94E-16 1.10E+00 1.677E+00 6.459E-02 2.76013E+01 1.07E-02 0.977 1.27 1.27 569 9.92E-10 2.51E-10 4.63E-12 1.26E-16 1.77E-16 1.10E+00 1.677E+00 6.460E-02 2.75270E+01 1.07E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.90E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.328E-05 d(ln R0)/dt = 5.225E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.143833 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9141E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9332E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.200000 TO TG2= 1.205000 @ NSTEP 355 GFRAME TG2 MOMENTS CHECKSUM: 9.0834761962377E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 355 TA= 1.20000E+00 CPU TIME= 2.96191E+00 SECONDS. DT= 8.44348E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 356 TA= 1.20008E+00 CPU TIME= 3.03711E+00 SECONDS. DT= 1.05544E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 367 TA= 1.20389E+00 CPU TIME= 3.06445E+00 SECONDS. DT= 6.72019E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10215E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.44866E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10215E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.44866E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.83691E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.52209E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.83691E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.52209E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.205000E+00 NSTEP= 369 Hash code: 45771547 ->PRGCHK: bdy curvature ratio at t= 1.2100E+00 seconds is: 9.8845E-02 % MHDEQ: TG1= 1.205000 ; TG2= 1.210000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.717E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5932E+00 0.0000E+00 -5.7992E-02 0.0000E+00 1.6774E+00 6.4605E-02 1 0 4.6686E-01 5.3308E-02 5.3308E-02 8.7563E-01 2 0 3.5249E-02 5.8904E-02 1.7892E-03 -2.7149E-02 3 0 2.5208E-02 -7.7752E-03 -6.0283E-03 -7.3437E-03 4 0 -2.4841E-03 -3.2573E-03 -2.2668E-03 4.0713E-03 5 0 -1.4374E-04 5.3262E-04 1.1269E-03 1.9602E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.23E-01 4.10E-02 5.25E-02 4.13E-03 4.99E-04 1.10E+00 1.677E+00 6.460E-02 3.14503E+01 9.20E-03 1.000 1.27 1.03 100 2.96E-06 1.23E-06 7.55E-07 1.61E-09 7.63E-10 1.10E+00 1.669E+00 5.928E-02 2.88995E+01 1.01E-02 1.000 1.27 1.23 114 7.13E-07 3.46E-07 2.44E-07 1.23E-10 1.23E-09 1.10E+00 1.671E+00 6.077E-02 2.88992E+01 1.01E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.729E-07 d(ln R0)/dt = 7.449E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.47E-02 8.91E-02 2.33E-04 1.50E-08 4.35E-08 1.10E+00 1.671E+00 6.087E-02 2.88981E+01 1.02E-02 1.000 1.27 1.25 100 2.13E-06 6.92E-07 2.95E-08 7.11E-12 2.22E-11 1.10E+00 1.675E+00 6.382E-02 2.92132E+01 1.01E-02 1.005 1.27 1.27 200 6.58E-08 1.71E-08 3.06E-09 1.99E-13 4.13E-13 1.10E+00 1.677E+00 6.400E-02 2.82315E+01 1.05E-02 0.989 1.27 1.27 300 1.48E-08 4.09E-09 3.46E-10 1.41E-14 3.06E-14 1.10E+00 1.677E+00 6.414E-02 2.78751E+01 1.06E-02 0.982 1.27 1.27 400 5.50E-09 1.39E-09 6.38E-11 2.02E-15 3.89E-15 1.10E+00 1.677E+00 6.420E-02 2.76709E+01 1.07E-02 0.979 1.27 1.27 500 2.15E-09 5.48E-10 1.54E-11 4.22E-16 6.93E-16 1.10E+00 1.677E+00 6.424E-02 2.75402E+01 1.08E-02 0.977 1.27 1.27 569 9.87E-10 2.52E-10 4.62E-12 1.29E-16 1.78E-16 1.10E+00 1.677E+00 6.425E-02 2.74663E+01 1.08E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.81E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.299E-05 d(ln R0)/dt = 5.159E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.148065 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7969E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8845E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.205000 TO TG2= 1.210000 @ NSTEP 369 GFRAME TG2 MOMENTS CHECKSUM: 9.0820052139335E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 369 TA= 1.20500E+00 CPU TIME= 2.96289E+00 SECONDS. DT= 6.66655E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 370 TA= 1.20552E+00 CPU TIME= 3.03125E+00 SECONDS. DT= 6.55856E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 377 TA= 1.20908E+00 CPU TIME= 3.13379E+00 SECONDS. DT= 6.20329E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6084E+00 2.9927E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3845E+20 nbi_getprofiles ne*dVol sum (ions): 4.3845E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16278 - 0 (killed) + 4965 (dep) = 21243 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 74 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3545 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8134 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8254 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8303 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8304 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8381 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8390 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8450 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8646 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8679 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8750 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8758 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8835 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8939 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8947 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8998 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9002 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9031 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9034 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9217 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9240 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9324 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9423 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9578 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9613 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9620 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9665 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9728 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9733 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9760 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9785 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0151E+00 %ORBALL: In processor 0: orbit # IORB= 9831 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9864 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9870 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9957 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10062 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10328 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10396 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10405 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10606 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21243 SPL= 0 TOT=16465 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 379 TA= 1.21000E+00 CPU TIME= 2.52148E+00 SECONDS. DT= 5.30894E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.063E+03 MB. --> plasma_hash("gframe"): TA= 1.210000E+00 NSTEP= 379 Hash code: 40798863 ->PRGCHK: bdy curvature ratio at t= 1.2150E+00 seconds is: 9.8361E-02 % MHDEQ: TG1= 1.210000 ; TG2= 1.215000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.714E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5933E+00 0.0000E+00 -5.8604E-02 0.0000E+00 1.6774E+00 6.4254E-02 1 0 4.6659E-01 5.3507E-02 5.3507E-02 8.7544E-01 2 0 3.5309E-02 5.8979E-02 1.9131E-03 -2.7069E-02 3 0 2.5187E-02 -7.7988E-03 -6.0063E-03 -7.3330E-03 4 0 -2.4863E-03 -3.2350E-03 -2.2607E-03 4.0622E-03 5 0 -1.3880E-04 5.3167E-04 1.1238E-03 1.9571E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.22E-01 4.10E-02 5.24E-02 4.12E-03 5.00E-04 1.10E+00 1.677E+00 6.425E-02 3.14078E+01 9.26E-03 1.000 1.27 1.03 100 2.95E-06 1.21E-06 7.48E-07 1.60E-09 7.88E-10 1.10E+00 1.669E+00 5.891E-02 2.88666E+01 1.02E-02 1.000 1.27 1.23 114 7.09E-07 3.42E-07 2.44E-07 1.23E-10 1.23E-09 1.10E+00 1.671E+00 6.043E-02 2.88664E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.08E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.798E-07 d(ln R0)/dt = 7.552E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.49E-02 8.97E-02 2.33E-04 1.47E-08 4.31E-08 1.10E+00 1.671E+00 6.053E-02 2.88653E+01 1.03E-02 1.000 1.27 1.25 100 2.09E-06 6.73E-07 2.92E-08 7.10E-12 2.21E-11 1.10E+00 1.675E+00 6.349E-02 2.91028E+01 1.02E-02 1.004 1.27 1.27 200 6.51E-08 1.68E-08 3.07E-09 1.99E-13 4.07E-13 1.10E+00 1.677E+00 6.366E-02 2.81176E+01 1.06E-02 0.987 1.27 1.27 300 1.49E-08 4.09E-09 3.42E-10 1.35E-14 2.99E-14 1.10E+00 1.677E+00 6.380E-02 2.77596E+01 1.07E-02 0.981 1.27 1.27 400 5.53E-09 1.39E-09 6.25E-11 1.94E-15 3.74E-15 1.10E+00 1.677E+00 6.386E-02 2.75557E+01 1.08E-02 0.977 1.27 1.27 500 2.16E-09 5.52E-10 1.54E-11 4.22E-16 6.89E-16 1.10E+00 1.677E+00 6.390E-02 2.74271E+01 1.09E-02 0.975 1.27 1.27 569 9.91E-10 2.55E-10 4.65E-12 1.33E-16 1.81E-16 1.10E+00 1.677E+00 6.392E-02 2.73538E+01 1.09E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.20E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.301E-05 d(ln R0)/dt = 5.151E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.153106 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4766E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8361E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.210000 TO TG2= 1.215000 @ NSTEP 379 GFRAME TG2 MOMENTS CHECKSUM: 9.0808824897460E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 379 TA= 1.21000E+00 CPU TIME= 2.47852E+00 SECONDS. DT= 5.30894E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 380 TA= 1.21053E+00 CPU TIME= 2.53125E+00 SECONDS. DT= 6.63618E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 387 TA= 1.21379E+00 CPU TIME= 2.51270E+00 SECONDS. DT= 5.67788E-04 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 7.34820E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.43031E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.34820E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.43031E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.12298E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.50275E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.12298E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.50275E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.215000E+00 NSTEP= 390 Hash code: 88993363 ->PRGCHK: bdy curvature ratio at t= 1.2200E+00 seconds is: 9.7880E-02 % MHDEQ: TG1= 1.215000 ; TG2= 1.220000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.711E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5933E+00 0.0000E+00 -5.9216E-02 0.0000E+00 1.6774E+00 6.3917E-02 1 0 4.6632E-01 5.3705E-02 5.3705E-02 8.7525E-01 2 0 3.5370E-02 5.9053E-02 2.0370E-03 -2.6990E-02 3 0 2.5165E-02 -7.8224E-03 -5.9844E-03 -7.3223E-03 4 0 -2.4884E-03 -3.2127E-03 -2.2546E-03 4.0530E-03 5 0 -1.3385E-04 5.3072E-04 1.1208E-03 1.9540E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 4.11E-02 5.24E-02 4.11E-03 5.01E-04 1.10E+00 1.677E+00 6.392E-02 3.13657E+01 9.32E-03 1.000 1.27 1.03 100 2.94E-06 1.18E-06 7.41E-07 1.60E-09 8.12E-10 1.10E+00 1.670E+00 5.855E-02 2.88327E+01 1.03E-02 1.000 1.27 1.23 114 7.06E-07 3.39E-07 2.44E-07 1.24E-10 1.23E-09 1.10E+00 1.671E+00 6.011E-02 2.88324E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.863E-07 d(ln R0)/dt = 7.626E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.54E-02 9.03E-02 2.34E-04 1.45E-08 4.29E-08 1.10E+00 1.672E+00 6.021E-02 2.88314E+01 1.04E-02 1.000 1.27 1.25 100 2.08E-06 6.69E-07 2.91E-08 7.18E-12 2.22E-11 1.10E+00 1.676E+00 6.317E-02 2.90422E+01 1.03E-02 1.004 1.27 1.27 200 6.50E-08 1.68E-08 3.10E-09 2.03E-13 4.06E-13 1.10E+00 1.677E+00 6.334E-02 2.80479E+01 1.07E-02 0.987 1.27 1.27 300 1.52E-08 4.14E-09 3.43E-10 1.32E-14 2.96E-14 1.10E+00 1.677E+00 6.348E-02 2.76864E+01 1.08E-02 0.980 1.27 1.27 400 5.62E-09 1.40E-09 6.23E-11 1.92E-15 3.66E-15 1.10E+00 1.677E+00 6.354E-02 2.74816E+01 1.09E-02 0.977 1.27 1.27 500 2.20E-09 5.65E-10 1.57E-11 4.31E-16 7.00E-16 1.10E+00 1.677E+00 6.358E-02 2.73543E+01 1.09E-02 0.974 1.27 1.27 573 9.74E-10 2.56E-10 4.60E-12 1.52E-16 1.81E-16 1.10E+00 1.677E+00 6.360E-02 2.72784E+01 1.10E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.30E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.282E-05 d(ln R0)/dt = 5.107E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.164738 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5937E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7880E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.215000 TO TG2= 1.220000 @ NSTEP 390 GFRAME TG2 MOMENTS CHECKSUM: 9.0798136860991E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 390 TA= 1.21500E+00 CPU TIME= 2.62207E+00 SECONDS. DT= 5.58758E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 391 TA= 1.21544E+00 CPU TIME= 2.49316E+00 SECONDS. DT= 5.50508E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 398 TA= 1.21843E+00 CPU TIME= 2.56055E+00 SECONDS. DT= 5.20374E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1123046875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6088E+00 2.9904E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3881E+20 nbi_getprofiles ne*dVol sum (ions): 4.3881E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16465 - 0 (killed) + 4907 (dep) = 21372 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5404 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0017E+00 %ORBALL: In processor 0: orbit # IORB= 6524 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6539 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7193 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7807 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8188 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8293 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8299 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8343 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8453 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8512 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8527 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8560 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8582 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8604 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8732 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8763 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8785 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8807 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8852 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8941 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0017E+00 %ORBALL: In processor 0: orbit # IORB= 9164 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9206 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9287 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9360 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9396 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9405 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9418 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9550 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9565 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9618 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9734 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9794 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9891 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9933 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10079 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10146 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10197 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10214 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10275 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10278 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10366 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10382 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10406 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10603 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21372 SPL= 0 TOT=16258 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 1.953125E-3 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 402 TA= 1.22000E+00 CPU TIME= 2.54980E+00 SECONDS. DT= 4.31152E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.220000E+00 NSTEP= 402 Hash code: 41650036 ->PRGCHK: bdy curvature ratio at t= 1.2250E+00 seconds is: 9.7401E-02 % MHDEQ: TG1= 1.220000 ; TG2= 1.225000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.707E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5934E+00 0.0000E+00 -5.9828E-02 0.0000E+00 1.6775E+00 6.3601E-02 1 0 4.6605E-01 5.3904E-02 5.3904E-02 8.7506E-01 2 0 3.5430E-02 5.9128E-02 2.1609E-03 -2.6911E-02 3 0 2.5144E-02 -7.8460E-03 -5.9625E-03 -7.3117E-03 4 0 -2.4905E-03 -3.1904E-03 -2.2485E-03 4.0438E-03 5 0 -1.2890E-04 5.2977E-04 1.1177E-03 1.9509E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 4.13E-02 5.24E-02 4.10E-03 5.02E-04 1.10E+00 1.677E+00 6.360E-02 3.12904E+01 9.38E-03 1.000 1.27 1.02 100 2.99E-06 1.19E-06 7.48E-07 1.61E-09 8.28E-10 1.10E+00 1.670E+00 5.824E-02 2.87667E+01 1.03E-02 1.000 1.27 1.23 114 7.12E-07 3.43E-07 2.45E-07 1.26E-10 1.23E-09 1.10E+00 1.672E+00 5.980E-02 2.87664E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.874E-07 d(ln R0)/dt = 7.555E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.61E-02 9.11E-02 2.35E-04 1.44E-08 4.27E-08 1.10E+00 1.672E+00 5.990E-02 2.87655E+01 1.04E-02 1.000 1.27 1.25 100 2.14E-06 6.89E-07 2.94E-08 7.36E-12 2.26E-11 1.10E+00 1.676E+00 6.284E-02 2.90307E+01 1.03E-02 1.005 1.27 1.27 200 6.57E-08 1.71E-08 3.16E-09 2.08E-13 4.10E-13 1.10E+00 1.677E+00 6.302E-02 2.80252E+01 1.07E-02 0.987 1.27 1.27 300 1.55E-08 4.19E-09 3.49E-10 1.31E-14 2.96E-14 1.10E+00 1.677E+00 6.316E-02 2.76585E+01 1.09E-02 0.981 1.27 1.27 400 5.70E-09 1.43E-09 6.25E-11 1.90E-15 3.60E-15 1.10E+00 1.677E+00 6.322E-02 2.74520E+01 1.09E-02 0.977 1.27 1.27 500 2.25E-09 5.77E-10 1.60E-11 4.39E-16 7.08E-16 1.10E+00 1.677E+00 6.326E-02 2.73251E+01 1.10E-02 0.975 1.27 1.27 574 9.82E-10 2.64E-10 4.77E-12 1.56E-16 1.95E-16 1.10E+00 1.678E+00 6.328E-02 2.72489E+01 1.10E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.24E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.298E-05 d(ln R0)/dt = 5.115E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.177828 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5352E-01 SECONDS DATA R*BT AT EDGE: 3.3428E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7401E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.220000 TO TG2= 1.225000 @ NSTEP 402 GFRAME TG2 MOMENTS CHECKSUM: 9.0782463286286E+03 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 4= -7.35327E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.41573E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 4= -7.35327E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.41573E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -5.51495E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.48720E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -5.51495E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.48720E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.225000E+00 NSTEP= 409 Hash code: 2475625 ->PRGCHK: bdy curvature ratio at t= 1.2300E+00 seconds is: 9.6925E-02 % MHDEQ: TG1= 1.225000 ; TG2= 1.230000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5935E+00 0.0000E+00 -6.0440E-02 0.0000E+00 1.6775E+00 6.3278E-02 1 0 4.6578E-01 5.4102E-02 5.4102E-02 8.7487E-01 2 0 3.5491E-02 5.9202E-02 2.2847E-03 -2.6831E-02 3 0 2.5123E-02 -7.8696E-03 -5.9405E-03 -7.3010E-03 4 0 -2.4927E-03 -3.1681E-03 -2.2424E-03 4.0346E-03 5 0 -1.2395E-04 5.2882E-04 1.1147E-03 1.9479E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 4.14E-02 5.24E-02 4.09E-03 5.03E-04 1.10E+00 1.678E+00 6.328E-02 3.12165E+01 9.37E-03 1.000 1.27 1.02 100 2.99E-06 1.17E-06 7.35E-07 1.61E-09 8.42E-10 1.10E+00 1.670E+00 5.794E-02 2.87030E+01 1.03E-02 1.000 1.27 1.23 114 7.18E-07 3.45E-07 2.45E-07 1.27E-10 1.24E-09 1.10E+00 1.672E+00 5.952E-02 2.87027E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.951E-07 d(ln R0)/dt = 7.591E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.69E-02 9.14E-02 2.37E-04 1.44E-08 4.26E-08 1.10E+00 1.672E+00 5.963E-02 2.87019E+01 1.04E-02 1.000 1.27 1.25 100 2.32E-06 7.32E-07 3.04E-08 7.35E-12 2.26E-11 1.10E+00 1.676E+00 6.256E-02 2.90061E+01 1.03E-02 1.005 1.27 1.27 200 6.61E-08 1.74E-08 3.24E-09 2.15E-13 4.22E-13 1.10E+00 1.677E+00 6.274E-02 2.80001E+01 1.07E-02 0.988 1.27 1.27 300 1.59E-08 4.25E-09 3.60E-10 1.33E-14 3.03E-14 1.10E+00 1.677E+00 6.288E-02 2.76304E+01 1.08E-02 0.981 1.27 1.27 400 5.71E-09 1.44E-09 6.18E-11 1.85E-15 3.47E-15 1.10E+00 1.677E+00 6.294E-02 2.74184E+01 1.09E-02 0.978 1.27 1.27 500 2.27E-09 5.83E-10 1.60E-11 4.36E-16 6.98E-16 1.10E+00 1.678E+00 6.298E-02 2.72937E+01 1.10E-02 0.975 1.27 1.27 575 9.97E-10 2.64E-10 4.92E-12 1.60E-16 2.08E-16 1.10E+00 1.678E+00 6.299E-02 2.72192E+01 1.10E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.32E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.250E-05 d(ln R0)/dt = 5.044E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.181249 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6133E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6925E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.225000 TO TG2= 1.230000 @ NSTEP 409 GFRAME TG2 MOMENTS CHECKSUM: 9.0772570220682E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 409 TA= 1.22500E+00 CPU TIME= 2.47363E+00 SECONDS. DT= 1.09064E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6075E+00 2.9850E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3601E+20 nbi_getprofiles ne*dVol sum (ions): 4.3601E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16258 - 0 (killed) + 4931 (dep) = 21189 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0029E+00 %ORBALL: In processor 0: orbit # IORB= 5141 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6096 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6210 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6806 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6940 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7940 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8128 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8207 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8345 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8391 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8771 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8991 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9156 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9194 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9314 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9343 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9363 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9409 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9525 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9750 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10089 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10212 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10293 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10296 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10405 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21189 SPL= 0 TOT=16167 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 415 TA= 1.23000E+00 CPU TIME= 2.51562E+00 SECONDS. DT= 9.60187E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.230000E+00 NSTEP= 415 Hash code: 392655 ->PRGCHK: bdy curvature ratio at t= 1.2350E+00 seconds is: 9.6451E-02 % MHDEQ: TG1= 1.230000 ; TG2= 1.235000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5935E+00 0.0000E+00 -6.1052E-02 0.0000E+00 1.6776E+00 6.2995E-02 1 0 4.6551E-01 5.4301E-02 5.4301E-02 8.7468E-01 2 0 3.5551E-02 5.9277E-02 2.4086E-03 -2.6752E-02 3 0 2.5102E-02 -7.8931E-03 -5.9186E-03 -7.2903E-03 4 0 -2.4948E-03 -3.1458E-03 -2.2363E-03 4.0254E-03 5 0 -1.1900E-04 5.2787E-04 1.1116E-03 1.9448E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 4.16E-02 5.24E-02 4.08E-03 5.05E-04 1.10E+00 1.678E+00 6.299E-02 3.12181E+01 9.34E-03 1.000 1.27 1.02 100 2.93E-06 1.13E-06 7.14E-07 1.60E-09 8.48E-10 1.10E+00 1.670E+00 5.761E-02 2.87057E+01 1.03E-02 1.000 1.27 1.22 114 7.21E-07 3.45E-07 2.45E-07 1.29E-10 1.24E-09 1.10E+00 1.672E+00 5.921E-02 2.87055E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.069E-07 d(ln R0)/dt = 7.661E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.78E-02 9.16E-02 2.38E-04 1.44E-08 4.27E-08 1.10E+00 1.672E+00 5.932E-02 2.87047E+01 1.04E-02 1.000 1.27 1.25 100 2.46E-06 7.61E-07 3.12E-08 7.34E-12 2.28E-11 1.10E+00 1.676E+00 6.227E-02 2.90070E+01 1.03E-02 1.005 1.27 1.27 200 6.60E-08 1.76E-08 3.31E-09 2.20E-13 4.32E-13 1.10E+00 1.677E+00 6.244E-02 2.79990E+01 1.06E-02 0.988 1.27 1.27 300 1.62E-08 4.30E-09 3.69E-10 1.33E-14 3.09E-14 1.10E+00 1.677E+00 6.259E-02 2.76260E+01 1.08E-02 0.981 1.27 1.27 400 5.68E-09 1.44E-09 6.10E-11 1.78E-15 3.32E-15 1.10E+00 1.678E+00 6.265E-02 2.74092E+01 1.09E-02 0.977 1.27 1.27 500 2.28E-09 5.83E-10 1.60E-11 4.26E-16 6.80E-16 1.10E+00 1.678E+00 6.268E-02 2.72871E+01 1.09E-02 0.975 1.27 1.27 579 9.92E-10 2.50E-10 4.60E-12 1.35E-16 1.76E-16 1.10E+00 1.678E+00 6.270E-02 2.72118E+01 1.10E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.33E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.152E-05 d(ln R0)/dt = 4.897E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.184593 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6523E-01 SECONDS DATA R*BT AT EDGE: 3.3428E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6451E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.230000 TO TG2= 1.235000 @ NSTEP 415 GFRAME TG2 MOMENTS CHECKSUM: 9.0763720180301E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 415 TA= 1.23000E+00 CPU TIME= 2.47363E+00 SECONDS. DT= 9.60187E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 416 TA= 1.23026E+00 CPU TIME= 2.52246E+00 SECONDS. DT= 3.19628E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 422 TA= 1.23201E+00 CPU TIME= 2.51172E+00 SECONDS. DT= 4.14397E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 428 TA= 1.23387E+00 CPU TIME= 2.50879E+00 SECONDS. DT= 4.38409E-04 %MFRCHK - LABEL "QMINORB", # 8= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.83692E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.29172E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.83692E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.29172E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67385E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.35393E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67385E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.35393E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.235000E+00 NSTEP= 432 Hash code: 95906205 ->PRGCHK: bdy curvature ratio at t= 1.2400E+00 seconds is: 9.5981E-02 % MHDEQ: TG1= 1.235000 ; TG2= 1.240000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.700E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5936E+00 0.0000E+00 -6.1664E-02 0.0000E+00 1.6778E+00 6.2703E-02 1 0 4.6524E-01 5.4499E-02 5.4499E-02 8.7449E-01 2 0 3.5612E-02 5.9352E-02 2.5325E-03 -2.6673E-02 3 0 2.5080E-02 -7.9167E-03 -5.8966E-03 -7.2796E-03 4 0 -2.4970E-03 -3.1235E-03 -2.2302E-03 4.0162E-03 5 0 -1.1406E-04 5.2691E-04 1.1085E-03 1.9417E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.20E-01 4.19E-02 5.24E-02 4.07E-03 5.06E-04 1.10E+00 1.678E+00 6.270E-02 3.12186E+01 9.30E-03 1.000 1.27 1.02 100 2.84E-06 1.09E-06 6.85E-07 1.60E-09 8.52E-10 1.10E+00 1.670E+00 5.719E-02 2.87084E+01 1.02E-02 1.000 1.27 1.22 114 7.19E-07 3.40E-07 2.43E-07 1.31E-10 1.25E-09 1.10E+00 1.672E+00 5.881E-02 2.87082E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.214E-07 d(ln R0)/dt = 7.748E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.84E-02 9.13E-02 2.38E-04 1.47E-08 4.32E-08 1.10E+00 1.672E+00 5.892E-02 2.87073E+01 1.03E-02 1.000 1.27 1.25 100 2.68E-06 8.13E-07 3.23E-08 7.23E-12 2.29E-11 1.10E+00 1.676E+00 6.189E-02 2.90841E+01 1.02E-02 1.007 1.27 1.27 200 6.68E-08 1.80E-08 3.38E-09 2.25E-13 4.49E-13 1.10E+00 1.677E+00 6.206E-02 2.80752E+01 1.06E-02 0.989 1.27 1.27 300 1.65E-08 4.38E-09 3.82E-10 1.38E-14 3.21E-14 1.10E+00 1.677E+00 6.220E-02 2.77012E+01 1.07E-02 0.983 1.27 1.27 400 5.75E-09 1.47E-09 6.16E-11 1.77E-15 3.33E-15 1.10E+00 1.677E+00 6.227E-02 2.74787E+01 1.08E-02 0.979 1.27 1.27 500 2.31E-09 5.88E-10 1.60E-11 4.19E-16 6.73E-16 1.10E+00 1.678E+00 6.230E-02 2.73559E+01 1.09E-02 0.976 1.27 1.27 580 9.88E-10 2.54E-10 4.68E-12 1.44E-16 1.80E-16 1.10E+00 1.678E+00 6.232E-02 2.72807E+01 1.09E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.30E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.124E-05 d(ln R0)/dt = 4.805E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.187147 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5742E-01 SECONDS DATA R*BT AT EDGE: 3.3446E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5981E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.235000 TO TG2= 1.240000 @ NSTEP 432 GFRAME TG2 MOMENTS CHECKSUM: 9.0740232096931E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 432 TA= 1.23500E+00 CPU TIME= 2.45312E+00 SECONDS. DT= 3.64179E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 433 TA= 1.23536E+00 CPU TIME= 2.42285E+00 SECONDS. DT= 4.55224E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 439 TA= 1.23742E+00 CPU TIME= 2.54687E+00 SECONDS. DT= 4.84320E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 445 TA= 1.23959E+00 CPU TIME= 2.47461E+00 SECONDS. DT= 4.09233E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6091E+00 2.9864E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2892E+20 nbi_getprofiles ne*dVol sum (ions): 4.2892E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16167 - 0 (killed) + 3833 (dep) = 20000 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5013 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0047E+00 %ORBALL: In processor 0: orbit # IORB= 6391 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6730 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6790 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8103 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8105 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8165 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8213 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8302 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8330 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8404 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8417 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8448 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8454 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8479 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8506 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8515 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8519 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8528 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8615 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8700 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8808 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8850 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8900 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8964 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8970 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8994 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9071 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9177 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9255 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9367 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9371 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9435 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9490 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9496 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9540 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9575 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9759 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9851 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9854 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9866 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9924 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20000 SPL= 0 TOT=15366 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 446 TA= 1.24000E+00 CPU TIME= 2.44727E+00 SECONDS. DT= 5.11541E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.240000E+00 NSTEP= 446 Hash code: 93739984 ->PRGCHK: bdy curvature ratio at t= 1.2450E+00 seconds is: 9.5513E-02 % MHDEQ: TG1= 1.240000 ; TG2= 1.245000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.696E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5937E+00 0.0000E+00 -6.2276E-02 0.0000E+00 1.6776E+00 6.2322E-02 1 0 4.6496E-01 5.4698E-02 5.4698E-02 8.7430E-01 2 0 3.5672E-02 5.9426E-02 2.6564E-03 -2.6593E-02 3 0 2.5059E-02 -7.9403E-03 -5.8747E-03 -7.2689E-03 4 0 -2.4991E-03 -3.1012E-03 -2.2241E-03 4.0071E-03 5 0 -1.0911E-04 5.2596E-04 1.1055E-03 1.9386E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.19E-01 4.19E-02 5.23E-02 4.06E-03 5.07E-04 1.10E+00 1.678E+00 6.232E-02 3.11576E+01 9.29E-03 1.000 1.27 1.02 100 2.87E-06 1.08E-06 6.74E-07 1.59E-09 8.79E-10 1.10E+00 1.670E+00 5.682E-02 2.86624E+01 1.02E-02 1.000 1.27 1.22 114 7.27E-07 3.39E-07 2.43E-07 1.32E-10 1.27E-09 1.10E+00 1.672E+00 5.846E-02 2.86621E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.282E-07 d(ln R0)/dt = 7.805E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.97E-02 9.18E-02 2.40E-04 1.50E-08 4.37E-08 1.10E+00 1.672E+00 5.857E-02 2.86613E+01 1.03E-02 1.000 1.27 1.24 100 2.84E-06 8.45E-07 3.31E-08 7.06E-12 2.27E-11 1.10E+00 1.676E+00 6.154E-02 2.90702E+01 1.02E-02 1.007 1.27 1.27 200 6.67E-08 1.81E-08 3.41E-09 2.26E-13 4.58E-13 1.10E+00 1.677E+00 6.170E-02 2.80668E+01 1.05E-02 0.990 1.27 1.27 300 1.67E-08 4.42E-09 3.89E-10 1.40E-14 3.28E-14 1.10E+00 1.677E+00 6.184E-02 2.76944E+01 1.07E-02 0.983 1.27 1.27 400 5.78E-09 1.48E-09 6.16E-11 1.74E-15 3.29E-15 1.10E+00 1.677E+00 6.190E-02 2.74680E+01 1.08E-02 0.979 1.27 1.27 500 2.31E-09 5.87E-10 1.59E-11 4.07E-16 6.57E-16 1.10E+00 1.677E+00 6.194E-02 2.73454E+01 1.08E-02 0.977 1.27 1.27 580 9.96E-10 2.55E-10 4.67E-12 1.45E-16 1.80E-16 1.10E+00 1.678E+00 6.196E-02 2.72716E+01 1.09E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.44E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.083E-05 d(ln R0)/dt = 4.711E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.190212 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7598E-01 SECONDS DATA R*BT AT EDGE: 3.3428E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5513E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.240000 TO TG2= 1.245000 @ NSTEP 446 GFRAME TG2 MOMENTS CHECKSUM: 9.0720893501537E+03 %MFRCHK - LABEL "QMINORB", # 8= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -3.67764E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.29956E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -3.67764E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.29956E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 5.33258E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.36444E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 5.33258E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.36444E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.245000E+00 NSTEP= 454 Hash code: 103621757 ->PRGCHK: bdy curvature ratio at t= 1.2500E+00 seconds is: 9.5047E-02 % MHDEQ: TG1= 1.245000 ; TG2= 1.250000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.692E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5938E+00 0.0000E+00 -6.2888E-02 0.0000E+00 1.6776E+00 6.1959E-02 1 0 4.6469E-01 5.4896E-02 5.4896E-02 8.7411E-01 2 0 3.5732E-02 5.9501E-02 2.7802E-03 -2.6514E-02 3 0 2.5038E-02 -7.9639E-03 -5.8528E-03 -7.2583E-03 4 0 -2.5013E-03 -3.0789E-03 -2.2180E-03 3.9979E-03 5 0 -1.0416E-04 5.2501E-04 1.1024E-03 1.9356E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.19E-01 4.19E-02 5.22E-02 4.04E-03 5.08E-04 1.10E+00 1.678E+00 6.196E-02 3.11029E+01 9.15E-03 1.000 1.27 1.02 100 3.00E-06 1.11E-06 6.90E-07 1.60E-09 8.92E-10 1.10E+00 1.670E+00 5.641E-02 2.86203E+01 1.01E-02 1.000 1.27 1.22 114 7.39E-07 3.45E-07 2.44E-07 1.32E-10 1.28E-09 1.10E+00 1.672E+00 5.803E-02 2.86201E+01 1.01E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.40E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.213E-07 d(ln R0)/dt = 7.573E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.04E-02 9.27E-02 2.41E-04 1.44E-08 4.36E-08 1.10E+00 1.672E+00 5.814E-02 2.86191E+01 1.02E-02 1.000 1.27 1.25 100 2.82E-06 8.35E-07 3.30E-08 7.05E-12 2.26E-11 1.10E+00 1.675E+00 6.108E-02 2.89548E+01 1.01E-02 1.006 1.27 1.27 200 6.70E-08 1.80E-08 3.41E-09 2.24E-13 4.52E-13 1.10E+00 1.677E+00 6.125E-02 2.79493E+01 1.04E-02 0.988 1.27 1.27 300 1.69E-08 4.46E-09 3.87E-10 1.38E-14 3.27E-14 1.10E+00 1.677E+00 6.138E-02 2.75775E+01 1.06E-02 0.982 1.27 1.27 400 5.85E-09 1.50E-09 6.24E-11 1.73E-15 3.29E-15 1.10E+00 1.677E+00 6.145E-02 2.73519E+01 1.06E-02 0.978 1.27 1.27 500 2.35E-09 5.99E-10 1.61E-11 4.12E-16 6.72E-16 1.10E+00 1.677E+00 6.148E-02 2.72299E+01 1.07E-02 0.976 1.27 1.27 581 9.80E-10 2.57E-10 4.70E-12 1.45E-16 1.89E-16 1.10E+00 1.677E+00 6.150E-02 2.71537E+01 1.07E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.098E-05 d(ln R0)/dt = 4.684E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.69 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.217986 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.1387E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5047E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.245000 TO TG2= 1.250000 @ NSTEP 454 GFRAME TG2 MOMENTS CHECKSUM: 9.0694076337477E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 454 TA= 1.24500E+00 CPU TIME= 3.04980E+00 SECONDS. DT= 8.60664E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6073E+00 2.9815E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2460E+20 nbi_getprofiles ne*dVol sum (ions): 4.2460E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15366 - 0 (killed) + 4634 (dep) = 20000 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6264 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6969 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7113 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7367 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7813 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7842 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7847 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7929 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8227 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8259 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8260 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8298 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8309 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8342 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8466 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8516 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8526 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8595 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8709 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8971 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9138 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9168 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9242 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9293 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9354 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9507 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9523 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9559 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9646 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9737 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9778 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9874 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9925 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9977 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9989 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20000 SPL= 0 TOT=15282 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 462 TA= 1.25000E+00 CPU TIME= 2.49902E+00 SECONDS. DT= 3.70346E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.250000E+00 NSTEP= 462 Hash code: 25456649 ->PRGCHK: bdy curvature ratio at t= 1.2550E+00 seconds is: 9.4584E-02 % MHDEQ: TG1= 1.250000 ; TG2= 1.255000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.690E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5938E+00 0.0000E+00 -6.3500E-02 0.0000E+00 1.6773E+00 6.1503E-02 1 0 4.6442E-01 5.5095E-02 5.5095E-02 8.7392E-01 2 0 3.5793E-02 5.9575E-02 2.9041E-03 -2.6435E-02 3 0 2.5016E-02 -7.9875E-03 -5.8308E-03 -7.2476E-03 4 0 -2.5034E-03 -3.0566E-03 -2.2119E-03 3.9887E-03 5 0 -9.9212E-05 5.2406E-04 1.0994E-03 1.9325E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.17E-01 4.18E-02 5.21E-02 4.03E-03 5.09E-04 1.10E+00 1.677E+00 6.150E-02 3.10634E+01 9.02E-03 1.000 1.26 1.02 100 3.34E-06 1.22E-06 7.36E-07 1.61E-09 9.23E-10 1.10E+00 1.670E+00 5.606E-02 2.85979E+01 9.92E-03 1.000 1.26 1.23 114 7.73E-07 3.62E-07 2.48E-07 1.34E-10 1.30E-09 1.10E+00 1.672E+00 5.766E-02 2.85976E+01 9.92E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.045E-07 d(ln R0)/dt = 7.221E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.20E-02 9.45E-02 2.44E-04 1.39E-08 4.35E-08 1.10E+00 1.672E+00 5.777E-02 2.85966E+01 1.00E-02 1.000 1.26 1.25 100 2.69E-06 7.82E-07 3.24E-08 6.86E-12 2.19E-11 1.10E+00 1.675E+00 6.064E-02 2.87492E+01 9.97E-03 1.003 1.26 1.27 200 6.59E-08 1.74E-08 3.35E-09 2.17E-13 4.36E-13 1.10E+00 1.676E+00 6.082E-02 2.77432E+01 1.03E-02 0.985 1.26 1.26 300 1.70E-08 4.49E-09 3.77E-10 1.32E-14 3.23E-14 1.10E+00 1.677E+00 6.095E-02 2.73743E+01 1.05E-02 0.979 1.26 1.26 400 5.94E-09 1.54E-09 6.33E-11 1.71E-15 3.27E-15 1.10E+00 1.677E+00 6.102E-02 2.71516E+01 1.06E-02 0.975 1.26 1.26 500 2.40E-09 6.12E-10 1.63E-11 4.17E-16 6.84E-16 1.10E+00 1.677E+00 6.105E-02 2.70296E+01 1.06E-02 0.973 1.26 1.26 581 9.94E-10 2.60E-10 4.65E-12 1.42E-16 1.84E-16 1.10E+00 1.677E+00 6.107E-02 2.69516E+01 1.06E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.29E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.137E-05 d(ln R0)/dt = 4.713E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.244357 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5840E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4584E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.250000 TO TG2= 1.255000 @ NSTEP 462 GFRAME TG2 MOMENTS CHECKSUM: 9.0675271649382E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 462 TA= 1.25000E+00 CPU TIME= 2.50781E+00 SECONDS. DT= 3.70346E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 463 TA= 1.25026E+00 CPU TIME= 2.58301E+00 SECONDS. DT= 3.28145E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 471 TA= 1.25230E+00 CPU TIME= 2.96777E+00 SECONDS. DT= 3.11576E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 479 TA= 1.25424E+00 CPU TIME= 2.95312E+00 SECONDS. DT= 2.95559E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10217E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.18424E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10217E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.18424E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -4.40868E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.25556E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -4.40868E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.25556E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.255000E+00 NSTEP= 483 Hash code: 52210289 ->PRGCHK: bdy curvature ratio at t= 1.2600E+00 seconds is: 9.4124E-02 % MHDEQ: TG1= 1.255000 ; TG2= 1.260000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.687E+00 1.262E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5939E+00 0.0000E+00 -6.4112E-02 0.0000E+00 1.6771E+00 6.1073E-02 1 0 4.6415E-01 5.5293E-02 5.5293E-02 8.7373E-01 2 0 3.5853E-02 5.9650E-02 3.0280E-03 -2.6355E-02 3 0 2.4995E-02 -8.0111E-03 -5.8089E-03 -7.2369E-03 4 0 -2.5056E-03 -3.0343E-03 -2.2058E-03 3.9795E-03 5 0 -9.4264E-05 5.2311E-04 1.0963E-03 1.9294E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 4.18E-02 5.20E-02 4.01E-03 5.10E-04 1.10E+00 1.677E+00 6.107E-02 3.10308E+01 8.70E-03 1.000 1.26 1.02 100 3.67E-06 1.34E-06 7.87E-07 1.64E-09 9.63E-10 1.10E+00 1.669E+00 5.551E-02 2.85797E+01 9.56E-03 1.000 1.26 1.22 114 8.15E-07 3.83E-07 2.53E-07 1.40E-10 1.34E-09 1.10E+00 1.671E+00 5.710E-02 2.85795E+01 9.57E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.983E-07 d(ln R0)/dt = 6.967E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.40E-02 9.64E-02 2.48E-04 1.42E-08 4.45E-08 1.10E+00 1.671E+00 5.720E-02 2.85781E+01 9.67E-03 1.000 1.26 1.24 100 2.51E-06 7.32E-07 3.16E-08 6.90E-12 2.19E-11 1.10E+00 1.675E+00 6.002E-02 2.86671E+01 9.65E-03 1.002 1.26 1.26 200 6.64E-08 1.72E-08 3.36E-09 2.14E-13 4.28E-13 1.10E+00 1.676E+00 6.022E-02 2.76438E+01 1.00E-02 0.984 1.26 1.26 300 1.73E-08 4.58E-09 3.77E-10 1.29E-14 3.23E-14 1.10E+00 1.676E+00 6.035E-02 2.72729E+01 1.01E-02 0.977 1.26 1.26 400 6.18E-09 1.62E-09 6.65E-11 1.78E-15 3.42E-15 1.10E+00 1.676E+00 6.041E-02 2.70527E+01 1.02E-02 0.973 1.26 1.26 500 2.51E-09 6.40E-10 1.71E-11 4.35E-16 7.36E-16 1.10E+00 1.676E+00 6.045E-02 2.69279E+01 1.03E-02 0.971 1.26 1.26 586 9.95E-10 2.54E-10 4.23E-12 1.19E-16 1.56E-16 1.10E+00 1.676E+00 6.047E-02 2.68410E+01 1.03E-02 0.969 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.144E-05 d(ln R0)/dt = 4.596E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.69 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.223932 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.0996E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4124E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.255000 TO TG2= 1.260000 @ NSTEP 483 GFRAME TG2 MOMENTS CHECKSUM: 9.0630102170918E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 483 TA= 1.25500E+00 CPU TIME= 2.96387E+00 SECONDS. DT= 2.89733E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 484 TA= 1.25523E+00 CPU TIME= 2.88086E+00 SECONDS. DT= 2.86936E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 492 TA= 1.25701E+00 CPU TIME= 3.16309E+00 SECONDS. DT= 2.71919E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 500 TA= 1.25870E+00 CPU TIME= 2.97852E+00 SECONDS. DT= 2.57573E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6074E+00 2.9794E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1686E+20 nbi_getprofiles ne*dVol sum (ions): 4.1686E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15282 - 0 (killed) + 5616 (dep) = 20898 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5883 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6802 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7050 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7622 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7723 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7915 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8035 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8040 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8072 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8112 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8132 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8137 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8188 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8270 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8285 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8291 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8374 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8411 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8564 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8696 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8710 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8747 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8790 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8799 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8843 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8986 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9189 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9408 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9701 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9776 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9981 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10026 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10130 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10207 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20898 SPL= 0 TOT=16255 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 507 TA= 1.26000E+00 CPU TIME= 2.93066E+00 SECONDS. DT= 1.16118E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.260000E+00 NSTEP= 507 Hash code: 88284766 ->PRGCHK: bdy curvature ratio at t= 1.2650E+00 seconds is: 9.3666E-02 % MHDEQ: TG1= 1.260000 ; TG2= 1.265000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.684E+00 1.262E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5940E+00 0.0000E+00 -6.4724E-02 0.0000E+00 1.6764E+00 6.0470E-02 1 0 4.6388E-01 5.5492E-02 5.5492E-02 8.7354E-01 2 0 3.5914E-02 5.9725E-02 3.1519E-03 -2.6276E-02 3 0 2.4974E-02 -8.0346E-03 -5.7869E-03 -7.2262E-03 4 0 -2.5077E-03 -3.0119E-03 -2.1997E-03 3.9703E-03 5 0 -8.9316E-05 5.2215E-04 1.0932E-03 1.9263E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.13E-01 4.14E-02 5.16E-02 3.98E-03 5.09E-04 1.10E+00 1.676E+00 6.047E-02 3.09790E+01 8.39E-03 1.000 1.26 1.02 100 4.80E-06 1.70E-06 9.36E-07 1.72E-09 1.12E-09 1.10E+00 1.668E+00 5.504E-02 2.85604E+01 9.21E-03 1.000 1.26 1.22 114 9.58E-07 4.42E-07 2.71E-07 1.64E-10 1.43E-09 1.10E+00 1.670E+00 5.668E-02 2.85601E+01 9.22E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.844E-07 d(ln R0)/dt = 6.762E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.84E-02 1.01E-01 2.57E-04 1.45E-08 4.57E-08 1.10E+00 1.670E+00 5.678E-02 2.85585E+01 9.33E-03 1.000 1.26 1.24 100 2.40E-06 7.08E-07 3.14E-08 7.01E-12 2.18E-11 1.10E+00 1.674E+00 5.935E-02 2.87346E+01 9.28E-03 1.003 1.26 1.26 200 6.79E-08 1.72E-08 3.35E-09 2.11E-13 4.18E-13 1.10E+00 1.675E+00 5.960E-02 2.76908E+01 9.63E-03 0.985 1.26 1.26 300 1.78E-08 4.69E-09 3.78E-10 1.28E-14 3.22E-14 1.10E+00 1.675E+00 5.972E-02 2.73160E+01 9.77E-03 0.978 1.26 1.26 400 6.45E-09 1.71E-09 7.02E-11 1.86E-15 3.62E-15 1.10E+00 1.675E+00 5.978E-02 2.70985E+01 9.84E-03 0.974 1.26 1.26 500 2.64E-09 6.71E-10 1.81E-11 4.52E-16 7.94E-16 1.10E+00 1.676E+00 5.981E-02 2.69690E+01 9.89E-03 0.972 1.26 1.26 589 9.94E-10 2.58E-10 4.28E-12 1.09E-16 1.62E-16 1.10E+00 1.676E+00 5.984E-02 2.68742E+01 9.93E-03 0.970 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.262E-05 d(ln R0)/dt = 4.606E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.69 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.206412 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.0898E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3666E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.260000 TO TG2= 1.265000 @ NSTEP 507 GFRAME TG2 MOMENTS CHECKSUM: 9.0573104040406E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 507 TA= 1.26000E+00 CPU TIME= 2.84766E+00 SECONDS. DT= 1.16118E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 508 TA= 1.26012E+00 CPU TIME= 2.52148E+00 SECONDS. DT= 1.45148E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.47277E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.10520E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.47277E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.10520E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 518 TA= 1.26465E+00 CPU TIME= 3.22559E+00 SECONDS. DT= 3.48992E-04 --> plasma_hash("gframe"): TA= 1.265000E+00 NSTEP= 519 Hash code: 38080506 ->PRGCHK: bdy curvature ratio at t= 1.2700E+00 seconds is: 9.3211E-02 % MHDEQ: TG1= 1.265000 ; TG2= 1.270000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.681E+00 1.262E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5940E+00 0.0000E+00 -6.5336E-02 0.0000E+00 1.6756E+00 5.9836E-02 1 0 4.6361E-01 5.5690E-02 5.5690E-02 8.7335E-01 2 0 3.5974E-02 5.9799E-02 3.2757E-03 -2.6197E-02 3 0 2.4953E-02 -8.0582E-03 -5.7650E-03 -7.2155E-03 4 0 -2.5098E-03 -2.9896E-03 -2.1936E-03 3.9612E-03 5 0 -8.4367E-05 5.2120E-04 1.0902E-03 1.9233E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.10E-01 4.09E-02 5.12E-02 3.94E-03 5.07E-04 1.10E+00 1.676E+00 5.984E-02 3.09144E+01 8.41E-03 1.000 1.26 1.01 100 4.35E-06 1.47E-06 8.40E-07 1.39E-09 1.25E-09 1.10E+00 1.667E+00 5.441E-02 2.85311E+01 9.21E-03 1.000 1.26 1.22 114 8.72E-07 3.66E-07 2.57E-07 1.39E-10 1.39E-09 1.10E+00 1.669E+00 5.604E-02 2.85308E+01 9.22E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.804E-07 d(ln R0)/dt = 6.643E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.96E-02 1.02E-01 2.58E-04 1.48E-08 4.63E-08 1.10E+00 1.669E+00 5.614E-02 2.85292E+01 9.33E-03 1.000 1.26 1.24 100 2.38E-06 7.08E-07 3.13E-08 7.07E-12 2.23E-11 1.10E+00 1.673E+00 5.877E-02 2.87950E+01 9.25E-03 1.005 1.26 1.26 200 6.92E-08 1.74E-08 3.37E-09 2.10E-13 4.21E-13 1.10E+00 1.674E+00 5.902E-02 2.77365E+01 9.61E-03 0.986 1.26 1.26 300 1.80E-08 4.75E-09 3.81E-10 1.28E-14 3.24E-14 1.10E+00 1.675E+00 5.914E-02 2.73603E+01 9.74E-03 0.980 1.26 1.26 400 6.62E-09 1.77E-09 7.32E-11 1.94E-15 3.83E-15 1.10E+00 1.675E+00 5.919E-02 2.71453E+01 9.82E-03 0.976 1.26 1.26 500 2.71E-09 6.87E-10 1.87E-11 4.61E-16 8.33E-16 1.10E+00 1.675E+00 5.923E-02 2.70116E+01 9.87E-03 0.973 1.26 1.26 593 9.87E-10 2.52E-10 3.96E-12 9.68E-17 1.32E-16 1.10E+00 1.675E+00 5.925E-02 2.69102E+01 9.90E-03 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.294E-05 d(ln R0)/dt = 4.491E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.69 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.186917 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.0605E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3211E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.265000 TO TG2= 1.270000 @ NSTEP 519 GFRAME TG2 MOMENTS CHECKSUM: 9.0525164206586E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 519 TA= 1.26500E+00 CPU TIME= 2.79395E+00 SECONDS. DT= 9.87176E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1064453125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6072E+00 2.9774E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2383E+20 nbi_getprofiles ne*dVol sum (ions): 4.2383E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16255 - 0 (killed) + 5914 (dep) = 22169 ptcls. DEPALL EXITED 0 ORBALL... %CXLINE - VTOR.GT.VION; VTOR,VION = 1.479642E+08 1.479222E+08 %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 2349 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0131E+00 %ORBALL: In processor 0: orbit # IORB= 6018 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0119E+00 %ORBALL: In processor 0: orbit # IORB= 8270 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8353 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8427 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8459 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8525 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8542 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8613 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8681 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8717 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8868 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8875 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8961 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9052 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9086 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9095 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9106 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9186 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0006E+00 %ORBALL: In processor 0: orbit # IORB= 9834 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9848 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9922 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10074 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10102 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10536 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10691 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10956 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22169 SPL= 0 TOT=17203 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 525 TA= 1.27000E+00 CPU TIME= 2.44336E+00 SECONDS. DT= 4.24281E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.270000E+00 NSTEP= 525 Hash code: 10631636 ->PRGCHK: bdy curvature ratio at t= 1.2750E+00 seconds is: 9.2759E-02 % MHDEQ: TG1= 1.270000 ; TG2= 1.275000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.679E+00 1.263E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5941E+00 0.0000E+00 -6.5949E-02 0.0000E+00 1.6749E+00 5.9253E-02 1 0 4.6334E-01 5.5889E-02 5.5889E-02 8.7316E-01 2 0 3.6035E-02 5.9874E-02 3.3996E-03 -2.6117E-02 3 0 2.4931E-02 -8.0818E-03 -5.7431E-03 -7.2049E-03 4 0 -2.5120E-03 -2.9673E-03 -2.1875E-03 3.9520E-03 5 0 -7.9419E-05 5.2025E-04 1.0871E-03 1.9202E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.07E-01 4.05E-02 5.08E-02 3.91E-03 5.06E-04 1.10E+00 1.675E+00 5.925E-02 3.08599E+01 8.42E-03 1.000 1.26 1.01 100 4.15E-06 1.37E-06 7.90E-07 1.29E-09 1.37E-09 1.10E+00 1.666E+00 5.380E-02 2.85080E+01 9.21E-03 1.000 1.26 1.22 114 8.20E-07 3.22E-07 2.48E-07 1.25E-10 1.33E-09 1.10E+00 1.668E+00 5.546E-02 2.85077E+01 9.22E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.18E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.758E-07 d(ln R0)/dt = 6.686E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 9.05E-02 1.03E-01 2.59E-04 1.50E-08 4.71E-08 1.10E+00 1.669E+00 5.555E-02 2.85061E+01 9.33E-03 1.000 1.26 1.24 100 2.38E-06 7.12E-07 3.14E-08 7.10E-12 2.27E-11 1.10E+00 1.672E+00 5.820E-02 2.88780E+01 9.22E-03 1.006 1.26 1.26 200 7.01E-08 1.74E-08 3.37E-09 2.09E-13 4.21E-13 1.10E+00 1.674E+00 5.844E-02 2.78149E+01 9.57E-03 0.988 1.26 1.26 300 1.80E-08 4.77E-09 3.83E-10 1.28E-14 3.24E-14 1.10E+00 1.674E+00 5.855E-02 2.74390E+01 9.70E-03 0.981 1.26 1.26 400 6.68E-09 1.79E-09 7.50E-11 2.00E-15 4.00E-15 1.10E+00 1.674E+00 5.861E-02 2.72268E+01 9.78E-03 0.978 1.26 1.26 500 2.72E-09 6.88E-10 1.87E-11 4.56E-16 8.43E-16 1.10E+00 1.674E+00 5.864E-02 2.70890E+01 9.83E-03 0.975 1.26 1.26 593 9.95E-10 2.54E-10 3.94E-12 9.20E-17 1.28E-16 1.10E+00 1.674E+00 5.866E-02 2.69864E+01 9.87E-03 0.973 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.71E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.303E-05 d(ln R0)/dt = 4.336E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.89 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.167830 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1113E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2759E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.270000 TO TG2= 1.275000 @ NSTEP 525 GFRAME TG2 MOMENTS CHECKSUM: 9.0474710020807E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 3.49701E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -9.45736E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 3.49701E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -9.45736E-42 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.275000E+00 NSTEP= 532 Hash code: 115523051 ->PRGCHK: bdy curvature ratio at t= 1.2800E+00 seconds is: 9.2309E-02 % MHDEQ: TG1= 1.275000 ; TG2= 1.280000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.677E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5942E+00 0.0000E+00 -6.6561E-02 0.0000E+00 1.6742E+00 5.8663E-02 1 0 4.6306E-01 5.6087E-02 5.6087E-02 8.7297E-01 2 0 3.6095E-02 5.9949E-02 3.5235E-03 -2.6038E-02 3 0 2.4910E-02 -8.1054E-03 -5.7211E-03 -7.1942E-03 4 0 -2.5141E-03 -2.9450E-03 -2.1814E-03 3.9428E-03 5 0 -7.4471E-05 5.1930E-04 1.0841E-03 1.9171E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.05E-01 4.01E-02 5.04E-02 3.88E-03 5.04E-04 1.10E+00 1.674E+00 5.866E-02 3.07981E+01 8.69E-03 1.000 1.26 1.01 100 4.91E-06 1.65E-06 8.70E-07 1.18E-09 1.41E-09 1.10E+00 1.668E+00 5.394E-02 2.84772E+01 9.51E-03 1.000 1.26 1.22 114 8.97E-07 3.16E-07 2.64E-07 1.39E-10 1.35E-09 1.10E+00 1.669E+00 5.535E-02 2.84769E+01 9.51E-03 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.44E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.345E-07 d(ln R0)/dt = 5.674E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 9.15E-02 1.07E-01 2.66E-04 1.47E-08 4.72E-08 1.10E+00 1.669E+00 5.544E-02 2.84754E+01 9.62E-03 1.000 1.26 1.24 100 2.52E-06 7.46E-07 3.27E-08 7.15E-12 2.24E-11 1.10E+00 1.673E+00 5.801E-02 2.88156E+01 9.52E-03 1.006 1.26 1.27 200 6.89E-08 1.74E-08 3.35E-09 2.10E-13 4.11E-13 1.10E+00 1.674E+00 5.826E-02 2.77661E+01 9.88E-03 0.988 1.26 1.26 300 1.78E-08 4.68E-09 3.75E-10 1.22E-14 3.19E-14 1.10E+00 1.674E+00 5.837E-02 2.73902E+01 1.00E-02 0.981 1.26 1.26 400 6.49E-09 1.77E-09 7.15E-11 1.86E-15 3.67E-15 1.10E+00 1.674E+00 5.843E-02 2.71748E+01 1.01E-02 0.977 1.26 1.26 500 2.71E-09 6.83E-10 1.87E-11 4.72E-16 8.65E-16 1.10E+00 1.675E+00 5.846E-02 2.70464E+01 1.01E-02 0.975 1.26 1.26 590 9.97E-10 2.63E-10 4.31E-12 1.05E-16 1.66E-16 1.10E+00 1.675E+00 5.848E-02 2.69473E+01 1.02E-02 0.973 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 9.34E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.349E-05 d(ln R0)/dt = 4.433E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 1.08 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.178976 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 1.0996E+00 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2309E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.275000 TO TG2= 1.280000 @ NSTEP 532 GFRAME TG2 MOMENTS CHECKSUM: 9.0479750208194E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 532 TA= 1.27500E+00 CPU TIME= 2.80078E+00 SECONDS. DT= 1.23532E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6074E+00 2.9753E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.1 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3692E+20 nbi_getprofiles ne*dVol sum (ions): 4.3692E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17203 - 0 (killed) + 5626 (dep) = 22829 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5130 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6968 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7748 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 8810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9458 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9710 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9772 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9792 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10072 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10397 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10515 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10903 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10962 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11006 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11047 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11322 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11362 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11451 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11454 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22829 SPL= 0 TOT=17436 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 538 TA= 1.28000E+00 CPU TIME= 2.86133E+00 SECONDS. DT= 3.29156E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.280000E+00 NSTEP= 538 Hash code: 105502719 ->PRGCHK: bdy curvature ratio at t= 1.2850E+00 seconds is: 9.1856E-02 % MHDEQ: TG1= 1.280000 ; TG2= 1.285000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.673E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5943E+00 0.0000E+00 -6.7173E-02 0.0000E+00 1.6746E+00 5.8482E-02 1 0 4.6279E-01 5.6286E-02 5.6286E-02 8.7278E-01 2 0 3.6155E-02 6.0023E-02 3.6474E-03 -2.5959E-02 3 0 2.4889E-02 -8.1290E-03 -5.6992E-03 -7.1835E-03 4 0 -2.5163E-03 -2.9227E-03 -2.1753E-03 3.9336E-03 5 0 -6.9523E-05 5.1835E-04 1.0810E-03 1.9140E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.06E-01 4.05E-02 5.06E-02 3.88E-03 5.06E-04 1.10E+00 1.675E+00 5.848E-02 3.07564E+01 8.96E-03 1.000 1.27 1.01 100 4.18E-06 1.33E-06 7.65E-07 1.19E-09 1.38E-09 1.10E+00 1.668E+00 5.352E-02 2.84306E+01 9.81E-03 1.000 1.27 1.22 114 8.18E-07 2.93E-07 2.53E-07 1.31E-10 1.28E-09 1.10E+00 1.669E+00 5.503E-02 2.84303E+01 9.81E-03 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.629E-07 d(ln R0)/dt = 6.215E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 9.02E-02 1.06E-01 2.62E-04 1.46E-08 4.67E-08 1.10E+00 1.669E+00 5.512E-02 2.84289E+01 9.91E-03 1.000 1.27 1.24 100 2.73E-06 8.15E-07 3.41E-08 7.34E-12 2.28E-11 1.10E+00 1.673E+00 5.783E-02 2.87843E+01 9.80E-03 1.006 1.27 1.27 200 6.87E-08 1.79E-08 3.46E-09 2.21E-13 4.23E-13 1.10E+00 1.674E+00 5.806E-02 2.77334E+01 1.02E-02 0.988 1.27 1.27 300 1.76E-08 4.68E-09 3.80E-10 1.21E-14 3.24E-14 1.10E+00 1.675E+00 5.818E-02 2.73510E+01 1.03E-02 0.981 1.27 1.27 400 6.41E-09 1.79E-09 7.11E-11 1.83E-15 3.60E-15 1.10E+00 1.675E+00 5.824E-02 2.71324E+01 1.04E-02 0.977 1.27 1.27 500 2.73E-09 6.87E-10 1.91E-11 4.92E-16 8.98E-16 1.10E+00 1.675E+00 5.827E-02 2.70096E+01 1.04E-02 0.975 1.27 1.27 589 9.96E-10 2.67E-10 4.46E-12 1.20E-16 1.80E-16 1.10E+00 1.675E+00 5.829E-02 2.69110E+01 1.05E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.46E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.380E-05 d(ln R0)/dt = 4.512E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.190982 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7402E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1856E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.280000 TO TG2= 1.285000 @ NSTEP 538 GFRAME TG2 MOMENTS CHECKSUM: 9.0483895953492E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -3.67477E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -8.40639E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -3.67477E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -8.40639E-42 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.285000E+00 NSTEP= 546 Hash code: 7347533 ->PRGCHK: bdy curvature ratio at t= 1.2900E+00 seconds is: 9.1380E-02 % MHDEQ: TG1= 1.285000 ; TG2= 1.290000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5943E+00 0.0000E+00 -6.7785E-02 0.0000E+00 1.6750E+00 5.8294E-02 1 0 4.6252E-01 5.6484E-02 5.6484E-02 8.7259E-01 2 0 3.6216E-02 6.0098E-02 3.7712E-03 -2.5879E-02 3 0 2.4867E-02 -8.1526E-03 -5.6773E-03 -7.1728E-03 4 0 -2.5184E-03 -2.9004E-03 -2.1692E-03 3.9244E-03 5 0 -6.4575E-05 5.1740E-04 1.0780E-03 1.9110E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.06E-01 4.09E-02 5.08E-02 3.88E-03 5.09E-04 1.10E+00 1.675E+00 5.829E-02 3.07168E+01 9.15E-03 1.000 1.27 1.01 100 4.04E-06 1.25E-06 7.41E-07 1.24E-09 1.38E-09 1.10E+00 1.668E+00 5.321E-02 2.83867E+01 1.00E-02 1.000 1.27 1.22 114 8.02E-07 2.98E-07 2.50E-07 1.32E-10 1.26E-09 1.10E+00 1.670E+00 5.482E-02 2.83864E+01 1.00E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.798E-07 d(ln R0)/dt = 6.535E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.97E-02 1.05E-01 2.59E-04 1.48E-08 4.63E-08 1.10E+00 1.670E+00 5.492E-02 2.83850E+01 1.01E-02 1.000 1.27 1.24 100 2.93E-06 8.66E-07 3.50E-08 7.27E-12 2.24E-11 1.10E+00 1.674E+00 5.763E-02 2.87817E+01 9.99E-03 1.007 1.27 1.27 200 6.82E-08 1.83E-08 3.53E-09 2.27E-13 4.32E-13 1.10E+00 1.675E+00 5.785E-02 2.77369E+01 1.04E-02 0.989 1.27 1.27 300 1.76E-08 4.67E-09 3.89E-10 1.24E-14 3.35E-14 1.10E+00 1.675E+00 5.796E-02 2.73539E+01 1.05E-02 0.982 1.27 1.27 400 6.40E-09 1.81E-09 7.20E-11 1.88E-15 3.66E-15 1.10E+00 1.675E+00 5.802E-02 2.71331E+01 1.06E-02 0.978 1.27 1.27 500 2.74E-09 6.87E-10 1.92E-11 5.05E-16 9.10E-16 1.10E+00 1.675E+00 5.805E-02 2.70100E+01 1.06E-02 0.976 1.27 1.27 589 9.85E-10 2.65E-10 4.38E-12 1.20E-16 1.77E-16 1.10E+00 1.675E+00 5.808E-02 2.69100E+01 1.07E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.46E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.375E-05 d(ln R0)/dt = 4.533E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.181548 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7500E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1380E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.285000 TO TG2= 1.290000 @ NSTEP 546 GFRAME TG2 MOMENTS CHECKSUM: 9.0482862931969E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 546 TA= 1.28500E+00 CPU TIME= 2.93945E+00 SECONDS. DT= 1.23135E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6080E+00 2.9731E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4179E+20 nbi_getprofiles ne*dVol sum (ions): 4.4179E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17436 - 0 (killed) + 5471 (dep) = 22907 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5616 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7153 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7764 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8365 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8404 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8884 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8985 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9075 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9087 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9395 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9423 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9559 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9809 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10107 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10181 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10182 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10228 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10307 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10415 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10551 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10580 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0048E+00 %ORBALL: In processor 0: orbit # IORB= 10656 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10871 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10896 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10936 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11016 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11137 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11212 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11434 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22907 SPL= 0 TOT=17520 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 552 TA= 1.29000E+00 CPU TIME= 2.52344E+00 SECONDS. DT= 7.15668E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.2900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.290000E+00 NSTEP= 552 Hash code: 46005515 ->PRGCHK: bdy curvature ratio at t= 1.2950E+00 seconds is: 9.0908E-02 % MHDEQ: TG1= 1.290000 ; TG2= 1.295000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.666E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5944E+00 0.0000E+00 -6.8397E-02 0.0000E+00 1.6753E+00 5.8079E-02 1 0 4.6225E-01 5.6683E-02 5.6683E-02 8.7240E-01 2 0 3.6276E-02 6.0172E-02 3.8951E-03 -2.5800E-02 3 0 2.4846E-02 -8.1761E-03 -5.6553E-03 -7.1622E-03 4 0 -2.5206E-03 -2.8781E-03 -2.1631E-03 3.9152E-03 5 0 -5.9627E-05 5.1644E-04 1.0749E-03 1.9079E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.07E-01 4.12E-02 5.09E-02 3.88E-03 5.11E-04 1.10E+00 1.675E+00 5.808E-02 3.06508E+01 9.35E-03 1.000 1.27 1.01 100 4.04E-06 1.22E-06 7.37E-07 1.26E-09 1.36E-09 1.10E+00 1.668E+00 5.299E-02 2.83208E+01 1.02E-02 1.000 1.27 1.22 114 8.05E-07 3.09E-07 2.51E-07 1.36E-10 1.24E-09 1.10E+00 1.670E+00 5.465E-02 2.83205E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.882E-07 d(ln R0)/dt = 6.625E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.95E-02 1.04E-01 2.57E-04 1.50E-08 4.59E-08 1.10E+00 1.670E+00 5.475E-02 2.83192E+01 1.03E-02 1.000 1.27 1.24 100 3.13E-06 9.21E-07 3.60E-08 7.15E-12 2.19E-11 1.10E+00 1.674E+00 5.742E-02 2.87866E+01 1.02E-02 1.008 1.27 1.27 200 6.78E-08 1.87E-08 3.58E-09 2.32E-13 4.39E-13 1.10E+00 1.675E+00 5.762E-02 2.77523E+01 1.06E-02 0.990 1.27 1.27 300 1.76E-08 4.68E-09 4.01E-10 1.28E-14 3.49E-14 1.10E+00 1.675E+00 5.774E-02 2.73707E+01 1.07E-02 0.983 1.27 1.27 400 6.40E-09 1.82E-09 7.36E-11 1.97E-15 3.78E-15 1.10E+00 1.675E+00 5.780E-02 2.71487E+01 1.08E-02 0.979 1.27 1.27 500 2.74E-09 6.84E-10 1.92E-11 5.12E-16 9.09E-16 1.10E+00 1.676E+00 5.783E-02 2.70224E+01 1.08E-02 0.977 1.27 1.27 589 9.75E-10 2.62E-10 4.26E-12 1.16E-16 1.66E-16 1.10E+00 1.676E+00 5.786E-02 2.69210E+01 1.09E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.50E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.331E-05 d(ln R0)/dt = 4.500E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.86 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.172061 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8086E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.0908E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.290000 TO TG2= 1.295000 @ NSTEP 552 GFRAME TG2 MOMENTS CHECKSUM: 9.0479809775409E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 5.32922E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -9.52463E-42 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 5.32922E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -9.52463E-42 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.295000E+00 NSTEP= 558 Hash code: 59048429 ->PRGCHK: bdy curvature ratio at t= 1.3000E+00 seconds is: 9.0438E-02 % MHDEQ: TG1= 1.295000 ; TG2= 1.300000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.662E+00 1.270E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5945E+00 0.0000E+00 -6.9009E-02 0.0000E+00 1.6756E+00 5.7860E-02 1 0 4.6198E-01 5.6881E-02 5.6881E-02 8.7221E-01 2 0 3.6337E-02 6.0247E-02 4.0190E-03 -2.5721E-02 3 0 2.4825E-02 -8.1997E-03 -5.6334E-03 -7.1515E-03 4 0 -2.5227E-03 -2.8558E-03 -2.1570E-03 3.9061E-03 5 0 -5.4679E-05 5.1549E-04 1.0718E-03 1.9048E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.07E-01 4.16E-02 5.10E-02 3.87E-03 5.14E-04 1.10E+00 1.676E+00 5.786E-02 3.05860E+01 9.52E-03 1.000 1.27 1.02 100 4.04E-06 1.20E-06 7.34E-07 1.27E-09 1.34E-09 1.10E+00 1.669E+00 5.275E-02 2.82566E+01 1.04E-02 1.000 1.27 1.22 114 8.08E-07 3.18E-07 2.52E-07 1.40E-10 1.23E-09 1.10E+00 1.671E+00 5.443E-02 2.82563E+01 1.04E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.933E-07 d(ln R0)/dt = 6.633E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.93E-02 1.04E-01 2.56E-04 1.53E-08 4.58E-08 1.10E+00 1.671E+00 5.453E-02 2.82549E+01 1.05E-02 1.000 1.27 1.24 100 3.22E-06 9.48E-07 3.64E-08 6.96E-12 2.11E-11 1.10E+00 1.674E+00 5.718E-02 2.87378E+01 1.04E-02 1.008 1.27 1.27 200 6.69E-08 1.87E-08 3.59E-09 2.33E-13 4.41E-13 1.10E+00 1.675E+00 5.737E-02 2.77165E+01 1.08E-02 0.991 1.27 1.27 300 1.76E-08 4.68E-09 4.07E-10 1.32E-14 3.61E-14 1.10E+00 1.676E+00 5.748E-02 2.73385E+01 1.09E-02 0.984 1.27 1.27 400 6.42E-09 1.83E-09 7.47E-11 2.05E-15 3.88E-15 1.10E+00 1.676E+00 5.755E-02 2.71163E+01 1.10E-02 0.980 1.27 1.27 500 2.72E-09 6.79E-10 1.89E-11 5.09E-16 8.88E-16 1.10E+00 1.676E+00 5.758E-02 2.69865E+01 1.10E-02 0.978 1.27 1.27 589 9.74E-10 2.62E-10 4.19E-12 1.12E-16 1.58E-16 1.10E+00 1.676E+00 5.761E-02 2.68858E+01 1.11E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.60E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.250E-05 d(ln R0)/dt = 4.416E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.87 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.171901 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.8672E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.0438E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.295000 TO TG2= 1.300000 @ NSTEP 558 GFRAME TG2 MOMENTS CHECKSUM: 9.0474945536459E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 558 TA= 1.29500E+00 CPU TIME= 3.12305E+00 SECONDS. DT= 1.08753E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.095703125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6067E+00 2.9680E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4669E+20 nbi_getprofiles ne*dVol sum (ions): 4.4669E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17520 - 0 (killed) + 5405 (dep) = 22925 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0078E+00 %ORBALL: In processor 0: orbit # IORB= 1747 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3096 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6965 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6979 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8046 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8883 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8900 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8903 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8905 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8926 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9032 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9222 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9230 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9401 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9426 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9438 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9575 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9800 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9979 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10072 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10134 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10327 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10341 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10459 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10465 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10650 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10728 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10932 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11094 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11186 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11204 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11382 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11424 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22925 SPL= 0 TOT=17409 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 563 TA= 1.30000E+00 CPU TIME= 3.06641E+00 SECONDS. DT= 1.30463E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.300000E+00 NSTEP= 563 Hash code: 86349375 ->PRGCHK: bdy curvature ratio at t= 1.3050E+00 seconds is: 9.1000E-02 % MHDEQ: TG1= 1.300000 ; TG2= 1.305000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.663E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5942E+00 0.0000E+00 -6.8674E-02 0.0000E+00 1.6759E+00 5.7607E-02 1 0 4.6226E-01 5.6842E-02 5.6842E-02 8.7169E-01 2 0 3.6308E-02 6.0048E-02 3.9287E-03 -2.5732E-02 3 0 2.4760E-02 -8.2301E-03 -5.6498E-03 -7.1142E-03 4 0 -2.5377E-03 -2.8764E-03 -2.1532E-03 3.9184E-03 5 0 -6.0035E-05 5.2195E-04 1.0798E-03 1.8989E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.08E-01 4.15E-02 5.11E-02 3.90E-03 5.11E-04 1.10E+00 1.676E+00 5.761E-02 3.06076E+01 9.68E-03 1.000 1.27 1.02 100 4.01E-06 1.21E-06 7.43E-07 1.27E-09 1.27E-09 1.10E+00 1.669E+00 5.270E-02 2.82611E+01 1.06E-02 1.000 1.27 1.23 114 8.05E-07 3.22E-07 2.52E-07 1.43E-10 1.24E-09 1.10E+00 1.670E+00 5.436E-02 2.82608E+01 1.06E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.922E-07 d(ln R0)/dt = 6.545E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.81E-02 1.03E-01 2.52E-04 1.56E-08 4.54E-08 1.10E+00 1.670E+00 5.446E-02 2.82592E+01 1.07E-02 1.000 1.27 1.25 100 3.19E-06 9.48E-07 3.61E-08 6.83E-12 2.06E-11 1.10E+00 1.674E+00 5.712E-02 2.86574E+01 1.06E-02 1.007 1.27 1.27 200 6.60E-08 1.85E-08 3.52E-09 2.29E-13 4.37E-13 1.10E+00 1.675E+00 5.731E-02 2.76478E+01 1.10E-02 0.989 1.27 1.27 300 1.74E-08 4.64E-09 4.02E-10 1.31E-14 3.57E-14 1.10E+00 1.675E+00 5.743E-02 2.72729E+01 1.11E-02 0.983 1.27 1.27 400 6.24E-09 1.79E-09 7.20E-11 1.96E-15 3.67E-15 1.10E+00 1.676E+00 5.749E-02 2.70486E+01 1.12E-02 0.979 1.27 1.27 500 2.64E-09 6.58E-10 1.79E-11 4.74E-16 8.11E-16 1.10E+00 1.676E+00 5.752E-02 2.69205E+01 1.13E-02 0.976 1.27 1.27 584 9.96E-10 2.61E-10 4.39E-12 1.23E-16 1.73E-16 1.10E+00 1.676E+00 5.755E-02 2.68277E+01 1.13E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.03E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.242E-05 d(ln R0)/dt = 4.436E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.68 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.172426 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.0215E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1000E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.300000 TO TG2= 1.305000 @ NSTEP 563 GFRAME TG2 MOMENTS CHECKSUM: 9.0470975615215E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 563 TA= 1.30000E+00 CPU TIME= 3.05469E+00 SECONDS. DT= 1.30463E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 564 TA= 1.30033E+00 CPU TIME= 2.82129E+00 SECONDS. DT= 4.16305E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 570 TA= 1.30263E+00 CPU TIME= 2.64746E+00 SECONDS. DT= 4.36189E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.54143E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.57123E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.09287E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.57123E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.09287E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 3.30587E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.16532E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 3.30587E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.16532E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.305000E+00 NSTEP= 576 Hash code: 23294005 ->PRGCHK: bdy curvature ratio at t= 1.3100E+00 seconds is: 9.1504E-02 % MHDEQ: TG1= 1.305000 ; TG2= 1.310000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.663E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5940E+00 0.0000E+00 -6.8338E-02 0.0000E+00 1.6758E+00 5.7549E-02 1 0 4.6253E-01 5.6803E-02 5.6803E-02 8.7118E-01 2 0 3.6280E-02 5.9849E-02 3.8385E-03 -2.5744E-02 3 0 2.4696E-02 -8.2605E-03 -5.6662E-03 -7.0769E-03 4 0 -2.5527E-03 -2.8969E-03 -2.1493E-03 3.9308E-03 5 0 -6.5392E-05 5.2840E-04 1.0878E-03 1.8930E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.09E-01 4.15E-02 5.10E-02 3.91E-03 5.09E-04 1.10E+00 1.676E+00 5.755E-02 3.06250E+01 9.60E-03 1.000 1.27 1.02 100 4.11E-06 1.24E-06 7.55E-07 1.27E-09 1.25E-09 1.10E+00 1.669E+00 5.274E-02 2.82718E+01 1.05E-02 1.000 1.27 1.23 114 8.29E-07 3.38E-07 2.53E-07 1.45E-10 1.26E-09 1.10E+00 1.671E+00 5.441E-02 2.82715E+01 1.05E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.927E-07 d(ln R0)/dt = 6.566E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.68E-02 1.01E-01 2.49E-04 1.55E-08 4.53E-08 1.10E+00 1.671E+00 5.451E-02 2.82698E+01 1.06E-02 1.000 1.27 1.25 100 3.19E-06 9.34E-07 3.55E-08 6.58E-12 2.01E-11 1.10E+00 1.674E+00 5.717E-02 2.86824E+01 1.05E-02 1.007 1.27 1.27 200 6.48E-08 1.82E-08 3.44E-09 2.22E-13 4.30E-13 1.10E+00 1.675E+00 5.737E-02 2.76871E+01 1.09E-02 0.990 1.27 1.27 300 1.70E-08 4.52E-09 3.90E-10 1.29E-14 3.49E-14 1.10E+00 1.676E+00 5.748E-02 2.73165E+01 1.10E-02 0.983 1.27 1.27 400 6.01E-09 1.71E-09 6.85E-11 1.82E-15 3.39E-15 1.10E+00 1.676E+00 5.755E-02 2.70897E+01 1.11E-02 0.979 1.27 1.27 500 2.53E-09 6.36E-10 1.69E-11 4.44E-16 7.42E-16 1.10E+00 1.676E+00 5.759E-02 2.69658E+01 1.12E-02 0.977 1.27 1.27 582 9.97E-10 2.60E-10 4.34E-12 1.30E-16 1.80E-16 1.10E+00 1.676E+00 5.761E-02 2.68802E+01 1.12E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.94E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.171E-05 d(ln R0)/dt = 4.442E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.182634 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9531E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1504E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.305000 TO TG2= 1.310000 @ NSTEP 576 GFRAME TG2 MOMENTS CHECKSUM: 9.0473459147290E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 576 TA= 1.30500E+00 CPU TIME= 2.95508E+00 SECONDS. DT= 5.62570E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 577 TA= 1.30537E+00 CPU TIME= 2.73437E+00 SECONDS. DT= 4.60022E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 583 TA= 1.30791E+00 CPU TIME= 2.73145E+00 SECONDS. DT= 4.81935E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6071E+00 2.9705E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3820E+20 nbi_getprofiles ne*dVol sum (ions): 4.3820E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17409 - 0 (killed) + 5286 (dep) = 22695 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3640 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4188 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6776 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6861 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8003 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8115 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8707 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8783 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8835 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8897 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8923 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9075 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9104 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9148 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9200 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9232 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9296 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9504 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9572 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9582 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9647 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9660 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9947 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9973 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10032 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10143 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10235 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10565 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10566 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10635 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10657 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10700 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10802 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10991 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11100 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11121 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11251 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11290 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11306 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22695 SPL= 0 TOT=17237 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 588 TA= 1.31000E+00 CPU TIME= 2.48145E+00 SECONDS. DT= 4.13344E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.310000E+00 NSTEP= 588 Hash code: 116621451 ->PRGCHK: bdy curvature ratio at t= 1.3150E+00 seconds is: 9.1995E-02 % MHDEQ: TG1= 1.310000 ; TG2= 1.315000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.666E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5937E+00 0.0000E+00 -6.8003E-02 0.0000E+00 1.6761E+00 5.7607E-02 1 0 4.6281E-01 5.6764E-02 5.6764E-02 8.7067E-01 2 0 3.6252E-02 5.9649E-02 3.7482E-03 -2.5756E-02 3 0 2.4631E-02 -8.2909E-03 -5.6826E-03 -7.0396E-03 4 0 -2.5677E-03 -2.9175E-03 -2.1455E-03 3.9432E-03 5 0 -7.0748E-05 5.3485E-04 1.0958E-03 1.8870E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.10E-01 4.18E-02 5.12E-02 3.94E-03 5.08E-04 1.10E+00 1.676E+00 5.761E-02 3.06956E+01 9.50E-03 1.000 1.27 1.02 100 4.54E-06 1.40E-06 8.21E-07 1.36E-09 1.18E-09 1.10E+00 1.669E+00 5.285E-02 2.83192E+01 1.04E-02 1.000 1.27 1.23 114 9.27E-07 4.08E-07 2.66E-07 1.66E-10 1.33E-09 1.10E+00 1.671E+00 5.453E-02 2.83190E+01 1.04E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.982E-07 d(ln R0)/dt = 6.555E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.59E-02 1.01E-01 2.47E-04 1.54E-08 4.52E-08 1.10E+00 1.671E+00 5.463E-02 2.83171E+01 1.05E-02 1.000 1.27 1.25 100 3.21E-06 9.28E-07 3.55E-08 6.35E-12 1.96E-11 1.10E+00 1.675E+00 5.722E-02 2.86263E+01 1.04E-02 1.005 1.27 1.27 200 6.35E-08 1.80E-08 3.37E-09 2.17E-13 4.24E-13 1.10E+00 1.676E+00 5.743E-02 2.76465E+01 1.08E-02 0.988 1.27 1.27 300 1.67E-08 4.43E-09 3.81E-10 1.28E-14 3.43E-14 1.10E+00 1.676E+00 5.755E-02 2.72820E+01 1.10E-02 0.982 1.27 1.27 400 5.80E-09 1.64E-09 6.54E-11 1.72E-15 3.18E-15 1.10E+00 1.676E+00 5.762E-02 2.70540E+01 1.11E-02 0.978 1.27 1.27 500 2.42E-09 6.11E-10 1.59E-11 4.15E-16 6.71E-16 1.10E+00 1.676E+00 5.766E-02 2.69328E+01 1.11E-02 0.976 1.27 1.27 577 9.94E-10 2.68E-10 4.74E-12 1.49E-16 2.17E-16 1.10E+00 1.677E+00 5.768E-02 2.68568E+01 1.11E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.34E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.176E-05 d(ln R0)/dt = 4.565E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.193268 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6426E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.1995E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.310000 TO TG2= 1.315000 @ NSTEP 588 GFRAME TG2 MOMENTS CHECKSUM: 9.0482651854363E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 588 TA= 1.31000E+00 CPU TIME= 2.49121E+00 SECONDS. DT= 4.13344E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 589 TA= 1.31041E+00 CPU TIME= 2.89648E+00 SECONDS. DT= 5.16680E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 596 TA= 1.31431E+00 CPU TIME= 2.99512E+00 SECONDS. DT= 6.72805E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.46922E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.20063E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.46922E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.20063E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.10192E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.25696E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.10192E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.25696E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.315000E+00 NSTEP= 598 Hash code: 9890854 ->PRGCHK: bdy curvature ratio at t= 1.3200E+00 seconds is: 9.2489E-02 % MHDEQ: TG1= 1.315000 ; TG2= 1.320000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.668E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5935E+00 0.0000E+00 -6.7668E-02 0.0000E+00 1.6765E+00 5.7678E-02 1 0 4.6309E-01 5.6725E-02 5.6725E-02 8.7015E-01 2 0 3.6224E-02 5.9450E-02 3.6580E-03 -2.5768E-02 3 0 2.4566E-02 -8.3213E-03 -5.6990E-03 -7.0024E-03 4 0 -2.5826E-03 -2.9380E-03 -2.1416E-03 3.9555E-03 5 0 -7.6105E-05 5.4130E-04 1.1038E-03 1.8811E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.12E-01 4.20E-02 5.14E-02 3.97E-03 5.08E-04 1.10E+00 1.677E+00 5.768E-02 3.07635E+01 9.49E-03 1.000 1.27 1.02 100 4.69E-06 1.50E-06 8.62E-07 1.53E-09 1.11E-09 1.10E+00 1.669E+00 5.273E-02 2.83629E+01 1.04E-02 1.000 1.27 1.23 114 9.43E-07 4.33E-07 2.69E-07 1.69E-10 1.33E-09 1.10E+00 1.671E+00 5.438E-02 2.83626E+01 1.04E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.11E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.935E-07 d(ln R0)/dt = 6.463E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.39E-02 9.92E-02 2.45E-04 1.51E-08 4.48E-08 1.10E+00 1.671E+00 5.448E-02 2.83607E+01 1.05E-02 1.000 1.27 1.25 100 3.20E-06 9.40E-07 3.55E-08 6.50E-12 1.99E-11 1.10E+00 1.675E+00 5.712E-02 2.85946E+01 1.05E-02 1.004 1.27 1.27 200 6.37E-08 1.78E-08 3.36E-09 2.19E-13 4.22E-13 1.10E+00 1.676E+00 5.734E-02 2.76140E+01 1.08E-02 0.987 1.27 1.27 300 1.67E-08 4.41E-09 3.79E-10 1.27E-14 3.36E-14 1.10E+00 1.676E+00 5.746E-02 2.72477E+01 1.10E-02 0.980 1.27 1.27 400 5.73E-09 1.61E-09 6.36E-11 1.66E-15 3.05E-15 1.10E+00 1.676E+00 5.753E-02 2.70180E+01 1.11E-02 0.976 1.27 1.27 500 2.37E-09 5.99E-10 1.54E-11 3.98E-16 6.36E-16 1.10E+00 1.676E+00 5.756E-02 2.68987E+01 1.11E-02 0.974 1.27 1.27 576 9.92E-10 2.66E-10 4.72E-12 1.58E-16 2.08E-16 1.10E+00 1.676E+00 5.758E-02 2.68259E+01 1.12E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.94E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.174E-05 d(ln R0)/dt = 4.579E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.01 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.203549 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9727E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2489E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.315000 TO TG2= 1.320000 @ NSTEP 598 GFRAME TG2 MOMENTS CHECKSUM: 9.0472823237619E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 598 TA= 1.31500E+00 CPU TIME= 3.02344E+00 SECONDS. DT= 6.67334E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 599 TA= 1.31553E+00 CPU TIME= 3.13477E+00 SECONDS. DT= 6.59702E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 606 TA= 1.31910E+00 CPU TIME= 2.95215E+00 SECONDS. DT= 6.22992E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0888671875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6092E+00 2.9761E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 174.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 174.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3408E+20 nbi_getprofiles ne*dVol sum (ions): 4.3408E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17237 - 0 (killed) + 5209 (dep) = 22446 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0004E+00 %ORBALL: In processor 0: orbit # IORB= 5526 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0083E+00 %ORBALL: In processor 0: orbit # IORB= 7071 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0022E+00 %ORBALL: In processor 0: orbit # IORB= 7767 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8665 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8755 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8763 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8778 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8846 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8912 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8978 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8982 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9005 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9009 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0008E+00 %ORBALL: In processor 0: orbit # IORB= 9448 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9603 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9683 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9719 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9730 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9925 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9996 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10065 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10085 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10203 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10344 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10414 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10458 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10891 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10971 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10991 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11107 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11176 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11211 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22446 SPL= 0 TOT=17148 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 608 TA= 1.32000E+00 CPU TIME= 2.42480E+00 SECONDS. DT= 5.02502E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.320000E+00 NSTEP= 608 Hash code: 20544334 ->PRGCHK: bdy curvature ratio at t= 1.3250E+00 seconds is: 9.2988E-02 % MHDEQ: TG1= 1.320000 ; TG2= 1.325000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.669E+00 1.270E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5932E+00 0.0000E+00 -6.7333E-02 0.0000E+00 1.6764E+00 5.7583E-02 1 0 4.6336E-01 5.6685E-02 5.6685E-02 8.6964E-01 2 0 3.6195E-02 5.9251E-02 3.5677E-03 -2.5779E-02 3 0 2.4502E-02 -8.3517E-03 -5.7155E-03 -6.9651E-03 4 0 -2.5976E-03 -2.9586E-03 -2.1378E-03 3.9679E-03 5 0 -8.1462E-05 5.4776E-04 1.1118E-03 1.8752E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.12E-01 4.19E-02 5.14E-02 3.98E-03 5.06E-04 1.10E+00 1.676E+00 5.758E-02 3.07736E+01 9.49E-03 1.000 1.27 1.02 100 4.61E-06 1.51E-06 8.70E-07 1.52E-09 1.09E-09 1.10E+00 1.669E+00 5.261E-02 2.83675E+01 1.04E-02 1.000 1.27 1.23 114 9.30E-07 4.26E-07 2.67E-07 1.68E-10 1.33E-09 1.10E+00 1.671E+00 5.426E-02 2.83673E+01 1.04E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.888E-07 d(ln R0)/dt = 6.431E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.29E-02 9.86E-02 2.43E-04 1.47E-08 4.43E-08 1.10E+00 1.671E+00 5.436E-02 2.83654E+01 1.05E-02 1.000 1.27 1.25 100 3.14E-06 9.40E-07 3.52E-08 6.61E-12 1.99E-11 1.10E+00 1.675E+00 5.703E-02 2.85118E+01 1.05E-02 1.003 1.27 1.27 200 6.37E-08 1.77E-08 3.32E-09 2.19E-13 4.16E-13 1.10E+00 1.676E+00 5.726E-02 2.75294E+01 1.09E-02 0.985 1.27 1.27 300 1.67E-08 4.39E-09 3.74E-10 1.25E-14 3.26E-14 1.10E+00 1.676E+00 5.739E-02 2.71609E+01 1.10E-02 0.979 1.27 1.27 400 5.69E-09 1.60E-09 6.20E-11 1.61E-15 2.93E-15 1.10E+00 1.676E+00 5.745E-02 2.69301E+01 1.11E-02 0.975 1.27 1.27 500 2.36E-09 5.98E-10 1.53E-11 3.87E-16 6.14E-16 1.10E+00 1.676E+00 5.749E-02 2.68132E+01 1.12E-02 0.973 1.27 1.27 576 9.89E-10 2.67E-10 4.75E-12 1.63E-16 2.13E-16 1.10E+00 1.676E+00 5.751E-02 2.67421E+01 1.12E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.26E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.207E-05 d(ln R0)/dt = 4.660E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.213661 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5645E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2988E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.320000 TO TG2= 1.325000 @ NSTEP 608 GFRAME TG2 MOMENTS CHECKSUM: 9.0465847281449E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -5.50857E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.28275E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -5.50857E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.28275E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.46895E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.33922E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.46895E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.33922E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.325000E+00 NSTEP= 614 Hash code: 40754131 ->PRGCHK: bdy curvature ratio at t= 1.3300E+00 seconds is: 9.3491E-02 % MHDEQ: TG1= 1.325000 ; TG2= 1.330000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.669E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5930E+00 0.0000E+00 -6.6998E-02 0.0000E+00 1.6764E+00 5.7509E-02 1 0 4.6364E-01 5.6646E-02 5.6646E-02 8.6913E-01 2 0 3.6167E-02 5.9052E-02 3.4775E-03 -2.5791E-02 3 0 2.4437E-02 -8.3821E-03 -5.7319E-03 -6.9278E-03 4 0 -2.6126E-03 -2.9792E-03 -2.1339E-03 3.9802E-03 5 0 -8.6818E-05 5.5421E-04 1.1197E-03 1.8692E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.13E-01 4.18E-02 5.14E-02 3.99E-03 5.05E-04 1.10E+00 1.676E+00 5.751E-02 3.07882E+01 9.37E-03 1.000 1.27 1.02 100 4.58E-06 1.56E-06 8.82E-07 1.53E-09 1.06E-09 1.10E+00 1.669E+00 5.246E-02 2.83749E+01 1.03E-02 1.000 1.27 1.23 114 9.32E-07 4.36E-07 2.67E-07 1.70E-10 1.35E-09 1.10E+00 1.671E+00 5.414E-02 2.83746E+01 1.03E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.06E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.834E-07 d(ln R0)/dt = 6.411E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.28E-02 9.79E-02 2.43E-04 1.43E-08 4.36E-08 1.10E+00 1.671E+00 5.424E-02 2.83727E+01 1.04E-02 1.000 1.27 1.25 100 2.99E-06 8.96E-07 3.43E-08 6.71E-12 2.02E-11 1.10E+00 1.675E+00 5.692E-02 2.84955E+01 1.04E-02 1.002 1.27 1.27 200 6.39E-08 1.75E-08 3.32E-09 2.19E-13 4.16E-13 1.10E+00 1.676E+00 5.718E-02 2.75024E+01 1.08E-02 0.985 1.27 1.27 300 1.69E-08 4.41E-09 3.72E-10 1.24E-14 3.20E-14 1.10E+00 1.676E+00 5.730E-02 2.71302E+01 1.09E-02 0.978 1.27 1.27 400 5.73E-09 1.59E-09 6.09E-11 1.55E-15 2.83E-15 1.10E+00 1.676E+00 5.737E-02 2.68968E+01 1.10E-02 0.974 1.27 1.27 500 2.37E-09 6.02E-10 1.53E-11 3.82E-16 6.03E-16 1.10E+00 1.676E+00 5.741E-02 2.67829E+01 1.11E-02 0.972 1.27 1.27 576 9.91E-10 2.68E-10 4.80E-12 1.67E-16 2.18E-16 1.10E+00 1.676E+00 5.743E-02 2.67122E+01 1.11E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.27E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.228E-05 d(ln R0)/dt = 4.751E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.203580 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5254E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3491E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.325000 TO TG2= 1.330000 @ NSTEP 614 GFRAME TG2 MOMENTS CHECKSUM: 9.0452209051330E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 614 TA= 1.32500E+00 CPU TIME= 2.40723E+00 SECONDS. DT= 1.22192E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1044921875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6096E+00 2.9783E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2409E+20 nbi_getprofiles ne*dVol sum (ions): 4.2409E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17148 - 0 (killed) + 5097 (dep) = 22245 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6383 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7461 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7482 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8489 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8722 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8806 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8857 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9003 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9271 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9292 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9331 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9475 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9606 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9648 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9663 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9755 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9761 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9768 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9816 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9845 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9863 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10023 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10125 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10174 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10621 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10654 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10680 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10733 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10831 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10867 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11138 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 11168 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22245 SPL= 0 TOT=17052 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 620 TA= 1.33000E+00 CPU TIME= 2.76953E+00 SECONDS. DT= 3.50324E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.330000E+00 NSTEP= 620 Hash code: 99744713 ->PRGCHK: bdy curvature ratio at t= 1.3350E+00 seconds is: 9.3997E-02 % MHDEQ: TG1= 1.330000 ; TG2= 1.335000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5927E+00 0.0000E+00 -6.6663E-02 0.0000E+00 1.6764E+00 5.7428E-02 1 0 4.6392E-01 5.6607E-02 5.6607E-02 8.6862E-01 2 0 3.6139E-02 5.8853E-02 3.3872E-03 -2.5803E-02 3 0 2.4373E-02 -8.4125E-03 -5.7483E-03 -6.8905E-03 4 0 -2.6276E-03 -2.9997E-03 -2.1301E-03 3.9926E-03 5 0 -9.2175E-05 5.6066E-04 1.1277E-03 1.8633E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.13E-01 4.19E-02 5.14E-02 4.01E-03 5.03E-04 1.10E+00 1.676E+00 5.743E-02 3.08117E+01 9.26E-03 1.000 1.27 1.02 100 4.39E-06 1.58E-06 8.78E-07 1.55E-09 1.02E-09 1.10E+00 1.669E+00 5.228E-02 2.83869E+01 1.02E-02 1.000 1.27 1.23 114 9.13E-07 4.39E-07 2.65E-07 1.69E-10 1.37E-09 1.10E+00 1.671E+00 5.398E-02 2.83866E+01 1.02E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.798E-07 d(ln R0)/dt = 6.387E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.26E-02 9.69E-02 2.42E-04 1.41E-08 4.31E-08 1.10E+00 1.671E+00 5.408E-02 2.83847E+01 1.03E-02 1.000 1.27 1.25 100 2.85E-06 8.56E-07 3.34E-08 6.85E-12 2.07E-11 1.10E+00 1.675E+00 5.680E-02 2.85899E+01 1.02E-02 1.004 1.27 1.27 200 6.44E-08 1.75E-08 3.34E-09 2.20E-13 4.20E-13 1.10E+00 1.676E+00 5.707E-02 2.75814E+01 1.06E-02 0.986 1.27 1.27 300 1.71E-08 4.44E-09 3.74E-10 1.25E-14 3.16E-14 1.10E+00 1.676E+00 5.720E-02 2.72042E+01 1.08E-02 0.979 1.27 1.27 400 5.79E-09 1.58E-09 6.07E-11 1.54E-15 2.80E-15 1.10E+00 1.676E+00 5.727E-02 2.69696E+01 1.09E-02 0.975 1.27 1.27 500 2.38E-09 6.04E-10 1.54E-11 3.80E-16 6.00E-16 1.10E+00 1.676E+00 5.730E-02 2.68557E+01 1.09E-02 0.973 1.27 1.27 576 9.88E-10 2.67E-10 4.79E-12 1.65E-16 2.14E-16 1.10E+00 1.676E+00 5.732E-02 2.67842E+01 1.09E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.92E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.250E-05 d(ln R0)/dt = 4.831E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.193680 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9336E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3997E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.330000 TO TG2= 1.335000 @ NSTEP 620 GFRAME TG2 MOMENTS CHECKSUM: 9.0430686198473E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 620 TA= 1.33000E+00 CPU TIME= 2.75391E+00 SECONDS. DT= 3.50324E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 621 TA= 1.33035E+00 CPU TIME= 2.73730E+00 SECONDS. DT= 4.37906E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 627 TA= 1.33324E+00 CPU TIME= 2.85840E+00 SECONDS. DT= 6.89620E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 6.42766E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.45287E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.42766E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.45287E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 5.69307E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.51550E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 5.69307E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.51550E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.335000E+00 NSTEP= 631 Hash code: 40610448 ->PRGCHK: bdy curvature ratio at t= 1.3400E+00 seconds is: 9.4508E-02 % MHDEQ: TG1= 1.335000 ; TG2= 1.340000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.671E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5925E+00 0.0000E+00 -6.6327E-02 0.0000E+00 1.6764E+00 5.7324E-02 1 0 4.6420E-01 5.6568E-02 5.6568E-02 8.6810E-01 2 0 3.6110E-02 5.8653E-02 3.2969E-03 -2.5814E-02 3 0 2.4308E-02 -8.4429E-03 -5.7647E-03 -6.8533E-03 4 0 -2.6426E-03 -3.0203E-03 -2.1262E-03 4.0050E-03 5 0 -9.7531E-05 5.6711E-04 1.1357E-03 1.8574E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.14E-01 4.18E-02 5.14E-02 4.03E-03 5.01E-04 1.10E+00 1.676E+00 5.732E-02 3.08283E+01 9.30E-03 1.000 1.27 1.02 100 4.20E-06 1.61E-06 8.73E-07 1.57E-09 9.92E-10 1.10E+00 1.669E+00 5.209E-02 2.83945E+01 1.02E-02 1.000 1.27 1.23 114 8.90E-07 4.35E-07 2.61E-07 1.66E-10 1.39E-09 1.10E+00 1.671E+00 5.382E-02 2.83942E+01 1.02E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.30E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.771E-07 d(ln R0)/dt = 6.395E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.19E-02 9.56E-02 2.40E-04 1.42E-08 4.31E-08 1.10E+00 1.671E+00 5.392E-02 2.83922E+01 1.03E-02 1.000 1.27 1.25 100 2.75E-06 8.29E-07 3.25E-08 6.90E-12 2.10E-11 1.10E+00 1.675E+00 5.667E-02 2.86628E+01 1.03E-02 1.005 1.27 1.27 200 6.48E-08 1.74E-08 3.33E-09 2.18E-13 4.20E-13 1.10E+00 1.676E+00 5.696E-02 2.76502E+01 1.06E-02 0.987 1.27 1.27 300 1.71E-08 4.42E-09 3.74E-10 1.28E-14 3.15E-14 1.10E+00 1.676E+00 5.708E-02 2.72737E+01 1.08E-02 0.980 1.27 1.27 400 5.81E-09 1.55E-09 6.05E-11 1.55E-15 2.81E-15 1.10E+00 1.676E+00 5.715E-02 2.70414E+01 1.09E-02 0.976 1.27 1.27 500 2.34E-09 5.97E-10 1.54E-11 3.83E-16 6.03E-16 1.10E+00 1.676E+00 5.719E-02 2.69262E+01 1.09E-02 0.974 1.27 1.27 575 9.77E-10 2.63E-10 4.71E-12 1.62E-16 2.02E-16 1.10E+00 1.676E+00 5.721E-02 2.68542E+01 1.09E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.99E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.250E-05 d(ln R0)/dt = 4.853E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.68 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.204674 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.0020E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4508E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.335000 TO TG2= 1.340000 @ NSTEP 631 GFRAME TG2 MOMENTS CHECKSUM: 9.0408832309941E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 631 TA= 1.33500E+00 CPU TIME= 2.70020E+00 SECONDS. DT= 7.09603E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 632 TA= 1.33552E+00 CPU TIME= 2.60937E+00 SECONDS. DT= 6.54016E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 638 TA= 1.33875E+00 CPU TIME= 2.76465E+00 SECONDS. DT= 6.88564E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0927734375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6096E+00 2.9808E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2950E+20 nbi_getprofiles ne*dVol sum (ions): 4.2950E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 17052 - 0 (killed) + 5052 (dep) = 22104 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3419 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5111 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5243 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5428 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5824 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6452 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6687 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7261 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7861 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8478 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8487 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8492 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8620 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8661 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8666 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8702 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8709 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9046 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9071 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9106 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9112 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9206 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9294 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9338 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9339 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9347 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9428 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9565 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9637 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9772 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 9976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10033 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10144 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10282 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0038E+00 %ORBALL: In processor 0: orbit # IORB= 10312 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10434 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10502 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10547 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10670 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10679 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10749 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10780 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10816 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10866 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10932 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10976 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=22104 SPL= 0 TOT=16975 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 641 TA= 1.34000E+00 CPU TIME= 2.93945E+00 SECONDS. DT= 1.64233E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.340000E+00 NSTEP= 641 Hash code: 92371186 ->PRGCHK: bdy curvature ratio at t= 1.3450E+00 seconds is: 9.5022E-02 % MHDEQ: TG1= 1.340000 ; TG2= 1.345000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5922E+00 0.0000E+00 -6.5992E-02 0.0000E+00 1.6763E+00 5.7209E-02 1 0 4.6447E-01 5.6529E-02 5.6529E-02 8.6759E-01 2 0 3.6082E-02 5.8454E-02 3.2067E-03 -2.5826E-02 3 0 2.4243E-02 -8.4733E-03 -5.7811E-03 -6.8160E-03 4 0 -2.6576E-03 -3.0408E-03 -2.1224E-03 4.0173E-03 5 0 -1.0289E-04 5.7357E-04 1.1437E-03 1.8515E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.14E-01 4.17E-02 5.14E-02 4.04E-03 4.99E-04 1.10E+00 1.676E+00 5.721E-02 3.08128E+01 9.35E-03 1.000 1.27 1.02 100 4.04E-06 1.62E-06 8.63E-07 1.55E-09 9.73E-10 1.10E+00 1.669E+00 5.190E-02 2.83753E+01 1.03E-02 1.000 1.27 1.23 114 8.68E-07 4.26E-07 2.58E-07 1.62E-10 1.40E-09 1.10E+00 1.671E+00 5.365E-02 2.83751E+01 1.03E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.79E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.785E-07 d(ln R0)/dt = 6.438E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 8.07E-02 9.43E-02 2.37E-04 1.42E-08 4.31E-08 1.10E+00 1.671E+00 5.376E-02 2.83730E+01 1.04E-02 1.000 1.27 1.25 100 2.66E-06 8.05E-07 3.17E-08 6.90E-12 2.13E-11 1.10E+00 1.674E+00 5.657E-02 2.86453E+01 1.03E-02 1.005 1.27 1.27 200 6.47E-08 1.71E-08 3.30E-09 2.15E-13 4.17E-13 1.10E+00 1.676E+00 5.687E-02 2.76379E+01 1.07E-02 0.987 1.27 1.27 300 1.69E-08 4.35E-09 3.68E-10 1.28E-14 3.09E-14 1.10E+00 1.676E+00 5.700E-02 2.72641E+01 1.08E-02 0.981 1.27 1.27 400 5.75E-09 1.51E-09 6.03E-11 1.58E-15 2.86E-15 1.10E+00 1.676E+00 5.706E-02 2.70388E+01 1.09E-02 0.977 1.27 1.27 500 2.28E-09 5.84E-10 1.53E-11 3.91E-16 6.19E-16 1.10E+00 1.676E+00 5.710E-02 2.69228E+01 1.10E-02 0.974 1.27 1.27 574 9.67E-10 2.53E-10 4.57E-12 1.50E-16 1.89E-16 1.10E+00 1.676E+00 5.712E-02 2.68500E+01 1.10E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.46E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.253E-05 d(ln R0)/dt = 4.893E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.73 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.215550 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.5391E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5022E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.340000 TO TG2= 1.345000 @ NSTEP 641 GFRAME TG2 MOMENTS CHECKSUM: 9.0392381543805E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -3.30504E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.50836E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -3.30504E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.50836E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.345000E+00 NSTEP= 651 Hash code: 80765242 ->PRGCHK: bdy curvature ratio at t= 1.3500E+00 seconds is: 9.5541E-02 % MHDEQ: TG1= 1.345000 ; TG2= 1.350000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5920E+00 0.0000E+00 -6.5657E-02 0.0000E+00 1.6763E+00 5.7119E-02 1 0 4.6475E-01 5.6489E-02 5.6489E-02 8.6708E-01 2 0 3.6054E-02 5.8255E-02 3.1164E-03 -2.5838E-02 3 0 2.4179E-02 -8.5037E-03 -5.7976E-03 -6.7787E-03 4 0 -2.6725E-03 -3.0614E-03 -2.1185E-03 4.0297E-03 5 0 -1.0824E-04 5.8002E-04 1.1517E-03 1.8455E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.15E-01 4.17E-02 5.14E-02 4.06E-03 4.98E-04 1.10E+00 1.676E+00 5.712E-02 3.07981E+01 9.43E-03 1.000 1.27 1.02 100 3.89E-06 1.62E-06 8.61E-07 1.55E-09 9.50E-10 1.10E+00 1.669E+00 5.165E-02 2.83547E+01 1.04E-02 1.000 1.27 1.23 114 8.37E-07 4.08E-07 2.55E-07 1.57E-10 1.40E-09 1.10E+00 1.670E+00 5.339E-02 2.83545E+01 1.04E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.757E-07 d(ln R0)/dt = 6.361E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.91E-02 9.32E-02 2.34E-04 1.41E-08 4.28E-08 1.10E+00 1.671E+00 5.349E-02 2.83523E+01 1.05E-02 1.000 1.27 1.25 100 2.51E-06 7.79E-07 3.09E-08 6.96E-12 2.15E-11 1.10E+00 1.674E+00 5.638E-02 2.85955E+01 1.04E-02 1.004 1.27 1.27 200 6.45E-08 1.68E-08 3.26E-09 2.12E-13 4.09E-13 1.10E+00 1.675E+00 5.669E-02 2.75897E+01 1.08E-02 0.987 1.27 1.27 300 1.65E-08 4.26E-09 3.57E-10 1.24E-14 2.97E-14 1.10E+00 1.676E+00 5.682E-02 2.72164E+01 1.09E-02 0.980 1.27 1.27 400 5.68E-09 1.48E-09 6.04E-11 1.60E-15 2.92E-15 1.10E+00 1.676E+00 5.688E-02 2.70001E+01 1.10E-02 0.976 1.27 1.27 500 2.22E-09 5.73E-10 1.53E-11 3.99E-16 6.39E-16 1.10E+00 1.676E+00 5.692E-02 2.68832E+01 1.11E-02 0.974 1.27 1.27 569 1.00E-09 2.61E-10 4.82E-12 1.55E-16 1.95E-16 1.10E+00 1.676E+00 5.693E-02 2.68136E+01 1.11E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.86E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.354E-05 d(ln R0)/dt = 5.022E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.205715 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8555E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5541E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.345000 TO TG2= 1.350000 @ NSTEP 651 GFRAME TG2 MOMENTS CHECKSUM: 9.0367316212296E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 651 TA= 1.34500E+00 CPU TIME= 2.99219E+00 SECONDS. DT= 1.22363E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6081E+00 2.9800E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3809E+20 nbi_getprofiles ne*dVol sum (ions): 4.3809E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16975 - 0 (killed) + 4970 (dep) = 21945 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3889 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0006E+00 %ORBALL: In processor 0: orbit # IORB= 7185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8408 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8522 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8637 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8699 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8817 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8901 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9298 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9300 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9342 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9499 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9562 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9625 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9663 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9704 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9897 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10027 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10031 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10047 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10128 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10190 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10285 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10301 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10318 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10333 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10392 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10396 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10416 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10539 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10562 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10820 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10856 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10957 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21945 SPL= 0 TOT=16694 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 657 TA= 1.35000E+00 CPU TIME= 3.04492E+00 SECONDS. DT= 5.03996E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.350000E+00 NSTEP= 657 Hash code: 86680783 ->PRGCHK: bdy curvature ratio at t= 1.3550E+00 seconds is: 9.6063E-02 % MHDEQ: TG1= 1.350000 ; TG2= 1.355000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5917E+00 0.0000E+00 -6.5322E-02 0.0000E+00 1.6759E+00 5.6935E-02 1 0 4.6503E-01 5.6450E-02 5.6450E-02 8.6656E-01 2 0 3.6026E-02 5.8056E-02 3.0262E-03 -2.5850E-02 3 0 2.4114E-02 -8.5341E-03 -5.8140E-03 -6.7414E-03 4 0 -2.6875E-03 -3.0820E-03 -2.1147E-03 4.0421E-03 5 0 -1.1360E-04 5.8647E-04 1.1597E-03 1.8396E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.14E-01 4.14E-02 5.12E-02 4.06E-03 4.95E-04 1.10E+00 1.676E+00 5.694E-02 3.07985E+01 9.51E-03 1.000 1.27 1.02 100 3.99E-06 1.71E-06 8.89E-07 1.53E-09 9.85E-10 1.10E+00 1.668E+00 5.141E-02 2.83586E+01 1.05E-02 1.000 1.27 1.23 114 8.39E-07 4.14E-07 2.57E-07 1.61E-10 1.41E-09 1.10E+00 1.670E+00 5.322E-02 2.83584E+01 1.05E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.771E-07 d(ln R0)/dt = 6.514E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.84E-02 9.36E-02 2.33E-04 1.38E-08 4.25E-08 1.10E+00 1.670E+00 5.333E-02 2.83562E+01 1.06E-02 1.000 1.27 1.25 100 2.35E-06 7.49E-07 2.99E-08 6.97E-12 2.14E-11 1.10E+00 1.674E+00 5.616E-02 2.86353E+01 1.05E-02 1.005 1.27 1.27 200 6.39E-08 1.65E-08 3.19E-09 2.06E-13 3.97E-13 1.10E+00 1.675E+00 5.649E-02 2.76322E+01 1.09E-02 0.987 1.27 1.27 300 1.60E-08 4.15E-09 3.44E-10 1.20E-14 2.85E-14 1.10E+00 1.675E+00 5.661E-02 2.72605E+01 1.10E-02 0.981 1.27 1.27 400 5.59E-09 1.44E-09 6.01E-11 1.62E-15 2.98E-15 1.10E+00 1.675E+00 5.668E-02 2.70521E+01 1.11E-02 0.977 1.27 1.27 500 2.15E-09 5.58E-10 1.51E-11 3.97E-16 6.46E-16 1.10E+00 1.675E+00 5.671E-02 2.69337E+01 1.11E-02 0.975 1.27 1.27 568 9.84E-10 2.55E-10 4.74E-12 1.54E-16 1.94E-16 1.10E+00 1.675E+00 5.673E-02 2.68641E+01 1.12E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.88E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.357E-05 d(ln R0)/dt = 4.980E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.219334 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8750E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6063E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.350000 TO TG2= 1.355000 @ NSTEP 657 GFRAME TG2 MOMENTS CHECKSUM: 9.0335876340485E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 657 TA= 1.35000E+00 CPU TIME= 2.92773E+00 SECONDS. DT= 5.03996E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 658 TA= 1.35029E+00 CPU TIME= 2.96094E+00 SECONDS. DT= 3.60724E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 665 TA= 1.35225E+00 CPU TIME= 2.92969E+00 SECONDS. DT= 3.41399E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 672 TA= 1.35410E+00 CPU TIME= 3.00391E+00 SECONDS. DT= 3.22488E-04 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.34740E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.48327E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.34740E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.48327E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.10211E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.57100E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.10211E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.57100E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.355000E+00 NSTEP= 676 Hash code: 58538995 ->PRGCHK: bdy curvature ratio at t= 1.3600E+00 seconds is: 9.6590E-02 % MHDEQ: TG1= 1.355000 ; TG2= 1.360000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.671E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5915E+00 0.0000E+00 -6.4987E-02 0.0000E+00 1.6754E+00 5.6731E-02 1 0 4.6531E-01 5.6411E-02 5.6411E-02 8.6605E-01 2 0 3.5997E-02 5.7856E-02 2.9359E-03 -2.5861E-02 3 0 2.4050E-02 -8.5645E-03 -5.8304E-03 -6.7042E-03 4 0 -2.7025E-03 -3.1025E-03 -2.1108E-03 4.0544E-03 5 0 -1.1896E-04 5.9292E-04 1.1677E-03 1.8337E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.13E-01 4.10E-02 5.11E-02 4.07E-03 4.91E-04 1.10E+00 1.675E+00 5.673E-02 3.07997E+01 9.50E-03 1.000 1.27 1.02 100 4.09E-06 1.74E-06 9.11E-07 1.45E-09 1.04E-09 1.10E+00 1.668E+00 5.132E-02 2.83654E+01 1.04E-02 1.000 1.27 1.23 114 8.58E-07 4.27E-07 2.61E-07 1.63E-10 1.40E-09 1.10E+00 1.670E+00 5.316E-02 2.83651E+01 1.05E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.812E-07 d(ln R0)/dt = 6.622E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.71E-02 9.43E-02 2.32E-04 1.32E-08 4.19E-08 1.10E+00 1.670E+00 5.327E-02 2.83629E+01 1.06E-02 1.000 1.27 1.25 100 2.25E-06 7.43E-07 2.95E-08 7.00E-12 2.11E-11 1.10E+00 1.674E+00 5.613E-02 2.86016E+01 1.05E-02 1.004 1.27 1.27 200 6.22E-08 1.61E-08 3.11E-09 2.03E-13 3.83E-13 1.10E+00 1.675E+00 5.648E-02 2.76101E+01 1.09E-02 0.987 1.27 1.27 300 1.55E-08 4.00E-09 3.32E-10 1.15E-14 2.75E-14 1.10E+00 1.675E+00 5.660E-02 2.72410E+01 1.10E-02 0.980 1.27 1.27 400 5.32E-09 1.38E-09 5.69E-11 1.52E-15 2.77E-15 1.10E+00 1.675E+00 5.667E-02 2.70336E+01 1.11E-02 0.977 1.27 1.27 500 2.06E-09 5.34E-10 1.44E-11 3.78E-16 6.05E-16 1.10E+00 1.675E+00 5.670E-02 2.69190E+01 1.11E-02 0.975 1.27 1.27 563 9.91E-10 2.59E-10 4.92E-12 1.52E-16 1.90E-16 1.10E+00 1.676E+00 5.672E-02 2.68558E+01 1.12E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.386E-05 d(ln R0)/dt = 5.083E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.218622 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3594E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6590E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.355000 TO TG2= 1.360000 @ NSTEP 676 GFRAME TG2 MOMENTS CHECKSUM: 9.0330221160850E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 676 TA= 1.35500E+00 CPU TIME= 2.91406E+00 SECONDS. DT= 3.14713E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 677 TA= 1.35525E+00 CPU TIME= 2.91992E+00 SECONDS. DT= 3.10996E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 684 TA= 1.35694E+00 CPU TIME= 2.88477E+00 SECONDS. DT= 2.93859E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 691 TA= 1.35853E+00 CPU TIME= 3.13086E+00 SECONDS. DT= 2.77673E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6088E+00 2.9821E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3603E+20 nbi_getprofiles ne*dVol sum (ions): 4.3603E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16694 - 0 (killed) + 4987 (dep) = 21681 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 1632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5085 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5992 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0261E+00 %ORBALL: In processor 0: orbit # IORB= 6618 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7633 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7890 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8084 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8460 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8519 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8553 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8589 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8712 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8808 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8921 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9071 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9148 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9267 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9586 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9738 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9745 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9849 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9923 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9980 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10065 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10076 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10116 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10141 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10153 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10477 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10513 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10798 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10874 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21681 SPL= 0 TOT=16589 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 698 TA= 1.36000E+00 CPU TIME= 2.92969E+00 SECONDS. DT= 2.19702E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.360000E+00 NSTEP= 698 Hash code: 32476476 ->PRGCHK: bdy curvature ratio at t= 1.3650E+00 seconds is: 9.7120E-02 % MHDEQ: TG1= 1.360000 ; TG2= 1.365000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.671E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5912E+00 0.0000E+00 -6.4652E-02 0.0000E+00 1.6755E+00 5.6716E-02 1 0 4.6558E-01 5.6372E-02 5.6372E-02 8.6554E-01 2 0 3.5969E-02 5.7657E-02 2.8457E-03 -2.5873E-02 3 0 2.3985E-02 -8.5949E-03 -5.8468E-03 -6.6669E-03 4 0 -2.7175E-03 -3.1231E-03 -2.1069E-03 4.0668E-03 5 0 -1.2431E-04 5.9938E-04 1.1756E-03 1.8278E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.14E-01 4.10E-02 5.11E-02 4.08E-03 4.90E-04 1.10E+00 1.676E+00 5.672E-02 3.08054E+01 9.49E-03 1.000 1.27 1.02 100 3.90E-06 1.73E-06 9.12E-07 1.45E-09 9.98E-10 1.10E+00 1.668E+00 5.119E-02 2.83598E+01 1.04E-02 1.000 1.27 1.23 114 8.22E-07 4.13E-07 2.60E-07 1.62E-10 1.36E-09 1.10E+00 1.670E+00 5.306E-02 2.83596E+01 1.04E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.760E-07 d(ln R0)/dt = 6.590E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.56E-02 9.38E-02 2.29E-04 1.26E-08 4.13E-08 1.10E+00 1.670E+00 5.317E-02 2.83573E+01 1.06E-02 1.000 1.27 1.25 100 2.17E-06 7.39E-07 2.91E-08 7.03E-12 2.09E-11 1.10E+00 1.674E+00 5.610E-02 2.85648E+01 1.05E-02 1.004 1.27 1.27 200 6.10E-08 1.59E-08 3.06E-09 2.03E-13 3.74E-13 1.10E+00 1.675E+00 5.646E-02 2.75798E+01 1.09E-02 0.986 1.27 1.27 300 1.50E-08 3.90E-09 3.24E-10 1.13E-14 2.67E-14 1.10E+00 1.675E+00 5.658E-02 2.72121E+01 1.10E-02 0.980 1.27 1.27 400 5.12E-09 1.34E-09 5.46E-11 1.45E-15 2.64E-15 1.10E+00 1.675E+00 5.665E-02 2.70050E+01 1.11E-02 0.976 1.27 1.27 500 1.99E-09 5.18E-10 1.39E-11 3.65E-16 5.75E-16 1.10E+00 1.676E+00 5.668E-02 2.68933E+01 1.12E-02 0.974 1.27 1.27 560 9.98E-10 2.58E-10 5.07E-12 1.57E-16 2.31E-16 1.10E+00 1.676E+00 5.669E-02 2.68349E+01 1.12E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.376E-05 d(ln R0)/dt = 5.115E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.240410 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8164E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7120E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.360000 TO TG2= 1.365000 @ NSTEP 698 GFRAME TG2 MOMENTS CHECKSUM: 9.0324009599869E+03 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.01945E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.37033E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.01945E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.37033E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.365000E+00 NSTEP= 707 Hash code: 115999769 ->PRGCHK: bdy curvature ratio at t= 1.3700E+00 seconds is: 9.7655E-02 % MHDEQ: TG1= 1.365000 ; TG2= 1.370000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.671E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5910E+00 0.0000E+00 -6.4316E-02 0.0000E+00 1.6756E+00 5.6695E-02 1 0 4.6586E-01 5.6333E-02 5.6333E-02 8.6503E-01 2 0 3.5941E-02 5.7458E-02 2.7554E-03 -2.5885E-02 3 0 2.3921E-02 -8.6253E-03 -5.8632E-03 -6.6296E-03 4 0 -2.7325E-03 -3.1436E-03 -2.1031E-03 4.0792E-03 5 0 -1.2967E-04 6.0583E-04 1.1836E-03 1.8218E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.15E-01 4.11E-02 5.12E-02 4.10E-03 4.89E-04 1.10E+00 1.676E+00 5.669E-02 3.08102E+01 9.57E-03 1.000 1.27 1.02 100 3.80E-06 1.74E-06 9.12E-07 1.44E-09 9.48E-10 1.10E+00 1.668E+00 5.108E-02 2.83536E+01 1.05E-02 1.000 1.27 1.23 114 8.04E-07 4.03E-07 2.57E-07 1.56E-10 1.37E-09 1.10E+00 1.670E+00 5.288E-02 2.83533E+01 1.05E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.687E-07 d(ln R0)/dt = 6.349E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.34E-02 9.22E-02 2.26E-04 1.26E-08 4.08E-08 1.10E+00 1.670E+00 5.299E-02 2.83510E+01 1.06E-02 1.000 1.27 1.25 100 2.16E-06 7.41E-07 2.90E-08 7.03E-12 2.10E-11 1.10E+00 1.674E+00 5.601E-02 2.85998E+01 1.06E-02 1.004 1.27 1.27 200 6.04E-08 1.58E-08 3.04E-09 2.02E-13 3.73E-13 1.10E+00 1.675E+00 5.638E-02 2.76196E+01 1.09E-02 0.987 1.27 1.27 300 1.48E-08 3.82E-09 3.22E-10 1.13E-14 2.65E-14 1.10E+00 1.675E+00 5.650E-02 2.72534E+01 1.11E-02 0.981 1.27 1.27 400 4.99E-09 1.30E-09 5.31E-11 1.41E-15 2.58E-15 1.10E+00 1.675E+00 5.657E-02 2.70462E+01 1.12E-02 0.977 1.27 1.27 500 1.92E-09 5.02E-10 1.35E-11 3.52E-16 5.52E-16 1.10E+00 1.675E+00 5.660E-02 2.69357E+01 1.12E-02 0.975 1.27 1.27 557 9.94E-10 2.62E-10 5.27E-12 1.58E-16 2.13E-16 1.10E+00 1.675E+00 5.661E-02 2.68814E+01 1.12E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.349E-05 d(ln R0)/dt = 5.084E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.263088 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7969E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7655E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.365000 TO TG2= 1.370000 @ NSTEP 707 GFRAME TG2 MOMENTS CHECKSUM: 9.0308453425254E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 707 TA= 1.36500E+00 CPU TIME= 2.95508E+00 SECONDS. DT= 1.02625E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6094E+00 2.9842E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3974E+20 nbi_getprofiles ne*dVol sum (ions): 4.3974E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16589 - 0 (killed) + 4886 (dep) = 21475 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6261 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6666 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6881 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7086 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0371E+00 %ORBALL: In processor 0: orbit # IORB= 8411 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8486 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8512 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8586 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8771 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8901 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8954 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8971 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9063 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9276 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9285 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9320 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9324 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9337 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9449 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9497 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9649 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9917 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9993 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10015 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10028 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10077 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10091 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10135 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10609 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10731 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21475 SPL= 0 TOT=16354 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 713 TA= 1.37000E+00 CPU TIME= 2.40430E+00 SECONDS. DT= 2.03642E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.370000E+00 NSTEP= 713 Hash code: 91876627 ->PRGCHK: bdy curvature ratio at t= 1.3750E+00 seconds is: 9.8194E-02 % MHDEQ: TG1= 1.370000 ; TG2= 1.375000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.672E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5907E+00 0.0000E+00 -6.3981E-02 0.0000E+00 1.6754E+00 5.6613E-02 1 0 4.6614E-01 5.6293E-02 5.6293E-02 8.6451E-01 2 0 3.5912E-02 5.7259E-02 2.6652E-03 -2.5897E-02 3 0 2.3856E-02 -8.6557E-03 -5.8797E-03 -6.5923E-03 4 0 -2.7475E-03 -3.1642E-03 -2.0992E-03 4.0915E-03 5 0 -1.3503E-04 6.1228E-04 1.1916E-03 1.8159E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.15E-01 4.10E-02 5.12E-02 4.12E-03 4.86E-04 1.10E+00 1.675E+00 5.661E-02 3.08189E+01 9.63E-03 1.000 1.27 1.02 100 3.77E-06 1.77E-06 9.18E-07 1.42E-09 9.35E-10 1.10E+00 1.668E+00 5.096E-02 2.83579E+01 1.06E-02 1.000 1.27 1.23 114 7.99E-07 4.03E-07 2.57E-07 1.55E-10 1.37E-09 1.10E+00 1.670E+00 5.276E-02 2.83576E+01 1.06E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.670E-07 d(ln R0)/dt = 6.324E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.18E-02 9.14E-02 2.24E-04 1.25E-08 4.03E-08 1.10E+00 1.670E+00 5.287E-02 2.83552E+01 1.07E-02 1.000 1.27 1.25 100 2.12E-06 7.31E-07 2.88E-08 6.98E-12 2.10E-11 1.10E+00 1.674E+00 5.594E-02 2.86119E+01 1.06E-02 1.005 1.27 1.27 200 5.91E-08 1.56E-08 3.00E-09 1.99E-13 3.68E-13 1.10E+00 1.675E+00 5.631E-02 2.76416E+01 1.10E-02 0.988 1.27 1.27 300 1.43E-08 3.71E-09 3.14E-10 1.11E-14 2.59E-14 1.10E+00 1.675E+00 5.643E-02 2.72788E+01 1.12E-02 0.981 1.27 1.27 400 4.79E-09 1.24E-09 5.09E-11 1.34E-15 2.47E-15 1.10E+00 1.675E+00 5.649E-02 2.70730E+01 1.12E-02 0.977 1.27 1.27 500 1.83E-09 4.79E-10 1.29E-11 3.36E-16 5.23E-16 1.10E+00 1.675E+00 5.652E-02 2.69650E+01 1.13E-02 0.975 1.27 1.27 554 9.87E-10 2.61E-10 5.24E-12 1.58E-16 2.25E-16 1.10E+00 1.675E+00 5.654E-02 2.69153E+01 1.13E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.265E-05 d(ln R0)/dt = 4.972E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.286032 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3594E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8194E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.370000 TO TG2= 1.375000 @ NSTEP 713 GFRAME TG2 MOMENTS CHECKSUM: 9.0294564025484E+03 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -9.18264E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.35015E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -9.18264E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.35015E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.375000E+00 NSTEP= 722 Hash code: 44858497 ->PRGCHK: bdy curvature ratio at t= 1.3800E+00 seconds is: 9.8737E-02 % MHDEQ: TG1= 1.375000 ; TG2= 1.380000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.672E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5905E+00 0.0000E+00 -6.3646E-02 0.0000E+00 1.6753E+00 5.6538E-02 1 0 4.6642E-01 5.6254E-02 5.6254E-02 8.6400E-01 2 0 3.5884E-02 5.7060E-02 2.5749E-03 -2.5908E-02 3 0 2.3791E-02 -8.6861E-03 -5.8961E-03 -6.5550E-03 4 0 -2.7624E-03 -3.1848E-03 -2.0954E-03 4.1039E-03 5 0 -1.4038E-04 6.1873E-04 1.1996E-03 1.8100E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.15E-01 4.09E-02 5.11E-02 4.13E-03 4.84E-04 1.10E+00 1.675E+00 5.654E-02 3.08286E+01 9.70E-03 1.000 1.27 1.02 100 3.73E-06 1.80E-06 9.21E-07 1.39E-09 9.16E-10 1.10E+00 1.668E+00 5.083E-02 2.83625E+01 1.07E-02 1.000 1.27 1.23 114 7.91E-07 4.00E-07 2.56E-07 1.52E-10 1.37E-09 1.10E+00 1.670E+00 5.263E-02 2.83623E+01 1.07E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.644E-07 d(ln R0)/dt = 6.259E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.01E-02 9.05E-02 2.21E-04 1.24E-08 3.98E-08 1.10E+00 1.670E+00 5.274E-02 2.83599E+01 1.08E-02 1.000 1.27 1.25 100 2.09E-06 7.24E-07 2.86E-08 6.93E-12 2.10E-11 1.10E+00 1.673E+00 5.585E-02 2.86245E+01 1.07E-02 1.005 1.27 1.27 200 5.79E-08 1.53E-08 2.95E-09 1.96E-13 3.64E-13 1.10E+00 1.674E+00 5.623E-02 2.76645E+01 1.11E-02 0.988 1.27 1.27 300 1.38E-08 3.60E-09 3.08E-10 1.09E-14 2.53E-14 1.10E+00 1.675E+00 5.635E-02 2.73052E+01 1.12E-02 0.981 1.27 1.27 400 4.59E-09 1.19E-09 4.88E-11 1.27E-15 2.37E-15 1.10E+00 1.675E+00 5.641E-02 2.71007E+01 1.13E-02 0.978 1.27 1.27 500 1.75E-09 4.58E-10 1.24E-11 3.20E-16 4.97E-16 1.10E+00 1.675E+00 5.644E-02 2.69954E+01 1.14E-02 0.976 1.27 1.27 550 9.88E-10 2.61E-10 5.50E-12 1.78E-16 2.53E-16 1.10E+00 1.675E+00 5.645E-02 2.69506E+01 1.14E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.34E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.166E-05 d(ln R0)/dt = 4.823E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.293801 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.6523E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8737E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.375000 TO TG2= 1.380000 @ NSTEP 722 GFRAME TG2 MOMENTS CHECKSUM: 9.0279621764598E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 722 TA= 1.37500E+00 CPU TIME= 2.86328E+00 SECONDS. DT= 1.21380E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6097E+00 2.9866E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4342E+20 nbi_getprofiles ne*dVol sum (ions): 4.4342E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16354 - 0 (killed) + 4940 (dep) = 21294 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0049E+00 %ORBALL: In processor 0: orbit # IORB= 4133 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6754 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6911 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0021E+00 %ORBALL: In processor 0: orbit # IORB= 8005 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8294 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8339 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8358 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8362 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8538 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8614 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8705 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8997 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9366 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9475 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9573 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0053E+00 %ORBALL: In processor 0: orbit # IORB= 9639 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9789 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10087 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10265 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10440 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10446 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10484 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10548 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10561 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10607 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10638 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21294 SPL= 0 TOT=16250 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 728 TA= 1.38000E+00 CPU TIME= 2.49609E+00 SECONDS. DT= 5.00773E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.380000E+00 NSTEP= 728 Hash code: 108524586 ->PRGCHK: bdy curvature ratio at t= 1.3850E+00 seconds is: 9.9284E-02 % MHDEQ: TG1= 1.380000 ; TG2= 1.385000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.673E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5902E+00 0.0000E+00 -6.3311E-02 0.0000E+00 1.6751E+00 5.6454E-02 1 0 4.6669E-01 5.6215E-02 5.6215E-02 8.6349E-01 2 0 3.5856E-02 5.6860E-02 2.4847E-03 -2.5920E-02 3 0 2.3727E-02 -8.7165E-03 -5.9125E-03 -6.5178E-03 4 0 -2.7774E-03 -3.2053E-03 -2.0915E-03 4.1163E-03 5 0 -1.4574E-04 6.2519E-04 1.2076E-03 1.8040E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 4.08E-02 5.11E-02 4.14E-03 4.82E-04 1.10E+00 1.675E+00 5.645E-02 3.08385E+01 9.76E-03 1.000 1.27 1.02 100 3.69E-06 1.82E-06 9.24E-07 1.37E-09 9.02E-10 1.10E+00 1.668E+00 5.071E-02 2.83680E+01 1.07E-02 1.000 1.27 1.23 114 7.85E-07 3.98E-07 2.55E-07 1.50E-10 1.37E-09 1.10E+00 1.670E+00 5.250E-02 2.83677E+01 1.07E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.628E-07 d(ln R0)/dt = 6.239E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.86E-02 8.96E-02 2.19E-04 1.24E-08 3.93E-08 1.10E+00 1.670E+00 5.261E-02 2.83653E+01 1.09E-02 1.000 1.27 1.25 100 2.06E-06 7.18E-07 2.84E-08 6.88E-12 2.10E-11 1.10E+00 1.673E+00 5.576E-02 2.86574E+01 1.08E-02 1.005 1.27 1.27 200 5.68E-08 1.51E-08 2.90E-09 1.93E-13 3.59E-13 1.10E+00 1.674E+00 5.614E-02 2.77073E+01 1.11E-02 0.989 1.27 1.27 300 1.34E-08 3.49E-09 3.00E-10 1.07E-14 2.46E-14 1.10E+00 1.675E+00 5.626E-02 2.73511E+01 1.13E-02 0.982 1.27 1.27 400 4.40E-09 1.13E-09 4.68E-11 1.21E-15 2.29E-15 1.10E+00 1.675E+00 5.632E-02 2.71483E+01 1.14E-02 0.979 1.27 1.27 500 1.66E-09 4.37E-10 1.18E-11 3.06E-16 4.73E-16 1.10E+00 1.675E+00 5.635E-02 2.70452E+01 1.14E-02 0.977 1.27 1.27 546 9.89E-10 2.60E-10 5.61E-12 1.56E-16 2.22E-16 1.10E+00 1.675E+00 5.636E-02 2.70050E+01 1.14E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.21E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.076E-05 d(ln R0)/dt = 4.688E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.301628 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5742E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9284E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.380000 TO TG2= 1.385000 @ NSTEP 728 GFRAME TG2 MOMENTS CHECKSUM: 9.0263134976952E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 728 TA= 1.38000E+00 CPU TIME= 2.57422E+00 SECONDS. DT= 5.00773E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 729 TA= 1.38034E+00 CPU TIME= 2.38477E+00 SECONDS. DT= 4.20844E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 736 TA= 1.38310E+00 CPU TIME= 2.49805E+00 SECONDS. DT= 5.51010E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.02034E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.29956E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.02034E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.29956E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.385000E+00 NSTEP= 741 Hash code: 33327123 ->PRGCHK: bdy curvature ratio at t= 1.3900E+00 seconds is: 9.9835E-02 % MHDEQ: TG1= 1.385000 ; TG2= 1.390000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.674E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5900E+00 0.0000E+00 -6.2976E-02 0.0000E+00 1.6750E+00 5.6364E-02 1 0 4.6697E-01 5.6176E-02 5.6176E-02 8.6297E-01 2 0 3.5827E-02 5.6661E-02 2.3944E-03 -2.5932E-02 3 0 2.3662E-02 -8.7469E-03 -5.9289E-03 -6.4805E-03 4 0 -2.7924E-03 -3.2259E-03 -2.0877E-03 4.1286E-03 5 0 -1.5110E-04 6.3164E-04 1.2156E-03 1.7981E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 4.07E-02 5.11E-02 4.15E-03 4.80E-04 1.10E+00 1.675E+00 5.636E-02 3.08502E+01 9.77E-03 1.000 1.27 1.02 100 3.67E-06 1.84E-06 9.22E-07 1.35E-09 8.76E-10 1.10E+00 1.668E+00 5.069E-02 2.83756E+01 1.08E-02 1.000 1.27 1.23 114 7.91E-07 3.98E-07 2.54E-07 1.48E-10 1.37E-09 1.10E+00 1.670E+00 5.247E-02 2.83754E+01 1.08E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.594E-07 d(ln R0)/dt = 6.184E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.71E-02 8.85E-02 2.16E-04 1.24E-08 3.91E-08 1.10E+00 1.670E+00 5.258E-02 2.83729E+01 1.09E-02 1.000 1.27 1.25 100 2.10E-06 7.22E-07 2.86E-08 6.70E-12 2.06E-11 1.10E+00 1.673E+00 5.576E-02 2.86735E+01 1.08E-02 1.005 1.27 1.27 200 5.55E-08 1.50E-08 2.84E-09 1.89E-13 3.58E-13 1.10E+00 1.674E+00 5.614E-02 2.77376E+01 1.11E-02 0.989 1.27 1.27 300 1.30E-08 3.42E-09 2.96E-10 1.07E-14 2.44E-14 1.10E+00 1.675E+00 5.626E-02 2.73861E+01 1.13E-02 0.983 1.27 1.27 400 4.24E-09 1.08E-09 4.44E-11 1.12E-15 2.15E-15 1.10E+00 1.675E+00 5.632E-02 2.71806E+01 1.14E-02 0.979 1.27 1.27 500 1.59E-09 4.16E-10 1.11E-11 2.82E-16 4.28E-16 1.10E+00 1.675E+00 5.635E-02 2.70798E+01 1.14E-02 0.977 1.27 1.27 541 9.97E-10 2.66E-10 5.71E-12 1.79E-16 2.33E-16 1.10E+00 1.675E+00 5.636E-02 2.70456E+01 1.14E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.966E-05 d(ln R0)/dt = 4.552E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.276821 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1055E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9835E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.385000 TO TG2= 1.390000 @ NSTEP 741 GFRAME TG2 MOMENTS CHECKSUM: 9.0259754891442E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 741 TA= 1.38500E+00 CPU TIME= 2.78516E+00 SECONDS. DT= 5.68140E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 742 TA= 1.38537E+00 CPU TIME= 3.01953E+00 SECONDS. DT= 4.63603E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 749 TA= 1.38842E+00 CPU TIME= 2.98828E+00 SECONDS. DT= 6.06612E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.095703125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6099E+00 2.9891E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4122E+20 nbi_getprofiles ne*dVol sum (ions): 4.4122E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16250 - 0 (killed) + 4927 (dep) = 21177 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3228 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6240 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7689 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8097 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8140 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8219 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8232 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8283 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8320 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8342 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8424 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8440 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8763 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8802 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8848 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8866 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8906 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9024 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9050 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9322 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9344 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9446 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9600 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9636 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9703 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9704 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9755 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9764 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10020 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10030 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10150 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10210 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10264 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10428 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10474 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10545 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21177 SPL= 0 TOT=16214 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 753 TA= 1.39000E+00 CPU TIME= 2.97656E+00 SECONDS. DT= 3.71582E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.3900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.390000E+00 NSTEP= 753 Hash code: 113758725 ->PRGCHK: bdy curvature ratio at t= 1.3950E+00 seconds is: 1.0039E-01 % MHDEQ: TG1= 1.390000 ; TG2= 1.395000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.675E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5897E+00 0.0000E+00 -6.2641E-02 0.0000E+00 1.6750E+00 5.6363E-02 1 0 4.6725E-01 5.6137E-02 5.6137E-02 8.6246E-01 2 0 3.5799E-02 5.6462E-02 2.3041E-03 -2.5944E-02 3 0 2.3598E-02 -8.7773E-03 -5.9453E-03 -6.4432E-03 4 0 -2.8074E-03 -3.2464E-03 -2.0838E-03 4.1410E-03 5 0 -1.5645E-04 6.3809E-04 1.2235E-03 1.7922E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.17E-01 4.07E-02 5.11E-02 4.17E-03 4.78E-04 1.10E+00 1.675E+00 5.636E-02 3.08757E+01 9.77E-03 1.000 1.27 1.03 100 3.57E-06 1.85E-06 9.15E-07 1.38E-09 8.26E-10 1.10E+00 1.668E+00 5.066E-02 2.83891E+01 1.08E-02 1.000 1.27 1.23 114 7.84E-07 3.88E-07 2.51E-07 1.45E-10 1.36E-09 1.10E+00 1.670E+00 5.243E-02 2.83889E+01 1.08E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.517E-07 d(ln R0)/dt = 6.108E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.62E-02 8.72E-02 2.14E-04 1.25E-08 3.91E-08 1.10E+00 1.670E+00 5.254E-02 2.83863E+01 1.09E-02 1.000 1.27 1.25 100 2.17E-06 7.37E-07 2.92E-08 6.54E-12 2.04E-11 1.10E+00 1.673E+00 5.576E-02 2.86494E+01 1.08E-02 1.005 1.27 1.27 200 5.47E-08 1.50E-08 2.80E-09 1.87E-13 3.60E-13 1.10E+00 1.674E+00 5.614E-02 2.77254E+01 1.12E-02 0.988 1.27 1.27 300 1.28E-08 3.40E-09 2.95E-10 1.08E-14 2.45E-14 1.10E+00 1.675E+00 5.626E-02 2.73776E+01 1.13E-02 0.982 1.27 1.27 400 4.13E-09 1.05E-09 4.30E-11 1.08E-15 2.07E-15 1.10E+00 1.675E+00 5.632E-02 2.71704E+01 1.14E-02 0.979 1.27 1.27 500 1.53E-09 4.00E-10 1.05E-11 2.62E-16 3.91E-16 1.10E+00 1.675E+00 5.635E-02 2.70698E+01 1.14E-02 0.977 1.27 1.27 539 9.95E-10 2.61E-10 5.55E-12 1.61E-16 2.28E-16 1.10E+00 1.675E+00 5.636E-02 2.70384E+01 1.15E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.59E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.878E-05 d(ln R0)/dt = 4.471E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.64 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.252127 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6016E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0039E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.390000 TO TG2= 1.395000 @ NSTEP 753 GFRAME TG2 MOMENTS CHECKSUM: 9.0259695138892E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 753 TA= 1.39000E+00 CPU TIME= 3.19922E+00 SECONDS. DT= 3.71582E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 754 TA= 1.39037E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 4.64477E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 761 TA= 1.39448E+00 CPU TIME= 2.85547E+00 SECONDS. DT= 5.15223E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.46931E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.18690E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.46931E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.18690E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.395000E+00 NSTEP= 762 Hash code: 73523886 ->PRGCHK: bdy curvature ratio at t= 1.4000E+00 seconds is: 1.0095E-01 % MHDEQ: TG1= 1.395000 ; TG2= 1.400000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.676E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5895E+00 0.0000E+00 -6.2305E-02 0.0000E+00 1.6751E+00 5.6363E-02 1 0 4.6753E-01 5.6097E-02 5.6097E-02 8.6195E-01 2 0 3.5771E-02 5.6263E-02 2.2139E-03 -2.5955E-02 3 0 2.3533E-02 -8.8077E-03 -5.9618E-03 -6.4059E-03 4 0 -2.8224E-03 -3.2670E-03 -2.0800E-03 4.1533E-03 5 0 -1.6181E-04 6.4454E-04 1.2315E-03 1.7863E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.18E-01 4.08E-02 5.12E-02 4.19E-03 4.77E-04 1.10E+00 1.675E+00 5.636E-02 3.08975E+01 9.91E-03 1.000 1.27 1.03 100 3.41E-06 1.81E-06 9.11E-07 1.38E-09 8.07E-10 1.10E+00 1.668E+00 5.056E-02 2.83984E+01 1.09E-02 1.000 1.27 1.23 114 7.55E-07 3.77E-07 2.50E-07 1.42E-10 1.33E-09 1.10E+00 1.670E+00 5.233E-02 2.83981E+01 1.09E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.498E-07 d(ln R0)/dt = 6.124E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.45E-02 8.62E-02 2.11E-04 1.24E-08 3.82E-08 1.10E+00 1.670E+00 5.244E-02 2.83959E+01 1.10E-02 1.000 1.27 1.25 100 2.06E-06 7.20E-07 2.87E-08 6.57E-12 2.02E-11 1.10E+00 1.673E+00 5.567E-02 2.85653E+01 1.10E-02 1.003 1.27 1.27 200 5.46E-08 1.49E-08 2.76E-09 1.85E-13 3.49E-13 1.10E+00 1.674E+00 5.604E-02 2.76428E+01 1.14E-02 0.987 1.27 1.27 300 1.26E-08 3.34E-09 2.85E-10 1.04E-14 2.35E-14 1.10E+00 1.674E+00 5.616E-02 2.72948E+01 1.15E-02 0.981 1.27 1.27 400 4.08E-09 1.04E-09 4.30E-11 1.10E-15 2.10E-15 1.10E+00 1.675E+00 5.622E-02 2.70945E+01 1.16E-02 0.977 1.27 1.27 500 1.51E-09 3.96E-10 1.06E-11 2.78E-16 4.04E-16 1.10E+00 1.675E+00 5.625E-02 2.69941E+01 1.16E-02 0.975 1.27 1.27 537 9.94E-10 2.60E-10 5.86E-12 1.76E-16 2.39E-16 1.10E+00 1.675E+00 5.626E-02 2.69634E+01 1.16E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.94E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.990E-05 d(ln R0)/dt = 4.628E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.304652 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9531E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0095E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.395000 TO TG2= 1.400000 @ NSTEP 762 GFRAME TG2 MOMENTS CHECKSUM: 9.0251735486577E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 762 TA= 1.39500E+00 CPU TIME= 3.17383E+00 SECONDS. DT= 7.15991E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 763 TA= 1.39556E+00 CPU TIME= 2.98047E+00 SECONDS. DT= 7.03166E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 770 TA= 1.39936E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 6.42250E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.099609375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6105E+00 2.9914E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5320E+20 nbi_getprofiles ne*dVol sum (ions): 4.5320E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16214 - 0 (killed) + 4903 (dep) = 21117 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4033 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6036 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7478 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8026 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8214 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8216 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8671 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0028E+00 %ORBALL: In processor 0: orbit # IORB= 8786 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8794 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8893 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8918 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8956 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9169 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9247 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9305 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9404 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9447 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9518 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9615 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9817 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0059E+00 %ORBALL: In processor 0: orbit # IORB= 10065 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10275 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10380 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10435 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10482 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10509 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21117 SPL= 0 TOT=16098 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 771 TA= 1.40000E+00 CPU TIME= 2.47656E+00 SECONDS. DT= 8.02812E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.400000E+00 NSTEP= 771 Hash code: 109002982 ->PRGCHK: bdy curvature ratio at t= 1.4050E+00 seconds is: 1.0052E-01 % MHDEQ: TG1= 1.400000 ; TG2= 1.405000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.673E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5894E+00 0.0000E+00 -6.2863E-02 0.0000E+00 1.6748E+00 5.6260E-02 1 0 4.6741E-01 5.6234E-02 5.6234E-02 8.6152E-01 2 0 3.5820E-02 5.6334E-02 2.2344E-03 -2.5966E-02 3 0 2.3513E-02 -8.8402E-03 -5.9701E-03 -6.3927E-03 4 0 -2.8404E-03 -3.2524E-03 -2.0743E-03 4.1619E-03 5 0 -1.5892E-04 6.4617E-04 1.2354E-03 1.7839E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.17E-01 4.10E-02 5.12E-02 4.18E-03 4.79E-04 1.10E+00 1.675E+00 5.626E-02 3.08482E+01 1.01E-02 1.000 1.27 1.03 100 3.47E-06 1.80E-06 9.18E-07 1.32E-09 8.54E-10 1.10E+00 1.668E+00 5.022E-02 2.83606E+01 1.11E-02 1.000 1.27 1.23 114 7.73E-07 3.92E-07 2.55E-07 1.46E-10 1.32E-09 1.10E+00 1.670E+00 5.204E-02 2.83603E+01 1.11E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.565E-07 d(ln R0)/dt = 6.230E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.49E-02 8.74E-02 2.11E-04 1.24E-08 3.78E-08 1.10E+00 1.670E+00 5.215E-02 2.83585E+01 1.12E-02 1.000 1.27 1.25 100 2.03E-06 7.30E-07 2.83E-08 6.60E-12 1.99E-11 1.10E+00 1.673E+00 5.529E-02 2.85988E+01 1.11E-02 1.004 1.27 1.27 200 5.49E-08 1.49E-08 2.76E-09 1.86E-13 3.44E-13 1.10E+00 1.674E+00 5.563E-02 2.76732E+01 1.15E-02 0.988 1.27 1.27 300 1.26E-08 3.33E-09 2.80E-10 1.01E-14 2.27E-14 1.10E+00 1.674E+00 5.576E-02 2.73203E+01 1.16E-02 0.982 1.27 1.27 400 4.10E-09 1.05E-09 4.30E-11 1.12E-15 2.10E-15 1.10E+00 1.675E+00 5.582E-02 2.71219E+01 1.17E-02 0.978 1.27 1.27 500 1.53E-09 4.04E-10 1.08E-11 2.90E-16 4.18E-16 1.10E+00 1.675E+00 5.585E-02 2.70221E+01 1.18E-02 0.976 1.27 1.27 539 9.92E-10 2.63E-10 5.66E-12 1.70E-16 2.39E-16 1.10E+00 1.675E+00 5.586E-02 2.69898E+01 1.18E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.996E-05 d(ln R0)/dt = 4.597E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.312152 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1445E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0052E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.400000 TO TG2= 1.405000 @ NSTEP 771 GFRAME TG2 MOMENTS CHECKSUM: 9.0225312896575E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 771 TA= 1.40000E+00 CPU TIME= 2.45312E+00 SECONDS. DT= 8.02812E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 772 TA= 1.40059E+00 CPU TIME= 2.52148E+00 SECONDS. DT= 7.38690E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 779 TA= 1.40459E+00 CPU TIME= 2.47266E+00 SECONDS. DT= 4.11762E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.83686E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.11838E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.83686E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.11838E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 4.59215E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.19881E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 4.59215E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.19881E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.405000E+00 NSTEP= 780 Hash code: 58196867 ->PRGCHK: bdy curvature ratio at t= 1.4100E+00 seconds is: 1.0009E-01 % MHDEQ: TG1= 1.405000 ; TG2= 1.410000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.272E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5894E+00 0.0000E+00 -6.3420E-02 0.0000E+00 1.6747E+00 5.5859E-02 1 0 4.6730E-01 5.6371E-02 5.6371E-02 8.6109E-01 2 0 3.5870E-02 5.6406E-02 2.2549E-03 -2.5976E-02 3 0 2.3492E-02 -8.8726E-03 -5.9785E-03 -6.3796E-03 4 0 -2.8585E-03 -3.2378E-03 -2.0687E-03 4.1704E-03 5 0 -1.5603E-04 6.4779E-04 1.2393E-03 1.7815E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.17E-01 4.11E-02 5.12E-02 4.18E-03 4.79E-04 1.10E+00 1.675E+00 5.586E-02 3.08079E+01 1.01E-02 1.000 1.27 1.03 100 3.52E-06 1.78E-06 9.08E-07 1.30E-09 8.55E-10 1.10E+00 1.668E+00 4.984E-02 2.83275E+01 1.11E-02 1.000 1.27 1.23 114 7.83E-07 3.96E-07 2.55E-07 1.47E-10 1.32E-09 1.10E+00 1.670E+00 5.165E-02 2.83272E+01 1.11E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.585E-07 d(ln R0)/dt = 6.230E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.52E-02 8.77E-02 2.12E-04 1.24E-08 3.74E-08 1.10E+00 1.670E+00 5.176E-02 2.83254E+01 1.12E-02 1.000 1.27 1.25 100 2.08E-06 7.42E-07 2.86E-08 6.58E-12 1.98E-11 1.10E+00 1.673E+00 5.486E-02 2.86591E+01 1.11E-02 1.006 1.27 1.27 200 5.45E-08 1.49E-08 2.76E-09 1.85E-13 3.46E-13 1.10E+00 1.674E+00 5.519E-02 2.77321E+01 1.15E-02 0.990 1.27 1.27 300 1.27E-08 3.36E-09 2.83E-10 1.03E-14 2.32E-14 1.10E+00 1.674E+00 5.531E-02 2.73799E+01 1.16E-02 0.983 1.27 1.27 400 4.10E-09 1.05E-09 4.22E-11 1.05E-15 1.98E-15 1.10E+00 1.674E+00 5.537E-02 2.71743E+01 1.17E-02 0.980 1.27 1.27 500 1.52E-09 4.03E-10 1.05E-11 2.73E-16 3.94E-16 1.10E+00 1.674E+00 5.540E-02 2.70763E+01 1.18E-02 0.978 1.27 1.27 539 9.93E-10 2.64E-10 5.59E-12 1.66E-16 2.35E-16 1.10E+00 1.675E+00 5.541E-02 2.70453E+01 1.18E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.89E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.886E-05 d(ln R0)/dt = 4.409E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.327384 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1445E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0009E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.405000 TO TG2= 1.410000 @ NSTEP 780 GFRAME TG2 MOMENTS CHECKSUM: 9.0190562001631E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 780 TA= 1.40500E+00 CPU TIME= 2.55469E+00 SECONDS. DT= 6.95311E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 781 TA= 1.40555E+00 CPU TIME= 2.48633E+00 SECONDS. DT= 6.85144E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 788 TA= 1.40926E+00 CPU TIME= 2.43164E+00 SECONDS. DT= 6.45506E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.107421875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6108E+00 2.9909E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5035E+20 nbi_getprofiles ne*dVol sum (ions): 4.5035E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16098 - 0 (killed) + 4886 (dep) = 20984 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 478 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2955 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6483 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6835 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8035 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8100 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8210 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8531 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8572 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8680 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8738 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8824 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8973 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8977 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9029 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9174 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0023E+00 %ORBALL: In processor 0: orbit # IORB= 9183 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9245 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9305 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9372 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9380 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9424 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9622 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9633 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9929 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10095 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10190 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10269 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10328 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10329 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10394 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10404 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20984 SPL= 0 TOT=15978 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 790 TA= 1.41000E+00 CPU TIME= 2.47852E+00 SECONDS. DT= 2.88728E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.410000E+00 NSTEP= 790 Hash code: 101274990 ->PRGCHK: bdy curvature ratio at t= 1.4150E+00 seconds is: 9.9662E-02 % MHDEQ: TG1= 1.410000 ; TG2= 1.415000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.270E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5893E+00 0.0000E+00 -6.3978E-02 0.0000E+00 1.6745E+00 5.5412E-02 1 0 4.6719E-01 5.6508E-02 5.6508E-02 8.6066E-01 2 0 3.5919E-02 5.6478E-02 2.2754E-03 -2.5986E-02 3 0 2.3472E-02 -8.9050E-03 -5.9869E-03 -6.3664E-03 4 0 -2.8765E-03 -3.2232E-03 -2.0630E-03 4.1790E-03 5 0 -1.5314E-04 6.4941E-04 1.2432E-03 1.7792E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 4.12E-02 5.12E-02 4.17E-03 4.80E-04 1.10E+00 1.675E+00 5.541E-02 3.08186E+01 1.01E-02 1.000 1.27 1.03 100 3.57E-06 1.76E-06 8.98E-07 1.29E-09 8.57E-10 1.10E+00 1.668E+00 4.945E-02 2.83416E+01 1.12E-02 1.000 1.27 1.23 114 7.91E-07 4.00E-07 2.54E-07 1.49E-10 1.31E-09 1.10E+00 1.670E+00 5.126E-02 2.83413E+01 1.12E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.598E-07 d(ln R0)/dt = 6.237E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.60E-02 8.81E-02 2.13E-04 1.26E-08 3.71E-08 1.10E+00 1.670E+00 5.137E-02 2.83395E+01 1.13E-02 1.000 1.27 1.25 100 2.20E-06 7.64E-07 2.93E-08 6.39E-12 1.91E-11 1.10E+00 1.673E+00 5.448E-02 2.85025E+01 1.12E-02 1.003 1.27 1.27 200 5.39E-08 1.46E-08 2.75E-09 1.86E-13 3.48E-13 1.10E+00 1.674E+00 5.480E-02 2.75918E+01 1.16E-02 0.987 1.27 1.27 300 1.28E-08 3.39E-09 2.87E-10 1.05E-14 2.39E-14 1.10E+00 1.674E+00 5.492E-02 2.72433E+01 1.17E-02 0.981 1.27 1.27 400 4.06E-09 1.04E-09 4.12E-11 9.96E-16 1.88E-15 1.10E+00 1.674E+00 5.499E-02 2.70322E+01 1.18E-02 0.977 1.27 1.27 500 1.50E-09 3.99E-10 1.01E-11 2.55E-16 3.66E-16 1.10E+00 1.675E+00 5.502E-02 2.69369E+01 1.19E-02 0.975 1.27 1.27 539 9.89E-10 2.63E-10 5.51E-12 1.62E-16 2.31E-16 1.10E+00 1.675E+00 5.502E-02 2.69080E+01 1.19E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.40E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.713E-05 d(ln R0)/dt = 4.154E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.343025 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7695E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9662E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.410000 TO TG2= 1.415000 @ NSTEP 790 GFRAME TG2 MOMENTS CHECKSUM: 9.0175309144274E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 790 TA= 1.41000E+00 CPU TIME= 2.43164E+00 SECONDS. DT= 2.88728E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 791 TA= 1.41029E+00 CPU TIME= 2.59961E+00 SECONDS. DT= 3.60910E-04 %MFRCHK - LABEL "QMINORB", # 10= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.75695E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.06723E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.75695E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.06723E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.10278E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.12398E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.10278E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.12398E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 799 TA= 1.41483E+00 CPU TIME= 3.03320E+00 SECONDS. DT= 1.67495E-04 --> plasma_hash("gframe"): TA= 1.415000E+00 NSTEP= 800 Hash code: 25798928 ->PRGCHK: bdy curvature ratio at t= 1.4200E+00 seconds is: 9.9235E-02 % MHDEQ: TG1= 1.415000 ; TG2= 1.420000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.670E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5893E+00 0.0000E+00 -6.4535E-02 0.0000E+00 1.6745E+00 5.5025E-02 1 0 4.6707E-01 5.6645E-02 5.6645E-02 8.6023E-01 2 0 3.5968E-02 5.6549E-02 2.2959E-03 -2.5996E-02 3 0 2.3452E-02 -8.9374E-03 -5.9953E-03 -6.3532E-03 4 0 -2.8946E-03 -3.2086E-03 -2.0574E-03 4.1875E-03 5 0 -1.5025E-04 6.5103E-04 1.2471E-03 1.7768E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.16E-01 4.13E-02 5.12E-02 4.17E-03 4.80E-04 1.10E+00 1.675E+00 5.502E-02 3.08348E+01 1.01E-02 1.000 1.27 1.03 100 3.53E-06 1.71E-06 8.94E-07 1.29E-09 8.72E-10 1.10E+00 1.668E+00 4.908E-02 2.83550E+01 1.12E-02 1.000 1.27 1.23 114 7.86E-07 3.97E-07 2.56E-07 1.50E-10 1.29E-09 1.10E+00 1.670E+00 5.091E-02 2.83548E+01 1.12E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 9.38E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.621E-07 d(ln R0)/dt = 6.256E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.60E-02 8.85E-02 2.13E-04 1.25E-08 3.71E-08 1.10E+00 1.670E+00 5.102E-02 2.83529E+01 1.13E-02 1.000 1.27 1.25 100 2.15E-06 7.56E-07 2.91E-08 6.37E-12 1.88E-11 1.10E+00 1.673E+00 5.418E-02 2.83852E+01 1.13E-02 1.001 1.27 1.27 200 5.42E-08 1.46E-08 2.76E-09 1.89E-13 3.44E-13 1.10E+00 1.674E+00 5.450E-02 2.74708E+01 1.16E-02 0.985 1.27 1.27 300 1.30E-08 3.42E-09 2.87E-10 1.04E-14 2.37E-14 1.10E+00 1.675E+00 5.462E-02 2.71195E+01 1.18E-02 0.978 1.27 1.27 400 4.13E-09 1.07E-09 4.16E-11 1.03E-15 1.88E-15 1.10E+00 1.675E+00 5.469E-02 2.69085E+01 1.19E-02 0.975 1.27 1.27 500 1.55E-09 4.12E-10 1.04E-11 2.66E-16 3.76E-16 1.10E+00 1.675E+00 5.472E-02 2.68132E+01 1.19E-02 0.973 1.27 1.27 540 9.93E-10 2.73E-10 5.59E-12 1.72E-16 2.32E-16 1.10E+00 1.675E+00 5.473E-02 2.67835E+01 1.19E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.68E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.769E-05 d(ln R0)/dt = 4.285E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.76 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.344870 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.8711E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9235E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.415000 TO TG2= 1.420000 @ NSTEP 800 GFRAME TG2 MOMENTS CHECKSUM: 9.0168806109744E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 800 TA= 1.41500E+00 CPU TIME= 3.06055E+00 SECONDS. DT= 7.59896E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 801 TA= 1.41560E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 7.49770E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 808 TA= 1.41966E+00 CPU TIME= 2.86914E+00 SECONDS. DT= 3.43359E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6128E+00 2.9936E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5035E+20 nbi_getprofiles ne*dVol sum (ions): 4.5035E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15978 - 0 (killed) + 4963 (dep) = 20941 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3189 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3430 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3999 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5957 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 8044 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8170 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8249 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8255 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8293 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8310 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8314 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8315 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8346 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8624 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8642 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8698 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9081 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9138 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9252 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9263 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9590 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9597 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9675 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10068 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10329 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20941 SPL= 0 TOT=15916 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 809 TA= 1.42000E+00 CPU TIME= 2.54492E+00 SECONDS. DT= 4.29199E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.420000E+00 NSTEP= 809 Hash code: 119075695 ->PRGCHK: bdy curvature ratio at t= 1.4250E+00 seconds is: 9.8810E-02 % MHDEQ: TG1= 1.420000 ; TG2= 1.425000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.667E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5892E+00 0.0000E+00 -6.5092E-02 0.0000E+00 1.6748E+00 5.4726E-02 1 0 4.6696E-01 5.6781E-02 5.6781E-02 8.5979E-01 2 0 3.6017E-02 5.6621E-02 2.3164E-03 -2.6007E-02 3 0 2.3431E-02 -8.9699E-03 -6.0036E-03 -6.3400E-03 4 0 -2.9126E-03 -3.1940E-03 -2.0517E-03 4.1961E-03 5 0 -1.4735E-04 6.5265E-04 1.2510E-03 1.7744E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.17E-01 4.17E-02 5.14E-02 4.18E-03 4.82E-04 1.10E+00 1.675E+00 5.473E-02 3.08106E+01 1.01E-02 1.000 1.27 1.03 100 3.39E-06 1.65E-06 8.84E-07 1.34E-09 8.59E-10 1.10E+00 1.668E+00 4.869E-02 2.83232E+01 1.12E-02 1.000 1.27 1.23 114 7.64E-07 3.84E-07 2.55E-07 1.49E-10 1.26E-09 1.10E+00 1.670E+00 5.053E-02 2.83229E+01 1.12E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.618E-07 d(ln R0)/dt = 6.217E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.61E-02 8.85E-02 2.13E-04 1.25E-08 3.73E-08 1.10E+00 1.670E+00 5.064E-02 2.83211E+01 1.13E-02 1.000 1.27 1.25 100 2.19E-06 7.86E-07 2.94E-08 6.55E-12 1.91E-11 1.10E+00 1.673E+00 5.384E-02 2.83752E+01 1.13E-02 1.001 1.27 1.27 200 5.56E-08 1.49E-08 2.83E-09 1.96E-13 3.50E-13 1.10E+00 1.674E+00 5.417E-02 2.74444E+01 1.16E-02 0.985 1.27 1.27 300 1.34E-08 3.52E-09 2.95E-10 1.06E-14 2.38E-14 1.10E+00 1.675E+00 5.429E-02 2.70856E+01 1.18E-02 0.978 1.27 1.27 400 4.28E-09 1.12E-09 4.28E-11 1.07E-15 1.91E-15 1.10E+00 1.675E+00 5.437E-02 2.68705E+01 1.19E-02 0.974 1.27 1.27 500 1.63E-09 4.34E-10 1.09E-11 2.79E-16 3.93E-16 1.10E+00 1.675E+00 5.440E-02 2.67748E+01 1.19E-02 0.973 1.27 1.27 545 9.98E-10 2.69E-10 5.58E-12 1.72E-16 2.36E-16 1.10E+00 1.675E+00 5.441E-02 2.67411E+01 1.19E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.93E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.868E-05 d(ln R0)/dt = 4.485E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.80 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.346223 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2227E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8810E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.420000 TO TG2= 1.425000 @ NSTEP 809 GFRAME TG2 MOMENTS CHECKSUM: 9.0153096038831E+03 %MFRCHK - LABEL "QMINORB", # 10= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -4.40997E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.07816E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -4.40997E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.07816E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.65374E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.14332E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.65374E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.14332E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.425000E+00 NSTEP= 816 Hash code: 90702017 ->PRGCHK: bdy curvature ratio at t= 1.4300E+00 seconds is: 9.8386E-02 % MHDEQ: TG1= 1.425000 ; TG2= 1.430000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.664E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5892E+00 0.0000E+00 -6.5650E-02 0.0000E+00 1.6751E+00 5.4407E-02 1 0 4.6685E-01 5.6918E-02 5.6918E-02 8.5936E-01 2 0 3.6067E-02 5.6693E-02 2.3369E-03 -2.6017E-02 3 0 2.3411E-02 -9.0023E-03 -6.0120E-03 -6.3268E-03 4 0 -2.9306E-03 -3.1794E-03 -2.0461E-03 4.2046E-03 5 0 -1.4446E-04 6.5427E-04 1.2549E-03 1.7721E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.18E-01 4.20E-02 5.16E-02 4.19E-03 4.84E-04 1.10E+00 1.675E+00 5.441E-02 3.07825E+01 1.02E-02 1.000 1.27 1.03 100 3.30E-06 1.62E-06 8.73E-07 1.38E-09 8.45E-10 1.10E+00 1.669E+00 4.839E-02 2.82896E+01 1.13E-02 1.000 1.27 1.23 114 7.53E-07 3.73E-07 2.54E-07 1.48E-10 1.26E-09 1.10E+00 1.671E+00 5.024E-02 2.82893E+01 1.13E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.615E-07 d(ln R0)/dt = 6.181E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.64E-02 8.82E-02 2.13E-04 1.27E-08 3.74E-08 1.10E+00 1.671E+00 5.035E-02 2.82876E+01 1.14E-02 1.000 1.27 1.25 100 2.26E-06 8.21E-07 2.98E-08 6.65E-12 1.94E-11 1.10E+00 1.674E+00 5.357E-02 2.83892E+01 1.13E-02 1.002 1.27 1.27 200 5.69E-08 1.54E-08 2.91E-09 2.03E-13 3.58E-13 1.10E+00 1.675E+00 5.390E-02 2.74495E+01 1.17E-02 0.985 1.27 1.27 300 1.38E-08 3.60E-09 3.05E-10 1.10E-14 2.43E-14 1.10E+00 1.675E+00 5.403E-02 2.70865E+01 1.19E-02 0.979 1.27 1.27 400 4.39E-09 1.15E-09 4.42E-11 1.14E-15 1.98E-15 1.10E+00 1.675E+00 5.410E-02 2.68688E+01 1.20E-02 0.975 1.27 1.27 500 1.69E-09 4.51E-10 1.14E-11 2.96E-16 4.14E-16 1.10E+00 1.675E+00 5.414E-02 2.67724E+01 1.20E-02 0.973 1.27 1.27 549 9.91E-10 2.68E-10 5.51E-12 1.91E-16 2.40E-16 1.10E+00 1.675E+00 5.415E-02 2.67349E+01 1.20E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.01E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.979E-05 d(ln R0)/dt = 4.722E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.340698 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3398E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8386E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.425000 TO TG2= 1.430000 @ NSTEP 816 GFRAME TG2 MOMENTS CHECKSUM: 9.0141778978880E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 816 TA= 1.42500E+00 CPU TIME= 2.52734E+00 SECONDS. DT= 1.20213E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.111328125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6131E+00 2.9927E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5054E+20 nbi_getprofiles ne*dVol sum (ions): 4.5054E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15916 - 0 (killed) + 4968 (dep) = 20884 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 7162 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8013 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8138 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8274 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8284 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8329 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0159E+00 %ORBALL: In processor 0: orbit # IORB= 8591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8790 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8846 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8909 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9030 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9150 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9214 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9243 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9463 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9528 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9546 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9580 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9616 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9876 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9909 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9983 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10068 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10081 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10162 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10192 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10227 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10248 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10274 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10292 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10319 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10385 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10392 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20884 SPL= 0 TOT=15797 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 821 TA= 1.43000E+00 CPU TIME= 2.95117E+00 SECONDS. DT= 7.36283E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.430000E+00 NSTEP= 821 Hash code: 27066146 ->PRGCHK: bdy curvature ratio at t= 1.4350E+00 seconds is: 9.7963E-02 % MHDEQ: TG1= 1.430000 ; TG2= 1.435000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.662E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5891E+00 0.0000E+00 -6.6207E-02 0.0000E+00 1.6755E+00 5.4146E-02 1 0 4.6673E-01 5.7055E-02 5.7055E-02 8.5893E-01 2 0 3.6116E-02 5.6764E-02 2.3574E-03 -2.6027E-02 3 0 2.3391E-02 -9.0347E-03 -6.0204E-03 -6.3136E-03 4 0 -2.9487E-03 -3.1647E-03 -2.0404E-03 4.2131E-03 5 0 -1.4157E-04 6.5589E-04 1.2588E-03 1.7697E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.20E-01 4.25E-02 5.18E-02 4.20E-03 4.86E-04 1.10E+00 1.675E+00 5.415E-02 3.07676E+01 1.03E-02 1.000 1.27 1.02 100 2.74E-06 1.34E-06 7.61E-07 1.40E-09 8.35E-10 1.10E+00 1.669E+00 4.788E-02 2.82622E+01 1.14E-02 1.000 1.27 1.23 114 6.93E-07 3.25E-07 2.46E-07 1.37E-10 1.23E-09 1.10E+00 1.671E+00 4.976E-02 2.82619E+01 1.14E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.055E-07 d(ln R0)/dt = 6.790E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.55E-02 8.65E-02 2.10E-04 1.30E-08 3.76E-08 1.10E+00 1.671E+00 4.988E-02 2.82603E+01 1.14E-02 1.000 1.27 1.25 100 2.32E-06 8.55E-07 3.03E-08 6.83E-12 2.01E-11 1.10E+00 1.674E+00 5.330E-02 2.84286E+01 1.14E-02 1.003 1.27 1.27 200 5.80E-08 1.58E-08 3.02E-09 2.12E-13 3.69E-13 1.10E+00 1.675E+00 5.364E-02 2.74797E+01 1.18E-02 0.986 1.27 1.27 300 1.39E-08 3.65E-09 3.13E-10 1.14E-14 2.48E-14 1.10E+00 1.676E+00 5.377E-02 2.71131E+01 1.19E-02 0.980 1.27 1.27 400 4.41E-09 1.17E-09 4.50E-11 1.19E-15 2.03E-15 1.10E+00 1.676E+00 5.384E-02 2.68940E+01 1.20E-02 0.976 1.27 1.27 500 1.73E-09 4.61E-10 1.19E-11 3.10E-16 4.35E-16 1.10E+00 1.676E+00 5.387E-02 2.67984E+01 1.21E-02 0.974 1.27 1.27 551 9.94E-10 2.65E-10 5.54E-12 1.89E-16 2.37E-16 1.10E+00 1.676E+00 5.389E-02 2.67590E+01 1.21E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.64E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.049E-05 d(ln R0)/dt = 4.901E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.335099 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6602E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7963E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.430000 TO TG2= 1.435000 @ NSTEP 821 GFRAME TG2 MOMENTS CHECKSUM: 9.0129383032050E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 821 TA= 1.43000E+00 CPU TIME= 2.83984E+00 SECONDS. DT= 7.36283E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 822 TA= 1.43038E+00 CPU TIME= 2.55273E+00 SECONDS. DT= 4.78393E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 828 TA= 1.43303E+00 CPU TIME= 2.46094E+00 SECONDS. DT= 5.03899E-04 %MFRCHK - LABEL "QMINORB", # 9= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 6.42867E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.14864E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.42867E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.14864E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 7.34705E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.21507E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 7.34705E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.21507E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.435000E+00 NSTEP= 833 Hash code: 119558008 ->PRGCHK: bdy curvature ratio at t= 1.4400E+00 seconds is: 9.7541E-02 % MHDEQ: TG1= 1.435000 ; TG2= 1.440000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.660E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5891E+00 0.0000E+00 -6.6765E-02 0.0000E+00 1.6759E+00 5.3886E-02 1 0 4.6662E-01 5.7192E-02 5.7192E-02 8.5850E-01 2 0 3.6165E-02 5.6836E-02 2.3779E-03 -2.6038E-02 3 0 2.3370E-02 -9.0671E-03 -6.0288E-03 -6.3004E-03 4 0 -2.9667E-03 -3.1501E-03 -2.0348E-03 4.2217E-03 5 0 -1.3868E-04 6.5751E-04 1.2627E-03 1.7673E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.21E-01 4.30E-02 5.21E-02 4.21E-03 4.88E-04 1.10E+00 1.676E+00 5.389E-02 3.07567E+01 1.02E-02 1.000 1.27 1.02 100 2.35E-06 1.11E-06 6.68E-07 1.39E-09 8.31E-10 1.10E+00 1.670E+00 4.743E-02 2.82392E+01 1.13E-02 1.000 1.27 1.23 109 9.38E-07 5.07E-07 3.03E-07 1.27E-10 1.95E-09 1.10E+00 1.671E+00 4.863E-02 2.82390E+01 1.13E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.997E-07 d(ln R0)/dt = 7.116E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.09E-02 7.98E-02 2.04E-04 1.41E-08 3.88E-08 1.10E+00 1.671E+00 4.879E-02 2.82374E+01 1.14E-02 1.000 1.27 1.24 100 2.37E-06 8.91E-07 3.19E-08 7.22E-12 2.23E-11 1.10E+00 1.675E+00 5.304E-02 2.84887E+01 1.13E-02 1.004 1.27 1.27 200 5.92E-08 1.64E-08 3.20E-09 2.26E-13 3.96E-13 1.10E+00 1.676E+00 5.337E-02 2.75189E+01 1.17E-02 0.987 1.27 1.27 300 1.41E-08 3.77E-09 3.29E-10 1.19E-14 2.58E-14 1.10E+00 1.676E+00 5.351E-02 2.71456E+01 1.19E-02 0.981 1.27 1.27 400 4.47E-09 1.18E-09 4.58E-11 1.25E-15 2.06E-15 1.10E+00 1.676E+00 5.359E-02 2.69217E+01 1.20E-02 0.977 1.27 1.27 500 1.76E-09 4.69E-10 1.22E-11 3.18E-16 4.43E-16 1.10E+00 1.676E+00 5.362E-02 2.68275E+01 1.20E-02 0.975 1.27 1.27 552 9.99E-10 2.66E-10 5.61E-12 1.87E-16 2.38E-16 1.10E+00 1.676E+00 5.363E-02 2.67875E+01 1.20E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.97E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.060E-05 d(ln R0)/dt = 5.001E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.80 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.328120 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2031E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7541E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.435000 TO TG2= 1.440000 @ NSTEP 833 GFRAME TG2 MOMENTS CHECKSUM: 9.0120919284664E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 833 TA= 1.43500E+00 CPU TIME= 2.45508E+00 SECONDS. DT= 5.21690E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 834 TA= 1.43552E+00 CPU TIME= 2.35937E+00 SECONDS. DT= 6.52113E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 840 TA= 1.43845E+00 CPU TIME= 2.39453E+00 SECONDS. DT= 6.89643E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.103515625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6131E+00 2.9922E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4348E+20 nbi_getprofiles ne*dVol sum (ions): 4.4348E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15797 - 0 (killed) + 5007 (dep) = 20804 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6380 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0179E+00 %ORBALL: In processor 0: orbit # IORB= 6638 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7911 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8007 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8068 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8089 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8120 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8355 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8441 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0021E+00 %ORBALL: In processor 0: orbit # IORB= 8595 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8804 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9101 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9133 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9192 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9342 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9569 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9681 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9727 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10012 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10094 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10117 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10194 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10206 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10286 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10326 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10380 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10390 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10407 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10456 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20804 SPL= 0 TOT=15773 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 843 TA= 1.44000E+00 CPU TIME= 2.55273E+00 SECONDS. DT= 6.75621E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.440000E+00 NSTEP= 843 Hash code: 20630516 ->PRGCHK: bdy curvature ratio at t= 1.4450E+00 seconds is: 9.7121E-02 % MHDEQ: TG1= 1.440000 ; TG2= 1.445000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.657E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5890E+00 0.0000E+00 -6.7322E-02 0.0000E+00 1.6763E+00 5.3633E-02 1 0 4.6651E-01 5.7329E-02 5.7329E-02 8.5807E-01 2 0 3.6215E-02 5.6908E-02 2.3985E-03 -2.6048E-02 3 0 2.3350E-02 -9.0996E-03 -6.0371E-03 -6.2873E-03 4 0 -2.9848E-03 -3.1355E-03 -2.0291E-03 4.2302E-03 5 0 -1.3579E-04 6.5913E-04 1.2666E-03 1.7650E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.23E-01 4.36E-02 5.23E-02 4.22E-03 4.90E-04 1.10E+00 1.676E+00 5.363E-02 3.07220E+01 1.02E-02 1.000 1.26 1.02 100 2.34E-06 1.11E-06 6.64E-07 1.46E-09 8.09E-10 1.10E+00 1.670E+00 4.719E-02 2.81936E+01 1.13E-02 1.000 1.26 1.22 109 9.25E-07 4.93E-07 3.02E-07 1.29E-10 1.98E-09 1.10E+00 1.672E+00 4.835E-02 2.81934E+01 1.13E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.829E-07 d(ln R0)/dt = 6.795E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.05E-02 7.88E-02 2.03E-04 1.43E-08 3.88E-08 1.10E+00 1.672E+00 4.850E-02 2.81919E+01 1.13E-02 1.000 1.26 1.24 100 2.46E-06 9.17E-07 3.27E-08 7.12E-12 2.23E-11 1.10E+00 1.675E+00 5.279E-02 2.84734E+01 1.12E-02 1.005 1.26 1.27 200 5.90E-08 1.65E-08 3.25E-09 2.31E-13 4.06E-13 1.10E+00 1.676E+00 5.312E-02 2.75081E+01 1.16E-02 0.988 1.26 1.27 300 1.41E-08 3.83E-09 3.34E-10 1.20E-14 2.60E-14 1.10E+00 1.676E+00 5.326E-02 2.71329E+01 1.18E-02 0.981 1.26 1.26 400 4.44E-09 1.17E-09 4.54E-11 1.24E-15 2.03E-15 1.10E+00 1.677E+00 5.334E-02 2.69051E+01 1.19E-02 0.977 1.26 1.26 500 1.75E-09 4.64E-10 1.19E-11 3.03E-16 4.15E-16 1.10E+00 1.677E+00 5.337E-02 2.68118E+01 1.19E-02 0.976 1.26 1.26 553 9.87E-10 2.66E-10 5.49E-12 1.80E-16 2.33E-16 1.10E+00 1.677E+00 5.339E-02 2.67735E+01 1.20E-02 0.975 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.931E-05 d(ln R0)/dt = 4.864E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.320652 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3008E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7121E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.440000 TO TG2= 1.445000 @ NSTEP 843 GFRAME TG2 MOMENTS CHECKSUM: 9.0111365948872E+03 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 18= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.20404E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.18550E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.20404E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.18550E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.445000E+00 NSTEP= 849 Hash code: 12635028 ->PRGCHK: bdy curvature ratio at t= 1.4500E+00 seconds is: 9.6702E-02 % MHDEQ: TG1= 1.445000 ; TG2= 1.450000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.653E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5890E+00 0.0000E+00 -6.7879E-02 0.0000E+00 1.6767E+00 5.3386E-02 1 0 4.6639E-01 5.7465E-02 5.7465E-02 8.5764E-01 2 0 3.6264E-02 5.6980E-02 2.4190E-03 -2.6058E-02 3 0 2.3330E-02 -9.1320E-03 -6.0455E-03 -6.2741E-03 4 0 -3.0028E-03 -3.1209E-03 -2.0235E-03 4.2388E-03 5 0 -1.3290E-04 6.6076E-04 1.2705E-03 1.7626E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 4.41E-02 5.26E-02 4.23E-03 4.93E-04 1.10E+00 1.677E+00 5.339E-02 3.06834E+01 1.03E-02 1.000 1.26 1.02 100 2.44E-06 1.17E-06 6.98E-07 1.53E-09 8.00E-10 1.10E+00 1.670E+00 4.691E-02 2.81431E+01 1.14E-02 1.000 1.26 1.22 109 9.29E-07 5.03E-07 3.02E-07 1.36E-10 1.99E-09 1.10E+00 1.672E+00 4.803E-02 2.81429E+01 1.14E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.546E-07 d(ln R0)/dt = 6.279E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.03E-02 7.88E-02 2.03E-04 1.43E-08 3.90E-08 1.10E+00 1.672E+00 4.818E-02 2.81412E+01 1.15E-02 1.000 1.26 1.24 100 2.57E-06 9.63E-07 3.34E-08 7.14E-12 2.21E-11 1.10E+00 1.675E+00 5.245E-02 2.83658E+01 1.14E-02 1.004 1.26 1.27 200 5.94E-08 1.66E-08 3.30E-09 2.36E-13 4.10E-13 1.10E+00 1.676E+00 5.278E-02 2.74025E+01 1.18E-02 0.987 1.26 1.26 300 1.43E-08 3.87E-09 3.36E-10 1.20E-14 2.59E-14 1.10E+00 1.676E+00 5.292E-02 2.70241E+01 1.20E-02 0.980 1.26 1.26 400 4.42E-09 1.19E-09 4.54E-11 1.22E-15 2.02E-15 1.10E+00 1.677E+00 5.300E-02 2.67926E+01 1.21E-02 0.976 1.26 1.26 500 1.75E-09 4.66E-10 1.17E-11 2.87E-16 3.95E-16 1.10E+00 1.677E+00 5.304E-02 2.67006E+01 1.21E-02 0.974 1.26 1.26 553 9.94E-10 2.69E-10 5.47E-12 1.77E-16 2.28E-16 1.10E+00 1.677E+00 5.305E-02 2.66642E+01 1.21E-02 0.974 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.19E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.868E-05 d(ln R0)/dt = 4.774E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.301097 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4570E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6702E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.445000 TO TG2= 1.450000 @ NSTEP 849 GFRAME TG2 MOMENTS CHECKSUM: 9.0096794541376E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 849 TA= 1.44500E+00 CPU TIME= 2.63477E+00 SECONDS. DT= 1.17229E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10546875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6117E+00 2.9886E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.3 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.3 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5050E+20 nbi_getprofiles ne*dVol sum (ions): 4.5050E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15773 - 0 (killed) + 5023 (dep) = 20796 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4679 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5688 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6748 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8000 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8011 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8155 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8378 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8427 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8448 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8459 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8541 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8564 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8605 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8659 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8791 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8811 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8929 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9051 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9081 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9086 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9096 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9097 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9442 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9619 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9673 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9678 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9763 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9929 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9972 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10171 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10177 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0214E+00 %ORBALL: In processor 0: orbit # IORB= 10330 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10353 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10486 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20796 SPL= 0 TOT=15685 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 855 TA= 1.45000E+00 CPU TIME= 3.00977E+00 SECONDS. DT= 5.86550E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.450000E+00 NSTEP= 855 Hash code: 87480579 ->PRGCHK: bdy curvature ratio at t= 1.4550E+00 seconds is: 9.6284E-02 % MHDEQ: TG1= 1.450000 ; TG2= 1.455000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.652E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5889E+00 0.0000E+00 -6.8437E-02 0.0000E+00 1.6769E+00 5.3049E-02 1 0 4.6628E-01 5.7602E-02 5.7602E-02 8.5721E-01 2 0 3.6313E-02 5.7051E-02 2.4395E-03 -2.6069E-02 3 0 2.3309E-02 -9.1644E-03 -6.0539E-03 -6.2609E-03 4 0 -3.0208E-03 -3.1063E-03 -2.0178E-03 4.2473E-03 5 0 -1.3001E-04 6.6238E-04 1.2744E-03 1.7602E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.44E-02 5.27E-02 4.24E-03 4.95E-04 1.10E+00 1.677E+00 5.305E-02 3.06872E+01 1.04E-02 1.000 1.26 1.02 100 2.45E-06 1.17E-06 7.04E-07 1.53E-09 8.10E-10 1.10E+00 1.670E+00 4.655E-02 2.81424E+01 1.15E-02 1.000 1.26 1.23 109 9.28E-07 5.05E-07 3.02E-07 1.39E-10 1.98E-09 1.10E+00 1.671E+00 4.767E-02 2.81422E+01 1.15E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.534E-07 d(ln R0)/dt = 6.178E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.07E-02 7.94E-02 2.04E-04 1.44E-08 3.93E-08 1.10E+00 1.672E+00 4.781E-02 2.81405E+01 1.16E-02 1.000 1.26 1.24 100 2.64E-06 9.95E-07 3.39E-08 7.15E-12 2.19E-11 1.10E+00 1.675E+00 5.208E-02 2.83324E+01 1.15E-02 1.003 1.26 1.27 200 6.00E-08 1.66E-08 3.33E-09 2.40E-13 4.11E-13 1.10E+00 1.676E+00 5.242E-02 2.73640E+01 1.20E-02 0.986 1.26 1.27 300 1.45E-08 3.93E-09 3.39E-10 1.19E-14 2.60E-14 1.10E+00 1.677E+00 5.256E-02 2.69824E+01 1.21E-02 0.980 1.26 1.26 400 4.46E-09 1.22E-09 4.63E-11 1.23E-15 2.05E-15 1.10E+00 1.677E+00 5.264E-02 2.67486E+01 1.22E-02 0.975 1.26 1.26 500 1.78E-09 4.74E-10 1.18E-11 2.82E-16 3.90E-16 1.10E+00 1.677E+00 5.268E-02 2.66555E+01 1.23E-02 0.974 1.26 1.26 555 9.88E-10 2.68E-10 5.41E-12 1.94E-16 2.39E-16 1.10E+00 1.677E+00 5.269E-02 2.66181E+01 1.23E-02 0.973 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.70E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.845E-05 d(ln R0)/dt = 4.742E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.284228 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7187E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6284E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.450000 TO TG2= 1.455000 @ NSTEP 855 GFRAME TG2 MOMENTS CHECKSUM: 9.0079045605908E+03 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10292E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.25654E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10292E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.25654E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.455000E+00 NSTEP= 861 Hash code: 79890055 ->PRGCHK: bdy curvature ratio at t= 1.4600E+00 seconds is: 9.5868E-02 % MHDEQ: TG1= 1.455000 ; TG2= 1.460000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.651E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5889E+00 0.0000E+00 -6.8994E-02 0.0000E+00 1.6769E+00 5.2690E-02 1 0 4.6617E-01 5.7739E-02 5.7739E-02 8.5678E-01 2 0 3.6363E-02 5.7123E-02 2.4600E-03 -2.6079E-02 3 0 2.3289E-02 -9.1968E-03 -6.0623E-03 -6.2477E-03 4 0 -3.0389E-03 -3.0917E-03 -2.0122E-03 4.2559E-03 5 0 -1.2712E-04 6.6400E-04 1.2783E-03 1.7578E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.46E-02 5.28E-02 4.24E-03 4.96E-04 1.10E+00 1.677E+00 5.269E-02 3.06881E+01 1.05E-02 1.000 1.27 1.02 100 2.46E-06 1.16E-06 7.12E-07 1.52E-09 8.25E-10 1.10E+00 1.670E+00 4.620E-02 2.81410E+01 1.16E-02 1.000 1.27 1.23 109 9.30E-07 5.11E-07 3.04E-07 1.41E-10 1.97E-09 1.10E+00 1.672E+00 4.732E-02 2.81408E+01 1.16E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.550E-07 d(ln R0)/dt = 6.122E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.10E-02 8.00E-02 2.05E-04 1.45E-08 3.97E-08 1.10E+00 1.672E+00 4.746E-02 2.81390E+01 1.17E-02 1.000 1.27 1.24 100 2.70E-06 1.03E-06 3.44E-08 7.16E-12 2.16E-11 1.10E+00 1.675E+00 5.174E-02 2.83385E+01 1.17E-02 1.004 1.27 1.27 200 6.05E-08 1.67E-08 3.36E-09 2.43E-13 4.10E-13 1.10E+00 1.676E+00 5.209E-02 2.73652E+01 1.21E-02 0.986 1.27 1.27 300 1.45E-08 3.96E-09 3.40E-10 1.19E-14 2.60E-14 1.10E+00 1.677E+00 5.223E-02 2.69805E+01 1.23E-02 0.979 1.27 1.27 400 4.46E-09 1.25E-09 4.69E-11 1.23E-15 2.10E-15 1.10E+00 1.677E+00 5.231E-02 2.67441E+01 1.24E-02 0.975 1.27 1.27 500 1.81E-09 4.84E-10 1.20E-11 2.82E-16 3.93E-16 1.10E+00 1.677E+00 5.235E-02 2.66515E+01 1.24E-02 0.974 1.27 1.27 556 9.93E-10 2.71E-10 5.43E-12 2.00E-16 2.32E-16 1.10E+00 1.677E+00 5.236E-02 2.66136E+01 1.24E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.820E-05 d(ln R0)/dt = 4.730E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.292167 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7578E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5868E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.455000 TO TG2= 1.460000 @ NSTEP 861 GFRAME TG2 MOMENTS CHECKSUM: 9.0061956736051E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 861 TA= 1.45500E+00 CPU TIME= 2.85547E+00 SECONDS. DT= 1.14058E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.107421875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6139E+00 2.9910E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5749E+20 nbi_getprofiles ne*dVol sum (ions): 4.5749E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15685 - 0 (killed) + 5060 (dep) = 20745 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4467 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5850 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6788 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8077 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8197 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8239 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8350 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8361 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8690 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8705 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8945 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9007 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9169 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9260 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9322 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9337 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9352 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9364 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9425 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9496 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9828 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10241 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10285 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20745 SPL= 0 TOT=15541 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 867 TA= 1.46000E+00 CPU TIME= 3.08203E+00 SECONDS. DT= 7.78370E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.460000E+00 NSTEP= 867 Hash code: 114195856 ->PRGCHK: bdy curvature ratio at t= 1.4650E+00 seconds is: 9.5452E-02 % MHDEQ: TG1= 1.460000 ; TG2= 1.465000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.648E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5888E+00 0.0000E+00 -6.9552E-02 0.0000E+00 1.6770E+00 5.2359E-02 1 0 4.6605E-01 5.7876E-02 5.7876E-02 8.5635E-01 2 0 3.6412E-02 5.7195E-02 2.4805E-03 -2.6089E-02 3 0 2.3269E-02 -9.2293E-03 -6.0707E-03 -6.2345E-03 4 0 -3.0569E-03 -3.0771E-03 -2.0065E-03 4.2644E-03 5 0 -1.2423E-04 6.6562E-04 1.2822E-03 1.7555E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.49E-02 5.29E-02 4.24E-03 4.97E-04 1.10E+00 1.677E+00 5.236E-02 3.06256E+01 1.07E-02 1.000 1.27 1.02 100 2.49E-06 1.16E-06 7.23E-07 1.53E-09 8.36E-10 1.10E+00 1.671E+00 4.587E-02 2.80783E+01 1.18E-02 1.000 1.27 1.23 109 9.36E-07 5.12E-07 3.04E-07 1.45E-10 1.97E-09 1.10E+00 1.672E+00 4.699E-02 2.80782E+01 1.18E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.62E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.528E-07 d(ln R0)/dt = 6.025E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.14E-02 8.05E-02 2.06E-04 1.46E-08 4.00E-08 1.10E+00 1.672E+00 4.713E-02 2.80763E+01 1.19E-02 1.000 1.27 1.24 100 2.72E-06 1.05E-06 3.46E-08 7.15E-12 2.12E-11 1.10E+00 1.675E+00 5.140E-02 2.83548E+01 1.18E-02 1.005 1.27 1.27 200 6.09E-08 1.69E-08 3.38E-09 2.45E-13 4.08E-13 1.10E+00 1.676E+00 5.175E-02 2.73766E+01 1.22E-02 0.988 1.27 1.27 300 1.46E-08 4.00E-09 3.42E-10 1.19E-14 2.62E-14 1.10E+00 1.677E+00 5.189E-02 2.69903E+01 1.24E-02 0.981 1.27 1.27 400 4.46E-09 1.29E-09 4.76E-11 1.24E-15 2.15E-15 1.10E+00 1.677E+00 5.198E-02 2.67516E+01 1.25E-02 0.976 1.27 1.27 500 1.85E-09 4.96E-10 1.24E-11 2.87E-16 4.02E-16 1.10E+00 1.677E+00 5.201E-02 2.66591E+01 1.25E-02 0.975 1.27 1.27 558 9.98E-10 2.69E-10 5.35E-12 1.83E-16 2.01E-16 1.10E+00 1.677E+00 5.202E-02 2.66193E+01 1.26E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.70E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.816E-05 d(ln R0)/dt = 4.760E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.300711 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6797E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5452E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.460000 TO TG2= 1.465000 @ NSTEP 867 GFRAME TG2 MOMENTS CHECKSUM: 9.0040975091653E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 867 TA= 1.46000E+00 CPU TIME= 3.21484E+00 SECONDS. DT= 7.78370E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 868 TA= 1.46058E+00 CPU TIME= 2.97266E+00 SECONDS. DT= 7.24535E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 874 TA= 1.46458E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 4.18334E-04 %MFRCHK - LABEL "QMINORB", # 7= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 16= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 7.34723E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.29984E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.34723E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.29984E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67362E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.39569E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67362E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.39569E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.465000E+00 NSTEP= 875 Hash code: 83303702 ->PRGCHK: bdy curvature ratio at t= 1.4700E+00 seconds is: 9.5038E-02 % MHDEQ: TG1= 1.465000 ; TG2= 1.470000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.644E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5888E+00 0.0000E+00 -7.0109E-02 0.0000E+00 1.6772E+00 5.2023E-02 1 0 4.6594E-01 5.8013E-02 5.8013E-02 8.5592E-01 2 0 3.6461E-02 5.7266E-02 2.5010E-03 -2.6099E-02 3 0 2.3248E-02 -9.2617E-03 -6.0790E-03 -6.2213E-03 4 0 -3.0750E-03 -3.0625E-03 -2.0009E-03 4.2729E-03 5 0 -1.2134E-04 6.6724E-04 1.2861E-03 1.7531E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.52E-02 5.30E-02 4.25E-03 4.99E-04 1.10E+00 1.677E+00 5.202E-02 3.05664E+01 1.07E-02 1.000 1.27 1.02 100 2.51E-06 1.15E-06 7.21E-07 1.55E-09 8.24E-10 1.10E+00 1.671E+00 4.555E-02 2.80194E+01 1.19E-02 1.000 1.27 1.22 109 9.33E-07 4.95E-07 3.01E-07 1.48E-10 1.97E-09 1.10E+00 1.672E+00 4.666E-02 2.80192E+01 1.19E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.438E-07 d(ln R0)/dt = 5.878E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.17E-02 8.04E-02 2.07E-04 1.45E-08 4.03E-08 1.10E+00 1.672E+00 4.680E-02 2.80170E+01 1.20E-02 1.000 1.27 1.24 100 2.74E-06 1.06E-06 3.51E-08 7.03E-12 2.07E-11 1.10E+00 1.676E+00 5.107E-02 2.83584E+01 1.18E-02 1.006 1.27 1.27 200 6.07E-08 1.69E-08 3.39E-09 2.45E-13 4.12E-13 1.10E+00 1.677E+00 5.142E-02 2.73812E+01 1.23E-02 0.989 1.27 1.27 300 1.48E-08 4.09E-09 3.48E-10 1.21E-14 2.70E-14 1.10E+00 1.677E+00 5.156E-02 2.69954E+01 1.24E-02 0.982 1.27 1.27 400 4.55E-09 1.32E-09 4.89E-11 1.29E-15 2.23E-15 1.10E+00 1.677E+00 5.165E-02 2.67562E+01 1.25E-02 0.978 1.27 1.27 500 1.89E-09 5.09E-10 1.26E-11 2.99E-16 4.11E-16 1.10E+00 1.677E+00 5.168E-02 2.66612E+01 1.26E-02 0.976 1.27 1.27 559 9.97E-10 2.72E-10 5.30E-12 1.74E-16 2.05E-16 1.10E+00 1.677E+00 5.170E-02 2.66194E+01 1.26E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.857E-05 d(ln R0)/dt = 4.893E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.280916 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7773E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5038E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.465000 TO TG2= 1.470000 @ NSTEP 875 GFRAME TG2 MOMENTS CHECKSUM: 9.0020513877740E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 875 TA= 1.46500E+00 CPU TIME= 2.98633E+00 SECONDS. DT= 7.58849E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6124E+00 2.9873E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5566E+20 nbi_getprofiles ne*dVol sum (ions): 4.5566E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15541 - 0 (killed) + 5108 (dep) = 20649 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6222 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7717 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7922 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8046 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8062 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8225 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8309 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8366 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8549 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8757 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8769 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8814 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9038 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9096 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9256 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9262 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9320 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9700 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9728 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9798 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9813 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9875 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9914 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9987 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9996 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10002 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10008 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10233 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10279 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10357 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10376 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10407 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20649 SPL= 0 TOT=15442 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 882 TA= 1.47000E+00 CPU TIME= 2.43359E+00 SECONDS. DT= 8.38917E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.470000E+00 NSTEP= 882 Hash code: 9311974 ->PRGCHK: bdy curvature ratio at t= 1.4750E+00 seconds is: 9.4626E-02 % MHDEQ: TG1= 1.470000 ; TG2= 1.475000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.642E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5887E+00 0.0000E+00 -7.0666E-02 0.0000E+00 1.6774E+00 5.1697E-02 1 0 4.6583E-01 5.8149E-02 5.8149E-02 8.5549E-01 2 0 3.6511E-02 5.7338E-02 2.5215E-03 -2.6110E-02 3 0 2.3228E-02 -9.2941E-03 -6.0874E-03 -6.2081E-03 4 0 -3.0930E-03 -3.0479E-03 -1.9952E-03 4.2815E-03 5 0 -1.1845E-04 6.6886E-04 1.2900E-03 1.7507E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.56E-02 5.32E-02 4.25E-03 5.01E-04 1.10E+00 1.677E+00 5.170E-02 3.05580E+01 1.07E-02 1.000 1.27 1.02 100 2.61E-06 1.19E-06 7.37E-07 1.62E-09 8.22E-10 1.10E+00 1.671E+00 4.525E-02 2.80028E+01 1.19E-02 1.000 1.27 1.23 109 9.49E-07 4.88E-07 3.00E-07 1.55E-10 2.00E-09 1.10E+00 1.672E+00 4.634E-02 2.80026E+01 1.19E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 9.96E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.296E-07 d(ln R0)/dt = 5.629E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.24E-02 8.03E-02 2.08E-04 1.44E-08 4.08E-08 1.10E+00 1.672E+00 4.647E-02 2.80001E+01 1.20E-02 1.000 1.27 1.24 100 2.92E-06 1.13E-06 3.67E-08 6.96E-12 2.05E-11 1.10E+00 1.676E+00 5.077E-02 2.82463E+01 1.19E-02 1.004 1.27 1.27 200 6.16E-08 1.72E-08 3.43E-09 2.49E-13 4.21E-13 1.10E+00 1.677E+00 5.112E-02 2.72771E+01 1.24E-02 0.987 1.27 1.27 300 1.50E-08 4.21E-09 3.59E-10 1.26E-14 2.80E-14 1.10E+00 1.677E+00 5.126E-02 2.68915E+01 1.25E-02 0.980 1.27 1.27 400 4.66E-09 1.37E-09 5.09E-11 1.36E-15 2.36E-15 1.10E+00 1.678E+00 5.135E-02 2.66541E+01 1.26E-02 0.976 1.27 1.27 500 1.95E-09 5.25E-10 1.31E-11 3.22E-16 4.35E-16 1.10E+00 1.678E+00 5.139E-02 2.65566E+01 1.27E-02 0.974 1.27 1.27 560 1.00E-09 2.79E-10 5.32E-12 1.80E-16 2.14E-16 1.10E+00 1.678E+00 5.140E-02 2.65124E+01 1.27E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.947E-05 d(ln R0)/dt = 5.123E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.261440 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3594E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4626E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.470000 TO TG2= 1.475000 @ NSTEP 882 GFRAME TG2 MOMENTS CHECKSUM: 9.0011899092738E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 882 TA= 1.47000E+00 CPU TIME= 2.45703E+00 SECONDS. DT= 8.38917E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 883 TA= 1.47048E+00 CPU TIME= 2.61914E+00 SECONDS. DT= 6.02795E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 890 TA= 1.47444E+00 CPU TIME= 2.48242E+00 SECONDS. DT= 5.57202E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.54143E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.83675E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.28065E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.83675E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.28065E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.475000E+00 NSTEP= 891 Hash code: 101730327 ->PRGCHK: bdy curvature ratio at t= 1.4800E+00 seconds is: 9.4214E-02 % MHDEQ: TG1= 1.475000 ; TG2= 1.480000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.640E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5887E+00 0.0000E+00 -7.1224E-02 0.0000E+00 1.6778E+00 5.1404E-02 1 0 4.6571E-01 5.8286E-02 5.8286E-02 8.5506E-01 2 0 3.6560E-02 5.7410E-02 2.5420E-03 -2.6120E-02 3 0 2.3208E-02 -9.3265E-03 -6.0958E-03 -6.1949E-03 4 0 -3.1111E-03 -3.0333E-03 -1.9896E-03 4.2900E-03 5 0 -1.1555E-04 6.7048E-04 1.2939E-03 1.7484E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.29E-01 4.61E-02 5.34E-02 4.26E-03 5.03E-04 1.10E+00 1.678E+00 5.140E-02 3.05501E+01 1.09E-02 1.000 1.27 1.02 100 2.91E-06 1.33E-06 8.06E-07 1.74E-09 8.67E-10 1.10E+00 1.671E+00 4.503E-02 2.79827E+01 1.20E-02 1.000 1.27 1.23 114 7.67E-07 3.16E-07 2.63E-07 1.49E-10 1.09E-09 1.10E+00 1.673E+00 4.669E-02 2.79825E+01 1.20E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.769E-07 d(ln R0)/dt = 5.435E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.55E-02 8.50E-02 2.12E-04 1.39E-08 3.99E-08 1.10E+00 1.673E+00 4.679E-02 2.79803E+01 1.21E-02 1.000 1.27 1.25 100 2.97E-06 1.14E-06 3.63E-08 6.58E-12 1.89E-11 1.10E+00 1.676E+00 5.042E-02 2.81011E+01 1.21E-02 1.002 1.27 1.27 200 6.21E-08 1.75E-08 3.34E-09 2.41E-13 3.96E-13 1.10E+00 1.677E+00 5.077E-02 2.71445E+01 1.25E-02 0.985 1.27 1.27 300 1.50E-08 4.17E-09 3.50E-10 1.24E-14 2.75E-14 1.10E+00 1.677E+00 5.091E-02 2.67651E+01 1.27E-02 0.978 1.27 1.27 400 4.62E-09 1.38E-09 5.06E-11 1.35E-15 2.33E-15 1.10E+00 1.678E+00 5.100E-02 2.65290E+01 1.28E-02 0.974 1.27 1.27 500 1.97E-09 5.29E-10 1.32E-11 3.26E-16 4.37E-16 1.10E+00 1.678E+00 5.104E-02 2.64321E+01 1.29E-02 0.972 1.27 1.27 561 9.82E-10 2.78E-10 5.25E-12 1.92E-16 2.25E-16 1.10E+00 1.678E+00 5.105E-02 2.63864E+01 1.29E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.042E-05 d(ln R0)/dt = 5.266E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.01 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.278695 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4214E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.475000 TO TG2= 1.480000 @ NSTEP 891 GFRAME TG2 MOMENTS CHECKSUM: 8.9998217518795E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 891 TA= 1.47500E+00 CPU TIME= 2.55469E+00 SECONDS. DT= 7.89581E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 892 TA= 1.47552E+00 CPU TIME= 2.46289E+00 SECONDS. DT= 6.47527E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 898 TA= 1.47872E+00 CPU TIME= 2.41797E+00 SECONDS. DT= 6.24590E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.099609375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6129E+00 2.9868E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.6394E+20 nbi_getprofiles ne*dVol sum (ions): 4.6394E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15442 - 0 (killed) + 5165 (dep) = 20607 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5175 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7848 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7891 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7980 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8324 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8468 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8535 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8554 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8568 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8780 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8793 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8845 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8936 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8996 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9019 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9114 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9151 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9172 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9302 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9727 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9841 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9977 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10030 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10036 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10100 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10150 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10254 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10342 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20607 SPL= 0 TOT=15402 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 901 TA= 1.48000E+00 CPU TIME= 2.46094E+00 SECONDS. DT= 3.69960E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.480000E+00 NSTEP= 901 Hash code: 42047581 ->PRGCHK: bdy curvature ratio at t= 1.4850E+00 seconds is: 9.3804E-02 % MHDEQ: TG1= 1.480000 ; TG2= 1.485000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.637E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5886E+00 0.0000E+00 -7.1781E-02 0.0000E+00 1.6778E+00 5.1051E-02 1 0 4.6560E-01 5.8423E-02 5.8423E-02 8.5462E-01 2 0 3.6609E-02 5.7481E-02 2.5625E-03 -2.6130E-02 3 0 2.3187E-02 -9.3589E-03 -6.1042E-03 -6.1818E-03 4 0 -3.1291E-03 -3.0187E-03 -1.9839E-03 4.2986E-03 5 0 -1.1266E-04 6.7210E-04 1.2978E-03 1.7460E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.29E-01 4.63E-02 5.35E-02 4.26E-03 5.04E-04 1.10E+00 1.678E+00 5.105E-02 3.05097E+01 1.10E-02 1.000 1.27 1.02 100 2.87E-06 1.28E-06 7.98E-07 1.71E-09 8.83E-10 1.10E+00 1.671E+00 4.466E-02 2.79457E+01 1.22E-02 1.000 1.27 1.23 114 7.65E-07 3.19E-07 2.64E-07 1.50E-10 1.09E-09 1.10E+00 1.673E+00 4.633E-02 2.79455E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.908E-07 d(ln R0)/dt = 5.563E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.63E-02 8.59E-02 2.13E-04 1.46E-08 4.03E-08 1.10E+00 1.673E+00 4.644E-02 2.79436E+01 1.23E-02 1.000 1.27 1.25 100 2.97E-06 1.15E-06 3.64E-08 6.65E-12 1.92E-11 1.10E+00 1.676E+00 5.004E-02 2.80894E+01 1.22E-02 1.003 1.27 1.27 200 6.29E-08 1.79E-08 3.37E-09 2.42E-13 3.89E-13 1.10E+00 1.677E+00 5.039E-02 2.71205E+01 1.27E-02 0.985 1.27 1.27 300 1.51E-08 4.21E-09 3.49E-10 1.24E-14 2.73E-14 1.10E+00 1.677E+00 5.053E-02 2.67398E+01 1.28E-02 0.979 1.27 1.27 400 4.63E-09 1.41E-09 5.09E-11 1.35E-15 2.35E-15 1.10E+00 1.677E+00 5.062E-02 2.65002E+01 1.30E-02 0.974 1.27 1.27 500 2.01E-09 5.39E-10 1.34E-11 3.27E-16 4.39E-16 1.10E+00 1.678E+00 5.065E-02 2.64050E+01 1.30E-02 0.972 1.27 1.27 561 9.97E-10 2.84E-10 5.33E-12 1.93E-16 2.26E-16 1.10E+00 1.678E+00 5.067E-02 2.63590E+01 1.30E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.098E-05 d(ln R0)/dt = 5.333E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.318216 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3008E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3804E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.480000 TO TG2= 1.485000 @ NSTEP 901 GFRAME TG2 MOMENTS CHECKSUM: 8.9977252521731E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 901 TA= 1.48000E+00 CPU TIME= 2.39844E+00 SECONDS. DT= 3.69960E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 902 TA= 1.48037E+00 CPU TIME= 2.39062E+00 SECONDS. DT= 4.62450E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 909 TA= 1.48311E+00 CPU TIME= 2.48047E+00 SECONDS. DT= 4.72162E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.20493E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.32801E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.20493E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.32801E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.485000E+00 NSTEP= 914 Hash code: 42623543 ->PRGCHK: bdy curvature ratio at t= 1.4900E+00 seconds is: 9.3395E-02 % MHDEQ: TG1= 1.485000 ; TG2= 1.490000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.635E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5886E+00 0.0000E+00 -7.2339E-02 0.0000E+00 1.6776E+00 5.0670E-02 1 0 4.6548E-01 5.8560E-02 5.8560E-02 8.5419E-01 2 0 3.6659E-02 5.7553E-02 2.5830E-03 -2.6141E-02 3 0 2.3167E-02 -9.3914E-03 -6.1125E-03 -6.1686E-03 4 0 -3.1471E-03 -3.0040E-03 -1.9783E-03 4.3071E-03 5 0 -1.0977E-04 6.7372E-04 1.3017E-03 1.7436E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.64E-02 5.35E-02 4.26E-03 5.05E-04 1.10E+00 1.678E+00 5.067E-02 3.04685E+01 1.10E-02 1.000 1.27 1.02 100 2.78E-06 1.22E-06 7.63E-07 1.68E-09 8.68E-10 1.10E+00 1.671E+00 4.412E-02 2.79114E+01 1.22E-02 1.000 1.27 1.22 114 7.61E-07 3.11E-07 2.60E-07 1.51E-10 1.09E-09 1.10E+00 1.673E+00 4.583E-02 2.79111E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.091E-07 d(ln R0)/dt = 5.779E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.65E-02 8.60E-02 2.13E-04 1.43E-08 4.06E-08 1.10E+00 1.673E+00 4.594E-02 2.79090E+01 1.23E-02 1.000 1.27 1.24 100 2.80E-06 1.09E-06 3.52E-08 6.66E-12 1.92E-11 1.10E+00 1.676E+00 4.961E-02 2.81436E+01 1.23E-02 1.004 1.27 1.27 200 6.18E-08 1.77E-08 3.38E-09 2.38E-13 3.85E-13 1.10E+00 1.677E+00 4.997E-02 2.71668E+01 1.27E-02 0.987 1.27 1.27 300 1.50E-08 4.20E-09 3.48E-10 1.24E-14 2.75E-14 1.10E+00 1.677E+00 5.011E-02 2.67882E+01 1.29E-02 0.980 1.27 1.27 400 4.63E-09 1.41E-09 5.11E-11 1.37E-15 2.35E-15 1.10E+00 1.678E+00 5.020E-02 2.65476E+01 1.30E-02 0.976 1.27 1.27 500 2.01E-09 5.38E-10 1.34E-11 3.25E-16 4.35E-16 1.10E+00 1.678E+00 5.023E-02 2.64516E+01 1.30E-02 0.974 1.27 1.27 562 9.95E-10 2.78E-10 5.34E-12 2.15E-16 2.39E-16 1.10E+00 1.678E+00 5.025E-02 2.64053E+01 1.31E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.075E-05 d(ln R0)/dt = 5.310E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.315625 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4180E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3395E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.485000 TO TG2= 1.490000 @ NSTEP 914 GFRAME TG2 MOMENTS CHECKSUM: 8.9942070292671E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 914 TA= 1.48500E+00 CPU TIME= 2.98633E+00 SECONDS. DT= 4.78106E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 915 TA= 1.48548E+00 CPU TIME= 2.94141E+00 SECONDS. DT= 5.97632E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 922 TA= 1.48848E+00 CPU TIME= 2.97461E+00 SECONDS. DT= 5.16509E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6131E+00 2.9861E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7628E+20 nbi_getprofiles ne*dVol sum (ions): 4.7628E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15402 - 0 (killed) + 5196 (dep) = 20598 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0005E+00 %ORBALL: In processor 0: orbit # IORB= 2135 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6028 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6624 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7827 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7828 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7938 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0024E+00 %ORBALL: In processor 0: orbit # IORB= 8028 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8068 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8163 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8245 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8584 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8593 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8649 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8702 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8722 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8834 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8839 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8946 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9303 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9443 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9717 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9899 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20598 SPL= 0 TOT=15358 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 926 TA= 1.49000E+00 CPU TIME= 2.41602E+00 SECONDS. DT= 2.24557E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.4900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.490000E+00 NSTEP= 926 Hash code: 100907552 ->PRGCHK: bdy curvature ratio at t= 1.4950E+00 seconds is: 9.2987E-02 % MHDEQ: TG1= 1.490000 ; TG2= 1.495000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.633E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5885E+00 0.0000E+00 -7.2896E-02 0.0000E+00 1.6777E+00 5.0249E-02 1 0 4.6537E-01 5.8697E-02 5.8697E-02 8.5376E-01 2 0 3.6708E-02 5.7625E-02 2.6035E-03 -2.6151E-02 3 0 2.3147E-02 -9.4238E-03 -6.1209E-03 -6.1554E-03 4 0 -3.1652E-03 -2.9894E-03 -1.9726E-03 4.3157E-03 5 0 -1.0688E-04 6.7535E-04 1.3056E-03 1.7413E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.29E-01 4.66E-02 5.36E-02 4.26E-03 5.06E-04 1.10E+00 1.678E+00 5.025E-02 3.04473E+01 1.11E-02 1.000 1.27 1.02 100 2.88E-06 1.24E-06 7.61E-07 1.72E-09 8.65E-10 1.10E+00 1.671E+00 4.365E-02 2.78900E+01 1.23E-02 1.000 1.27 1.22 114 7.73E-07 3.11E-07 2.60E-07 1.52E-10 1.09E-09 1.10E+00 1.672E+00 4.536E-02 2.78898E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.085E-07 d(ln R0)/dt = 5.731E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.63E-02 8.59E-02 2.13E-04 1.40E-08 4.09E-08 1.10E+00 1.673E+00 4.548E-02 2.78875E+01 1.24E-02 1.000 1.27 1.24 100 2.72E-06 1.06E-06 3.45E-08 6.62E-12 1.93E-11 1.10E+00 1.676E+00 4.920E-02 2.81480E+01 1.23E-02 1.005 1.27 1.27 200 6.08E-08 1.76E-08 3.39E-09 2.35E-13 3.81E-13 1.10E+00 1.677E+00 4.957E-02 2.71730E+01 1.27E-02 0.987 1.27 1.27 300 1.48E-08 4.17E-09 3.46E-10 1.24E-14 2.79E-14 1.10E+00 1.677E+00 4.970E-02 2.67982E+01 1.29E-02 0.981 1.27 1.27 400 4.58E-09 1.39E-09 5.10E-11 1.38E-15 2.34E-15 1.10E+00 1.678E+00 4.979E-02 2.65580E+01 1.30E-02 0.976 1.27 1.27 500 1.98E-09 5.32E-10 1.32E-11 3.23E-16 4.33E-16 1.10E+00 1.678E+00 4.983E-02 2.64622E+01 1.31E-02 0.974 1.27 1.27 561 9.94E-10 2.83E-10 5.28E-12 1.89E-16 2.19E-16 1.10E+00 1.678E+00 4.984E-02 2.64175E+01 1.31E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.046E-05 d(ln R0)/dt = 5.283E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.336377 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3789E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2987E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.490000 TO TG2= 1.495000 @ NSTEP 926 GFRAME TG2 MOMENTS CHECKSUM: 8.9911083309041E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 926 TA= 1.49000E+00 CPU TIME= 2.39648E+00 SECONDS. DT= 2.24557E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 927 TA= 1.49022E+00 CPU TIME= 3.20898E+00 SECONDS. DT= 2.80696E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 934 TA= 1.49329E+00 CPU TIME= 3.19922E+00 SECONDS. DT= 5.98093E-04 %MFRCHK - LABEL "QMINORB", # 3= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10227E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.31694E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10227E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.31694E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.495000E+00 NSTEP= 938 Hash code: 52940600 ->PRGCHK: bdy curvature ratio at t= 1.5000E+00 seconds is: 9.2581E-02 % MHDEQ: TG1= 1.495000 ; TG2= 1.500000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.631E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5885E+00 0.0000E+00 -7.3453E-02 0.0000E+00 1.6778E+00 4.9843E-02 1 0 4.6526E-01 5.8833E-02 5.8833E-02 8.5333E-01 2 0 3.6757E-02 5.7696E-02 2.6240E-03 -2.6161E-02 3 0 2.3126E-02 -9.4562E-03 -6.1293E-03 -6.1422E-03 4 0 -3.1832E-03 -2.9748E-03 -1.9670E-03 4.3242E-03 5 0 -1.0399E-04 6.7697E-04 1.3095E-03 1.7389E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.29E-01 4.68E-02 5.37E-02 4.26E-03 5.07E-04 1.10E+00 1.678E+00 4.984E-02 3.04281E+01 1.11E-02 1.000 1.27 1.02 100 2.99E-06 1.29E-06 7.92E-07 1.76E-09 8.92E-10 1.10E+00 1.671E+00 4.326E-02 2.78691E+01 1.23E-02 1.000 1.27 1.22 114 7.84E-07 3.20E-07 2.64E-07 1.53E-10 1.08E-09 1.10E+00 1.672E+00 4.495E-02 2.78689E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.977E-07 d(ln R0)/dt = 5.495E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.60E-02 8.66E-02 2.13E-04 1.39E-08 4.08E-08 1.10E+00 1.672E+00 4.506E-02 2.78666E+01 1.24E-02 1.000 1.27 1.24 100 2.79E-06 1.10E-06 3.53E-08 6.54E-12 1.91E-11 1.10E+00 1.676E+00 4.875E-02 2.81175E+01 1.23E-02 1.004 1.27 1.27 200 6.09E-08 1.77E-08 3.39E-09 2.36E-13 3.79E-13 1.10E+00 1.677E+00 4.911E-02 2.71477E+01 1.28E-02 0.987 1.27 1.27 300 1.47E-08 4.18E-09 3.47E-10 1.24E-14 2.82E-14 1.10E+00 1.677E+00 4.925E-02 2.67749E+01 1.30E-02 0.981 1.27 1.27 400 4.55E-09 1.40E-09 5.13E-11 1.40E-15 2.38E-15 1.10E+00 1.677E+00 4.933E-02 2.65352E+01 1.31E-02 0.976 1.27 1.27 500 1.97E-09 5.30E-10 1.32E-11 3.24E-16 4.31E-16 1.10E+00 1.677E+00 4.937E-02 2.64385E+01 1.31E-02 0.974 1.27 1.27 561 9.88E-10 2.82E-10 5.21E-12 1.81E-16 2.11E-16 1.10E+00 1.677E+00 4.939E-02 2.63935E+01 1.32E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.018E-05 d(ln R0)/dt = 5.189E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.306955 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7383E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2581E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.495000 TO TG2= 1.500000 @ NSTEP 938 GFRAME TG2 MOMENTS CHECKSUM: 8.9880846349406E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 938 TA= 1.49500E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 5.81504E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 939 TA= 1.49546E+00 CPU TIME= 3.00977E+00 SECONDS. DT= 5.73599E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 946 TA= 1.49855E+00 CPU TIME= 3.13281E+00 SECONDS. DT= 5.37168E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.103515625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6132E+00 2.9857E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7669E+20 nbi_getprofiles ne*dVol sum (ions): 4.7669E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15358 - 0 (killed) + 5229 (dep) = 20587 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6132 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7531 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7738 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7814 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8013 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8147 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8200 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8203 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8344 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8404 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8503 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8970 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9200 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9348 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9406 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9493 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9552 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9596 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9628 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10053 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10086 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10090 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10126 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10301 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10303 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20587 SPL= 0 TOT=15325 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 950 TA= 1.50000E+00 CPU TIME= 3.14453E+00 SECONDS. DT= 2.26668E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.500000E+00 NSTEP= 950 Hash code: 107583104 ->PRGCHK: bdy curvature ratio at t= 1.5050E+00 seconds is: 9.2985E-02 % MHDEQ: TG1= 1.500000 ; TG2= 1.505000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.636E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5882E+00 0.0000E+00 -7.2910E-02 0.0000E+00 1.6775E+00 4.9386E-02 1 0 4.6555E-01 5.8563E-02 5.8563E-02 8.5384E-01 2 0 3.6770E-02 5.7623E-02 2.5060E-03 -2.6174E-02 3 0 2.3176E-02 -9.4406E-03 -6.1528E-03 -6.1628E-03 4 0 -3.1760E-03 -3.0162E-03 -1.9860E-03 4.3306E-03 5 0 -1.0451E-04 6.6175E-04 1.3041E-03 1.7468E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.60E-02 5.35E-02 4.27E-03 5.01E-04 1.10E+00 1.677E+00 4.939E-02 3.05066E+01 1.12E-02 1.000 1.27 1.02 100 2.87E-06 1.28E-06 7.95E-07 1.72E-09 8.81E-10 1.10E+00 1.670E+00 4.350E-02 2.79431E+01 1.24E-02 1.000 1.27 1.23 114 7.65E-07 3.22E-07 2.65E-07 1.52E-10 1.08E-09 1.10E+00 1.672E+00 4.516E-02 2.79429E+01 1.24E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.977E-07 d(ln R0)/dt = 5.489E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.60E-02 8.75E-02 2.15E-04 1.39E-08 4.07E-08 1.10E+00 1.672E+00 4.527E-02 2.79406E+01 1.25E-02 1.000 1.27 1.25 100 3.14E-06 1.22E-06 3.79E-08 6.60E-12 1.93E-11 1.10E+00 1.675E+00 4.894E-02 2.80173E+01 1.24E-02 1.001 1.27 1.27 200 6.30E-08 1.81E-08 3.40E-09 2.42E-13 3.85E-13 1.10E+00 1.676E+00 4.931E-02 2.70582E+01 1.29E-02 0.984 1.27 1.27 300 1.50E-08 4.22E-09 3.50E-10 1.25E-14 2.82E-14 1.10E+00 1.677E+00 4.944E-02 2.66842E+01 1.31E-02 0.978 1.27 1.27 400 4.59E-09 1.41E-09 5.15E-11 1.38E-15 2.39E-15 1.10E+00 1.677E+00 4.953E-02 2.64471E+01 1.32E-02 0.973 1.27 1.27 500 1.99E-09 5.32E-10 1.33E-11 3.32E-16 4.40E-16 1.10E+00 1.677E+00 4.957E-02 2.63502E+01 1.32E-02 0.972 1.27 1.27 561 9.89E-10 2.83E-10 5.24E-12 1.77E-16 2.13E-16 1.10E+00 1.677E+00 4.958E-02 2.63045E+01 1.33E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.056E-05 d(ln R0)/dt = 5.217E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.280530 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7773E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.2985E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.500000 TO TG2= 1.505000 @ NSTEP 950 GFRAME TG2 MOMENTS CHECKSUM: 8.9895408269060E+03 %MFRCHK - LABEL "QMINORB", # 3= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 7.34140E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.32689E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.34140E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.32689E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 2.93656E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.41741E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 2.93656E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.41741E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.505000E+00 NSTEP= 959 Hash code: 25180349 ->PRGCHK: bdy curvature ratio at t= 1.5100E+00 seconds is: 9.3391E-02 % MHDEQ: TG1= 1.505000 ; TG2= 1.510000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.642E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5880E+00 0.0000E+00 -7.2367E-02 0.0000E+00 1.6770E+00 4.9581E-02 1 0 4.6584E-01 5.8292E-02 5.8292E-02 8.5435E-01 2 0 3.6783E-02 5.7549E-02 2.3880E-03 -2.6186E-02 3 0 2.3227E-02 -9.4250E-03 -6.1763E-03 -6.1834E-03 4 0 -3.1687E-03 -3.0575E-03 -2.0050E-03 4.3370E-03 5 0 -1.0504E-04 6.4653E-04 1.2987E-03 1.7547E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.57E-02 5.34E-02 4.27E-03 4.99E-04 1.10E+00 1.677E+00 4.958E-02 3.05834E+01 1.11E-02 1.000 1.27 1.02 100 2.72E-06 1.21E-06 7.58E-07 1.68E-09 8.45E-10 1.10E+00 1.670E+00 4.362E-02 2.80181E+01 1.23E-02 1.000 1.27 1.23 109 9.81E-07 5.06E-07 3.05E-07 1.64E-10 2.00E-09 1.10E+00 1.671E+00 4.471E-02 2.80179E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.333E-07 d(ln R0)/dt = 5.435E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.25E-02 8.26E-02 2.11E-04 1.53E-08 4.14E-08 1.10E+00 1.671E+00 4.484E-02 2.80158E+01 1.24E-02 1.000 1.27 1.25 100 3.04E-06 1.19E-06 3.78E-08 7.09E-12 2.12E-11 1.10E+00 1.675E+00 4.911E-02 2.81491E+01 1.23E-02 1.002 1.27 1.27 200 6.32E-08 1.79E-08 3.51E-09 2.51E-13 4.05E-13 1.10E+00 1.676E+00 4.948E-02 2.71721E+01 1.28E-02 0.985 1.27 1.27 300 1.50E-08 4.20E-09 3.55E-10 1.25E-14 2.84E-14 1.10E+00 1.676E+00 4.962E-02 2.67914E+01 1.30E-02 0.978 1.27 1.27 400 4.56E-09 1.39E-09 5.14E-11 1.36E-15 2.41E-15 1.10E+00 1.676E+00 4.970E-02 2.65525E+01 1.31E-02 0.974 1.27 1.27 500 1.97E-09 5.28E-10 1.33E-11 3.22E-16 4.40E-16 1.10E+00 1.677E+00 4.974E-02 2.64574E+01 1.31E-02 0.972 1.27 1.27 561 9.84E-10 2.79E-10 5.30E-12 1.82E-16 2.20E-16 1.10E+00 1.677E+00 4.975E-02 2.64125E+01 1.32E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.80E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.996E-05 d(ln R0)/dt = 5.066E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.309714 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8164E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3391E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.505000 TO TG2= 1.510000 @ NSTEP 959 GFRAME TG2 MOMENTS CHECKSUM: 8.9896949166097E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 959 TA= 1.50500E+00 CPU TIME= 3.00000E+00 SECONDS. DT= 1.35104E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.076171875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6150E+00 2.9920E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7359E+20 nbi_getprofiles ne*dVol sum (ions): 4.7359E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15325 - 0 (killed) + 5263 (dep) = 20588 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2545 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3261 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5549 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7688 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7825 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7894 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7947 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8091 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8293 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8296 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8332 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8428 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8472 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8514 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8621 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8688 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8691 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8768 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8899 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9024 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9112 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9335 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9392 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9426 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9652 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9895 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9901 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9974 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9993 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10025 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10049 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10071 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10114 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10201 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10223 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10258 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20588 SPL= 0 TOT=15373 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 964 TA= 1.51000E+00 CPU TIME= 2.93164E+00 SECONDS. DT= 9.25106E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.510000E+00 NSTEP= 964 Hash code: 22281356 ->PRGCHK: bdy curvature ratio at t= 1.5150E+00 seconds is: 9.3797E-02 % MHDEQ: TG1= 1.510000 ; TG2= 1.515000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.645E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5877E+00 0.0000E+00 -7.1824E-02 0.0000E+00 1.6766E+00 4.9751E-02 1 0 4.6613E-01 5.8022E-02 5.8022E-02 8.5487E-01 2 0 3.6797E-02 5.7475E-02 2.2700E-03 -2.6199E-02 3 0 2.3277E-02 -9.4093E-03 -6.1998E-03 -6.2041E-03 4 0 -3.1615E-03 -3.0989E-03 -2.0240E-03 4.3434E-03 5 0 -1.0556E-04 6.3131E-04 1.2933E-03 1.7626E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.54E-02 5.33E-02 4.27E-03 4.97E-04 1.10E+00 1.677E+00 4.975E-02 3.05971E+01 1.11E-02 1.000 1.27 1.02 100 2.62E-06 1.17E-06 7.32E-07 1.63E-09 8.16E-10 1.10E+00 1.670E+00 4.379E-02 2.80360E+01 1.22E-02 1.000 1.27 1.22 109 9.61E-07 4.94E-07 3.05E-07 1.57E-10 2.00E-09 1.10E+00 1.671E+00 4.488E-02 2.80358E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.437E-07 d(ln R0)/dt = 5.640E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.22E-02 8.25E-02 2.12E-04 1.58E-08 4.12E-08 1.10E+00 1.671E+00 4.502E-02 2.80339E+01 1.23E-02 1.000 1.27 1.24 100 2.84E-06 1.11E-06 3.65E-08 7.23E-12 2.19E-11 1.10E+00 1.674E+00 4.927E-02 2.82893E+01 1.22E-02 1.005 1.27 1.27 200 6.16E-08 1.75E-08 3.49E-09 2.48E-13 4.06E-13 1.10E+00 1.675E+00 4.965E-02 2.73074E+01 1.27E-02 0.987 1.27 1.27 300 1.46E-08 4.12E-09 3.50E-10 1.22E-14 2.79E-14 1.10E+00 1.676E+00 4.978E-02 2.69268E+01 1.28E-02 0.980 1.27 1.27 400 4.46E-09 1.34E-09 5.01E-11 1.30E-15 2.32E-15 1.10E+00 1.676E+00 4.986E-02 2.66891E+01 1.30E-02 0.976 1.27 1.27 500 1.90E-09 5.10E-10 1.29E-11 3.07E-16 4.26E-16 1.10E+00 1.676E+00 4.990E-02 2.65950E+01 1.30E-02 0.974 1.27 1.27 559 9.99E-10 2.72E-10 5.37E-12 1.73E-16 2.03E-16 1.10E+00 1.676E+00 4.991E-02 2.65530E+01 1.30E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.881E-05 d(ln R0)/dt = 4.830E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.338273 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7773E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.3797E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.510000 TO TG2= 1.515000 @ NSTEP 964 GFRAME TG2 MOMENTS CHECKSUM: 8.9890489427800E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 964 TA= 1.51000E+00 CPU TIME= 3.04883E+00 SECONDS. DT= 9.25106E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 965 TA= 1.51046E+00 CPU TIME= 2.96094E+00 SECONDS. DT= 5.78693E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 972 TA= 1.51360E+00 CPU TIME= 2.86523E+00 SECONDS. DT= 5.45063E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.82169E-44 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 15= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.93808E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.26061E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.93808E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.26061E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.515000E+00 NSTEP= 976 Hash code: 7114679 ->PRGCHK: bdy curvature ratio at t= 1.5200E+00 seconds is: 9.4205E-02 % MHDEQ: TG1= 1.515000 ; TG2= 1.520000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.647E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5875E+00 0.0000E+00 -7.1281E-02 0.0000E+00 1.6761E+00 4.9911E-02 1 0 4.6642E-01 5.7751E-02 5.7751E-02 8.5538E-01 2 0 3.6810E-02 5.7401E-02 2.1520E-03 -2.6212E-02 3 0 2.3327E-02 -9.3937E-03 -6.2233E-03 -6.2247E-03 4 0 -3.1542E-03 -3.1402E-03 -2.0431E-03 4.3498E-03 5 0 -1.0608E-04 6.1609E-04 1.2879E-03 1.7705E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.50E-02 5.32E-02 4.27E-03 4.95E-04 1.10E+00 1.676E+00 4.991E-02 3.06077E+01 1.11E-02 1.000 1.27 1.02 100 2.51E-06 1.14E-06 7.21E-07 1.57E-09 8.16E-10 1.10E+00 1.670E+00 4.398E-02 2.80515E+01 1.23E-02 1.000 1.27 1.23 109 9.50E-07 5.01E-07 3.07E-07 1.52E-10 1.97E-09 1.10E+00 1.671E+00 4.510E-02 2.80514E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.98E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.576E-07 d(ln R0)/dt = 5.852E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.21E-02 8.33E-02 2.12E-04 1.59E-08 4.15E-08 1.10E+00 1.671E+00 4.524E-02 2.80496E+01 1.24E-02 1.000 1.27 1.24 100 2.77E-06 1.09E-06 3.58E-08 7.28E-12 2.21E-11 1.10E+00 1.674E+00 4.951E-02 2.82686E+01 1.23E-02 1.004 1.27 1.27 200 6.14E-08 1.74E-08 3.46E-09 2.46E-13 3.97E-13 1.10E+00 1.675E+00 4.990E-02 2.72961E+01 1.27E-02 0.987 1.27 1.27 300 1.43E-08 3.98E-09 3.37E-10 1.17E-14 2.65E-14 1.10E+00 1.676E+00 5.003E-02 2.69171E+01 1.29E-02 0.980 1.27 1.27 400 4.28E-09 1.28E-09 4.82E-11 1.24E-15 2.23E-15 1.10E+00 1.676E+00 5.011E-02 2.66845E+01 1.30E-02 0.976 1.27 1.27 500 1.82E-09 4.90E-10 1.26E-11 3.01E-16 4.26E-16 1.10E+00 1.676E+00 5.014E-02 2.65952E+01 1.31E-02 0.974 1.27 1.27 556 9.93E-10 2.76E-10 5.67E-12 2.12E-16 2.56E-16 1.10E+00 1.676E+00 5.016E-02 2.65564E+01 1.31E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.84E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.859E-05 d(ln R0)/dt = 4.762E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.77 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.337179 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.9883E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4205E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.515000 TO TG2= 1.520000 @ NSTEP 976 GFRAME TG2 MOMENTS CHECKSUM: 8.9900368042961E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 976 TA= 1.51500E+00 CPU TIME= 2.95898E+00 SECONDS. DT= 5.31127E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 977 TA= 1.51542E+00 CPU TIME= 3.00000E+00 SECONDS. DT= 5.26634E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 984 TA= 1.51827E+00 CPU TIME= 2.98633E+00 SECONDS. DT= 4.96464E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10546875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6136E+00 2.9916E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8256E+20 nbi_getprofiles ne*dVol sum (ions): 4.8256E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15373 - 0 (killed) + 5288 (dep) = 20661 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6046 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6703 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7723 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7730 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8112 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8156 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8215 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8236 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8322 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8419 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8955 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8983 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9141 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9195 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9283 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9620 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9731 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9735 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9852 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9889 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9944 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10021 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10317 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20661 SPL= 0 TOT=15436 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 989 TA= 1.52000E+00 CPU TIME= 2.55859E+00 SECONDS. DT= 2.14047E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.520000E+00 NSTEP= 989 Hash code: 106764275 ->PRGCHK: bdy curvature ratio at t= 1.5250E+00 seconds is: 9.4614E-02 % MHDEQ: TG1= 1.520000 ; TG2= 1.525000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.650E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5872E+00 0.0000E+00 -7.0737E-02 0.0000E+00 1.6759E+00 5.0155E-02 1 0 4.6671E-01 5.7481E-02 5.7481E-02 8.5589E-01 2 0 3.6823E-02 5.7328E-02 2.0340E-03 -2.6224E-02 3 0 2.3377E-02 -9.3781E-03 -6.2468E-03 -6.2453E-03 4 0 -3.1470E-03 -3.1816E-03 -2.0621E-03 4.3561E-03 5 0 -1.0660E-04 6.0087E-04 1.2825E-03 1.7783E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.48E-02 5.33E-02 4.27E-03 4.94E-04 1.10E+00 1.676E+00 5.016E-02 3.06110E+01 1.12E-02 1.000 1.27 1.02 100 2.49E-06 1.15E-06 7.26E-07 1.56E-09 8.14E-10 1.10E+00 1.670E+00 4.420E-02 2.80521E+01 1.24E-02 1.000 1.27 1.23 109 9.59E-07 5.09E-07 3.09E-07 1.53E-10 1.97E-09 1.10E+00 1.671E+00 4.532E-02 2.80519E+01 1.24E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.619E-07 d(ln R0)/dt = 5.902E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.24E-02 8.40E-02 2.12E-04 1.62E-08 4.20E-08 1.10E+00 1.671E+00 4.546E-02 2.80503E+01 1.25E-02 1.000 1.27 1.25 100 2.66E-06 1.06E-06 3.52E-08 7.33E-12 2.26E-11 1.10E+00 1.674E+00 4.975E-02 2.82425E+01 1.24E-02 1.003 1.27 1.27 200 6.11E-08 1.72E-08 3.44E-09 2.44E-13 3.91E-13 1.10E+00 1.675E+00 5.015E-02 2.72795E+01 1.28E-02 0.986 1.27 1.27 300 1.39E-08 3.84E-09 3.26E-10 1.13E-14 2.53E-14 1.10E+00 1.675E+00 5.028E-02 2.69027E+01 1.30E-02 0.980 1.27 1.27 400 4.12E-09 1.23E-09 4.68E-11 1.19E-15 2.17E-15 1.10E+00 1.676E+00 5.036E-02 2.66765E+01 1.31E-02 0.976 1.27 1.27 500 1.75E-09 4.70E-10 1.24E-11 3.02E-16 4.36E-16 1.10E+00 1.676E+00 5.039E-02 2.65916E+01 1.32E-02 0.974 1.27 1.27 554 9.82E-10 2.70E-10 5.72E-12 1.87E-16 2.53E-16 1.10E+00 1.676E+00 5.040E-02 2.65545E+01 1.32E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.25E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.854E-05 d(ln R0)/dt = 4.748E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.335750 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4961E-01 SECONDS DATA R*BT AT EDGE: 3.3357E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.4614E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.520000 TO TG2= 1.525000 @ NSTEP 989 GFRAME TG2 MOMENTS CHECKSUM: 8.9909345268024E+03 %MFRCHK - LABEL "QMINORB", # 5= 1.54143E-44 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 15= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 7.33759E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.25654E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 7.33759E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.25654E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.10064E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.34104E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.10064E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.34104E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.525000E+00 NSTEP= 998 Hash code: 88946438 ->PRGCHK: bdy curvature ratio at t= 1.5300E+00 seconds is: 9.5025E-02 % MHDEQ: TG1= 1.525000 ; TG2= 1.530000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.652E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5870E+00 0.0000E+00 -7.0194E-02 0.0000E+00 1.6757E+00 5.0401E-02 1 0 4.6700E-01 5.7210E-02 5.7210E-02 8.5640E-01 2 0 3.6836E-02 5.7254E-02 1.9160E-03 -2.6237E-02 3 0 2.3427E-02 -9.3624E-03 -6.2703E-03 -6.2659E-03 4 0 -3.1398E-03 -3.2229E-03 -2.0811E-03 4.3625E-03 5 0 -1.0712E-04 5.8565E-04 1.2771E-03 1.7862E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.47E-02 5.33E-02 4.28E-03 4.93E-04 1.10E+00 1.676E+00 5.040E-02 3.06212E+01 1.11E-02 1.000 1.26 1.02 100 2.46E-06 1.15E-06 7.24E-07 1.55E-09 8.04E-10 1.10E+00 1.669E+00 4.439E-02 2.80593E+01 1.23E-02 1.000 1.26 1.22 109 9.58E-07 5.06E-07 3.10E-07 1.52E-10 1.97E-09 1.10E+00 1.670E+00 4.551E-02 2.80591E+01 1.23E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.658E-07 d(ln R0)/dt = 5.940E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.17E-02 8.41E-02 2.12E-04 1.63E-08 4.22E-08 1.10E+00 1.670E+00 4.565E-02 2.80575E+01 1.24E-02 1.000 1.26 1.24 100 2.58E-06 1.03E-06 3.49E-08 7.31E-12 2.29E-11 1.10E+00 1.674E+00 4.996E-02 2.82757E+01 1.23E-02 1.004 1.26 1.27 200 6.01E-08 1.68E-08 3.40E-09 2.42E-13 3.88E-13 1.10E+00 1.675E+00 5.038E-02 2.73195E+01 1.28E-02 0.987 1.26 1.26 300 1.35E-08 3.74E-09 3.19E-10 1.09E-14 2.47E-14 1.10E+00 1.675E+00 5.050E-02 2.69448E+01 1.30E-02 0.980 1.26 1.26 400 4.00E-09 1.19E-09 4.57E-11 1.16E-15 2.13E-15 1.10E+00 1.675E+00 5.058E-02 2.67237E+01 1.31E-02 0.976 1.26 1.26 500 1.69E-09 4.53E-10 1.21E-11 2.98E-16 4.36E-16 1.10E+00 1.675E+00 5.060E-02 2.66397E+01 1.31E-02 0.975 1.26 1.26 550 9.96E-10 2.73E-10 6.06E-12 2.14E-16 2.63E-16 1.10E+00 1.675E+00 5.061E-02 2.66058E+01 1.31E-02 0.974 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.62E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.791E-05 d(ln R0)/dt = 4.614E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.88 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.350887 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.9453E-01 SECONDS DATA R*BT AT EDGE: 3.3339E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5025E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.525000 TO TG2= 1.530000 @ NSTEP 998 GFRAME TG2 MOMENTS CHECKSUM: 8.9912379486010E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.080078125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6122E+00 2.9913E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8101E+20 nbi_getprofiles ne*dVol sum (ions): 4.8101E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15436 - 0 (killed) + 5290 (dep) = 20726 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5630 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5670 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0070E+00 %ORBALL: In processor 0: orbit # IORB= 6375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6417 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6519 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0010E+00 %ORBALL: In processor 0: orbit # IORB= 7289 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7695 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7837 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7999 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8108 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8131 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8300 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8537 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8543 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8617 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8790 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8866 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8938 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0012E+00 %ORBALL: In processor 0: orbit # IORB= 9054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9104 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0002E+00 %ORBALL: In processor 0: orbit # IORB= 9388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9437 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9444 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9589 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9784 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9821 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9928 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9945 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10203 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10208 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20726 SPL= 0 TOT=15500 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1002 TA= 1.53000E+00 CPU TIME= 2.79492E+00 SECONDS. DT= 1.69933E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.530000E+00 NSTEP= 1002 Hash code: 80707431 ->PRGCHK: bdy curvature ratio at t= 1.5350E+00 seconds is: 9.5436E-02 % MHDEQ: TG1= 1.530000 ; TG2= 1.535000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.657E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5867E+00 0.0000E+00 -6.9651E-02 0.0000E+00 1.6754E+00 5.0615E-02 1 0 4.6729E-01 5.6940E-02 5.6940E-02 8.5691E-01 2 0 3.6849E-02 5.7180E-02 1.7980E-03 -2.6249E-02 3 0 2.3477E-02 -9.3468E-03 -6.2938E-03 -6.2865E-03 4 0 -3.1325E-03 -3.2643E-03 -2.1002E-03 4.3689E-03 5 0 -1.0765E-04 5.7043E-04 1.2718E-03 1.7941E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.44E-02 5.33E-02 4.28E-03 4.92E-04 1.10E+00 1.675E+00 5.061E-02 3.07012E+01 1.11E-02 1.000 1.27 1.02 100 2.43E-06 1.15E-06 7.20E-07 1.53E-09 7.98E-10 1.10E+00 1.669E+00 4.456E-02 2.81344E+01 1.23E-02 1.000 1.27 1.22 109 9.55E-07 5.09E-07 3.12E-07 1.51E-10 1.97E-09 1.10E+00 1.670E+00 4.568E-02 2.81342E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.62E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.715E-07 d(ln R0)/dt = 6.016E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.10E-02 8.43E-02 2.12E-04 1.64E-08 4.24E-08 1.10E+00 1.670E+00 4.583E-02 2.81326E+01 1.24E-02 1.000 1.27 1.25 100 2.47E-06 9.90E-07 3.44E-08 7.28E-12 2.30E-11 1.10E+00 1.673E+00 5.016E-02 2.83436E+01 1.23E-02 1.004 1.27 1.27 200 5.88E-08 1.63E-08 3.36E-09 2.38E-13 3.83E-13 1.10E+00 1.674E+00 5.059E-02 2.73942E+01 1.27E-02 0.987 1.27 1.27 300 1.32E-08 3.64E-09 3.11E-10 1.05E-14 2.40E-14 1.10E+00 1.675E+00 5.071E-02 2.70213E+01 1.29E-02 0.980 1.27 1.27 400 3.89E-09 1.14E-09 4.44E-11 1.12E-15 2.09E-15 1.10E+00 1.675E+00 5.078E-02 2.68051E+01 1.30E-02 0.976 1.27 1.27 500 1.63E-09 4.36E-10 1.18E-11 2.93E-16 4.33E-16 1.10E+00 1.675E+00 5.081E-02 2.67220E+01 1.30E-02 0.975 1.27 1.27 547 9.95E-10 2.72E-10 6.09E-12 2.01E-16 2.59E-16 1.10E+00 1.675E+00 5.082E-02 2.66904E+01 1.30E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.59E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.740E-05 d(ln R0)/dt = 4.498E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.420333 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5625E-01 SECONDS DATA R*BT AT EDGE: 3.3357E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5436E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.530000 TO TG2= 1.535000 @ NSTEP 1002 GFRAME TG2 MOMENTS CHECKSUM: 8.9915792356890E+03 %MFRCHK - LABEL "QMINORB", # 5= 8.40779E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.12104E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10098E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.18634E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10098E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.18634E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 2.56896E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.24800E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 2.56896E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.24800E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.535000E+00 NSTEP= 1012 Hash code: 8835362 ->PRGCHK: bdy curvature ratio at t= 1.5400E+00 seconds is: 9.5848E-02 % MHDEQ: TG1= 1.535000 ; TG2= 1.540000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.663E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5865E+00 0.0000E+00 -6.9108E-02 0.0000E+00 1.6751E+00 5.0817E-02 1 0 4.6758E-01 5.6669E-02 5.6669E-02 8.5742E-01 2 0 3.6862E-02 5.7106E-02 1.6800E-03 -2.6262E-02 3 0 2.3527E-02 -9.3312E-03 -6.3173E-03 -6.3071E-03 4 0 -3.1253E-03 -3.3056E-03 -2.1192E-03 4.3753E-03 5 0 -1.0817E-04 5.5521E-04 1.2664E-03 1.8020E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.42E-02 5.32E-02 4.28E-03 4.91E-04 1.10E+00 1.675E+00 5.082E-02 3.07800E+01 1.10E-02 1.000 1.27 1.02 100 2.45E-06 1.18E-06 7.29E-07 1.52E-09 7.93E-10 1.10E+00 1.669E+00 4.478E-02 2.82092E+01 1.22E-02 1.000 1.27 1.22 109 9.62E-07 5.22E-07 3.16E-07 1.50E-10 1.97E-09 1.10E+00 1.670E+00 4.591E-02 2.82090E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.42E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.703E-07 d(ln R0)/dt = 6.025E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.03E-02 8.45E-02 2.12E-04 1.66E-08 4.22E-08 1.10E+00 1.670E+00 4.605E-02 2.82077E+01 1.23E-02 1.000 1.27 1.25 100 2.39E-06 9.59E-07 3.40E-08 7.25E-12 2.33E-11 1.10E+00 1.673E+00 5.035E-02 2.84343E+01 1.22E-02 1.004 1.27 1.27 200 5.76E-08 1.58E-08 3.31E-09 2.34E-13 3.79E-13 1.10E+00 1.674E+00 5.077E-02 2.74931E+01 1.26E-02 0.987 1.27 1.27 300 1.28E-08 3.53E-09 3.04E-10 1.01E-14 2.34E-14 1.10E+00 1.674E+00 5.089E-02 2.71230E+01 1.28E-02 0.981 1.27 1.27 400 3.76E-09 1.10E-09 4.31E-11 1.08E-15 2.05E-15 1.10E+00 1.674E+00 5.095E-02 2.69109E+01 1.29E-02 0.977 1.27 1.27 500 1.56E-09 4.19E-10 1.14E-11 2.86E-16 4.29E-16 1.10E+00 1.675E+00 5.098E-02 2.68284E+01 1.29E-02 0.976 1.27 1.27 544 9.94E-10 2.68E-10 6.17E-12 2.10E-16 2.68E-16 1.10E+00 1.675E+00 5.099E-02 2.67990E+01 1.29E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.59E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.672E-05 d(ln R0)/dt = 4.310E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.01 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.343481 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5625E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5848E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.535000 TO TG2= 1.540000 @ NSTEP 1012 GFRAME TG2 MOMENTS CHECKSUM: 8.9916076773694E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6139E+00 2.9975E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7942E+20 nbi_getprofiles ne*dVol sum (ions): 4.7942E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15500 - 0 (killed) + 5284 (dep) = 20784 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3704 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4126 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5391 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0009E+00 %ORBALL: In processor 0: orbit # IORB= 5587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5813 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6002 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6533 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7837 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7940 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8298 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8360 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8379 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8445 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0004E+00 %ORBALL: In processor 0: orbit # IORB= 8458 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8644 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8836 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9022 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9095 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9302 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9368 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9520 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9544 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0019E+00 %ORBALL: In processor 0: orbit # IORB= 9634 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9830 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9841 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9846 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9895 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10105 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10126 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10140 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10294 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20784 SPL= 0 TOT=15409 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1016 TA= 1.54000E+00 CPU TIME= 2.74219E+00 SECONDS. DT= 2.16257E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.540000E+00 NSTEP= 1016 Hash code: 4317873 ->PRGCHK: bdy curvature ratio at t= 1.5450E+00 seconds is: 9.6262E-02 % MHDEQ: TG1= 1.540000 ; TG2= 1.545000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.668E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5862E+00 0.0000E+00 -6.8565E-02 0.0000E+00 1.6745E+00 5.0991E-02 1 0 4.6787E-01 5.6399E-02 5.6399E-02 8.5793E-01 2 0 3.6876E-02 5.7033E-02 1.5620E-03 -2.6274E-02 3 0 2.3578E-02 -9.3156E-03 -6.3408E-03 -6.3278E-03 4 0 -3.1180E-03 -3.3470E-03 -2.1382E-03 4.3817E-03 5 0 -1.0869E-04 5.3999E-04 1.2610E-03 1.8099E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.38E-02 5.31E-02 4.28E-03 4.89E-04 1.10E+00 1.675E+00 5.099E-02 3.08532E+01 1.10E-02 1.000 1.27 1.02 100 2.46E-06 1.21E-06 7.33E-07 1.51E-09 7.99E-10 1.10E+00 1.668E+00 4.498E-02 2.82842E+01 1.22E-02 1.000 1.27 1.23 109 9.73E-07 5.44E-07 3.22E-07 1.48E-10 1.98E-09 1.10E+00 1.670E+00 4.612E-02 2.82840E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.796E-07 d(ln R0)/dt = 6.201E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 5.97E-02 8.50E-02 2.12E-04 1.69E-08 4.21E-08 1.10E+00 1.670E+00 4.627E-02 2.82831E+01 1.22E-02 1.000 1.27 1.25 100 2.31E-06 9.23E-07 3.36E-08 7.20E-12 2.34E-11 1.10E+00 1.672E+00 5.053E-02 2.85011E+01 1.21E-02 1.004 1.27 1.27 200 5.62E-08 1.53E-08 3.25E-09 2.30E-13 3.74E-13 1.10E+00 1.673E+00 5.095E-02 2.75705E+01 1.25E-02 0.988 1.27 1.27 300 1.24E-08 3.42E-09 2.95E-10 9.72E-15 2.25E-14 1.10E+00 1.674E+00 5.107E-02 2.72027E+01 1.27E-02 0.981 1.27 1.27 400 3.65E-09 1.05E-09 4.17E-11 1.04E-15 2.00E-15 1.10E+00 1.674E+00 5.113E-02 2.69942E+01 1.28E-02 0.977 1.27 1.27 500 1.49E-09 4.02E-10 1.10E-11 2.76E-16 4.19E-16 1.10E+00 1.674E+00 5.116E-02 2.69128E+01 1.29E-02 0.976 1.27 1.27 540 9.88E-10 2.72E-10 6.31E-12 2.08E-16 2.77E-16 1.10E+00 1.674E+00 5.117E-02 2.68865E+01 1.29E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.51E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.604E-05 d(ln R0)/dt = 4.139E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.321924 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5234E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6262E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.540000 TO TG2= 1.545000 @ NSTEP 1016 GFRAME TG2 MOMENTS CHECKSUM: 8.9918095940076E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1016 TA= 1.54000E+00 CPU TIME= 2.79102E+00 SECONDS. DT= 2.16257E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1017 TA= 1.54022E+00 CPU TIME= 3.19727E+00 SECONDS. DT= 2.70322E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1025 TA= 1.54405E+00 CPU TIME= 2.97656E+00 SECONDS. DT= 6.67688E-04 %MFRCHK - LABEL "QMINORB", # 5= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 7.00649E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10187E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.17639E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10187E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.17639E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.30561E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.23805E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.30561E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.23805E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.545000E+00 NSTEP= 1027 Hash code: 16880708 ->PRGCHK: bdy curvature ratio at t= 1.5500E+00 seconds is: 9.6677E-02 % MHDEQ: TG1= 1.545000 ; TG2= 1.550000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.674E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5860E+00 0.0000E+00 -6.8021E-02 0.0000E+00 1.6740E+00 5.1168E-02 1 0 4.6816E-01 5.6128E-02 5.6128E-02 8.5845E-01 2 0 3.6889E-02 5.6959E-02 1.4440E-03 -2.6287E-02 3 0 2.3628E-02 -9.2999E-03 -6.3643E-03 -6.3484E-03 4 0 -3.1108E-03 -3.3883E-03 -2.1573E-03 4.3881E-03 5 0 -1.0921E-04 5.2477E-04 1.2556E-03 1.8178E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.34E-02 5.30E-02 4.28E-03 4.87E-04 1.10E+00 1.674E+00 5.117E-02 3.09272E+01 1.09E-02 1.000 1.27 1.02 100 2.58E-06 1.27E-06 7.64E-07 1.49E-09 8.04E-10 1.10E+00 1.668E+00 4.533E-02 2.83594E+01 1.21E-02 1.000 1.27 1.23 113 9.71E-07 4.09E-07 3.31E-07 2.70E-10 6.88E-10 1.10E+00 1.670E+00 4.703E-02 2.83591E+01 1.21E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.074E-07 d(ln R0)/dt = 6.605E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.19E-02 8.97E-02 2.16E-04 1.67E-08 4.13E-08 1.10E+00 1.670E+00 4.714E-02 2.83584E+01 1.22E-02 1.000 1.27 1.25 100 2.27E-06 8.89E-07 3.29E-08 6.70E-12 2.13E-11 1.10E+00 1.672E+00 5.084E-02 2.84905E+01 1.21E-02 1.002 1.27 1.27 200 5.49E-08 1.47E-08 3.04E-09 2.17E-13 3.50E-13 1.10E+00 1.673E+00 5.124E-02 2.75856E+01 1.25E-02 0.986 1.27 1.27 300 1.21E-08 3.28E-09 2.82E-10 9.29E-15 2.19E-14 1.10E+00 1.674E+00 5.135E-02 2.72283E+01 1.27E-02 0.980 1.27 1.27 400 3.53E-09 1.02E-09 4.00E-11 9.75E-16 1.97E-15 1.10E+00 1.674E+00 5.142E-02 2.70240E+01 1.28E-02 0.977 1.27 1.27 500 1.44E-09 3.88E-10 1.04E-11 2.66E-16 4.01E-16 1.10E+00 1.674E+00 5.144E-02 2.69402E+01 1.28E-02 0.975 1.27 1.27 536 9.85E-10 2.75E-10 6.28E-12 2.05E-16 2.74E-16 1.10E+00 1.674E+00 5.145E-02 2.69161E+01 1.28E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.55E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.562E-05 d(ln R0)/dt = 4.056E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.64 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.321484 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5625E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6677E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.545000 TO TG2= 1.550000 @ NSTEP 1027 GFRAME TG2 MOMENTS CHECKSUM: 8.9934749837800E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1027 TA= 1.54500E+00 CPU TIME= 2.91992E+00 SECONDS. DT= 6.62157E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1028 TA= 1.54552E+00 CPU TIME= 2.93945E+00 SECONDS. DT= 6.55441E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1035 TA= 1.54907E+00 CPU TIME= 2.93945E+00 SECONDS. DT= 6.17835E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.087890625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6157E+00 3.0036E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7683E+20 nbi_getprofiles ne*dVol sum (ions): 4.7683E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15409 - 0 (killed) + 5311 (dep) = 20720 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0045E+00 %ORBALL: In processor 0: orbit # IORB= 3044 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4322 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4850 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5473 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6187 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6775 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7785 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7806 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7984 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7991 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8055 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8137 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8178 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8257 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8405 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8409 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8410 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8624 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8748 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9058 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9107 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9231 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9242 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9343 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9387 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9542 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9613 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9753 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9772 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10188 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10276 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10278 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10334 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10349 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20720 SPL= 0 TOT=15579 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1037 TA= 1.55000E+00 CPU TIME= 3.08984E+00 SECONDS. DT= 5.45566E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.550000E+00 NSTEP= 1037 Hash code: 91684021 ->PRGCHK: bdy curvature ratio at t= 1.5550E+00 seconds is: 9.7093E-02 % MHDEQ: TG1= 1.550000 ; TG2= 1.555000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.676E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5857E+00 0.0000E+00 -6.7478E-02 0.0000E+00 1.6738E+00 5.1450E-02 1 0 4.6845E-01 5.5858E-02 5.5858E-02 8.5896E-01 2 0 3.6902E-02 5.6885E-02 1.3260E-03 -2.6300E-02 3 0 2.3678E-02 -9.2843E-03 -6.3878E-03 -6.3690E-03 4 0 -3.1035E-03 -3.4297E-03 -2.1763E-03 4.3945E-03 5 0 -1.0974E-04 5.0955E-04 1.2502E-03 1.8257E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.33E-02 5.31E-02 4.28E-03 4.86E-04 1.10E+00 1.674E+00 5.145E-02 3.09410E+01 1.09E-02 1.000 1.27 1.02 100 2.75E-06 1.37E-06 8.12E-07 1.51E-09 7.91E-10 1.10E+00 1.668E+00 4.575E-02 2.83696E+01 1.21E-02 1.000 1.27 1.23 113 9.58E-07 4.16E-07 3.38E-07 2.58E-10 6.67E-10 1.10E+00 1.670E+00 4.744E-02 2.83693E+01 1.21E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.803E-07 d(ln R0)/dt = 6.328E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.17E-02 9.03E-02 2.16E-04 1.71E-08 4.11E-08 1.10E+00 1.670E+00 4.754E-02 2.83688E+01 1.21E-02 1.000 1.27 1.25 100 2.27E-06 8.82E-07 3.30E-08 6.62E-12 2.08E-11 1.10E+00 1.672E+00 5.112E-02 2.84955E+01 1.21E-02 1.002 1.27 1.27 200 5.52E-08 1.45E-08 2.97E-09 2.14E-13 3.46E-13 1.10E+00 1.673E+00 5.152E-02 2.75950E+01 1.25E-02 0.986 1.27 1.27 300 1.21E-08 3.27E-09 2.82E-10 9.30E-15 2.18E-14 1.10E+00 1.673E+00 5.163E-02 2.72392E+01 1.27E-02 0.980 1.27 1.27 400 3.55E-09 1.02E-09 3.97E-11 9.70E-16 1.98E-15 1.10E+00 1.674E+00 5.169E-02 2.70340E+01 1.28E-02 0.977 1.27 1.27 500 1.45E-09 3.92E-10 1.05E-11 2.66E-16 4.00E-16 1.10E+00 1.674E+00 5.172E-02 2.69489E+01 1.28E-02 0.975 1.27 1.27 535 1.00E-09 2.74E-10 6.30E-12 2.09E-16 2.75E-16 1.10E+00 1.674E+00 5.173E-02 2.69244E+01 1.28E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.45E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.653E-05 d(ln R0)/dt = 4.185E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.322352 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.4453E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7093E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.550000 TO TG2= 1.555000 @ NSTEP 1037 GFRAME TG2 MOMENTS CHECKSUM: 8.9951296021472E+03 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 5.50410E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.19349E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 5.50410E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.19349E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.555000E+00 NSTEP= 1043 Hash code: 57704925 ->PRGCHK: bdy curvature ratio at t= 1.5600E+00 seconds is: 9.7510E-02 % MHDEQ: TG1= 1.555000 ; TG2= 1.560000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.679E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5854E+00 0.0000E+00 -6.6935E-02 0.0000E+00 1.6736E+00 5.1726E-02 1 0 4.6874E-01 5.5587E-02 5.5587E-02 8.5947E-01 2 0 3.6915E-02 5.6811E-02 1.2080E-03 -2.6312E-02 3 0 2.3728E-02 -9.2687E-03 -6.4113E-03 -6.3896E-03 4 0 -3.0963E-03 -3.4710E-03 -2.1953E-03 4.4009E-03 5 0 -1.1026E-04 4.9433E-04 1.2448E-03 1.8336E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.32E-02 5.31E-02 4.29E-03 4.86E-04 1.10E+00 1.674E+00 5.173E-02 3.09572E+01 1.08E-02 1.000 1.27 1.02 100 2.84E-06 1.44E-06 8.34E-07 1.51E-09 7.63E-10 1.10E+00 1.668E+00 4.600E-02 2.83825E+01 1.20E-02 1.000 1.27 1.23 113 9.52E-07 4.16E-07 3.39E-07 2.54E-10 6.48E-10 1.10E+00 1.670E+00 4.765E-02 2.83823E+01 1.20E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.625E-07 d(ln R0)/dt = 6.117E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.12E-02 9.03E-02 2.16E-04 1.60E-08 4.00E-08 1.10E+00 1.670E+00 4.775E-02 2.83815E+01 1.21E-02 1.000 1.27 1.25 100 2.19E-06 8.41E-07 3.25E-08 6.56E-12 2.05E-11 1.10E+00 1.672E+00 5.129E-02 2.84991E+01 1.20E-02 1.002 1.27 1.27 200 5.46E-08 1.42E-08 2.93E-09 2.10E-13 3.45E-13 1.10E+00 1.673E+00 5.168E-02 2.76005E+01 1.24E-02 0.986 1.27 1.27 300 1.21E-08 3.26E-09 2.80E-10 9.12E-15 2.13E-14 1.10E+00 1.673E+00 5.179E-02 2.72435E+01 1.26E-02 0.980 1.27 1.27 400 3.58E-09 1.02E-09 3.91E-11 9.33E-16 1.96E-15 1.10E+00 1.673E+00 5.185E-02 2.70377E+01 1.27E-02 0.976 1.27 1.27 500 1.45E-09 3.91E-10 1.03E-11 2.55E-16 3.88E-16 1.10E+00 1.673E+00 5.188E-02 2.69521E+01 1.27E-02 0.975 1.27 1.27 535 9.96E-10 2.73E-10 6.17E-12 2.01E-16 2.66E-16 1.10E+00 1.673E+00 5.189E-02 2.69276E+01 1.27E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.51E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.659E-05 d(ln R0)/dt = 4.180E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.310471 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5039E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7510E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.555000 TO TG2= 1.560000 @ NSTEP 1043 GFRAME TG2 MOMENTS CHECKSUM: 8.9950762756267E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1043 TA= 1.55500E+00 CPU TIME= 2.61719E+00 SECONDS. DT= 1.66494E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.10546875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6141E+00 3.0033E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7641E+20 nbi_getprofiles ne*dVol sum (ions): 4.7641E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15579 - 0 (killed) + 5275 (dep) = 20854 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4609 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6315 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8514 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8516 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0150E+00 %ORBALL: In processor 0: orbit # IORB= 8561 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8982 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9024 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9144 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9371 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9678 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9758 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9911 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9951 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10164 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10228 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20854 SPL= 0 TOT=15619 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1047 TA= 1.56000E+00 CPU TIME= 2.78320E+00 SECONDS. DT= 7.54617E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.560000E+00 NSTEP= 1047 Hash code: 13244069 ->PRGCHK: bdy curvature ratio at t= 1.5650E+00 seconds is: 9.7928E-02 % MHDEQ: TG1= 1.560000 ; TG2= 1.565000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.683E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5852E+00 0.0000E+00 -6.6392E-02 0.0000E+00 1.6733E+00 5.1888E-02 1 0 4.6903E-01 5.5317E-02 5.5317E-02 8.5998E-01 2 0 3.6928E-02 5.6738E-02 1.0900E-03 -2.6325E-02 3 0 2.3778E-02 -9.2530E-03 -6.4348E-03 -6.4102E-03 4 0 -3.0890E-03 -3.5124E-03 -2.2144E-03 4.4073E-03 5 0 -1.1078E-04 4.7911E-04 1.2394E-03 1.8415E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.29E-02 5.31E-02 4.29E-03 4.85E-04 1.10E+00 1.673E+00 5.189E-02 3.10067E+01 1.08E-02 1.000 1.27 1.02 100 2.94E-06 1.50E-06 8.55E-07 1.49E-09 7.41E-10 1.10E+00 1.668E+00 4.624E-02 2.84303E+01 1.19E-02 1.000 1.27 1.23 113 9.41E-07 4.17E-07 3.39E-07 2.45E-10 6.32E-10 1.10E+00 1.669E+00 4.787E-02 2.84301E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.461E-07 d(ln R0)/dt = 5.951E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.12E-02 9.06E-02 2.18E-04 1.52E-08 3.90E-08 1.10E+00 1.669E+00 4.796E-02 2.84292E+01 1.20E-02 1.000 1.27 1.25 100 2.10E-06 7.95E-07 3.19E-08 6.41E-12 1.99E-11 1.10E+00 1.671E+00 5.147E-02 2.84938E+01 1.20E-02 1.001 1.27 1.27 200 5.38E-08 1.39E-08 2.87E-09 2.05E-13 3.43E-13 1.10E+00 1.672E+00 5.185E-02 2.76008E+01 1.24E-02 0.986 1.27 1.27 300 1.20E-08 3.25E-09 2.78E-10 8.95E-15 2.09E-14 1.10E+00 1.673E+00 5.196E-02 2.72439E+01 1.25E-02 0.979 1.27 1.27 400 3.59E-09 1.01E-09 3.84E-11 9.00E-16 1.95E-15 1.10E+00 1.673E+00 5.202E-02 2.70384E+01 1.26E-02 0.976 1.27 1.27 500 1.43E-09 3.88E-10 1.00E-11 2.43E-16 3.75E-16 1.10E+00 1.673E+00 5.205E-02 2.69520E+01 1.27E-02 0.974 1.27 1.27 535 9.87E-10 2.69E-10 6.02E-12 1.90E-16 2.55E-16 1.10E+00 1.673E+00 5.205E-02 2.69275E+01 1.27E-02 0.974 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.55E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.636E-05 d(ln R0)/dt = 4.131E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.321627 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.5430E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7928E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.560000 TO TG2= 1.565000 @ NSTEP 1047 GFRAME TG2 MOMENTS CHECKSUM: 8.9952615234915E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1047 TA= 1.56000E+00 CPU TIME= 2.71680E+00 SECONDS. DT= 7.54617E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1048 TA= 1.56057E+00 CPU TIME= 2.53516E+00 SECONDS. DT= 7.12802E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1054 TA= 1.56451E+00 CPU TIME= 2.49805E+00 SECONDS. DT= 4.87631E-04 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 3.67305E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.30181E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 3.67305E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.30181E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.565000E+00 NSTEP= 1055 Hash code: 121876822 ->PRGCHK: bdy curvature ratio at t= 1.5700E+00 seconds is: 9.8347E-02 % MHDEQ: TG1= 1.565000 ; TG2= 1.570000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.687E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5849E+00 0.0000E+00 -6.5849E-02 0.0000E+00 1.6730E+00 5.2054E-02 1 0 4.6932E-01 5.5046E-02 5.5046E-02 8.6049E-01 2 0 3.6941E-02 5.6664E-02 9.7200E-04 -2.6337E-02 3 0 2.3828E-02 -9.2374E-03 -6.4583E-03 -6.4308E-03 4 0 -3.0818E-03 -3.5537E-03 -2.2334E-03 4.4137E-03 5 0 -1.1130E-04 4.6389E-04 1.2341E-03 1.8494E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.26E-02 5.30E-02 4.29E-03 4.84E-04 1.10E+00 1.673E+00 5.205E-02 3.10501E+01 1.09E-02 1.000 1.27 1.02 100 3.10E-06 1.59E-06 9.00E-07 1.46E-09 7.33E-10 1.10E+00 1.668E+00 4.649E-02 2.84717E+01 1.20E-02 1.000 1.27 1.23 113 9.32E-07 4.31E-07 3.43E-07 2.33E-10 6.19E-10 1.10E+00 1.669E+00 4.812E-02 2.84715E+01 1.20E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.273E-07 d(ln R0)/dt = 5.769E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.23E-02 9.20E-02 2.19E-04 1.47E-08 3.85E-08 1.10E+00 1.669E+00 4.822E-02 2.84706E+01 1.21E-02 1.000 1.27 1.25 100 2.01E-06 7.55E-07 3.13E-08 6.43E-12 1.98E-11 1.10E+00 1.671E+00 5.164E-02 2.85079E+01 1.21E-02 1.001 1.27 1.27 200 5.37E-08 1.36E-08 2.82E-09 2.01E-13 3.34E-13 1.10E+00 1.672E+00 5.203E-02 2.76133E+01 1.25E-02 0.985 1.27 1.27 300 1.20E-08 3.20E-09 2.74E-10 8.88E-15 2.04E-14 1.10E+00 1.672E+00 5.213E-02 2.72583E+01 1.26E-02 0.979 1.27 1.27 400 3.61E-09 1.01E-09 3.84E-11 9.09E-16 1.98E-15 1.10E+00 1.673E+00 5.219E-02 2.70563E+01 1.27E-02 0.975 1.27 1.27 500 1.43E-09 3.88E-10 1.01E-11 2.45E-16 3.85E-16 1.10E+00 1.673E+00 5.222E-02 2.69679E+01 1.28E-02 0.974 1.27 1.27 535 9.84E-10 2.67E-10 5.97E-12 1.86E-16 2.54E-16 1.10E+00 1.673E+00 5.223E-02 2.69422E+01 1.28E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.708E-05 d(ln R0)/dt = 4.229E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.295594 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0859E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8347E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.565000 TO TG2= 1.570000 @ NSTEP 1055 GFRAME TG2 MOMENTS CHECKSUM: 8.9953582849201E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1055 TA= 1.56500E+00 CPU TIME= 3.24414E+00 SECONDS. DT= 7.48429E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.083984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6142E+00 3.0062E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8570E+20 nbi_getprofiles ne*dVol sum (ions): 4.8570E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15619 - 0 (killed) + 5264 (dep) = 20883 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2969 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0172E+00 %ORBALL: In processor 0: orbit # IORB= 5208 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7879 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8052 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8471 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8514 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8604 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8731 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8759 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8768 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8777 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8900 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9044 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9213 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9791 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9794 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9888 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9892 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9995 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10065 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10073 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10169 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10365 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10436 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20883 SPL= 0 TOT=15516 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1063 TA= 1.57000E+00 CPU TIME= 3.18945E+00 SECONDS. DT= 6.90197E-05 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.570000E+00 NSTEP= 1063 Hash code: 31173278 ->PRGCHK: bdy curvature ratio at t= 1.5750E+00 seconds is: 9.8767E-02 % MHDEQ: TG1= 1.570000 ; TG2= 1.575000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.691E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5847E+00 0.0000E+00 -6.5305E-02 0.0000E+00 1.6727E+00 5.2227E-02 1 0 4.6961E-01 5.4776E-02 5.4776E-02 8.6100E-01 2 0 3.6954E-02 5.6590E-02 8.5399E-04 -2.6350E-02 3 0 2.3878E-02 -9.2218E-03 -6.4818E-03 -6.4515E-03 4 0 -3.0746E-03 -3.5951E-03 -2.2524E-03 4.4200E-03 5 0 -1.1183E-04 4.4867E-04 1.2287E-03 1.8572E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.24E-02 5.30E-02 4.30E-03 4.83E-04 1.10E+00 1.673E+00 5.223E-02 3.10886E+01 1.10E-02 1.000 1.27 1.02 100 3.18E-06 1.65E-06 9.32E-07 1.42E-09 7.22E-10 1.10E+00 1.667E+00 4.673E-02 2.85077E+01 1.21E-02 1.000 1.27 1.23 113 9.14E-07 4.36E-07 3.45E-07 2.23E-10 6.10E-10 1.10E+00 1.669E+00 4.834E-02 2.85075E+01 1.21E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.102E-07 d(ln R0)/dt = 5.538E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.35E-02 9.32E-02 2.20E-04 1.44E-08 3.83E-08 1.10E+00 1.669E+00 4.843E-02 2.85067E+01 1.22E-02 1.000 1.27 1.25 100 1.94E-06 7.28E-07 3.10E-08 6.56E-12 2.02E-11 1.10E+00 1.671E+00 5.180E-02 2.85527E+01 1.22E-02 1.001 1.27 1.27 200 5.37E-08 1.33E-08 2.79E-09 1.99E-13 3.27E-13 1.10E+00 1.672E+00 5.220E-02 2.76548E+01 1.26E-02 0.985 1.27 1.27 300 1.19E-08 3.15E-09 2.71E-10 8.85E-15 1.99E-14 1.10E+00 1.672E+00 5.230E-02 2.73015E+01 1.27E-02 0.979 1.27 1.27 400 3.61E-09 1.01E-09 3.85E-11 9.18E-16 2.02E-15 1.10E+00 1.672E+00 5.236E-02 2.71026E+01 1.28E-02 0.975 1.27 1.27 500 1.42E-09 3.85E-10 1.01E-11 2.45E-16 3.94E-16 1.10E+00 1.672E+00 5.239E-02 2.70123E+01 1.29E-02 0.974 1.27 1.27 534 9.96E-10 2.64E-10 6.05E-12 1.90E-16 2.47E-16 1.10E+00 1.672E+00 5.240E-02 2.69862E+01 1.29E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.47E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.761E-05 d(ln R0)/dt = 4.289E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.63 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.01 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.292339 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.4844E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8767E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.570000 TO TG2= 1.575000 @ NSTEP 1063 GFRAME TG2 MOMENTS CHECKSUM: 8.9952059809808E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1063 TA= 1.57000E+00 CPU TIME= 2.99805E+00 SECONDS. DT= 6.90197E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1064 TA= 1.57007E+00 CPU TIME= 3.19141E+00 SECONDS. DT= 8.62747E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1072 TA= 1.57155E+00 CPU TIME= 3.06250E+00 SECONDS. DT= 3.51158E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1078 TA= 1.57312E+00 CPU TIME= 2.93555E+00 SECONDS. DT= 3.70091E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1084 TA= 1.57477E+00 CPU TIME= 3.01172E+00 SECONDS. DT= 2.27068E-04 %MFRCHK - LABEL "QMINORB", # 7= 7.00649E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 9.18309E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.38939E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 9.18309E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.38939E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 4= -2.57126E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.48482E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 4= -2.57126E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.48482E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.575000E+00 NSTEP= 1085 Hash code: 43412423 ->PRGCHK: bdy curvature ratio at t= 1.5800E+00 seconds is: 9.9187E-02 % MHDEQ: TG1= 1.575000 ; TG2= 1.580000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.695E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5844E+00 0.0000E+00 -6.4762E-02 0.0000E+00 1.6723E+00 5.2396E-02 1 0 4.6990E-01 5.4505E-02 5.4505E-02 8.6151E-01 2 0 3.6968E-02 5.6517E-02 7.3599E-04 -2.6363E-02 3 0 2.3928E-02 -9.2062E-03 -6.5053E-03 -6.4721E-03 4 0 -3.0673E-03 -3.6364E-03 -2.2715E-03 4.4264E-03 5 0 -1.1235E-04 4.3345E-04 1.2233E-03 1.8651E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.22E-02 5.30E-02 4.30E-03 4.81E-04 1.10E+00 1.672E+00 5.240E-02 3.11324E+01 1.09E-02 1.000 1.27 1.02 100 3.29E-06 1.73E-06 9.40E-07 1.40E-09 7.14E-10 1.10E+00 1.667E+00 4.701E-02 2.85496E+01 1.20E-02 1.000 1.27 1.23 113 9.31E-07 4.43E-07 3.45E-07 2.23E-10 6.01E-10 1.10E+00 1.669E+00 4.862E-02 2.85494E+01 1.20E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.98E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.039E-07 d(ln R0)/dt = 5.504E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.18E-02 9.22E-02 2.19E-04 1.51E-08 3.87E-08 1.10E+00 1.669E+00 4.872E-02 2.85487E+01 1.21E-02 1.000 1.27 1.25 100 1.90E-06 6.98E-07 3.05E-08 6.50E-12 1.99E-11 1.10E+00 1.671E+00 5.204E-02 2.86686E+01 1.20E-02 1.002 1.27 1.27 200 5.23E-08 1.31E-08 2.75E-09 1.96E-13 3.32E-13 1.10E+00 1.671E+00 5.244E-02 2.77751E+01 1.24E-02 0.987 1.27 1.27 300 1.17E-08 3.12E-09 2.67E-10 8.64E-15 1.96E-14 1.10E+00 1.672E+00 5.254E-02 2.74193E+01 1.26E-02 0.980 1.27 1.27 400 3.61E-09 9.86E-10 3.77E-11 8.89E-16 1.96E-15 1.10E+00 1.672E+00 5.260E-02 2.72201E+01 1.27E-02 0.977 1.27 1.27 500 1.40E-09 3.79E-10 9.78E-12 2.36E-16 3.78E-16 1.10E+00 1.672E+00 5.263E-02 2.71298E+01 1.27E-02 0.975 1.27 1.27 531 9.87E-10 2.74E-10 6.19E-12 1.89E-16 2.56E-16 1.10E+00 1.672E+00 5.263E-02 2.71061E+01 1.27E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.76E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.748E-05 d(ln R0)/dt = 4.252E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.294165 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8555E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9187E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.575000 TO TG2= 1.580000 @ NSTEP 1085 GFRAME TG2 MOMENTS CHECKSUM: 8.9958002307382E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1085 TA= 1.57500E+00 CPU TIME= 3.04492E+00 SECONDS. DT= 3.89904E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1086 TA= 1.57526E+00 CPU TIME= 2.98633E+00 SECONDS. DT= 3.19573E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1092 TA= 1.57703E+00 CPU TIME= 3.24023E+00 SECONDS. DT= 3.36637E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1098 TA= 1.57889E+00 CPU TIME= 3.00195E+00 SECONDS. DT= 3.54564E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.083984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6140E+00 3.0093E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7979E+20 nbi_getprofiles ne*dVol sum (ions): 4.7979E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15516 - 0 (killed) + 5287 (dep) = 20803 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4018 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5769 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5849 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5886 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5964 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6629 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0011E+00 %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0071E+00 %ORBALL: In processor 0: orbit # IORB= 7992 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8101 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8172 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8838 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8847 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8973 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9090 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9119 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9464 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9568 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9623 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9667 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9836 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10280 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20803 SPL= 0 TOT=15584 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1102 TA= 1.58000E+00 CPU TIME= 2.49023E+00 SECONDS. DT= 1.33255E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.580000E+00 NSTEP= 1102 Hash code: 89999159 ->PRGCHK: bdy curvature ratio at t= 1.5850E+00 seconds is: 9.9609E-02 % MHDEQ: TG1= 1.580000 ; TG2= 1.585000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.700E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5842E+00 0.0000E+00 -6.4219E-02 0.0000E+00 1.6721E+00 5.2633E-02 1 0 4.7019E-01 5.4235E-02 5.4235E-02 8.6202E-01 2 0 3.6981E-02 5.6443E-02 6.1799E-04 -2.6375E-02 3 0 2.3979E-02 -9.1905E-03 -6.5288E-03 -6.4927E-03 4 0 -3.0601E-03 -3.6777E-03 -2.2905E-03 4.4328E-03 5 0 -1.1287E-04 4.1824E-04 1.2179E-03 1.8730E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.21E-02 5.30E-02 4.30E-03 4.80E-04 1.10E+00 1.672E+00 5.263E-02 3.11947E+01 1.08E-02 1.000 1.27 1.02 100 3.40E-06 1.81E-06 9.49E-07 1.40E-09 6.98E-10 1.10E+00 1.667E+00 4.729E-02 2.86065E+01 1.19E-02 1.000 1.27 1.23 113 9.51E-07 4.49E-07 3.44E-07 2.26E-10 5.94E-10 1.10E+00 1.668E+00 4.889E-02 2.86062E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.949E-07 d(ln R0)/dt = 5.397E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.05E-02 9.10E-02 2.18E-04 1.61E-08 3.93E-08 1.10E+00 1.668E+00 4.897E-02 2.86055E+01 1.20E-02 1.000 1.27 1.25 100 1.87E-06 6.71E-07 3.00E-08 6.44E-12 1.98E-11 1.10E+00 1.670E+00 5.226E-02 2.87825E+01 1.19E-02 1.003 1.27 1.27 200 5.08E-08 1.29E-08 2.70E-09 1.92E-13 3.37E-13 1.10E+00 1.671E+00 5.266E-02 2.78951E+01 1.23E-02 0.988 1.27 1.27 300 1.15E-08 3.12E-09 2.64E-10 8.54E-15 1.95E-14 1.10E+00 1.672E+00 5.276E-02 2.75394E+01 1.25E-02 0.981 1.27 1.27 400 3.62E-09 9.68E-10 3.74E-11 8.77E-16 1.92E-15 1.10E+00 1.672E+00 5.282E-02 2.73414E+01 1.25E-02 0.978 1.27 1.27 500 1.38E-09 3.69E-10 9.48E-12 2.30E-16 3.64E-16 1.10E+00 1.672E+00 5.285E-02 2.72500E+01 1.26E-02 0.976 1.27 1.27 530 9.87E-10 2.67E-10 6.05E-12 1.82E-16 2.54E-16 1.10E+00 1.672E+00 5.285E-02 2.72270E+01 1.26E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.80E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.769E-05 d(ln R0)/dt = 4.273E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.296264 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0664E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9609E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.580000 TO TG2= 1.585000 @ NSTEP 1102 GFRAME TG2 MOMENTS CHECKSUM: 8.9963144201077E+03 %MFRCHK - LABEL "QMINORB", # 7= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.65131E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.38729E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.65131E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.38729E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.585000E+00 NSTEP= 1113 Hash code: 14583961 ->PRGCHK: bdy curvature ratio at t= 1.5900E+00 seconds is: 1.0003E-01 % MHDEQ: TG1= 1.585000 ; TG2= 1.590000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.705E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5839E+00 0.0000E+00 -6.3676E-02 0.0000E+00 1.6718E+00 5.2854E-02 1 0 4.7048E-01 5.3964E-02 5.3964E-02 8.6254E-01 2 0 3.6994E-02 5.6369E-02 4.9999E-04 -2.6388E-02 3 0 2.4029E-02 -9.1749E-03 -6.5523E-03 -6.5133E-03 4 0 -3.0528E-03 -3.7191E-03 -2.3095E-03 4.4392E-03 5 0 -1.1339E-04 4.0302E-04 1.2125E-03 1.8809E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.19E-02 5.30E-02 4.31E-03 4.80E-04 1.10E+00 1.672E+00 5.285E-02 3.12585E+01 1.08E-02 1.000 1.27 1.03 100 3.41E-06 1.82E-06 9.59E-07 1.37E-09 6.85E-10 1.10E+00 1.667E+00 4.751E-02 2.86652E+01 1.19E-02 1.000 1.27 1.23 113 9.31E-07 4.44E-07 3.44E-07 2.20E-10 5.80E-10 1.10E+00 1.668E+00 4.909E-02 2.86650E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.893E-07 d(ln R0)/dt = 5.354E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.01E-02 9.14E-02 2.19E-04 1.53E-08 3.82E-08 1.10E+00 1.668E+00 4.918E-02 2.86643E+01 1.20E-02 1.000 1.27 1.25 100 1.85E-06 6.61E-07 3.01E-08 6.28E-12 1.92E-11 1.10E+00 1.670E+00 5.244E-02 2.87528E+01 1.19E-02 1.002 1.27 1.27 200 5.02E-08 1.26E-08 2.64E-09 1.88E-13 3.33E-13 1.10E+00 1.671E+00 5.283E-02 2.78800E+01 1.23E-02 0.986 1.27 1.27 300 1.13E-08 3.06E-09 2.60E-10 8.39E-15 1.93E-14 1.10E+00 1.671E+00 5.293E-02 2.75275E+01 1.25E-02 0.980 1.27 1.27 400 3.54E-09 9.48E-10 3.67E-11 8.53E-16 1.93E-15 1.10E+00 1.671E+00 5.299E-02 2.73322E+01 1.26E-02 0.977 1.27 1.27 500 1.34E-09 3.60E-10 9.25E-12 2.22E-16 3.57E-16 1.10E+00 1.671E+00 5.301E-02 2.72405E+01 1.26E-02 0.975 1.27 1.27 528 9.88E-10 2.64E-10 5.99E-12 1.90E-16 2.59E-16 1.10E+00 1.671E+00 5.302E-02 2.72191E+01 1.26E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.72E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.776E-05 d(ln R0)/dt = 4.250E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.78 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.285548 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.9883E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0003E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.585000 TO TG2= 1.590000 @ NSTEP 1113 GFRAME TG2 MOMENTS CHECKSUM: 8.9966561144019E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1113 TA= 1.58500E+00 CPU TIME= 2.95508E+00 SECONDS. DT= 1.24103E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6138E+00 3.0125E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8284E+20 nbi_getprofiles ne*dVol sum (ions): 4.8284E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15584 - 0 (killed) + 5263 (dep) = 20847 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6625 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7830 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7862 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7888 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7919 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8065 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8545 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8733 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9156 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9197 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9250 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9451 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9534 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9547 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9581 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9917 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9933 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9994 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10093 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10355 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10359 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10415 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20847 SPL= 0 TOT=15472 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1119 TA= 1.59000E+00 CPU TIME= 2.54297E+00 SECONDS. DT= 1.22061E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.5900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.590000E+00 NSTEP= 1119 Hash code: 115031085 ->PRGCHK: bdy curvature ratio at t= 1.5950E+00 seconds is: 1.0046E-01 % MHDEQ: TG1= 1.590000 ; TG2= 1.595000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5837E+00 0.0000E+00 -6.3133E-02 0.0000E+00 1.6714E+00 5.3018E-02 1 0 4.7077E-01 5.3694E-02 5.3694E-02 8.6305E-01 2 0 3.7007E-02 5.6295E-02 3.8198E-04 -2.6400E-02 3 0 2.4079E-02 -9.1593E-03 -6.5758E-03 -6.5339E-03 4 0 -3.0456E-03 -3.7604E-03 -2.3285E-03 4.4456E-03 5 0 -1.1391E-04 3.8780E-04 1.2071E-03 1.8888E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.16E-02 5.29E-02 4.31E-03 4.79E-04 1.10E+00 1.671E+00 5.302E-02 3.13282E+01 1.08E-02 1.000 1.26 1.03 100 3.53E-06 1.89E-06 9.89E-07 1.34E-09 6.85E-10 1.10E+00 1.666E+00 4.775E-02 2.87344E+01 1.19E-02 1.000 1.26 1.23 113 9.23E-07 4.49E-07 3.47E-07 2.07E-10 5.59E-10 1.10E+00 1.668E+00 4.936E-02 2.87342E+01 1.19E-02 1.000 1.26 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.802E-07 d(ln R0)/dt = 5.378E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.06E-02 9.25E-02 2.21E-04 1.46E-08 3.72E-08 1.10E+00 1.668E+00 4.944E-02 2.87336E+01 1.20E-02 1.000 1.26 1.26 100 1.87E-06 6.71E-07 3.04E-08 6.12E-12 1.84E-11 1.10E+00 1.670E+00 5.264E-02 2.86647E+01 1.20E-02 0.999 1.26 1.27 200 5.03E-08 1.24E-08 2.59E-09 1.85E-13 3.30E-13 1.10E+00 1.670E+00 5.301E-02 2.78056E+01 1.24E-02 0.984 1.26 1.27 300 1.12E-08 3.06E-09 2.61E-10 8.46E-15 1.96E-14 1.10E+00 1.671E+00 5.311E-02 2.74560E+01 1.25E-02 0.978 1.26 1.27 400 3.54E-09 9.47E-10 3.67E-11 8.47E-16 2.00E-15 1.10E+00 1.671E+00 5.316E-02 2.72615E+01 1.26E-02 0.974 1.26 1.27 500 1.33E-09 3.60E-10 9.21E-12 2.16E-16 3.51E-16 1.10E+00 1.671E+00 5.319E-02 2.71681E+01 1.27E-02 0.973 1.26 1.27 528 9.86E-10 2.63E-10 5.97E-12 1.83E-16 2.55E-16 1.10E+00 1.671E+00 5.319E-02 2.71468E+01 1.27E-02 0.972 1.26 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.39E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.774E-05 d(ln R0)/dt = 4.216E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.62 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.275220 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.4062E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0046E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.590000 TO TG2= 1.595000 @ NSTEP 1119 GFRAME TG2 MOMENTS CHECKSUM: 8.9975293390310E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1119 TA= 1.59000E+00 CPU TIME= 2.93750E+00 SECONDS. DT= 1.22061E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1120 TA= 1.59049E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 6.16577E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1126 TA= 1.59390E+00 CPU TIME= 2.92383E+00 SECONDS. DT= 6.49691E-04 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 3.67268E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.45525E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 3.67268E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.45525E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.10180E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.54703E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.10180E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.54703E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.595000E+00 NSTEP= 1128 Hash code: 48271034 ->PRGCHK: bdy curvature ratio at t= 1.6000E+00 seconds is: 1.0088E-01 % MHDEQ: TG1= 1.595000 ; TG2= 1.600000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.715E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5834E+00 0.0000E+00 -6.2589E-02 0.0000E+00 1.6710E+00 5.3195E-02 1 0 4.7107E-01 5.3423E-02 5.3423E-02 8.6356E-01 2 0 3.7020E-02 5.6222E-02 2.6398E-04 -2.6413E-02 3 0 2.4129E-02 -9.1436E-03 -6.5992E-03 -6.5545E-03 4 0 -3.0383E-03 -3.8018E-03 -2.3476E-03 4.4520E-03 5 0 -1.1444E-04 3.7258E-04 1.2017E-03 1.8967E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.13E-02 5.29E-02 4.31E-03 4.78E-04 1.10E+00 1.671E+00 5.320E-02 3.14018E+01 1.07E-02 1.000 1.26 1.03 100 3.65E-06 1.98E-06 1.02E-06 1.33E-09 6.98E-10 1.10E+00 1.666E+00 4.795E-02 2.88059E+01 1.18E-02 1.000 1.26 1.23 113 9.10E-07 4.52E-07 3.49E-07 2.01E-10 5.47E-10 1.10E+00 1.667E+00 4.960E-02 2.88057E+01 1.18E-02 1.000 1.26 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.710E-07 d(ln R0)/dt = 5.396E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.14E-02 9.34E-02 2.22E-04 1.47E-08 3.77E-08 1.10E+00 1.667E+00 4.969E-02 2.88051E+01 1.19E-02 1.000 1.26 1.26 100 1.86E-06 6.58E-07 3.02E-08 6.26E-12 1.87E-11 1.10E+00 1.669E+00 5.282E-02 2.86905E+01 1.19E-02 0.998 1.26 1.27 200 5.05E-08 1.23E-08 2.58E-09 1.86E-13 3.27E-13 1.10E+00 1.670E+00 5.322E-02 2.78252E+01 1.23E-02 0.983 1.26 1.26 300 1.13E-08 3.05E-09 2.64E-10 8.84E-15 1.99E-14 1.10E+00 1.670E+00 5.331E-02 2.74771E+01 1.24E-02 0.977 1.26 1.26 400 3.63E-09 9.63E-10 3.79E-11 9.13E-16 2.08E-15 1.10E+00 1.671E+00 5.336E-02 2.72838E+01 1.25E-02 0.974 1.26 1.26 500 1.37E-09 3.68E-10 9.58E-12 2.31E-16 3.74E-16 1.10E+00 1.671E+00 5.339E-02 2.71868E+01 1.26E-02 0.972 1.26 1.26 528 1.00E-09 2.69E-10 6.14E-12 1.87E-16 2.62E-16 1.10E+00 1.671E+00 5.340E-02 2.71638E+01 1.26E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.46E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.962E-05 d(ln R0)/dt = 4.500E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.73 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.276575 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.5391E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0088E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.595000 TO TG2= 1.600000 @ NSTEP 1128 GFRAME TG2 MOMENTS CHECKSUM: 8.9981277254986E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1128 TA= 1.59500E+00 CPU TIME= 3.18750E+00 SECONDS. DT= 8.12113E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1129 TA= 1.59553E+00 CPU TIME= 2.89453E+00 SECONDS. DT= 6.67341E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1135 TA= 1.59923E+00 CPU TIME= 2.90820E+00 SECONDS. DT= 7.04560E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.095703125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6158E+00 3.0185E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8493E+20 nbi_getprofiles ne*dVol sum (ions): 4.8493E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15472 - 0 (killed) + 5288 (dep) = 20760 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0037E+00 %ORBALL: In processor 0: orbit # IORB= 2910 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5203 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6176 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6788 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7012 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7881 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7968 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7982 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8125 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8163 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8170 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8177 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8184 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 8485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8489 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8628 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8845 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9001 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9114 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9144 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9171 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9247 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9284 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9420 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9470 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9493 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9520 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9530 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9611 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9817 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9869 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10017 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10125 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10170 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20760 SPL= 0 TOT=15499 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1137 TA= 1.60000E+00 CPU TIME= 2.60742E+00 SECONDS. DT= 7.73839E-05 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.064E+03 MB. --> plasma_hash("gframe"): TA= 1.600000E+00 NSTEP= 1137 Hash code: 70984345 ->PRGCHK: bdy curvature ratio at t= 1.6050E+00 seconds is: 1.0060E-01 % MHDEQ: TG1= 1.600000 ; TG2= 1.605000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.714E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5834E+00 0.0000E+00 -6.3322E-02 0.0000E+00 1.6707E+00 5.3397E-02 1 0 4.7093E-01 5.3465E-02 5.3465E-02 8.6361E-01 2 0 3.7081E-02 5.6342E-02 3.2759E-04 -2.6354E-02 3 0 2.4142E-02 -9.1223E-03 -6.5894E-03 -6.5787E-03 4 0 -3.0298E-03 -3.7867E-03 -2.3556E-03 4.4405E-03 5 0 -1.0432E-04 3.6133E-04 1.1927E-03 1.8973E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.17E-02 5.29E-02 4.30E-03 4.81E-04 1.10E+00 1.671E+00 5.340E-02 3.13830E+01 1.06E-02 1.000 1.26 1.02 100 3.71E-06 2.02E-06 1.03E-06 1.34E-09 7.25E-10 1.10E+00 1.666E+00 4.736E-02 2.87959E+01 1.17E-02 1.000 1.26 1.23 113 9.23E-07 4.60E-07 3.50E-07 2.02E-10 5.56E-10 1.10E+00 1.667E+00 4.907E-02 2.87957E+01 1.17E-02 1.000 1.26 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.744E-07 d(ln R0)/dt = 5.510E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.26E-02 9.42E-02 2.22E-04 1.49E-08 3.86E-08 1.10E+00 1.667E+00 4.915E-02 2.87950E+01 1.18E-02 1.000 1.26 1.25 100 1.79E-06 6.28E-07 2.95E-08 6.47E-12 1.95E-11 1.10E+00 1.669E+00 5.226E-02 2.88877E+01 1.17E-02 1.002 1.26 1.27 200 5.07E-08 1.25E-08 2.60E-09 1.86E-13 3.25E-13 1.10E+00 1.670E+00 5.268E-02 2.79991E+01 1.21E-02 0.986 1.26 1.26 300 1.15E-08 3.06E-09 2.63E-10 8.85E-15 1.97E-14 1.10E+00 1.670E+00 5.277E-02 2.76469E+01 1.23E-02 0.980 1.26 1.26 400 3.71E-09 9.84E-10 3.90E-11 9.68E-16 2.15E-15 1.10E+00 1.670E+00 5.283E-02 2.74544E+01 1.23E-02 0.977 1.26 1.26 500 1.41E-09 3.78E-10 9.96E-12 2.45E-16 3.99E-16 1.10E+00 1.671E+00 5.285E-02 2.73549E+01 1.24E-02 0.975 1.26 1.26 531 9.93E-10 2.68E-10 6.17E-12 1.84E-16 2.47E-16 1.10E+00 1.671E+00 5.286E-02 2.73283E+01 1.24E-02 0.975 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.985E-05 d(ln R0)/dt = 4.496E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.277555 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0469E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0060E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.600000 TO TG2= 1.605000 @ NSTEP 1137 GFRAME TG2 MOMENTS CHECKSUM: 8.9940380847184E+03 %MFRCHK - LABEL "QMINORB", # 7= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.47018E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.40298E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.47018E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.40298E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -2.02150E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.48510E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -2.02150E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.48510E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.605000E+00 NSTEP= 1150 Hash code: 4587951 ->PRGCHK: bdy curvature ratio at t= 1.6100E+00 seconds is: 1.0032E-01 % MHDEQ: TG1= 1.605000 ; TG2= 1.610000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.714E+00 1.265E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5833E+00 0.0000E+00 -6.4055E-02 0.0000E+00 1.6706E+00 5.2860E-02 1 0 4.7080E-01 5.3507E-02 5.3507E-02 8.6366E-01 2 0 3.7143E-02 5.6463E-02 3.9121E-04 -2.6295E-02 3 0 2.4154E-02 -9.1010E-03 -6.5796E-03 -6.6028E-03 4 0 -3.0213E-03 -3.7717E-03 -2.3637E-03 4.4290E-03 5 0 -9.4212E-05 3.5009E-04 1.1836E-03 1.8979E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.16E-02 5.28E-02 4.29E-03 4.81E-04 1.10E+00 1.671E+00 5.286E-02 3.13680E+01 1.05E-02 1.000 1.27 1.02 100 3.62E-06 1.91E-06 9.91E-07 1.30E-09 7.42E-10 1.10E+00 1.666E+00 4.685E-02 2.87889E+01 1.17E-02 1.000 1.27 1.23 113 9.20E-07 4.65E-07 3.47E-07 2.04E-10 5.70E-10 1.10E+00 1.667E+00 4.857E-02 2.87887E+01 1.17E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.846E-07 d(ln R0)/dt = 5.623E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.26E-02 9.45E-02 2.22E-04 1.51E-08 3.88E-08 1.10E+00 1.667E+00 4.865E-02 2.87881E+01 1.17E-02 1.000 1.27 1.25 100 1.79E-06 6.30E-07 2.95E-08 6.45E-12 1.95E-11 1.10E+00 1.669E+00 5.178E-02 2.89122E+01 1.17E-02 1.002 1.27 1.27 200 5.08E-08 1.25E-08 2.61E-09 1.86E-13 3.24E-13 1.10E+00 1.670E+00 5.220E-02 2.80215E+01 1.20E-02 0.987 1.27 1.27 300 1.15E-08 3.07E-09 2.62E-10 8.73E-15 1.95E-14 1.10E+00 1.670E+00 5.230E-02 2.76686E+01 1.22E-02 0.981 1.27 1.27 400 3.71E-09 9.85E-10 3.87E-11 9.47E-16 2.11E-15 1.10E+00 1.670E+00 5.235E-02 2.74744E+01 1.23E-02 0.977 1.27 1.27 500 1.42E-09 3.80E-10 9.92E-12 2.42E-16 3.97E-16 1.10E+00 1.670E+00 5.238E-02 2.73761E+01 1.23E-02 0.976 1.27 1.27 531 9.98E-10 2.70E-10 6.19E-12 1.83E-16 2.50E-16 1.10E+00 1.670E+00 5.238E-02 2.73499E+01 1.23E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.936E-05 d(ln R0)/dt = 4.409E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.283326 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1445E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0032E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.605000 TO TG2= 1.610000 @ NSTEP 1150 GFRAME TG2 MOMENTS CHECKSUM: 8.9917435325489E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.091796875 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6156E+00 3.0180E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.8101E+20 nbi_getprofiles ne*dVol sum (ions): 4.8101E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15499 - 0 (killed) + 5277 (dep) = 20776 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 1649 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 2950 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 3767 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4634 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5899 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0109E+00 %ORBALL: In processor 0: orbit # IORB= 7158 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7873 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7938 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7969 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8003 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8043 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8163 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8297 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8330 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8544 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8690 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8766 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8804 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8884 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8905 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8994 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9057 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9288 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9348 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9505 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9720 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9765 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9788 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9795 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9853 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9944 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10334 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20776 SPL= 0 TOT=15511 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1154 TA= 1.61000E+00 CPU TIME= 2.58008E+00 SECONDS. DT= 8.83510E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.610000E+00 NSTEP= 1154 Hash code: 45384972 ->PRGCHK: bdy curvature ratio at t= 1.6150E+00 seconds is: 1.0004E-01 % MHDEQ: TG1= 1.610000 ; TG2= 1.615000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.711E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5832E+00 0.0000E+00 -6.4789E-02 0.0000E+00 1.6705E+00 5.2382E-02 1 0 4.7066E-01 5.3548E-02 5.3548E-02 8.6371E-01 2 0 3.7204E-02 5.6584E-02 4.5482E-04 -2.6235E-02 3 0 2.4167E-02 -9.0797E-03 -6.5698E-03 -6.6270E-03 4 0 -3.0128E-03 -3.7566E-03 -2.3717E-03 4.4175E-03 5 0 -8.4100E-05 3.3885E-04 1.1745E-03 1.8985E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 4.17E-02 5.28E-02 4.28E-03 4.81E-04 1.10E+00 1.670E+00 5.238E-02 3.13250E+01 1.05E-02 1.000 1.27 1.02 100 3.58E-06 1.85E-06 9.72E-07 1.30E-09 7.52E-10 1.10E+00 1.666E+00 4.637E-02 2.87526E+01 1.16E-02 1.000 1.27 1.23 113 9.21E-07 4.71E-07 3.45E-07 2.06E-10 5.77E-10 1.10E+00 1.667E+00 4.809E-02 2.87524E+01 1.16E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.896E-07 d(ln R0)/dt = 5.657E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.26E-02 9.47E-02 2.21E-04 1.53E-08 3.91E-08 1.10E+00 1.667E+00 4.818E-02 2.87518E+01 1.17E-02 1.000 1.27 1.25 100 1.81E-06 6.36E-07 2.95E-08 6.42E-12 1.95E-11 1.10E+00 1.669E+00 5.132E-02 2.88973E+01 1.16E-02 1.003 1.27 1.27 200 5.09E-08 1.26E-08 2.62E-09 1.86E-13 3.24E-13 1.10E+00 1.670E+00 5.174E-02 2.80079E+01 1.20E-02 0.987 1.27 1.27 300 1.15E-08 3.07E-09 2.61E-10 8.62E-15 1.94E-14 1.10E+00 1.670E+00 5.183E-02 2.76553E+01 1.22E-02 0.981 1.27 1.27 400 3.68E-09 9.81E-10 3.82E-11 9.25E-16 2.06E-15 1.10E+00 1.670E+00 5.188E-02 2.74599E+01 1.23E-02 0.978 1.27 1.27 500 1.41E-09 3.78E-10 9.83E-12 2.39E-16 3.94E-16 1.10E+00 1.670E+00 5.191E-02 2.73633E+01 1.23E-02 0.976 1.27 1.27 531 9.96E-10 2.71E-10 6.18E-12 1.82E-16 2.51E-16 1.10E+00 1.670E+00 5.191E-02 2.73378E+01 1.23E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.872E-05 d(ln R0)/dt = 4.305E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.289375 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.0273E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0004E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.610000 TO TG2= 1.615000 @ NSTEP 1154 GFRAME TG2 MOMENTS CHECKSUM: 8.9896019693788E+03 %MFRCHK - LABEL "QMINORB", # 8= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 9.19386E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -3.67482E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.45483E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -3.67482E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.45483E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.85857E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.54087E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.85857E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.54087E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.615000E+00 NSTEP= 1158 Hash code: 97672676 ->PRGCHK: bdy curvature ratio at t= 1.6200E+00 seconds is: 9.9758E-02 % MHDEQ: TG1= 1.615000 ; TG2= 1.620000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.709E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5831E+00 0.0000E+00 -6.5522E-02 0.0000E+00 1.6704E+00 5.1914E-02 1 0 4.7053E-01 5.3590E-02 5.3590E-02 8.6376E-01 2 0 3.7265E-02 5.6704E-02 5.1843E-04 -2.6176E-02 3 0 2.4180E-02 -9.0584E-03 -6.5600E-03 -6.6511E-03 4 0 -3.0043E-03 -3.7416E-03 -2.3798E-03 4.4060E-03 5 0 -7.3988E-05 3.2761E-04 1.1655E-03 1.8990E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 4.17E-02 5.28E-02 4.28E-03 4.82E-04 1.10E+00 1.670E+00 5.191E-02 3.12817E+01 1.06E-02 1.000 1.27 1.02 100 3.52E-06 1.77E-06 9.51E-07 1.28E-09 7.60E-10 1.10E+00 1.666E+00 4.598E-02 2.87151E+01 1.17E-02 1.000 1.27 1.23 113 9.22E-07 4.79E-07 3.43E-07 2.07E-10 5.84E-10 1.10E+00 1.667E+00 4.770E-02 2.87148E+01 1.17E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.930E-07 d(ln R0)/dt = 5.654E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.27E-02 9.48E-02 2.21E-04 1.59E-08 3.95E-08 1.10E+00 1.667E+00 4.779E-02 2.87144E+01 1.17E-02 1.000 1.27 1.25 100 1.85E-06 6.54E-07 2.98E-08 6.35E-12 1.93E-11 1.10E+00 1.669E+00 5.092E-02 2.88520E+01 1.17E-02 1.002 1.27 1.27 200 5.13E-08 1.27E-08 2.64E-09 1.88E-13 3.25E-13 1.10E+00 1.670E+00 5.133E-02 2.79662E+01 1.20E-02 0.987 1.27 1.27 300 1.15E-08 3.08E-09 2.61E-10 8.52E-15 1.93E-14 1.10E+00 1.670E+00 5.142E-02 2.76132E+01 1.22E-02 0.981 1.27 1.27 400 3.65E-09 9.79E-10 3.79E-11 9.08E-16 2.02E-15 1.10E+00 1.670E+00 5.148E-02 2.74164E+01 1.23E-02 0.977 1.27 1.27 500 1.41E-09 3.78E-10 9.79E-12 2.37E-16 3.91E-16 1.10E+00 1.670E+00 5.150E-02 2.73219E+01 1.23E-02 0.976 1.27 1.27 531 9.98E-10 2.73E-10 6.21E-12 1.83E-16 2.53E-16 1.10E+00 1.671E+00 5.151E-02 2.72973E+01 1.23E-02 0.975 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.80E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.810E-05 d(ln R0)/dt = 4.227E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.294782 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1055E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9758E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.615000 TO TG2= 1.620000 @ NSTEP 1158 GFRAME TG2 MOMENTS CHECKSUM: 8.9885305318189E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.099609375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6141E+00 3.0144E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7723E+20 nbi_getprofiles ne*dVol sum (ions): 4.7723E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15511 - 0 (killed) + 5272 (dep) = 20783 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0003E+00 %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0187E+00 %ORBALL: In processor 0: orbit # IORB= 6386 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6783 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7220 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7256 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0035E+00 %ORBALL: In processor 0: orbit # IORB= 7880 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7958 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8044 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8113 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8272 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8520 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8609 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8639 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8685 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8848 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8916 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8969 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9071 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9148 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9214 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9500 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9596 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9744 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9786 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9924 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9987 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10116 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10218 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10367 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20783 SPL= 0 TOT=15554 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1161 TA= 1.62000E+00 CPU TIME= 2.49414E+00 SECONDS. DT= 1.59299E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.620000E+00 NSTEP= 1161 Hash code: 867236 ->PRGCHK: bdy curvature ratio at t= 1.6250E+00 seconds is: 9.9482E-02 % MHDEQ: TG1= 1.620000 ; TG2= 1.625000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5830E+00 0.0000E+00 -6.6255E-02 0.0000E+00 1.6705E+00 5.1510E-02 1 0 4.7039E-01 5.3632E-02 5.3632E-02 8.6380E-01 2 0 3.7326E-02 5.6825E-02 5.8204E-04 -2.6117E-02 3 0 2.4192E-02 -9.0371E-03 -6.5502E-03 -6.6752E-03 4 0 -2.9957E-03 -3.7265E-03 -2.3878E-03 4.3945E-03 5 0 -6.3876E-05 3.1636E-04 1.1564E-03 1.8996E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 4.19E-02 5.28E-02 4.27E-03 4.83E-04 1.10E+00 1.671E+00 5.151E-02 3.13104E+01 1.06E-02 1.000 1.27 1.03 100 3.56E-06 1.78E-06 9.56E-07 1.32E-09 7.55E-10 1.10E+00 1.666E+00 4.561E-02 2.87381E+01 1.17E-02 1.000 1.27 1.23 113 9.36E-07 4.88E-07 3.46E-07 2.07E-10 5.77E-10 1.10E+00 1.668E+00 4.733E-02 2.87379E+01 1.17E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.883E-07 d(ln R0)/dt = 5.558E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.31E-02 9.51E-02 2.22E-04 1.64E-08 3.98E-08 1.10E+00 1.668E+00 4.742E-02 2.87377E+01 1.17E-02 1.000 1.27 1.25 100 1.87E-06 6.62E-07 2.99E-08 6.32E-12 1.93E-11 1.10E+00 1.669E+00 5.049E-02 2.89339E+01 1.17E-02 1.003 1.27 1.27 200 5.16E-08 1.29E-08 2.67E-09 1.89E-13 3.26E-13 1.10E+00 1.670E+00 5.089E-02 2.80447E+01 1.20E-02 0.988 1.27 1.27 300 1.15E-08 3.09E-09 2.61E-10 8.42E-15 1.93E-14 1.10E+00 1.670E+00 5.099E-02 2.76897E+01 1.22E-02 0.982 1.27 1.27 400 3.62E-09 9.79E-10 3.76E-11 8.92E-16 1.99E-15 1.10E+00 1.670E+00 5.104E-02 2.74910E+01 1.23E-02 0.978 1.27 1.27 500 1.41E-09 3.79E-10 9.79E-12 2.35E-16 3.90E-16 1.10E+00 1.670E+00 5.107E-02 2.73982E+01 1.23E-02 0.977 1.27 1.27 534 9.86E-10 2.59E-10 5.90E-12 1.91E-16 2.45E-16 1.10E+00 1.671E+00 5.107E-02 2.73719E+01 1.23E-02 0.976 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.727E-05 d(ln R0)/dt = 4.109E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.01 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.300225 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1445E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9482E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.620000 TO TG2= 1.625000 @ NSTEP 1161 GFRAME TG2 MOMENTS CHECKSUM: 8.9867207651614E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1161 TA= 1.62000E+00 CPU TIME= 2.59375E+00 SECONDS. DT= 1.59299E-03 %MFRCHK - LABEL "QMINORB", # 8= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 5.16477E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10232E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.46534E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10232E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.46534E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.46976E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.57212E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.46976E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.57212E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.625000E+00 NSTEP= 1168 Hash code: 53850851 ->PRGCHK: bdy curvature ratio at t= 1.6300E+00 seconds is: 9.9208E-02 % MHDEQ: TG1= 1.625000 ; TG2= 1.630000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.711E+00 1.271E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5830E+00 0.0000E+00 -6.6988E-02 0.0000E+00 1.6705E+00 5.1073E-02 1 0 4.7026E-01 5.3674E-02 5.3674E-02 8.6385E-01 2 0 3.7387E-02 5.6946E-02 6.4565E-04 -2.6058E-02 3 0 2.4205E-02 -9.0158E-03 -6.5404E-03 -6.6994E-03 4 0 -2.9872E-03 -3.7115E-03 -2.3958E-03 4.3830E-03 5 0 -5.3764E-05 3.0512E-04 1.1474E-03 1.9002E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.24E-01 4.20E-02 5.29E-02 4.27E-03 4.84E-04 1.10E+00 1.671E+00 5.107E-02 3.13374E+01 1.05E-02 1.000 1.27 1.03 100 3.52E-06 1.69E-06 9.39E-07 1.31E-09 7.48E-10 1.10E+00 1.666E+00 4.530E-02 2.87632E+01 1.16E-02 1.000 1.27 1.24 113 9.42E-07 4.98E-07 3.45E-07 2.06E-10 5.78E-10 1.10E+00 1.668E+00 4.700E-02 2.87629E+01 1.17E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.862E-07 d(ln R0)/dt = 5.474E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.22E-02 9.46E-02 2.21E-04 1.68E-08 3.94E-08 1.10E+00 1.668E+00 4.708E-02 2.87629E+01 1.17E-02 1.000 1.27 1.26 100 1.98E-06 7.00E-07 3.05E-08 6.20E-12 1.89E-11 1.10E+00 1.669E+00 5.013E-02 2.89852E+01 1.16E-02 1.004 1.27 1.27 200 5.23E-08 1.32E-08 2.67E-09 1.89E-13 3.29E-13 1.10E+00 1.670E+00 5.051E-02 2.80989E+01 1.20E-02 0.989 1.27 1.27 300 1.15E-08 3.15E-09 2.61E-10 8.26E-15 1.93E-14 1.10E+00 1.670E+00 5.060E-02 2.77408E+01 1.21E-02 0.982 1.27 1.27 400 3.61E-09 9.82E-10 3.70E-11 8.56E-16 1.95E-15 1.10E+00 1.671E+00 5.066E-02 2.75373E+01 1.22E-02 0.979 1.27 1.27 500 1.44E-09 3.86E-10 9.85E-12 2.33E-16 3.81E-16 1.10E+00 1.671E+00 5.068E-02 2.74476E+01 1.23E-02 0.977 1.27 1.27 535 9.90E-10 2.68E-10 5.91E-12 1.85E-16 2.52E-16 1.10E+00 1.671E+00 5.069E-02 2.74221E+01 1.23E-02 0.977 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.632E-05 d(ln R0)/dt = 3.993E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.293476 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1250E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9208E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.625000 TO TG2= 1.630000 @ NSTEP 1168 GFRAME TG2 MOMENTS CHECKSUM: 8.9859013322500E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1168 TA= 1.62500E+00 CPU TIME= 3.00977E+00 SECONDS. DT= 8.55572E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1169 TA= 1.62568E+00 CPU TIME= 3.14062E+00 SECONDS. DT= 8.44090E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08203125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6160E+00 3.0174E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7060E+20 nbi_getprofiles ne*dVol sum (ions): 4.7060E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15554 - 0 (killed) + 5257 (dep) = 20811 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5297 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5700 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6885 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7871 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7994 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8151 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8303 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8356 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8446 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8879 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0025E+00 %ORBALL: In processor 0: orbit # IORB= 8935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9471 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9482 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9496 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9615 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10069 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10116 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10168 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0021E+00 %ORBALL: In processor 0: orbit # IORB= 10249 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10280 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10371 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10411 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20811 SPL= 0 TOT=15554 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1176 TA= 1.63000E+00 CPU TIME= 2.58203E+00 SECONDS. DT= 4.64653E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.630000E+00 NSTEP= 1176 Hash code: 847908 ->PRGCHK: bdy curvature ratio at t= 1.6350E+00 seconds is: 9.8935E-02 % MHDEQ: TG1= 1.630000 ; TG2= 1.635000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5829E+00 0.0000E+00 -6.7721E-02 0.0000E+00 1.6707E+00 5.0689E-02 1 0 4.7012E-01 5.3715E-02 5.3715E-02 8.6390E-01 2 0 3.7449E-02 5.7066E-02 7.0927E-04 -2.5999E-02 3 0 2.4217E-02 -8.9945E-03 -6.5306E-03 -6.7235E-03 4 0 -2.9787E-03 -3.6964E-03 -2.4039E-03 4.3715E-03 5 0 -4.3652E-05 2.9388E-04 1.1383E-03 1.9008E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.25E-01 4.23E-02 5.30E-02 4.27E-03 4.85E-04 1.10E+00 1.671E+00 5.069E-02 3.13393E+01 1.05E-02 1.000 1.27 1.03 100 3.50E-06 1.63E-06 9.33E-07 1.33E-09 7.29E-10 1.10E+00 1.667E+00 4.502E-02 2.87601E+01 1.16E-02 1.000 1.27 1.24 113 9.51E-07 5.07E-07 3.45E-07 2.06E-10 5.72E-10 1.10E+00 1.668E+00 4.668E-02 2.87599E+01 1.16E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.781E-07 d(ln R0)/dt = 5.299E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.20E-02 9.40E-02 2.20E-04 1.72E-08 3.91E-08 1.10E+00 1.668E+00 4.676E-02 2.87600E+01 1.17E-02 1.000 1.27 1.26 100 2.15E-06 7.67E-07 3.16E-08 5.96E-12 1.78E-11 1.10E+00 1.670E+00 4.981E-02 2.87745E+01 1.17E-02 1.000 1.27 1.27 200 5.42E-08 1.36E-08 2.67E-09 1.93E-13 3.37E-13 1.10E+00 1.670E+00 5.016E-02 2.79016E+01 1.20E-02 0.985 1.27 1.27 300 1.18E-08 3.26E-09 2.65E-10 8.30E-15 1.98E-14 1.10E+00 1.671E+00 5.025E-02 2.75404E+01 1.22E-02 0.979 1.27 1.27 400 3.71E-09 1.01E-09 3.73E-11 8.63E-16 1.97E-15 1.10E+00 1.671E+00 5.031E-02 2.73338E+01 1.23E-02 0.975 1.27 1.27 500 1.51E-09 4.07E-10 1.02E-11 2.43E-16 3.85E-16 1.10E+00 1.671E+00 5.034E-02 2.72457E+01 1.23E-02 0.974 1.27 1.27 540 9.87E-10 2.71E-10 5.77E-12 1.98E-16 2.38E-16 1.10E+00 1.671E+00 5.035E-02 2.72177E+01 1.23E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.86E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.662E-05 d(ln R0)/dt = 4.117E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.79 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.287135 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1055E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8935E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.630000 TO TG2= 1.635000 @ NSTEP 1176 GFRAME TG2 MOMENTS CHECKSUM: 8.9869226358394E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1176 TA= 1.63000E+00 CPU TIME= 2.56250E+00 SECONDS. DT= 4.64653E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1177 TA= 1.63046E+00 CPU TIME= 2.44727E+00 SECONDS. DT= 5.80816E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1183 TA= 1.63448E+00 CPU TIME= 2.40625E+00 SECONDS. DT= 5.21564E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 2.84700E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.93863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.52742E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.93863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.52742E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -6.24459E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.61149E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -6.24459E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.61149E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.635000E+00 NSTEP= 1184 Hash code: 72244472 ->PRGCHK: bdy curvature ratio at t= 1.6400E+00 seconds is: 9.8664E-02 % MHDEQ: TG1= 1.635000 ; TG2= 1.640000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5828E+00 0.0000E+00 -6.8454E-02 0.0000E+00 1.6710E+00 5.0348E-02 1 0 4.6999E-01 5.3757E-02 5.3757E-02 8.6395E-01 2 0 3.7510E-02 5.7187E-02 7.7288E-04 -2.5940E-02 3 0 2.4230E-02 -8.9732E-03 -6.5208E-03 -6.7477E-03 4 0 -2.9702E-03 -3.6813E-03 -2.4119E-03 4.3601E-03 5 0 -3.3540E-05 2.8264E-04 1.1292E-03 1.9014E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.27E-02 5.32E-02 4.28E-03 4.88E-04 1.10E+00 1.671E+00 5.035E-02 3.13480E+01 1.05E-02 1.000 1.27 1.03 100 3.41E-06 1.60E-06 9.10E-07 1.40E-09 7.03E-10 1.10E+00 1.667E+00 4.446E-02 2.87575E+01 1.16E-02 1.000 1.27 1.24 113 9.49E-07 4.89E-07 3.40E-07 2.23E-10 5.80E-10 1.10E+00 1.668E+00 4.602E-02 2.87573E+01 1.16E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.809E-07 d(ln R0)/dt = 5.107E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.22E-02 9.28E-02 2.20E-04 1.67E-08 3.98E-08 1.10E+00 1.668E+00 4.611E-02 2.87571E+01 1.17E-02 1.000 1.27 1.26 100 2.18E-06 7.66E-07 3.18E-08 6.12E-12 1.82E-11 1.10E+00 1.670E+00 4.930E-02 2.87031E+01 1.17E-02 0.999 1.27 1.27 200 5.52E-08 1.40E-08 2.76E-09 1.97E-13 3.43E-13 1.10E+00 1.671E+00 4.966E-02 2.78115E+01 1.21E-02 0.984 1.27 1.27 300 1.24E-08 3.37E-09 2.75E-10 8.70E-15 2.04E-14 1.10E+00 1.671E+00 4.976E-02 2.74464E+01 1.22E-02 0.977 1.27 1.27 400 3.90E-09 1.06E-09 3.92E-11 9.38E-16 2.02E-15 1.10E+00 1.671E+00 4.982E-02 2.72385E+01 1.23E-02 0.974 1.27 1.27 500 1.59E-09 4.26E-10 1.08E-11 2.62E-16 4.13E-16 1.10E+00 1.671E+00 4.985E-02 2.71481E+01 1.24E-02 0.972 1.27 1.27 545 9.93E-10 2.61E-10 5.55E-12 2.07E-16 2.23E-16 1.10E+00 1.671E+00 4.986E-02 2.71151E+01 1.24E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.93E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.775E-05 d(ln R0)/dt = 4.339E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.80 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.263626 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.1836E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8664E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.635000 TO TG2= 1.640000 @ NSTEP 1184 GFRAME TG2 MOMENTS CHECKSUM: 8.9849086452822E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1184 TA= 1.63500E+00 CPU TIME= 2.43164E+00 SECONDS. DT= 8.29887E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1185 TA= 1.63565E+00 CPU TIME= 2.41016E+00 SECONDS. DT= 8.12123E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6161E+00 3.0171E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7031E+20 nbi_getprofiles ne*dVol sum (ions): 4.7031E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15554 - 0 (killed) + 5248 (dep) = 20802 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5865 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7815 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7876 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7956 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7958 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8009 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8059 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8099 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8130 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8143 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8190 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8235 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8376 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8426 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8456 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8490 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8509 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8566 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8662 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8707 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8792 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9159 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9168 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9191 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9230 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9246 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9414 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0007E+00 %ORBALL: In processor 0: orbit # IORB= 9481 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9678 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9766 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0039E+00 %ORBALL: In processor 0: orbit # IORB= 9802 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9870 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10274 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20802 SPL= 0 TOT=15651 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1191 TA= 1.64000E+00 CPU TIME= 2.49219E+00 SECONDS. DT= 7.89890E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.640000E+00 NSTEP= 1191 Hash code: 92379294 ->PRGCHK: bdy curvature ratio at t= 1.6450E+00 seconds is: 9.8395E-02 % MHDEQ: TG1= 1.640000 ; TG2= 1.645000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.708E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5827E+00 0.0000E+00 -6.9187E-02 0.0000E+00 1.6712E+00 4.9858E-02 1 0 4.6985E-01 5.3799E-02 5.3799E-02 8.6400E-01 2 0 3.7571E-02 5.7308E-02 8.3649E-04 -2.5880E-02 3 0 2.4243E-02 -8.9519E-03 -6.5110E-03 -6.7718E-03 4 0 -2.9617E-03 -3.6663E-03 -2.4200E-03 4.3486E-03 5 0 -2.3428E-05 2.7139E-04 1.1202E-03 1.9020E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.28E-02 5.32E-02 4.27E-03 4.90E-04 1.10E+00 1.671E+00 4.986E-02 3.13122E+01 1.05E-02 1.000 1.27 1.03 100 3.38E-06 1.61E-06 8.97E-07 1.45E-09 6.98E-10 1.10E+00 1.666E+00 4.388E-02 2.87208E+01 1.16E-02 1.000 1.27 1.23 113 9.59E-07 4.85E-07 3.38E-07 2.34E-10 5.86E-10 1.10E+00 1.668E+00 4.543E-02 2.87206E+01 1.16E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.859E-07 d(ln R0)/dt = 5.051E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.31E-02 9.28E-02 2.21E-04 1.63E-08 4.05E-08 1.10E+00 1.668E+00 4.552E-02 2.87202E+01 1.17E-02 1.000 1.27 1.25 100 2.17E-06 7.51E-07 3.15E-08 6.38E-12 1.91E-11 1.10E+00 1.670E+00 4.876E-02 2.87923E+01 1.17E-02 1.001 1.27 1.27 200 5.57E-08 1.43E-08 2.85E-09 2.01E-13 3.49E-13 1.10E+00 1.671E+00 4.915E-02 2.78756E+01 1.21E-02 0.985 1.27 1.27 300 1.28E-08 3.45E-09 2.84E-10 9.00E-15 2.10E-14 1.10E+00 1.671E+00 4.925E-02 2.75062E+01 1.22E-02 0.979 1.27 1.27 400 4.05E-09 1.10E-09 4.12E-11 1.01E-15 2.10E-15 1.10E+00 1.671E+00 4.931E-02 2.72977E+01 1.23E-02 0.975 1.27 1.27 500 1.64E-09 4.38E-10 1.12E-11 2.77E-16 4.40E-16 1.10E+00 1.671E+00 4.934E-02 2.72041E+01 1.23E-02 0.974 1.27 1.27 547 9.89E-10 2.69E-10 5.78E-12 1.74E-16 2.39E-16 1.10E+00 1.671E+00 4.935E-02 2.71681E+01 1.24E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.40E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.848E-05 d(ln R0)/dt = 4.487E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.85 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.262503 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7500E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8395E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.640000 TO TG2= 1.645000 @ NSTEP 1191 GFRAME TG2 MOMENTS CHECKSUM: 8.9814756823253E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1191 TA= 1.64000E+00 CPU TIME= 2.59570E+00 SECONDS. DT= 7.89890E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1192 TA= 1.64079E+00 CPU TIME= 2.56641E+00 SECONDS. DT= 9.87363E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 1.90574E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.65330E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.56343E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.65330E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.56343E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.645000E+00 NSTEP= 1199 Hash code: 3215988 ->PRGCHK: bdy curvature ratio at t= 1.6500E+00 seconds is: 9.8127E-02 % MHDEQ: TG1= 1.645000 ; TG2= 1.650000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.706E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5827E+00 0.0000E+00 -6.9920E-02 0.0000E+00 1.6712E+00 4.9346E-02 1 0 4.6972E-01 5.3840E-02 5.3840E-02 8.6405E-01 2 0 3.7632E-02 5.7428E-02 9.0010E-04 -2.5821E-02 3 0 2.4255E-02 -8.9306E-03 -6.5012E-03 -6.7960E-03 4 0 -2.9531E-03 -3.6512E-03 -2.4280E-03 4.3371E-03 5 0 -1.3316E-05 2.6015E-04 1.1111E-03 1.9026E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.29E-02 5.32E-02 4.27E-03 4.90E-04 1.10E+00 1.671E+00 4.935E-02 3.12701E+01 1.06E-02 1.000 1.27 1.03 100 3.34E-06 1.54E-06 8.92E-07 1.45E-09 7.01E-10 1.10E+00 1.666E+00 4.348E-02 2.86814E+01 1.17E-02 1.000 1.27 1.23 113 9.62E-07 4.93E-07 3.39E-07 2.31E-10 5.86E-10 1.10E+00 1.668E+00 4.501E-02 2.86812E+01 1.18E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.868E-07 d(ln R0)/dt = 4.997E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.40E-02 9.36E-02 2.24E-04 1.66E-08 4.06E-08 1.10E+00 1.668E+00 4.510E-02 2.86808E+01 1.18E-02 1.000 1.27 1.25 100 2.22E-06 7.80E-07 3.23E-08 6.40E-12 1.91E-11 1.10E+00 1.670E+00 4.831E-02 2.87688E+01 1.18E-02 1.002 1.27 1.27 200 5.69E-08 1.46E-08 2.90E-09 2.05E-13 3.52E-13 1.10E+00 1.670E+00 4.869E-02 2.78452E+01 1.22E-02 0.986 1.27 1.27 300 1.30E-08 3.53E-09 2.94E-10 9.34E-15 2.20E-14 1.10E+00 1.671E+00 4.880E-02 2.74760E+01 1.23E-02 0.979 1.27 1.27 400 4.09E-09 1.14E-09 4.21E-11 1.02E-15 2.16E-15 1.10E+00 1.671E+00 4.886E-02 2.72616E+01 1.24E-02 0.975 1.27 1.27 500 1.70E-09 4.54E-10 1.17E-11 2.79E-16 4.46E-16 1.10E+00 1.671E+00 4.889E-02 2.71685E+01 1.25E-02 0.974 1.27 1.27 551 9.84E-10 2.63E-10 5.46E-12 2.08E-16 2.20E-16 1.10E+00 1.671E+00 4.890E-02 2.71293E+01 1.25E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.63E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.934E-05 d(ln R0)/dt = 4.616E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.64 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.256949 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6406E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8127E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.645000 TO TG2= 1.650000 @ NSTEP 1199 GFRAME TG2 MOMENTS CHECKSUM: 8.9797546881348E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1199 TA= 1.64500E+00 CPU TIME= 2.78320E+00 SECONDS. DT= 7.85294E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1200 TA= 1.64562E+00 CPU TIME= 2.85937E+00 SECONDS. DT= 7.80385E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.087890625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6145E+00 3.0135E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7480E+20 nbi_getprofiles ne*dVol sum (ions): 4.7480E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15651 - 0 (killed) + 5216 (dep) = 20867 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2918 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6503 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7084 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7534 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0018E+00 %ORBALL: In processor 0: orbit # IORB= 7916 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8110 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8117 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8133 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8151 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8375 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8514 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8623 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8761 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9150 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9308 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9370 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9422 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9538 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9771 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9804 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9809 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9862 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9949 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10045 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10169 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10261 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20867 SPL= 0 TOT=15595 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1207 TA= 1.65000E+00 CPU TIME= 2.50977E+00 SECONDS. DT= 9.08261E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.650000E+00 NSTEP= 1207 Hash code: 2975397 ->PRGCHK: bdy curvature ratio at t= 1.6550E+00 seconds is: 9.7862E-02 % MHDEQ: TG1= 1.650000 ; TG2= 1.655000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.705E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5826E+00 0.0000E+00 -7.0653E-02 0.0000E+00 1.6711E+00 4.8896E-02 1 0 4.6958E-01 5.3882E-02 5.3882E-02 8.6410E-01 2 0 3.7693E-02 5.7549E-02 9.6371E-04 -2.5762E-02 3 0 2.4268E-02 -8.9093E-03 -6.4914E-03 -6.8201E-03 4 0 -2.9446E-03 -3.6362E-03 -2.4361E-03 4.3256E-03 5 0 -3.2038E-06 2.4891E-04 1.1020E-03 1.9031E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.29E-02 5.32E-02 4.26E-03 4.91E-04 1.10E+00 1.671E+00 4.890E-02 3.12539E+01 1.07E-02 1.000 1.27 1.02 100 3.30E-06 1.47E-06 8.87E-07 1.43E-09 7.07E-10 1.10E+00 1.667E+00 4.307E-02 2.86685E+01 1.19E-02 1.000 1.27 1.23 113 9.60E-07 5.00E-07 3.39E-07 2.26E-10 5.87E-10 1.10E+00 1.668E+00 4.460E-02 2.86683E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.871E-07 d(ln R0)/dt = 4.969E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.49E-02 9.46E-02 2.26E-04 1.69E-08 4.07E-08 1.10E+00 1.668E+00 4.469E-02 2.86681E+01 1.19E-02 1.000 1.27 1.25 100 2.29E-06 8.13E-07 3.30E-08 6.42E-12 1.92E-11 1.10E+00 1.669E+00 4.785E-02 2.87579E+01 1.19E-02 1.002 1.27 1.27 200 5.83E-08 1.50E-08 2.94E-09 2.09E-13 3.54E-13 1.10E+00 1.670E+00 4.824E-02 2.78268E+01 1.23E-02 0.985 1.27 1.27 300 1.33E-08 3.63E-09 3.03E-10 9.68E-15 2.31E-14 1.10E+00 1.671E+00 4.834E-02 2.74574E+01 1.24E-02 0.979 1.27 1.27 400 4.15E-09 1.18E-09 4.34E-11 1.06E-15 2.24E-15 1.10E+00 1.671E+00 4.840E-02 2.72389E+01 1.25E-02 0.975 1.27 1.27 500 1.77E-09 4.69E-10 1.22E-11 2.83E-16 4.54E-16 1.10E+00 1.671E+00 4.843E-02 2.71447E+01 1.26E-02 0.973 1.27 1.27 552 9.99E-10 2.67E-10 5.44E-12 1.96E-16 2.18E-16 1.10E+00 1.671E+00 4.844E-02 2.71038E+01 1.26E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.25E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.035E-05 d(ln R0)/dt = 4.769E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.274050 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5547E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7862E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.650000 TO TG2= 1.655000 @ NSTEP 1207 GFRAME TG2 MOMENTS CHECKSUM: 8.9780308365505E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1207 TA= 1.65000E+00 CPU TIME= 2.62891E+00 SECONDS. DT= 9.08261E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1208 TA= 1.65049E+00 CPU TIME= 2.94336E+00 SECONDS. DT= 6.18147E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1215 TA= 1.65386E+00 CPU TIME= 2.90039E+00 SECONDS. DT= 5.86263E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 1.03256E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.83685E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.55250E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.83685E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.55250E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 3.30633E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.66012E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 3.30633E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.66012E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.655000E+00 NSTEP= 1218 Hash code: 57710831 ->PRGCHK: bdy curvature ratio at t= 1.6600E+00 seconds is: 9.7598E-02 % MHDEQ: TG1= 1.655000 ; TG2= 1.660000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.269E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5825E+00 0.0000E+00 -7.1386E-02 0.0000E+00 1.6711E+00 4.8438E-02 1 0 4.6945E-01 5.3924E-02 5.3924E-02 8.6415E-01 2 0 3.7755E-02 5.7670E-02 1.0273E-03 -2.5703E-02 3 0 2.4281E-02 -8.8880E-03 -6.4816E-03 -6.8442E-03 4 0 -2.9361E-03 -3.6211E-03 -2.4441E-03 4.3141E-03 5 0 6.9083E-06 2.3767E-04 1.0930E-03 1.9037E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.26E-01 4.30E-02 5.32E-02 4.26E-03 4.92E-04 1.10E+00 1.671E+00 4.844E-02 3.12402E+01 1.07E-02 1.000 1.27 1.02 100 3.30E-06 1.44E-06 8.84E-07 1.43E-09 7.18E-10 1.10E+00 1.667E+00 4.265E-02 2.86586E+01 1.19E-02 1.000 1.27 1.23 113 9.58E-07 5.06E-07 3.39E-07 2.23E-10 5.89E-10 1.10E+00 1.668E+00 4.420E-02 2.86584E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.871E-07 d(ln R0)/dt = 4.984E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.60E-02 9.55E-02 2.27E-04 1.70E-08 4.10E-08 1.10E+00 1.668E+00 4.428E-02 2.86582E+01 1.19E-02 1.000 1.27 1.25 100 2.33E-06 8.33E-07 3.35E-08 6.50E-12 1.94E-11 1.10E+00 1.670E+00 4.743E-02 2.87648E+01 1.19E-02 1.002 1.27 1.27 200 5.92E-08 1.54E-08 2.97E-09 2.11E-13 3.53E-13 1.10E+00 1.671E+00 4.782E-02 2.78258E+01 1.23E-02 0.986 1.27 1.27 300 1.35E-08 3.68E-09 3.08E-10 9.96E-15 2.38E-14 1.10E+00 1.671E+00 4.792E-02 2.74567E+01 1.24E-02 0.979 1.27 1.27 400 4.19E-09 1.21E-09 4.45E-11 1.11E-15 2.29E-15 1.10E+00 1.671E+00 4.798E-02 2.72371E+01 1.25E-02 0.975 1.27 1.27 500 1.81E-09 4.78E-10 1.26E-11 2.95E-16 4.71E-16 1.10E+00 1.671E+00 4.801E-02 2.71422E+01 1.26E-02 0.974 1.27 1.27 554 9.85E-10 2.64E-10 5.47E-12 1.59E-16 2.48E-16 1.10E+00 1.671E+00 4.802E-02 2.70984E+01 1.26E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.66E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.116E-05 d(ln R0)/dt = 4.929E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.295864 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.6797E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7598E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.655000 TO TG2= 1.660000 @ NSTEP 1218 GFRAME TG2 MOMENTS CHECKSUM: 8.9765335363466E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1218 TA= 1.65500E+00 CPU TIME= 3.05664E+00 SECONDS. DT= 5.77079E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1219 TA= 1.65546E+00 CPU TIME= 2.93750E+00 SECONDS. DT= 5.70636E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1226 TA= 1.65855E+00 CPU TIME= 2.93164E+00 SECONDS. DT= 5.39979E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6148E+00 3.0129E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7116E+20 nbi_getprofiles ne*dVol sum (ions): 4.7116E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15595 - 0 (killed) + 5234 (dep) = 20829 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4858 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5893 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6757 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6868 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7883 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8024 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8262 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8353 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8467 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8579 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8915 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8974 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9379 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9436 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9527 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9533 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9535 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9578 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9634 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9725 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9737 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9805 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9876 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9923 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10270 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20829 SPL= 0 TOT=15567 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1230 TA= 1.66000E+00 CPU TIME= 2.96094E+00 SECONDS. DT= 2.13871E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.660000E+00 NSTEP= 1230 Hash code: 35769215 ->PRGCHK: bdy curvature ratio at t= 1.6650E+00 seconds is: 9.7335E-02 % MHDEQ: TG1= 1.660000 ; TG2= 1.665000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.703E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5824E+00 0.0000E+00 -7.2119E-02 0.0000E+00 1.6712E+00 4.8022E-02 1 0 4.6931E-01 5.3965E-02 5.3965E-02 8.6420E-01 2 0 3.7816E-02 5.7790E-02 1.0909E-03 -2.5644E-02 3 0 2.4293E-02 -8.8667E-03 -6.4718E-03 -6.8684E-03 4 0 -2.9276E-03 -3.6061E-03 -2.4521E-03 4.3026E-03 5 0 1.7020E-05 2.2642E-04 1.0839E-03 1.9043E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.27E-01 4.32E-02 5.33E-02 4.26E-03 4.93E-04 1.10E+00 1.671E+00 4.802E-02 3.12344E+01 1.07E-02 1.000 1.27 1.02 100 3.23E-06 1.40E-06 8.76E-07 1.47E-09 7.18E-10 1.10E+00 1.667E+00 4.221E-02 2.86476E+01 1.18E-02 1.000 1.27 1.24 113 9.60E-07 5.06E-07 3.40E-07 2.29E-10 5.93E-10 1.10E+00 1.668E+00 4.374E-02 2.86474E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.897E-07 d(ln R0)/dt = 4.934E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.64E-02 9.57E-02 2.27E-04 1.70E-08 4.13E-08 1.10E+00 1.668E+00 4.383E-02 2.86472E+01 1.19E-02 1.000 1.27 1.25 100 2.38E-06 8.58E-07 3.41E-08 6.55E-12 1.96E-11 1.10E+00 1.670E+00 4.702E-02 2.87067E+01 1.19E-02 1.001 1.27 1.27 200 6.00E-08 1.57E-08 3.02E-09 2.15E-13 3.52E-13 1.10E+00 1.671E+00 4.742E-02 2.77638E+01 1.23E-02 0.985 1.27 1.27 300 1.36E-08 3.74E-09 3.12E-10 1.02E-14 2.45E-14 1.10E+00 1.671E+00 4.752E-02 2.73949E+01 1.25E-02 0.978 1.27 1.27 400 4.21E-09 1.24E-09 4.55E-11 1.16E-15 2.34E-15 1.10E+00 1.671E+00 4.758E-02 2.71747E+01 1.26E-02 0.974 1.27 1.27 500 1.84E-09 4.84E-10 1.29E-11 3.06E-16 4.84E-16 1.10E+00 1.671E+00 4.761E-02 2.70796E+01 1.26E-02 0.973 1.27 1.27 554 9.95E-10 2.68E-10 5.53E-12 1.64E-16 2.50E-16 1.10E+00 1.671E+00 4.762E-02 2.70350E+01 1.26E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.155E-05 d(ln R0)/dt = 5.039E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.318109 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7773E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7335E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.660000 TO TG2= 1.665000 @ NSTEP 1230 GFRAME TG2 MOMENTS CHECKSUM: 8.9755745103090E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1230 TA= 1.66000E+00 CPU TIME= 3.12891E+00 SECONDS. DT= 2.13871E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1231 TA= 1.66021E+00 CPU TIME= 2.94531E+00 SECONDS. DT= 2.67339E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1238 TA= 1.66323E+00 CPU TIME= 2.93945E+00 SECONDS. DT= 5.74009E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 5.80605E-39 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.38756E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.51340E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.38756E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.51340E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.665000E+00 NSTEP= 1242 Hash code: 117986702 ->PRGCHK: bdy curvature ratio at t= 1.6700E+00 seconds is: 9.7075E-02 % MHDEQ: TG1= 1.665000 ; TG2= 1.670000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5824E+00 0.0000E+00 -7.2852E-02 0.0000E+00 1.6715E+00 4.7624E-02 1 0 4.6918E-01 5.4007E-02 5.4007E-02 8.6425E-01 2 0 3.7877E-02 5.7911E-02 1.1546E-03 -2.5585E-02 3 0 2.4306E-02 -8.8454E-03 -6.4620E-03 -6.8925E-03 4 0 -2.9190E-03 -3.5910E-03 -2.4602E-03 4.2911E-03 5 0 2.7132E-05 2.1518E-04 1.0748E-03 1.9049E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.28E-01 4.35E-02 5.35E-02 4.26E-03 4.95E-04 1.10E+00 1.671E+00 4.762E-02 3.12282E+01 1.07E-02 1.000 1.27 1.02 100 3.20E-06 1.39E-06 8.70E-07 1.53E-09 7.14E-10 1.10E+00 1.667E+00 4.174E-02 2.86342E+01 1.19E-02 1.000 1.27 1.23 113 9.87E-07 5.11E-07 3.41E-07 2.41E-10 5.96E-10 1.10E+00 1.668E+00 4.324E-02 2.86340E+01 1.19E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.01E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.941E-07 d(ln R0)/dt = 4.819E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.62E-02 9.51E-02 2.27E-04 1.70E-08 4.30E-08 1.10E+00 1.668E+00 4.332E-02 2.86330E+01 1.20E-02 1.000 1.27 1.25 100 2.51E-06 9.12E-07 3.51E-08 6.58E-12 1.97E-11 1.10E+00 1.670E+00 4.665E-02 2.87055E+01 1.20E-02 1.001 1.27 1.27 200 6.12E-08 1.63E-08 3.09E-09 2.22E-13 3.61E-13 1.10E+00 1.671E+00 4.708E-02 2.77575E+01 1.24E-02 0.985 1.27 1.27 300 1.39E-08 3.84E-09 3.19E-10 1.04E-14 2.55E-14 1.10E+00 1.672E+00 4.719E-02 2.73845E+01 1.25E-02 0.978 1.27 1.27 400 4.27E-09 1.26E-09 4.66E-11 1.19E-15 2.38E-15 1.10E+00 1.672E+00 4.725E-02 2.71609E+01 1.26E-02 0.974 1.27 1.27 500 1.89E-09 4.96E-10 1.33E-11 3.17E-16 4.94E-16 1.10E+00 1.672E+00 4.728E-02 2.70669E+01 1.27E-02 0.973 1.27 1.27 556 9.88E-10 2.71E-10 5.69E-12 2.09E-16 2.69E-16 1.10E+00 1.672E+00 4.729E-02 2.70212E+01 1.27E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.66E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.116E-05 d(ln R0)/dt = 5.087E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.219282 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7383E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7075E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.665000 TO TG2= 1.670000 @ NSTEP 1242 GFRAME TG2 MOMENTS CHECKSUM: 8.9749174031554E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1242 TA= 1.66500E+00 CPU TIME= 3.27734E+00 SECONDS. DT= 7.30032E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1243 TA= 1.66548E+00 CPU TIME= 2.95898E+00 SECONDS. DT= 5.96422E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1249 TA= 1.66889E+00 CPU TIME= 2.98242E+00 SECONDS. DT= 7.70865E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6151E+00 3.0125E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7800E+20 nbi_getprofiles ne*dVol sum (ions): 4.7800E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15567 - 0 (killed) + 5264 (dep) = 20831 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5127 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7905 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7941 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8325 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8569 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0022E+00 %ORBALL: In processor 0: orbit # IORB= 8867 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8935 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0001E+00 %ORBALL: In processor 0: orbit # IORB= 8975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9080 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9280 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9393 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9510 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9559 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9573 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9689 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9713 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9841 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9896 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10289 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10435 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10468 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20831 SPL= 0 TOT=15672 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1251 TA= 1.67000E+00 CPU TIME= 2.52734E+00 SECONDS. DT= 7.48596E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.670000E+00 NSTEP= 1251 Hash code: 108402770 ->PRGCHK: bdy curvature ratio at t= 1.6750E+00 seconds is: 9.6816E-02 % MHDEQ: TG1= 1.670000 ; TG2= 1.675000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5823E+00 0.0000E+00 -7.3585E-02 0.0000E+00 1.6721E+00 4.7295E-02 1 0 4.6904E-01 5.4049E-02 5.4049E-02 8.6430E-01 2 0 3.7938E-02 5.8032E-02 1.2182E-03 -2.5525E-02 3 0 2.4318E-02 -8.8241E-03 -6.4522E-03 -6.9167E-03 4 0 -2.9105E-03 -3.5760E-03 -2.4682E-03 4.2796E-03 5 0 3.7245E-05 2.0394E-04 1.0658E-03 1.9055E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.40E-02 5.38E-02 4.27E-03 4.98E-04 1.10E+00 1.672E+00 4.729E-02 3.12390E+01 1.08E-02 1.000 1.27 1.02 100 2.75E-06 1.24E-06 7.78E-07 1.54E-09 7.12E-10 1.10E+00 1.666E+00 4.110E-02 2.86262E+01 1.20E-02 1.000 1.27 1.23 112 9.95E-07 4.23E-07 3.22E-07 5.97E-10 3.25E-10 1.10E+00 1.667E+00 4.251E-02 2.86260E+01 1.20E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.200E-07 d(ln R0)/dt = 4.382E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.47E-02 9.23E-02 2.25E-04 1.71E-08 4.71E-08 1.10E+00 1.668E+00 4.261E-02 2.86242E+01 1.21E-02 1.000 1.27 1.25 100 2.61E-06 9.65E-07 3.63E-08 6.80E-12 2.05E-11 1.10E+00 1.671E+00 4.627E-02 2.87410E+01 1.20E-02 1.002 1.27 1.27 200 6.21E-08 1.68E-08 3.23E-09 2.35E-13 3.81E-13 1.10E+00 1.672E+00 4.674E-02 2.77802E+01 1.24E-02 0.985 1.27 1.27 300 1.43E-08 3.97E-09 3.33E-10 1.10E-14 2.69E-14 1.10E+00 1.672E+00 4.685E-02 2.73995E+01 1.26E-02 0.979 1.27 1.27 400 4.37E-09 1.30E-09 4.83E-11 1.26E-15 2.47E-15 1.10E+00 1.672E+00 4.692E-02 2.71711E+01 1.27E-02 0.975 1.27 1.27 500 1.95E-09 5.09E-10 1.38E-11 3.28E-16 5.03E-16 1.10E+00 1.673E+00 4.695E-02 2.70767E+01 1.28E-02 0.973 1.27 1.27 560 9.81E-10 2.66E-10 5.42E-12 1.61E-16 2.22E-16 1.10E+00 1.673E+00 4.696E-02 2.70284E+01 1.28E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.051E-05 d(ln R0)/dt = 5.119E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.122285 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3594E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6816E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.670000 TO TG2= 1.675000 @ NSTEP 1251 GFRAME TG2 MOMENTS CHECKSUM: 8.9741952589946E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1251 TA= 1.67000E+00 CPU TIME= 2.46484E+00 SECONDS. DT= 7.48596E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1252 TA= 1.67030E+00 CPU TIME= 2.43945E+00 SECONDS. DT= 3.70164E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1259 TA= 1.67230E+00 CPU TIME= 2.49805E+00 SECONDS. DT= 3.49800E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1266 TA= 1.67420E+00 CPU TIME= 2.48242E+00 SECONDS. DT= 3.30330E-04 %MFRCHK - LABEL "QMINORB", # 8= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 9.80909E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 4.40771E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.62579E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.40771E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.62579E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67310E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.74294E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67310E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.74294E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.675000E+00 NSTEP= 1269 Hash code: 89948938 ->PRGCHK: bdy curvature ratio at t= 1.6800E+00 seconds is: 9.6558E-02 % MHDEQ: TG1= 1.675000 ; TG2= 1.680000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -7.4318E-02 0.0000E+00 1.6726E+00 4.6962E-02 1 0 4.6891E-01 5.4091E-02 5.4091E-02 8.6435E-01 2 0 3.7999E-02 5.8152E-02 1.2818E-03 -2.5466E-02 3 0 2.4331E-02 -8.8028E-03 -6.4424E-03 -6.9408E-03 4 0 -2.9020E-03 -3.5609E-03 -2.4763E-03 4.2681E-03 5 0 4.7357E-05 1.9270E-04 1.0567E-03 1.9061E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.31E-01 4.45E-02 5.40E-02 4.28E-03 5.01E-04 1.10E+00 1.673E+00 4.696E-02 3.12502E+01 1.08E-02 1.000 1.27 1.02 100 2.76E-06 1.24E-06 7.99E-07 1.54E-09 7.31E-10 1.10E+00 1.667E+00 4.080E-02 2.86187E+01 1.20E-02 1.000 1.27 1.23 112 9.72E-07 4.18E-07 3.24E-07 5.96E-10 3.38E-10 1.10E+00 1.668E+00 4.216E-02 2.86185E+01 1.20E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.04E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.096E-07 d(ln R0)/dt = 3.880E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.48E-02 9.23E-02 2.27E-04 1.71E-08 4.49E-08 1.10E+00 1.668E+00 4.225E-02 2.86173E+01 1.21E-02 1.000 1.27 1.25 100 2.74E-06 1.04E-06 3.80E-08 6.83E-12 2.07E-11 1.10E+00 1.671E+00 4.585E-02 2.87082E+01 1.21E-02 1.002 1.27 1.27 200 6.37E-08 1.76E-08 3.30E-09 2.43E-13 3.89E-13 1.10E+00 1.672E+00 4.629E-02 2.77392E+01 1.25E-02 0.985 1.27 1.27 300 1.49E-08 4.17E-09 3.46E-10 1.16E-14 2.84E-14 1.10E+00 1.672E+00 4.640E-02 2.73541E+01 1.27E-02 0.978 1.27 1.27 400 4.50E-09 1.38E-09 5.11E-11 1.37E-15 2.67E-15 1.10E+00 1.672E+00 4.646E-02 2.71238E+01 1.28E-02 0.974 1.27 1.27 500 2.03E-09 5.26E-10 1.44E-11 3.39E-16 5.21E-16 1.10E+00 1.672E+00 4.650E-02 2.70245E+01 1.28E-02 0.972 1.27 1.27 561 9.99E-10 2.72E-10 5.46E-12 1.53E-16 2.30E-16 1.10E+00 1.672E+00 4.651E-02 2.69733E+01 1.28E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.059E-05 d(ln R0)/dt = 5.102E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.202832 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6558E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.675000 TO TG2= 1.680000 @ NSTEP 1269 GFRAME TG2 MOMENTS CHECKSUM: 8.9729842485349E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1269 TA= 1.67500E+00 CPU TIME= 2.50000E+00 SECONDS. DT= 3.24973E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1270 TA= 1.67526E+00 CPU TIME= 2.46484E+00 SECONDS. DT= 3.19963E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1277 TA= 1.67699E+00 CPU TIME= 2.44727E+00 SECONDS. DT= 3.02071E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1284 TA= 1.67863E+00 CPU TIME= 2.51172E+00 SECONDS. DT= 2.85195E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08203125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6153E+00 3.0120E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.7175E+20 nbi_getprofiles ne*dVol sum (ions): 4.7175E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15672 - 0 (killed) + 5273 (dep) = 20945 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6897 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7284 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7952 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8107 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8113 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8394 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8409 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8574 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8627 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8655 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8677 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8696 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8932 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8977 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9114 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9395 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9482 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9483 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9562 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9743 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9799 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9834 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9900 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10111 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10250 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20945 SPL= 0 TOT=15641 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1290 TA= 1.68000E+00 CPU TIME= 2.48633E+00 SECONDS. DT= 3.24610E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.680000E+00 NSTEP= 1290 Hash code: 110631995 ->PRGCHK: bdy curvature ratio at t= 1.6850E+00 seconds is: 9.6303E-02 % MHDEQ: TG1= 1.680000 ; TG2= 1.685000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.5051E-02 0.0000E+00 1.6725E+00 4.6512E-02 1 0 4.6877E-01 5.4132E-02 5.4132E-02 8.6439E-01 2 0 3.8061E-02 5.8273E-02 1.3454E-03 -2.5407E-02 3 0 2.4344E-02 -8.7815E-03 -6.4326E-03 -6.9650E-03 4 0 -2.8935E-03 -3.5458E-03 -2.4843E-03 4.2566E-03 5 0 5.7469E-05 1.8146E-04 1.0476E-03 1.9067E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.31E-01 4.45E-02 5.40E-02 4.27E-03 5.02E-04 1.10E+00 1.672E+00 4.651E-02 3.12651E+01 1.09E-02 1.000 1.27 1.02 100 2.74E-06 1.16E-06 8.02E-07 1.54E-09 7.42E-10 1.10E+00 1.668E+00 4.047E-02 2.86371E+01 1.20E-02 1.000 1.27 1.23 112 9.57E-07 4.12E-07 3.30E-07 5.94E-10 3.42E-10 1.10E+00 1.669E+00 4.186E-02 2.86369E+01 1.21E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.180E-07 d(ln R0)/dt = 4.096E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.64E-02 9.37E-02 2.29E-04 1.74E-08 4.31E-08 1.10E+00 1.669E+00 4.197E-02 2.86363E+01 1.21E-02 1.000 1.27 1.25 100 2.87E-06 1.10E-06 3.95E-08 6.84E-12 2.05E-11 1.10E+00 1.671E+00 4.541E-02 2.87103E+01 1.21E-02 1.001 1.27 1.27 200 6.47E-08 1.84E-08 3.33E-09 2.49E-13 3.95E-13 1.10E+00 1.672E+00 4.581E-02 2.77317E+01 1.25E-02 0.984 1.27 1.27 300 1.55E-08 4.37E-09 3.58E-10 1.22E-14 2.96E-14 1.10E+00 1.672E+00 4.593E-02 2.73405E+01 1.27E-02 0.977 1.27 1.27 400 4.72E-09 1.47E-09 5.44E-11 1.52E-15 2.90E-15 1.10E+00 1.672E+00 4.599E-02 2.71097E+01 1.28E-02 0.973 1.27 1.27 500 2.12E-09 5.45E-10 1.48E-11 3.49E-16 5.35E-16 1.10E+00 1.672E+00 4.603E-02 2.70018E+01 1.29E-02 0.971 1.27 1.27 565 9.92E-10 2.65E-10 5.27E-12 2.09E-16 2.07E-16 1.10E+00 1.672E+00 4.605E-02 2.69442E+01 1.29E-02 0.970 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.19E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.129E-05 d(ln R0)/dt = 5.207E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.305670 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4766E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6303E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.680000 TO TG2= 1.685000 @ NSTEP 1290 GFRAME TG2 MOMENTS CHECKSUM: 8.9715988240745E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1290 TA= 1.68000E+00 CPU TIME= 2.46875E+00 SECONDS. DT= 3.24610E-04 %MFRCHK - LABEL "QMINORB", # 7= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.47002E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.55936E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.47002E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.55936E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.83752E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.64947E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.83752E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.64947E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.685000E+00 NSTEP= 1298 Hash code: 43416396 ->PRGCHK: bdy curvature ratio at t= 1.6900E+00 seconds is: 9.6048E-02 % MHDEQ: TG1= 1.685000 ; TG2= 1.690000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.268E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.5784E-02 0.0000E+00 1.6723E+00 4.6046E-02 1 0 4.6864E-01 5.4174E-02 5.4174E-02 8.6444E-01 2 0 3.8122E-02 5.8394E-02 1.4090E-03 -2.5348E-02 3 0 2.4356E-02 -8.7602E-03 -6.4228E-03 -6.9891E-03 4 0 -2.8850E-03 -3.5308E-03 -2.4924E-03 4.2451E-03 5 0 6.7581E-05 1.7021E-04 1.0386E-03 1.9073E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.45E-02 5.39E-02 4.27E-03 5.02E-04 1.10E+00 1.672E+00 4.605E-02 3.12786E+01 1.09E-02 1.000 1.27 1.02 100 2.71E-06 1.13E-06 7.80E-07 1.56E-09 7.42E-10 1.10E+00 1.668E+00 3.998E-02 2.86555E+01 1.21E-02 1.000 1.27 1.23 109 9.99E-07 6.36E-07 3.26E-07 1.91E-10 1.83E-09 1.10E+00 1.668E+00 4.102E-02 2.86554E+01 1.21E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.070E-07 d(ln R0)/dt = 4.691E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.52E-02 9.13E-02 2.28E-04 1.81E-08 4.24E-08 1.10E+00 1.668E+00 4.115E-02 2.86548E+01 1.21E-02 1.000 1.27 1.25 100 2.92E-06 1.13E-06 4.01E-08 7.00E-12 2.11E-11 1.10E+00 1.671E+00 4.495E-02 2.87845E+01 1.21E-02 1.002 1.27 1.27 200 6.55E-08 1.87E-08 3.44E-09 2.58E-13 4.09E-13 1.10E+00 1.672E+00 4.535E-02 2.77907E+01 1.25E-02 0.985 1.27 1.27 300 1.60E-08 4.48E-09 3.71E-10 1.26E-14 3.02E-14 1.10E+00 1.672E+00 4.547E-02 2.73914E+01 1.27E-02 0.978 1.27 1.27 400 4.83E-09 1.51E-09 5.57E-11 1.58E-15 2.91E-15 1.10E+00 1.672E+00 4.554E-02 2.71545E+01 1.28E-02 0.974 1.27 1.27 500 2.20E-09 5.67E-10 1.55E-11 3.64E-16 5.52E-16 1.10E+00 1.672E+00 4.557E-02 2.70485E+01 1.29E-02 0.972 1.27 1.27 569 9.94E-10 2.65E-10 5.19E-12 1.82E-16 2.01E-16 1.10E+00 1.672E+00 4.559E-02 2.69875E+01 1.29E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.30E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.164E-05 d(ln R0)/dt = 5.248E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.84 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.272100 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5937E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6048E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.685000 TO TG2= 1.690000 @ NSTEP 1298 GFRAME TG2 MOMENTS CHECKSUM: 8.9697472574484E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1303 TA= 1.68939E+00 CPU TIME= 2.51562E+00 SECONDS. DT= 6.08969E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.087890625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6171E+00 3.0147E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.6867E+20 nbi_getprofiles ne*dVol sum (ions): 4.6867E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15641 - 0 (killed) + 5272 (dep) = 20913 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5173 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6048 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7093 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7645 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7932 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8064 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8099 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8357 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8896 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9025 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9369 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9388 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9408 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9415 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9494 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9572 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9756 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9906 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9947 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9997 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10077 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10141 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10197 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10267 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10502 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10519 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20913 SPL= 0 TOT=15564 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1304 TA= 1.69000E+00 CPU TIME= 2.68945E+00 SECONDS. DT= 7.61211E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.6900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.690000E+00 NSTEP= 1304 Hash code: 69636905 ->PRGCHK: bdy curvature ratio at t= 1.6950E+00 seconds is: 9.5796E-02 % MHDEQ: TG1= 1.690000 ; TG2= 1.695000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.6517E-02 0.0000E+00 1.6723E+00 4.5589E-02 1 0 4.6850E-01 5.4216E-02 5.4216E-02 8.6449E-01 2 0 3.8183E-02 5.8514E-02 1.4726E-03 -2.5289E-02 3 0 2.4369E-02 -8.7389E-03 -6.4130E-03 -7.0132E-03 4 0 -2.8764E-03 -3.5157E-03 -2.5004E-03 4.2336E-03 5 0 7.7693E-05 1.5897E-04 1.0295E-03 1.9078E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.46E-02 5.40E-02 4.26E-03 5.03E-04 1.10E+00 1.672E+00 4.559E-02 3.12691E+01 1.09E-02 1.000 1.27 1.02 100 2.70E-06 1.12E-06 7.68E-07 1.56E-09 7.48E-10 1.10E+00 1.668E+00 3.951E-02 2.86468E+01 1.21E-02 1.000 1.27 1.23 109 9.91E-07 6.21E-07 3.24E-07 1.87E-10 1.83E-09 1.10E+00 1.668E+00 4.055E-02 2.86466E+01 1.21E-02 1.000 1.27 1.24 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.078E-07 d(ln R0)/dt = 4.652E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.54E-02 9.12E-02 2.29E-04 1.86E-08 4.30E-08 1.10E+00 1.668E+00 4.068E-02 2.86461E+01 1.22E-02 1.000 1.27 1.25 100 2.97E-06 1.16E-06 4.07E-08 7.03E-12 2.13E-11 1.10E+00 1.671E+00 4.451E-02 2.87947E+01 1.21E-02 1.003 1.27 1.27 200 6.61E-08 1.91E-08 3.49E-09 2.61E-13 4.13E-13 1.10E+00 1.672E+00 4.491E-02 2.77959E+01 1.26E-02 0.985 1.27 1.27 300 1.61E-08 4.54E-09 3.75E-10 1.29E-14 3.09E-14 1.10E+00 1.672E+00 4.503E-02 2.73947E+01 1.28E-02 0.978 1.27 1.27 400 4.87E-09 1.52E-09 5.65E-11 1.64E-15 2.97E-15 1.10E+00 1.672E+00 4.510E-02 2.71573E+01 1.29E-02 0.974 1.27 1.27 500 2.24E-09 5.78E-10 1.60E-11 3.80E-16 5.73E-16 1.10E+00 1.672E+00 4.513E-02 2.70522E+01 1.29E-02 0.972 1.27 1.27 570 9.98E-10 2.69E-10 5.40E-12 2.26E-16 2.17E-16 1.10E+00 1.672E+00 4.515E-02 2.69899E+01 1.30E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.27E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.182E-05 d(ln R0)/dt = 5.289E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.262146 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5352E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5796E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.690000 TO TG2= 1.695000 @ NSTEP 1304 GFRAME TG2 MOMENTS CHECKSUM: 8.9680234182771E+03 %MFRCHK - LABEL "QMINORB", # 7= 7.00649E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 8.92450E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10218E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.65423E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10218E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.65423E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 2.57176E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.74448E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 2.57176E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.74448E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.695000E+00 NSTEP= 1310 Hash code: 38808193 ->PRGCHK: bdy curvature ratio at t= 1.7000E+00 seconds is: 9.5545E-02 % MHDEQ: TG1= 1.695000 ; TG2= 1.700000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5819E+00 0.0000E+00 -7.7250E-02 0.0000E+00 1.6724E+00 4.5151E-02 1 0 4.6837E-01 5.4257E-02 5.4257E-02 8.6454E-01 2 0 3.8244E-02 5.8635E-02 1.5362E-03 -2.5230E-02 3 0 2.4382E-02 -8.7175E-03 -6.4032E-03 -7.0374E-03 4 0 -2.8679E-03 -3.5007E-03 -2.5085E-03 4.2221E-03 5 0 8.7805E-05 1.4773E-04 1.0205E-03 1.9084E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.31E-01 4.47E-02 5.40E-02 4.26E-03 5.04E-04 1.10E+00 1.672E+00 4.515E-02 3.12617E+01 1.10E-02 1.000 1.27 1.02 100 2.71E-06 1.13E-06 7.62E-07 1.56E-09 7.54E-10 1.10E+00 1.668E+00 3.904E-02 2.86383E+01 1.22E-02 1.000 1.27 1.23 109 9.88E-07 6.08E-07 3.24E-07 1.85E-10 1.84E-09 1.10E+00 1.668E+00 4.006E-02 2.86382E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.045E-07 d(ln R0)/dt = 4.511E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.57E-02 9.12E-02 2.29E-04 1.92E-08 4.37E-08 1.10E+00 1.668E+00 4.019E-02 2.86377E+01 1.22E-02 1.000 1.27 1.25 100 3.03E-06 1.18E-06 4.13E-08 7.06E-12 2.16E-11 1.10E+00 1.671E+00 4.405E-02 2.87989E+01 1.22E-02 1.003 1.27 1.27 200 6.65E-08 1.94E-08 3.55E-09 2.66E-13 4.19E-13 1.10E+00 1.672E+00 4.446E-02 2.77959E+01 1.26E-02 0.985 1.27 1.27 300 1.63E-08 4.59E-09 3.81E-10 1.32E-14 3.16E-14 1.10E+00 1.672E+00 4.458E-02 2.73931E+01 1.28E-02 0.978 1.27 1.27 400 4.89E-09 1.54E-09 5.74E-11 1.71E-15 3.03E-15 1.10E+00 1.672E+00 4.465E-02 2.71558E+01 1.29E-02 0.974 1.27 1.27 500 2.27E-09 5.86E-10 1.65E-11 3.95E-16 5.94E-16 1.10E+00 1.672E+00 4.468E-02 2.70512E+01 1.29E-02 0.972 1.27 1.27 571 9.95E-10 2.75E-10 5.54E-12 2.39E-16 2.32E-16 1.10E+00 1.672E+00 4.470E-02 2.69878E+01 1.30E-02 0.971 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.30E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.180E-05 d(ln R0)/dt = 5.297E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.275129 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5742E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5545E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.695000 TO TG2= 1.700000 @ NSTEP 1310 GFRAME TG2 MOMENTS CHECKSUM: 8.9661529987430E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1310 TA= 1.69500E+00 CPU TIME= 2.90820E+00 SECONDS. DT= 1.12569E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6172E+00 3.0142E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.6557E+20 nbi_getprofiles ne*dVol sum (ions): 4.6557E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15564 - 0 (killed) + 5284 (dep) = 20848 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5018 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0068E+00 %ORBALL: In processor 0: orbit # IORB= 6745 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7357 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7396 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7951 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8113 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8180 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8644 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8762 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8841 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8878 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9029 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9060 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9078 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9269 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9275 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9331 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9389 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9632 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9732 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9806 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9921 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10061 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10062 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10374 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10484 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10487 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20848 SPL= 0 TOT=15651 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1315 TA= 1.70000E+00 CPU TIME= 3.07812E+00 SECONDS. DT= 1.07470E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.700000E+00 NSTEP= 1315 Hash code: 67655990 ->PRGCHK: bdy curvature ratio at t= 1.7050E+00 seconds is: 9.5819E-02 % MHDEQ: TG1= 1.700000 ; TG2= 1.705000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5819E+00 0.0000E+00 -7.6752E-02 0.0000E+00 1.6723E+00 4.4700E-02 1 0 4.6852E-01 5.4117E-02 5.4117E-02 8.6439E-01 2 0 3.8239E-02 5.8461E-02 1.4954E-03 -2.5309E-02 3 0 2.4370E-02 -8.7238E-03 -6.3893E-03 -7.0211E-03 4 0 -2.8887E-03 -3.4995E-03 -2.4933E-03 4.2405E-03 5 0 7.9440E-05 1.6196E-04 1.0266E-03 1.9089E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.42E-02 5.38E-02 4.26E-03 5.00E-04 1.10E+00 1.672E+00 4.470E-02 3.12677E+01 1.10E-02 1.000 1.27 1.02 100 2.73E-06 1.15E-06 7.67E-07 1.55E-09 7.43E-10 1.10E+00 1.668E+00 3.916E-02 2.86436E+01 1.22E-02 1.000 1.27 1.23 112 9.64E-07 4.01E-07 3.24E-07 5.88E-10 3.48E-10 1.10E+00 1.669E+00 4.057E-02 2.86434E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.324E-07 d(ln R0)/dt = 4.172E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.76E-02 9.37E-02 2.32E-04 1.93E-08 4.57E-08 1.10E+00 1.669E+00 4.067E-02 2.86430E+01 1.22E-02 1.000 1.27 1.25 100 2.91E-06 1.12E-06 4.03E-08 6.96E-12 2.12E-11 1.10E+00 1.671E+00 4.415E-02 2.88618E+01 1.22E-02 1.004 1.27 1.27 200 6.56E-08 1.91E-08 3.49E-09 2.59E-13 4.09E-13 1.10E+00 1.672E+00 4.458E-02 2.78605E+01 1.26E-02 0.986 1.27 1.27 300 1.60E-08 4.50E-09 3.75E-10 1.28E-14 3.12E-14 1.10E+00 1.672E+00 4.470E-02 2.74617E+01 1.28E-02 0.979 1.27 1.27 400 4.80E-09 1.50E-09 5.62E-11 1.62E-15 2.93E-15 1.10E+00 1.672E+00 4.476E-02 2.72264E+01 1.29E-02 0.975 1.27 1.27 500 2.21E-09 5.70E-10 1.60E-11 3.81E-16 5.84E-16 1.10E+00 1.672E+00 4.480E-02 2.71220E+01 1.29E-02 0.973 1.27 1.27 570 9.89E-10 2.66E-10 5.43E-12 2.30E-16 2.19E-16 1.10E+00 1.672E+00 4.482E-02 2.70600E+01 1.30E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.163E-05 d(ln R0)/dt = 5.243E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.241889 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7969E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.5819E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.700000 TO TG2= 1.705000 @ NSTEP 1315 GFRAME TG2 MOMENTS CHECKSUM: 8.9660145258722E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1315 TA= 1.70000E+00 CPU TIME= 2.85937E+00 SECONDS. DT= 1.07470E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1316 TA= 1.70028E+00 CPU TIME= 2.90234E+00 SECONDS. DT= 3.53727E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1323 TA= 1.70221E+00 CPU TIME= 2.87891E+00 SECONDS. DT= 3.35240E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1330 TA= 1.70402E+00 CPU TIME= 2.97266E+00 SECONDS. DT= 3.17107E-04 %MFRCHK - LABEL "QMINORB", # 7= 1.12104E-44 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "SMINORB", # 1= 9.33438E-38 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 4.77535E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.77643E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 4.77535E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.77643E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.02854E-38 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -1.87101E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.02854E-38 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -1.87101E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.705000E+00 NSTEP= 1334 Hash code: 53926524 ->PRGCHK: bdy curvature ratio at t= 1.7100E+00 seconds is: 9.6094E-02 % MHDEQ: TG1= 1.705000 ; TG2= 1.710000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5819E+00 0.0000E+00 -7.6254E-02 0.0000E+00 1.6723E+00 4.4816E-02 1 0 4.6867E-01 5.3977E-02 5.3977E-02 8.6423E-01 2 0 3.8234E-02 5.8287E-02 1.4546E-03 -2.5389E-02 3 0 2.4359E-02 -8.7300E-03 -6.3753E-03 -7.0048E-03 4 0 -2.9094E-03 -3.4984E-03 -2.4782E-03 4.2588E-03 5 0 7.1076E-05 1.7620E-04 1.0328E-03 1.9093E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.41E-02 5.38E-02 4.27E-03 4.98E-04 1.10E+00 1.672E+00 4.482E-02 3.12730E+01 1.10E-02 1.000 1.27 1.02 100 2.76E-06 1.14E-06 7.95E-07 1.53E-09 7.42E-10 1.10E+00 1.668E+00 3.940E-02 2.86489E+01 1.22E-02 1.000 1.27 1.23 112 9.71E-07 4.14E-07 3.34E-07 5.90E-10 3.44E-10 1.10E+00 1.669E+00 4.082E-02 2.86487E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.288E-07 d(ln R0)/dt = 4.177E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.78E-02 9.41E-02 2.34E-04 1.90E-08 4.44E-08 1.10E+00 1.669E+00 4.092E-02 2.86484E+01 1.23E-02 1.000 1.27 1.25 100 2.91E-06 1.18E-06 4.14E-08 6.88E-12 2.09E-11 1.10E+00 1.671E+00 4.432E-02 2.88657E+01 1.22E-02 1.004 1.27 1.27 200 6.52E-08 1.93E-08 3.47E-09 2.62E-13 4.20E-13 1.10E+00 1.671E+00 4.473E-02 2.78773E+01 1.26E-02 0.987 1.27 1.27 300 1.59E-08 4.50E-09 3.80E-10 1.29E-14 3.10E-14 1.10E+00 1.672E+00 4.485E-02 2.74738E+01 1.28E-02 0.980 1.27 1.27 400 4.79E-09 1.50E-09 5.70E-11 1.64E-15 3.05E-15 1.10E+00 1.672E+00 4.491E-02 2.72431E+01 1.29E-02 0.976 1.27 1.27 500 2.16E-09 5.51E-10 1.54E-11 3.61E-16 5.54E-16 1.10E+00 1.672E+00 4.495E-02 2.71315E+01 1.30E-02 0.974 1.27 1.27 567 9.96E-10 2.69E-10 5.23E-12 1.35E-16 2.00E-16 1.10E+00 1.672E+00 4.497E-02 2.70722E+01 1.30E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.132E-05 d(ln R0)/dt = 5.206E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.236458 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7969E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6094E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.705000 TO TG2= 1.710000 @ NSTEP 1334 GFRAME TG2 MOMENTS CHECKSUM: 8.9670884790399E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1334 TA= 1.70500E+00 CPU TIME= 2.98047E+00 SECONDS. DT= 3.09637E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1335 TA= 1.70524E+00 CPU TIME= 2.91797E+00 SECONDS. DT= 3.05877E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1342 TA= 1.70691E+00 CPU TIME= 2.97266E+00 SECONDS. DT= 2.89688E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1349 TA= 1.70848E+00 CPU TIME= 3.08984E+00 SECONDS. DT= 2.74329E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6173E+00 3.0148E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5865E+20 nbi_getprofiles ne*dVol sum (ions): 4.5865E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15651 - 0 (killed) + 5271 (dep) = 20922 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3132 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4689 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5469 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5681 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5749 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6398 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7353 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8097 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0042E+00 %ORBALL: In processor 0: orbit # IORB= 8167 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8212 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8244 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8389 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8470 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8542 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8614 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8735 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0006E+00 %ORBALL: In processor 0: orbit # IORB= 8826 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8962 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9035 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9135 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9155 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9272 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9286 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9501 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9667 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9831 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9890 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10307 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10348 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10421 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10540 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10569 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20922 SPL= 0 TOT=15697 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1356 TA= 1.71000E+00 CPU TIME= 2.45703E+00 SECONDS. DT= 3.00458E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.710000E+00 NSTEP= 1356 Hash code: 38769906 ->PRGCHK: bdy curvature ratio at t= 1.7150E+00 seconds is: 9.6370E-02 % MHDEQ: TG1= 1.710000 ; TG2= 1.715000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.267E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5819E+00 0.0000E+00 -7.5756E-02 0.0000E+00 1.6722E+00 4.4967E-02 1 0 4.6882E-01 5.3837E-02 5.3837E-02 8.6408E-01 2 0 3.8229E-02 5.8114E-02 1.4138E-03 -2.5469E-02 3 0 2.4348E-02 -8.7362E-03 -6.3613E-03 -6.9885E-03 4 0 -2.9302E-03 -3.4973E-03 -2.4631E-03 4.2771E-03 5 0 6.2711E-05 1.9044E-04 1.0390E-03 1.9097E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.40E-02 5.37E-02 4.27E-03 4.97E-04 1.10E+00 1.672E+00 4.497E-02 3.12415E+01 1.10E-02 1.000 1.27 1.02 100 2.88E-06 1.15E-06 8.49E-07 1.53E-09 7.36E-10 1.10E+00 1.668E+00 3.971E-02 2.86208E+01 1.22E-02 1.000 1.27 1.23 114 8.56E-07 3.61E-07 2.76E-07 1.47E-10 9.48E-10 1.10E+00 1.669E+00 4.130E-02 2.86205E+01 1.23E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.05E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.552E-07 d(ln R0)/dt = 4.704E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 7.11E-02 9.70E-02 2.40E-04 1.85E-08 4.11E-08 1.10E+00 1.669E+00 4.140E-02 2.86205E+01 1.23E-02 1.000 1.27 1.25 100 2.95E-06 1.23E-06 4.21E-08 6.61E-12 1.96E-11 1.10E+00 1.671E+00 4.449E-02 2.87864E+01 1.22E-02 1.003 1.27 1.27 200 6.51E-08 1.98E-08 3.39E-09 2.58E-13 4.23E-13 1.10E+00 1.671E+00 4.488E-02 2.78152E+01 1.27E-02 0.986 1.27 1.27 300 1.60E-08 4.54E-09 3.88E-10 1.31E-14 3.11E-14 1.10E+00 1.672E+00 4.500E-02 2.74122E+01 1.29E-02 0.979 1.27 1.27 400 4.87E-09 1.53E-09 5.81E-11 1.66E-15 3.14E-15 1.10E+00 1.672E+00 4.507E-02 2.71823E+01 1.30E-02 0.975 1.27 1.27 500 2.16E-09 5.49E-10 1.51E-11 3.51E-16 5.34E-16 1.10E+00 1.672E+00 4.511E-02 2.70648E+01 1.30E-02 0.973 1.27 1.27 568 1.00E-09 2.66E-10 5.10E-12 1.33E-16 1.87E-16 1.10E+00 1.672E+00 4.512E-02 2.70057E+01 1.31E-02 0.972 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.19E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.033E-05 d(ln R0)/dt = 5.019E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.231497 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4766E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6370E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.710000 TO TG2= 1.715000 @ NSTEP 1356 GFRAME TG2 MOMENTS CHECKSUM: 8.9685131376442E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1356 TA= 1.71000E+00 CPU TIME= 2.47656E+00 SECONDS. DT= 3.00458E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1357 TA= 1.71030E+00 CPU TIME= 2.48828E+00 SECONDS. DT= 3.75572E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1363 TA= 1.71214E+00 CPU TIME= 2.50391E+00 SECONDS. DT= 3.85691E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1369 TA= 1.71411E+00 CPU TIME= 2.45703E+00 SECONDS. DT= 4.69125E-04 %MFRCHK - LABEL "QMINORB", # 7= 1.26117E-44 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.90454E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.34662E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.91431E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.34662E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.91431E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 4= -1.10199E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.01395E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 4= -1.10199E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.01395E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.715000E+00 NSTEP= 1372 Hash code: 111898927 ->PRGCHK: bdy curvature ratio at t= 1.7200E+00 seconds is: 9.6647E-02 % MHDEQ: TG1= 1.715000 ; TG2= 1.720000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.700E+00 1.266E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.5258E-02 0.0000E+00 1.6722E+00 4.5124E-02 1 0 4.6897E-01 5.3697E-02 5.3697E-02 8.6392E-01 2 0 3.8224E-02 5.7940E-02 1.3730E-03 -2.5549E-02 3 0 2.4337E-02 -8.7424E-03 -6.3473E-03 -6.9722E-03 4 0 -2.9509E-03 -3.4961E-03 -2.4480E-03 4.2954E-03 5 0 5.4347E-05 2.0468E-04 1.0452E-03 1.9101E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.30E-01 4.40E-02 5.36E-02 4.28E-03 4.97E-04 1.10E+00 1.672E+00 4.512E-02 3.12137E+01 1.10E-02 1.000 1.27 1.01 100 2.79E-06 1.18E-06 8.03E-07 1.51E-09 7.15E-10 1.10E+00 1.668E+00 3.974E-02 2.85949E+01 1.22E-02 1.000 1.27 1.23 112 9.87E-07 4.27E-07 3.34E-07 5.91E-10 3.29E-10 1.10E+00 1.669E+00 4.117E-02 2.85947E+01 1.22E-02 1.000 1.27 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.210E-07 d(ln R0)/dt = 4.193E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.85E-02 9.30E-02 2.34E-04 1.81E-08 4.36E-08 1.10E+00 1.669E+00 4.127E-02 2.85944E+01 1.23E-02 1.000 1.27 1.25 100 2.89E-06 1.16E-06 4.10E-08 6.86E-12 2.04E-11 1.10E+00 1.671E+00 4.464E-02 2.88277E+01 1.22E-02 1.004 1.27 1.27 200 6.62E-08 1.90E-08 3.45E-09 2.60E-13 4.30E-13 1.10E+00 1.672E+00 4.506E-02 2.78417E+01 1.26E-02 0.987 1.27 1.27 300 1.62E-08 4.52E-09 3.89E-10 1.29E-14 3.03E-14 1.10E+00 1.672E+00 4.518E-02 2.74359E+01 1.28E-02 0.980 1.27 1.27 400 4.88E-09 1.52E-09 5.63E-11 1.54E-15 2.92E-15 1.10E+00 1.673E+00 4.525E-02 2.72003E+01 1.29E-02 0.976 1.27 1.27 500 2.20E-09 5.60E-10 1.54E-11 3.49E-16 5.43E-16 1.10E+00 1.673E+00 4.529E-02 2.70903E+01 1.30E-02 0.974 1.27 1.27 567 9.98E-10 2.68E-10 5.16E-12 1.35E-16 1.98E-16 1.10E+00 1.673E+00 4.531E-02 2.70311E+01 1.30E-02 0.973 1.27 1.27 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.193E-05 d(ln R0)/dt = 5.425E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.229316 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3984E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6647E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.715000 TO TG2= 1.720000 @ NSTEP 1372 GFRAME TG2 MOMENTS CHECKSUM: 8.9691773285743E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1372 TA= 1.71500E+00 CPU TIME= 2.51172E+00 SECONDS. DT= 4.13446E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1373 TA= 1.71531E+00 CPU TIME= 2.52734E+00 SECONDS. DT= 3.92101E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1379 TA= 1.71749E+00 CPU TIME= 2.56250E+00 SECONDS. DT= 4.49747E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1385 TA= 1.71970E+00 CPU TIME= 2.47656E+00 SECONDS. DT= 2.98310E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6155E+00 3.0122E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.5139E+20 nbi_getprofiles ne*dVol sum (ions): 4.5139E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15697 - 0 (killed) + 5240 (dep) = 20937 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2672 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4040 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6188 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6199 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0017E+00 %ORBALL: In processor 0: orbit # IORB= 6315 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7973 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8340 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8573 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8583 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8706 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8782 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8882 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8926 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8945 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9049 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9055 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0052E+00 %ORBALL: In processor 0: orbit # IORB= 9233 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9530 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9636 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9688 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9707 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9717 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9744 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9768 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9922 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9978 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9990 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10026 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10058 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10150 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0003E+00 %ORBALL: In processor 0: orbit # IORB= 10317 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10462 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20937 SPL= 0 TOT=15742 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1386 TA= 1.72000E+00 CPU TIME= 2.46484E+00 SECONDS. DT= 3.72887E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.720000E+00 NSTEP= 1386 Hash code: 34960199 ->PRGCHK: bdy curvature ratio at t= 1.7250E+00 seconds is: 9.6925E-02 % MHDEQ: TG1= 1.720000 ; TG2= 1.725000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.264E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.4760E-02 0.0000E+00 1.6728E+00 4.5306E-02 1 0 4.6912E-01 5.3557E-02 5.3557E-02 8.6377E-01 2 0 3.8219E-02 5.7766E-02 1.3322E-03 -2.5629E-02 3 0 2.4326E-02 -8.7486E-03 -6.3333E-03 -6.9559E-03 4 0 -2.9717E-03 -3.4950E-03 -2.4329E-03 4.3137E-03 5 0 4.5982E-05 2.1891E-04 1.0514E-03 1.9106E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.32E-01 4.44E-02 5.38E-02 4.30E-03 4.98E-04 1.10E+00 1.673E+00 4.531E-02 3.12865E+01 1.09E-02 1.000 1.26 1.02 100 3.05E-06 1.44E-06 8.44E-07 1.57E-09 7.00E-10 1.10E+00 1.669E+00 3.993E-02 2.86416E+01 1.21E-02 1.000 1.26 1.23 114 8.15E-07 3.64E-07 2.73E-07 1.41E-10 9.79E-10 1.10E+00 1.670E+00 4.141E-02 2.86414E+01 1.21E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.361E-07 d(ln R0)/dt = 4.290E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.82E-02 9.24E-02 2.33E-04 1.68E-08 4.14E-08 1.10E+00 1.670E+00 4.151E-02 2.86409E+01 1.22E-02 1.000 1.26 1.25 100 2.81E-06 1.07E-06 3.90E-08 6.63E-12 1.98E-11 1.10E+00 1.672E+00 4.483E-02 2.87961E+01 1.21E-02 1.003 1.26 1.27 200 6.47E-08 1.79E-08 3.38E-09 2.50E-13 4.19E-13 1.10E+00 1.673E+00 4.527E-02 2.78164E+01 1.26E-02 0.986 1.26 1.26 300 1.57E-08 4.33E-09 3.73E-10 1.19E-14 2.88E-14 1.10E+00 1.673E+00 4.539E-02 2.74163E+01 1.28E-02 0.979 1.26 1.26 400 4.79E-09 1.45E-09 5.33E-11 1.40E-15 2.69E-15 1.10E+00 1.673E+00 4.546E-02 2.71813E+01 1.29E-02 0.975 1.26 1.26 500 2.16E-09 5.52E-10 1.51E-11 3.47E-16 5.31E-16 1.10E+00 1.673E+00 4.550E-02 2.70790E+01 1.29E-02 0.973 1.26 1.26 566 9.93E-10 2.66E-10 5.31E-12 1.58E-16 2.10E-16 1.10E+00 1.674E+00 4.551E-02 2.70236E+01 1.29E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.23E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.176E-05 d(ln R0)/dt = 5.535E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.226189 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.5547E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.6925E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.720000 TO TG2= 1.725000 @ NSTEP 1386 GFRAME TG2 MOMENTS CHECKSUM: 8.9704329865447E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1386 TA= 1.72000E+00 CPU TIME= 2.73828E+00 SECONDS. DT= 3.72887E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1387 TA= 1.72037E+00 CPU TIME= 3.23437E+00 SECONDS. DT= 4.66109E-04 %MFRCHK - LABEL "QMINORB", # 7= 7.00649E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.10195E-44 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 3.66863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.05150E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 3.66863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.05150E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.83431E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.15408E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.83431E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.15408E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1395 TA= 1.72480E+00 CPU TIME= 3.04297E+00 SECONDS. DT= 1.98906E-04 --> plasma_hash("gframe"): TA= 1.725000E+00 NSTEP= 1396 Hash code: 17025430 ->PRGCHK: bdy curvature ratio at t= 1.7300E+00 seconds is: 9.7203E-02 % MHDEQ: TG1= 1.725000 ; TG2= 1.730000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.262E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.4262E-02 0.0000E+00 1.6735E+00 4.5512E-02 1 0 4.6927E-01 5.3417E-02 5.3417E-02 8.6361E-01 2 0 3.8214E-02 5.7592E-02 1.2914E-03 -2.5708E-02 3 0 2.4315E-02 -8.7548E-03 -6.3193E-03 -6.9396E-03 4 0 -2.9924E-03 -3.4939E-03 -2.4177E-03 4.3320E-03 5 0 3.7618E-05 2.3315E-04 1.0575E-03 1.9110E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.34E-01 4.48E-02 5.41E-02 4.32E-03 5.00E-04 1.10E+00 1.674E+00 4.551E-02 3.13602E+01 1.09E-02 1.000 1.26 1.02 100 4.23E-06 2.31E-06 1.11E-06 2.11E-09 7.85E-10 1.10E+00 1.669E+00 4.036E-02 2.86867E+01 1.21E-02 1.000 1.26 1.23 114 9.15E-07 4.10E-07 2.93E-07 1.51E-10 9.17E-10 1.10E+00 1.670E+00 4.167E-02 2.86865E+01 1.21E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.512E-07 d(ln R0)/dt = 3.258E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.79E-02 9.27E-02 2.36E-04 1.55E-08 4.20E-08 1.10E+00 1.670E+00 4.175E-02 2.86852E+01 1.22E-02 1.000 1.26 1.25 100 2.66E-06 1.02E-06 3.83E-08 6.58E-12 1.95E-11 1.10E+00 1.672E+00 4.503E-02 2.87682E+01 1.21E-02 1.001 1.26 1.26 200 6.31E-08 1.74E-08 3.35E-09 2.50E-13 4.16E-13 1.10E+00 1.673E+00 4.550E-02 2.77952E+01 1.26E-02 0.985 1.26 1.26 300 1.54E-08 4.26E-09 3.71E-10 1.18E-14 2.85E-14 1.10E+00 1.674E+00 4.562E-02 2.73962E+01 1.28E-02 0.978 1.26 1.26 400 4.70E-09 1.43E-09 5.25E-11 1.37E-15 2.67E-15 1.10E+00 1.674E+00 4.569E-02 2.71627E+01 1.29E-02 0.973 1.26 1.26 500 2.09E-09 5.31E-10 1.45E-11 3.29E-16 5.07E-16 1.10E+00 1.674E+00 4.573E-02 2.70583E+01 1.29E-02 0.972 1.26 1.26 563 9.93E-10 2.65E-10 5.45E-12 2.44E-16 2.23E-16 1.10E+00 1.674E+00 4.574E-02 2.70059E+01 1.29E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.127E-05 d(ln R0)/dt = 5.557E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.208685 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8359E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7203E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.725000 TO TG2= 1.730000 @ NSTEP 1396 GFRAME TG2 MOMENTS CHECKSUM: 8.9717925337605E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1396 TA= 1.72500E+00 CPU TIME= 2.99609E+00 SECONDS. DT= 6.93512E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1397 TA= 1.72555E+00 CPU TIME= 3.14062E+00 SECONDS. DT= 6.87107E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1405 TA= 1.72983E+00 CPU TIME= 2.97656E+00 SECONDS. DT= 1.71151E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6169E+00 3.0160E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.4532E+20 nbi_getprofiles ne*dVol sum (ions): 4.4532E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15742 - 0 (killed) + 5223 (dep) = 20965 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4353 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5919 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8092 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8161 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8165 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8264 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8378 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8706 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8759 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8948 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8960 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9054 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9120 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9244 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9343 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9349 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9415 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9499 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9935 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9971 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9976 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10186 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10528 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0093E+00 %ORBALL: In processor 0: orbit # IORB= 10567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10570 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=20965 SPL= 0 TOT=15846 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1406 TA= 1.73000E+00 CPU TIME= 2.76953E+00 SECONDS. DT= 2.13939E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.730000E+00 NSTEP= 1406 Hash code: 49037813 ->PRGCHK: bdy curvature ratio at t= 1.7350E+00 seconds is: 9.7483E-02 % MHDEQ: TG1= 1.730000 ; TG2= 1.735000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.703E+00 1.261E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.3764E-02 0.0000E+00 1.6742E+00 4.5744E-02 1 0 4.6942E-01 5.3277E-02 5.3277E-02 8.6345E-01 2 0 3.8209E-02 5.7419E-02 1.2506E-03 -2.5788E-02 3 0 2.4304E-02 -8.7610E-03 -6.3053E-03 -6.9233E-03 4 0 -3.0132E-03 -3.4927E-03 -2.4026E-03 4.3503E-03 5 0 2.9253E-05 2.4739E-04 1.0637E-03 1.9114E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.36E-01 4.53E-02 5.43E-02 4.35E-03 5.02E-04 1.10E+00 1.674E+00 4.574E-02 3.13548E+01 1.08E-02 1.000 1.26 1.01 100 3.73E-06 2.10E-06 1.01E-06 2.57E-09 7.76E-10 1.10E+00 1.668E+00 3.995E-02 2.86580E+01 1.20E-02 1.000 1.26 1.22 114 9.84E-07 4.16E-07 3.09E-07 1.57E-10 9.22E-10 1.10E+00 1.670E+00 4.152E-02 2.86578E+01 1.20E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.504E-07 d(ln R0)/dt = 4.676E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.61E-02 9.03E-02 2.36E-04 1.47E-08 4.37E-08 1.10E+00 1.670E+00 4.161E-02 2.86556E+01 1.22E-02 1.000 1.26 1.24 100 2.57E-06 9.98E-07 3.84E-08 6.88E-12 2.02E-11 1.10E+00 1.673E+00 4.520E-02 2.87881E+01 1.21E-02 1.002 1.26 1.26 200 6.30E-08 1.71E-08 3.41E-09 2.58E-13 4.26E-13 1.10E+00 1.674E+00 4.572E-02 2.78071E+01 1.25E-02 0.985 1.26 1.26 300 1.55E-08 4.27E-09 3.80E-10 1.22E-14 2.87E-14 1.10E+00 1.674E+00 4.584E-02 2.74033E+01 1.27E-02 0.978 1.26 1.26 400 4.74E-09 1.44E-09 5.31E-11 1.39E-15 2.70E-15 1.10E+00 1.675E+00 4.591E-02 2.71678E+01 1.28E-02 0.974 1.26 1.26 500 2.07E-09 5.25E-10 1.43E-11 3.18E-16 4.94E-16 1.10E+00 1.675E+00 4.595E-02 2.70602E+01 1.29E-02 0.972 1.26 1.26 562 9.91E-10 2.66E-10 5.37E-12 1.91E-16 2.29E-16 1.10E+00 1.675E+00 4.597E-02 2.70087E+01 1.29E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.126E-05 d(ln R0)/dt = 5.694E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.192829 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8359E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7483E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.730000 TO TG2= 1.735000 @ NSTEP 1406 GFRAME TG2 MOMENTS CHECKSUM: 8.9727653173256E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1406 TA= 1.73000E+00 CPU TIME= 2.75000E+00 SECONDS. DT= 2.13939E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1407 TA= 1.73021E+00 CPU TIME= 2.73437E+00 SECONDS. DT= 2.67424E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1415 TA= 1.73351E+00 CPU TIME= 2.98828E+00 SECONDS. DT= 5.42326E-04 %MFRCHK - LABEL "QMINORB", # 7= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 9.80909E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 2.93774E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.22680E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 2.93774E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.22680E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 2.20330E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.34732E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 2.20330E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.34732E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.735000E+00 NSTEP= 1419 Hash code: 38466236 ->PRGCHK: bdy curvature ratio at t= 1.7400E+00 seconds is: 9.7764E-02 % MHDEQ: TG1= 1.735000 ; TG2= 1.740000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.702E+00 1.259E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5820E+00 0.0000E+00 -7.3266E-02 0.0000E+00 1.6749E+00 4.5966E-02 1 0 4.6957E-01 5.3137E-02 5.3137E-02 8.6330E-01 2 0 3.8204E-02 5.7245E-02 1.2098E-03 -2.5868E-02 3 0 2.4292E-02 -8.7672E-03 -6.2913E-03 -6.9070E-03 4 0 -3.0339E-03 -3.4916E-03 -2.3875E-03 4.3687E-03 5 0 2.0889E-05 2.6163E-04 1.0699E-03 1.9118E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.39E-01 4.57E-02 5.46E-02 4.37E-03 5.03E-04 1.10E+00 1.675E+00 4.597E-02 3.13488E+01 1.08E-02 1.000 1.26 1.01 100 4.53E-06 2.48E-06 1.15E-06 2.93E-09 9.40E-10 1.10E+00 1.669E+00 4.032E-02 2.86292E+01 1.20E-02 1.000 1.26 1.22 117 9.91E-07 4.04E-07 2.43E-07 2.17E-10 6.42E-10 1.10E+00 1.670E+00 4.211E-02 2.86289E+01 1.20E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.915E-07 d(ln R0)/dt = 1.969E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.73E-02 9.20E-02 2.40E-04 1.61E-08 4.31E-08 1.10E+00 1.670E+00 4.223E-02 2.86277E+01 1.21E-02 1.000 1.26 1.24 100 2.52E-06 9.89E-07 3.82E-08 6.51E-12 1.94E-11 1.10E+00 1.673E+00 4.533E-02 2.87345E+01 1.21E-02 1.002 1.26 1.26 200 6.23E-08 1.70E-08 3.35E-09 2.55E-13 4.22E-13 1.10E+00 1.674E+00 4.580E-02 2.77610E+01 1.25E-02 0.985 1.26 1.26 300 1.55E-08 4.28E-09 3.79E-10 1.19E-14 2.82E-14 1.10E+00 1.674E+00 4.593E-02 2.73559E+01 1.27E-02 0.978 1.26 1.26 400 4.76E-09 1.45E-09 5.30E-11 1.34E-15 2.76E-15 1.10E+00 1.674E+00 4.599E-02 2.71221E+01 1.28E-02 0.974 1.26 1.26 500 2.07E-09 5.22E-10 1.40E-11 3.01E-16 4.81E-16 1.10E+00 1.674E+00 4.603E-02 2.70108E+01 1.29E-02 0.972 1.26 1.26 562 9.88E-10 2.65E-10 5.26E-12 1.85E-16 2.16E-16 1.10E+00 1.675E+00 4.605E-02 2.69592E+01 1.29E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.074E-05 d(ln R0)/dt = 5.497E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.237811 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7969E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7764E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.735000 TO TG2= 1.740000 @ NSTEP 1419 GFRAME TG2 MOMENTS CHECKSUM: 8.9732789172058E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1419 TA= 1.73500E+00 CPU TIME= 3.00391E+00 SECONDS. DT= 5.32372E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1420 TA= 1.73542E+00 CPU TIME= 2.91797E+00 SECONDS. DT= 5.28474E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1428 TA= 1.73871E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 5.02476E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6152E+00 3.0131E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.3487E+20 nbi_getprofiles ne*dVol sum (ions): 4.3487E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15846 - 0 (killed) + 5198 (dep) = 21044 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0013E+00 %ORBALL: In processor 0: orbit # IORB= 569 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0061E+00 %ORBALL: In processor 0: orbit # IORB= 3545 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4744 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5236 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6397 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7034 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7576 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7586 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7942 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7972 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7994 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8316 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8366 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8653 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8852 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9011 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9030 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9038 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9323 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9328 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9378 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9540 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9621 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9711 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9974 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10029 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10160 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10184 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10238 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10445 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10451 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21044 SPL= 0 TOT=15941 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1431 TA= 1.74000E+00 CPU TIME= 2.91797E+00 SECONDS. DT= 6.15965E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.740000E+00 NSTEP= 1431 Hash code: 61467631 ->PRGCHK: bdy curvature ratio at t= 1.7450E+00 seconds is: 9.8045E-02 % MHDEQ: TG1= 1.740000 ; TG2= 1.745000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.703E+00 1.259E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.2768E-02 0.0000E+00 1.6745E+00 4.6049E-02 1 0 4.6972E-01 5.2996E-02 5.2996E-02 8.6314E-01 2 0 3.8199E-02 5.7071E-02 1.1690E-03 -2.5948E-02 3 0 2.4281E-02 -8.7734E-03 -6.2773E-03 -6.8907E-03 4 0 -3.0547E-03 -3.4905E-03 -2.3724E-03 4.3870E-03 5 0 1.2524E-05 2.7586E-04 1.0761E-03 1.9123E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.37E-01 4.53E-02 5.43E-02 4.37E-03 5.00E-04 1.10E+00 1.675E+00 4.605E-02 3.13412E+01 1.08E-02 1.000 1.26 1.01 100 3.74E-06 2.15E-06 1.04E-06 2.61E-09 7.94E-10 1.10E+00 1.669E+00 4.039E-02 2.86349E+01 1.20E-02 1.000 1.26 1.22 117 9.18E-07 3.67E-07 2.34E-07 2.17E-10 6.18E-10 1.10E+00 1.671E+00 4.231E-02 2.86346E+01 1.20E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.099E-07 d(ln R0)/dt = 2.678E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.76E-02 9.22E-02 2.40E-04 1.70E-08 4.16E-08 1.10E+00 1.671E+00 4.243E-02 2.86344E+01 1.21E-02 1.000 1.26 1.24 100 2.47E-06 9.79E-07 3.81E-08 6.49E-12 1.92E-11 1.10E+00 1.672E+00 4.543E-02 2.87438E+01 1.20E-02 1.002 1.26 1.26 200 6.21E-08 1.69E-08 3.31E-09 2.52E-13 4.20E-13 1.10E+00 1.673E+00 4.586E-02 2.77667E+01 1.25E-02 0.985 1.26 1.26 300 1.56E-08 4.29E-09 3.79E-10 1.19E-14 2.77E-14 1.10E+00 1.674E+00 4.599E-02 2.73595E+01 1.27E-02 0.978 1.26 1.26 400 4.82E-09 1.46E-09 5.29E-11 1.30E-15 2.75E-15 1.10E+00 1.674E+00 4.606E-02 2.71244E+01 1.28E-02 0.974 1.26 1.26 500 2.07E-09 5.23E-10 1.38E-11 2.86E-16 4.63E-16 1.10E+00 1.674E+00 4.610E-02 2.70100E+01 1.28E-02 0.972 1.26 1.26 562 9.95E-10 2.66E-10 5.21E-12 1.83E-16 2.05E-16 1.10E+00 1.674E+00 4.611E-02 2.69586E+01 1.28E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.17E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.013E-05 d(ln R0)/dt = 5.288E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.70 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.240630 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 7.2266E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8045E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.740000 TO TG2= 1.745000 @ NSTEP 1431 GFRAME TG2 MOMENTS CHECKSUM: 8.9736662562154E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1431 TA= 1.74000E+00 CPU TIME= 3.05859E+00 SECONDS. DT= 6.15965E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1432 TA= 1.74036E+00 CPU TIME= 2.92187E+00 SECONDS. DT= 4.54840E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1439 TA= 1.74284E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 4.33379E-04 %MFRCHK - LABEL "QMINORB", # 6= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.20449E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.20578E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.20449E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.20578E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67415E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.32896E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67415E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.32896E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.745000E+00 NSTEP= 1446 Hash code: 95790650 ->PRGCHK: bdy curvature ratio at t= 1.7500E+00 seconds is: 9.8328E-02 % MHDEQ: TG1= 1.745000 ; TG2= 1.750000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.703E+00 1.259E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.2270E-02 0.0000E+00 1.6740E+00 4.6111E-02 1 0 4.6987E-01 5.2856E-02 5.2856E-02 8.6299E-01 2 0 3.8194E-02 5.6897E-02 1.1282E-03 -2.6028E-02 3 0 2.4270E-02 -8.7796E-03 -6.2633E-03 -6.8744E-03 4 0 -3.0754E-03 -3.4893E-03 -2.3573E-03 4.4053E-03 5 0 4.1594E-06 2.9010E-04 1.0823E-03 1.9127E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.35E-01 4.49E-02 5.41E-02 4.36E-03 4.97E-04 1.10E+00 1.674E+00 4.611E-02 3.13327E+01 1.08E-02 1.000 1.26 1.01 100 4.01E-06 2.37E-06 1.14E-06 2.42E-09 7.92E-10 1.10E+00 1.670E+00 4.084E-02 2.86417E+01 1.20E-02 1.000 1.26 1.22 114 9.85E-07 4.01E-07 3.10E-07 1.51E-10 8.79E-10 1.10E+00 1.671E+00 4.230E-02 2.86415E+01 1.20E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.969E-07 d(ln R0)/dt = 4.001E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.71E-02 9.07E-02 2.39E-04 1.58E-08 3.98E-08 1.10E+00 1.671E+00 4.238E-02 2.86412E+01 1.20E-02 1.000 1.26 1.24 100 2.40E-06 9.80E-07 3.81E-08 6.60E-12 1.89E-11 1.10E+00 1.673E+00 4.564E-02 2.87614E+01 1.20E-02 1.002 1.26 1.26 200 6.31E-08 1.69E-08 3.31E-09 2.52E-13 4.27E-13 1.10E+00 1.674E+00 4.608E-02 2.77849E+01 1.24E-02 0.985 1.26 1.26 300 1.57E-08 4.34E-09 3.86E-10 1.21E-14 2.77E-14 1.10E+00 1.674E+00 4.621E-02 2.73759E+01 1.26E-02 0.978 1.26 1.26 400 4.86E-09 1.46E-09 5.27E-11 1.32E-15 2.71E-15 1.10E+00 1.674E+00 4.628E-02 2.71378E+01 1.27E-02 0.974 1.26 1.26 500 2.07E-09 5.21E-10 1.36E-11 2.79E-16 4.47E-16 1.10E+00 1.674E+00 4.632E-02 2.70213E+01 1.28E-02 0.972 1.26 1.26 562 9.95E-10 2.65E-10 5.16E-12 1.84E-16 1.97E-16 1.10E+00 1.675E+00 4.634E-02 2.69707E+01 1.28E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.932E-05 d(ln R0)/dt = 5.241E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.225657 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8359E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8328E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.745000 TO TG2= 1.750000 @ NSTEP 1446 GFRAME TG2 MOMENTS CHECKSUM: 8.9753731057011E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1446 TA= 1.74500E+00 CPU TIME= 3.03125E+00 SECONDS. DT= 4.15155E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1447 TA= 1.74533E+00 CPU TIME= 3.17969E+00 SECONDS. DT= 4.10495E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1454 TA= 1.74756E+00 CPU TIME= 3.10547E+00 SECONDS. DT= 3.90132E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1461 TA= 1.74968E+00 CPU TIME= 3.12500E+00 SECONDS. DT= 3.16301E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09765625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6151E+00 3.0137E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.2 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.2 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2638E+20 nbi_getprofiles ne*dVol sum (ions): 4.2638E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 15941 - 0 (killed) + 5167 (dep) = 21108 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 2892 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6638 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7971 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8311 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8484 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8802 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9137 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9273 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9561 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9579 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9652 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9698 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9749 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9830 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9923 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10024 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0149E+00 %ORBALL: In processor 0: orbit # IORB= 10082 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10214 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10344 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10375 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21108 SPL= 0 TOT=16115 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1462 TA= 1.75000E+00 CPU TIME= 3.07031E+00 SECONDS. DT= 3.95376E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.750000E+00 NSTEP= 1462 Hash code: 8995973 ->PRGCHK: bdy curvature ratio at t= 1.7550E+00 seconds is: 9.8612E-02 % MHDEQ: TG1= 1.750000 ; TG2= 1.755000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.258E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.1772E-02 0.0000E+00 1.6745E+00 4.6336E-02 1 0 4.7002E-01 5.2716E-02 5.2716E-02 8.6283E-01 2 0 3.8188E-02 5.6723E-02 1.0874E-03 -2.6107E-02 3 0 2.4259E-02 -8.7858E-03 -6.2493E-03 -6.8581E-03 4 0 -3.0962E-03 -3.4882E-03 -2.3422E-03 4.4236E-03 5 0 -4.2052E-06 3.0434E-04 1.0884E-03 1.9131E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.37E-01 4.53E-02 5.42E-02 4.38E-03 4.98E-04 1.10E+00 1.675E+00 4.634E-02 3.13591E+01 1.07E-02 1.000 1.26 1.01 100 3.84E-06 2.24E-06 1.07E-06 2.58E-09 8.04E-10 1.10E+00 1.670E+00 4.080E-02 2.86488E+01 1.19E-02 1.000 1.26 1.22 117 9.64E-07 3.54E-07 2.36E-07 2.19E-10 6.19E-10 1.10E+00 1.671E+00 4.270E-02 2.86485E+01 1.19E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 7.81E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.050E-07 d(ln R0)/dt = 2.574E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.94E-02 9.17E-02 2.44E-04 1.68E-08 4.12E-08 1.10E+00 1.671E+00 4.281E-02 2.86481E+01 1.20E-02 1.000 1.26 1.24 100 2.39E-06 1.00E-06 3.81E-08 6.46E-12 1.83E-11 1.10E+00 1.673E+00 4.586E-02 2.87578E+01 1.20E-02 1.002 1.26 1.26 200 6.42E-08 1.71E-08 3.29E-09 2.54E-13 4.35E-13 1.10E+00 1.674E+00 4.630E-02 2.77889E+01 1.24E-02 0.985 1.26 1.26 300 1.59E-08 4.39E-09 3.96E-10 1.24E-14 2.79E-14 1.10E+00 1.675E+00 4.643E-02 2.73775E+01 1.26E-02 0.978 1.26 1.26 400 4.93E-09 1.48E-09 5.34E-11 1.34E-15 2.83E-15 1.10E+00 1.675E+00 4.650E-02 2.71403E+01 1.27E-02 0.974 1.26 1.26 500 2.08E-09 5.24E-10 1.37E-11 2.77E-16 4.50E-16 1.10E+00 1.675E+00 4.654E-02 2.70201E+01 1.28E-02 0.972 1.26 1.26 562 9.97E-10 2.63E-10 5.13E-12 1.85E-16 1.88E-16 1.10E+00 1.675E+00 4.656E-02 2.69683E+01 1.28E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.927E-05 d(ln R0)/dt = 5.320E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.211238 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7187E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8612E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.750000 TO TG2= 1.755000 @ NSTEP 1462 GFRAME TG2 MOMENTS CHECKSUM: 8.9770190446960E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1462 TA= 1.75000E+00 CPU TIME= 2.95312E+00 SECONDS. DT= 3.95376E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1463 TA= 1.75040E+00 CPU TIME= 3.10547E+00 SECONDS. DT= 4.94220E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1469 TA= 1.75305E+00 CPU TIME= 2.88672E+00 SECONDS. DT= 6.28437E-04 %MFRCHK - LABEL "QMINORB", # 5= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.83595E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.20270E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.83595E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.20270E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.30471E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.32545E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.30471E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.32545E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.755000E+00 NSTEP= 1474 Hash code: 104148129 ->PRGCHK: bdy curvature ratio at t= 1.7600E+00 seconds is: 9.8896E-02 % MHDEQ: TG1= 1.755000 ; TG2= 1.760000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.258E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.1274E-02 0.0000E+00 1.6750E+00 4.6560E-02 1 0 4.7017E-01 5.2576E-02 5.2576E-02 8.6268E-01 2 0 3.8183E-02 5.6550E-02 1.0466E-03 -2.6187E-02 3 0 2.4248E-02 -8.7920E-03 -6.2354E-03 -6.8418E-03 4 0 -3.1169E-03 -3.4871E-03 -2.3270E-03 4.4419E-03 5 0 -1.2570E-05 3.1858E-04 1.0946E-03 1.9135E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.39E-01 4.57E-02 5.44E-02 4.40E-03 4.99E-04 1.10E+00 1.675E+00 4.656E-02 3.13862E+01 1.07E-02 1.000 1.26 1.01 100 4.79E-06 2.59E-06 1.19E-06 3.01E-09 9.47E-10 1.10E+00 1.671E+00 4.105E-02 2.86561E+01 1.19E-02 1.000 1.26 1.22 118 9.97E-07 3.33E-07 2.62E-07 3.51E-10 3.49E-10 1.10E+00 1.672E+00 4.301E-02 2.86558E+01 1.19E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 4.667E-07 d(ln R0)/dt = 2.333E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.94E-02 9.11E-02 2.43E-04 1.73E-08 4.15E-08 1.10E+00 1.672E+00 4.311E-02 2.86553E+01 1.20E-02 1.000 1.26 1.24 100 2.25E-06 8.89E-07 3.61E-08 6.37E-12 1.78E-11 1.10E+00 1.674E+00 4.603E-02 2.88087E+01 1.19E-02 1.003 1.26 1.26 200 6.31E-08 1.63E-08 3.24E-09 2.45E-13 4.24E-13 1.10E+00 1.675E+00 4.647E-02 2.78344E+01 1.23E-02 0.986 1.26 1.26 300 1.56E-08 4.28E-09 3.86E-10 1.20E-14 2.68E-14 1.10E+00 1.675E+00 4.660E-02 2.74257E+01 1.25E-02 0.979 1.26 1.26 400 4.99E-09 1.45E-09 5.28E-11 1.36E-15 2.81E-15 1.10E+00 1.675E+00 4.667E-02 2.71930E+01 1.26E-02 0.975 1.26 1.26 500 2.06E-09 5.16E-10 1.34E-11 2.81E-16 4.46E-16 1.10E+00 1.675E+00 4.671E-02 2.70713E+01 1.27E-02 0.972 1.26 1.26 563 9.90E-10 2.58E-10 5.05E-12 2.35E-16 1.62E-16 1.10E+00 1.676E+00 4.673E-02 2.70185E+01 1.27E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.86E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.970E-05 d(ln R0)/dt = 5.504E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.213422 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8750E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8896E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.755000 TO TG2= 1.760000 @ NSTEP 1474 GFRAME TG2 MOMENTS CHECKSUM: 8.9775010014961E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1474 TA= 1.75500E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 6.55459E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1475 TA= 1.75543E+00 CPU TIME= 3.02344E+00 SECONDS. DT= 5.36827E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1481 TA= 1.75842E+00 CPU TIME= 2.87891E+00 SECONDS. DT= 5.71725E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6149E+00 3.0143E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.2332E+20 nbi_getprofiles ne*dVol sum (ions): 4.2332E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16115 - 0 (killed) + 5122 (dep) = 21237 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 3363 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5883 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6102 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8102 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8103 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8120 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8186 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8412 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8617 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8655 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8933 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9036 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9369 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9469 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9610 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9864 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9909 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9955 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10021 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10083 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10220 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10597 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21237 SPL= 0 TOT=16342 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1484 TA= 1.76000E+00 CPU TIME= 2.52344E+00 SECONDS. DT= 6.78842E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.760000E+00 NSTEP= 1484 Hash code: 71648318 ->PRGCHK: bdy curvature ratio at t= 1.7650E+00 seconds is: 9.9182E-02 % MHDEQ: TG1= 1.760000 ; TG2= 1.765000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.705E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.0776E-02 0.0000E+00 1.6755E+00 4.6731E-02 1 0 4.7032E-01 5.2436E-02 5.2436E-02 8.6252E-01 2 0 3.8178E-02 5.6376E-02 1.0058E-03 -2.6267E-02 3 0 2.4237E-02 -8.7982E-03 -6.2214E-03 -6.8255E-03 4 0 -3.1377E-03 -3.4859E-03 -2.3119E-03 4.4602E-03 5 0 -2.0934E-05 3.3281E-04 1.1008E-03 1.9140E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.41E-01 4.60E-02 5.46E-02 4.41E-03 5.00E-04 1.10E+00 1.676E+00 4.673E-02 3.14191E+01 1.06E-02 1.000 1.26 1.01 100 4.14E-06 1.65E-06 9.72E-07 3.01E-09 7.65E-10 1.10E+00 1.671E+00 4.065E-02 2.86694E+01 1.18E-02 1.000 1.26 1.22 120 9.64E-07 3.67E-07 2.71E-07 1.69E-10 4.31E-10 1.10E+00 1.672E+00 4.314E-02 2.86690E+01 1.18E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.913E-07 d(ln R0)/dt = 4.408E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.88E-02 8.99E-02 2.44E-04 1.60E-08 4.08E-08 1.10E+00 1.672E+00 4.325E-02 2.86683E+01 1.19E-02 1.000 1.26 1.24 100 2.12E-06 7.94E-07 3.44E-08 6.20E-12 1.71E-11 1.10E+00 1.674E+00 4.621E-02 2.88499E+01 1.18E-02 1.003 1.26 1.26 200 6.10E-08 1.53E-08 3.17E-09 2.37E-13 4.16E-13 1.10E+00 1.675E+00 4.665E-02 2.78853E+01 1.23E-02 0.986 1.26 1.26 300 1.52E-08 4.12E-09 3.75E-10 1.16E-14 2.57E-14 1.10E+00 1.676E+00 4.678E-02 2.74799E+01 1.24E-02 0.979 1.26 1.26 400 5.03E-09 1.42E-09 5.39E-11 1.50E-15 2.93E-15 1.10E+00 1.676E+00 4.685E-02 2.72579E+01 1.25E-02 0.975 1.26 1.26 500 1.99E-09 5.02E-10 1.32E-11 3.05E-16 4.73E-16 1.10E+00 1.676E+00 4.689E-02 2.71320E+01 1.26E-02 0.973 1.26 1.26 561 9.89E-10 2.57E-10 4.99E-12 1.51E-16 1.96E-16 1.10E+00 1.676E+00 4.691E-02 2.70775E+01 1.26E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.019E-05 d(ln R0)/dt = 5.688E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.215981 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3984E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9182E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.760000 TO TG2= 1.765000 @ NSTEP 1484 GFRAME TG2 MOMENTS CHECKSUM: 8.9780997653787E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1484 TA= 1.76000E+00 CPU TIME= 2.45312E+00 SECONDS. DT= 6.78842E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1485 TA= 1.76050E+00 CPU TIME= 3.00781E+00 SECONDS. DT= 6.28017E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1493 TA= 1.76440E+00 CPU TIME= 2.98047E+00 SECONDS. DT= 5.95466E-04 %MFRCHK - LABEL "QMINORB", # 4= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 1.28556E-38 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.15450E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 1.28556E-38 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.15450E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 4.77492E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.27487E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 4.77492E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.27487E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.765000E+00 NSTEP= 1495 Hash code: 18999886 ->PRGCHK: bdy curvature ratio at t= 1.7700E+00 seconds is: 9.9468E-02 % MHDEQ: TG1= 1.765000 ; TG2= 1.770000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.706E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5821E+00 0.0000E+00 -7.0278E-02 0.0000E+00 1.6760E+00 4.6907E-02 1 0 4.7047E-01 5.2296E-02 5.2296E-02 8.6237E-01 2 0 3.8173E-02 5.6202E-02 9.6502E-04 -2.6347E-02 3 0 2.4226E-02 -8.8044E-03 -6.2074E-03 -6.8093E-03 4 0 -3.1584E-03 -3.4848E-03 -2.2968E-03 4.4785E-03 5 0 -2.9299E-05 3.4705E-04 1.1070E-03 1.9144E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.42E-01 4.63E-02 5.48E-02 4.43E-03 5.01E-04 1.10E+00 1.676E+00 4.691E-02 3.14495E+01 1.06E-02 1.000 1.26 1.01 100 4.81E-06 1.59E-06 1.03E-06 3.61E-09 8.16E-10 1.10E+00 1.671E+00 4.066E-02 2.86796E+01 1.19E-02 1.000 1.26 1.22 121 9.40E-07 2.70E-07 2.79E-07 1.18E-10 6.86E-10 1.10E+00 1.673E+00 4.340E-02 2.86792E+01 1.19E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.98E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.043E-07 d(ln R0)/dt = 4.410E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.80E-02 8.98E-02 2.45E-04 1.54E-08 4.09E-08 1.10E+00 1.673E+00 4.352E-02 2.86783E+01 1.20E-02 1.000 1.26 1.24 100 2.13E-06 8.32E-07 3.52E-08 6.14E-12 1.69E-11 1.10E+00 1.674E+00 4.643E-02 2.88073E+01 1.19E-02 1.002 1.26 1.26 200 6.14E-08 1.54E-08 3.16E-09 2.39E-13 4.18E-13 1.10E+00 1.676E+00 4.688E-02 2.78559E+01 1.23E-02 0.986 1.26 1.26 300 1.51E-08 4.11E-09 3.76E-10 1.16E-14 2.57E-14 1.10E+00 1.676E+00 4.701E-02 2.74507E+01 1.25E-02 0.979 1.26 1.26 400 4.95E-09 1.40E-09 5.29E-11 1.46E-15 2.93E-15 1.10E+00 1.676E+00 4.708E-02 2.72278E+01 1.26E-02 0.975 1.26 1.26 500 1.95E-09 4.93E-10 1.28E-11 2.90E-16 4.50E-16 1.10E+00 1.676E+00 4.712E-02 2.71013E+01 1.27E-02 0.973 1.26 1.26 559 9.98E-10 2.61E-10 4.99E-12 1.60E-16 1.59E-16 1.10E+00 1.676E+00 4.714E-02 2.70501E+01 1.27E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.936E-05 d(ln R0)/dt = 5.593E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.222189 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7578E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9468E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.765000 TO TG2= 1.770000 @ NSTEP 1495 GFRAME TG2 MOMENTS CHECKSUM: 8.9800856669077E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1495 TA= 1.76500E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 5.91475E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1496 TA= 1.76547E+00 CPU TIME= 2.83594E+00 SECONDS. DT= 5.87356E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1504 TA= 1.76912E+00 CPU TIME= 2.89453E+00 SECONDS. DT= 5.56179E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6148E+00 3.0149E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1892E+20 nbi_getprofiles ne*dVol sum (ions): 4.1892E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16342 - 0 (killed) + 5052 (dep) = 21394 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5436 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8029 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8462 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8770 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8841 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9147 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9223 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9290 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9413 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9651 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9949 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10252 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10509 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10622 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10729 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10759 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21394 SPL= 0 TOT=16477 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1506 TA= 1.77000E+00 CPU TIME= 2.49219E+00 SECONDS. DT= 5.52663E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7700000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.770000E+00 NSTEP= 1506 Hash code: 67531156 ->PRGCHK: bdy curvature ratio at t= 1.7750E+00 seconds is: 9.9756E-02 % MHDEQ: TG1= 1.770000 ; TG2= 1.775000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.708E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -6.9780E-02 0.0000E+00 1.6765E+00 4.7137E-02 1 0 4.7062E-01 5.2156E-02 5.2156E-02 8.6221E-01 2 0 3.8168E-02 5.6028E-02 9.2422E-04 -2.6427E-02 3 0 2.4215E-02 -8.8107E-03 -6.1934E-03 -6.7930E-03 4 0 -3.1792E-03 -3.4837E-03 -2.2817E-03 4.4968E-03 5 0 -3.7663E-05 3.6129E-04 1.1132E-03 1.9148E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.44E-01 4.66E-02 5.49E-02 4.45E-03 5.02E-04 1.10E+00 1.676E+00 4.714E-02 3.15006E+01 1.07E-02 1.000 1.26 1.01 100 5.06E-06 1.62E-06 1.04E-06 3.71E-09 7.92E-10 1.10E+00 1.671E+00 4.075E-02 2.87111E+01 1.19E-02 1.000 1.26 1.22 120 9.92E-07 4.04E-07 2.97E-07 2.06E-10 4.31E-10 1.10E+00 1.673E+00 4.331E-02 2.87108E+01 1.19E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.101E-07 d(ln R0)/dt = 4.264E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.55E-02 8.67E-02 2.43E-04 1.60E-08 4.19E-08 1.10E+00 1.673E+00 4.342E-02 2.87096E+01 1.20E-02 1.000 1.26 1.24 100 2.09E-06 8.46E-07 3.58E-08 6.14E-12 1.67E-11 1.10E+00 1.675E+00 4.666E-02 2.87867E+01 1.20E-02 1.001 1.26 1.26 200 6.23E-08 1.57E-08 3.17E-09 2.43E-13 4.23E-13 1.10E+00 1.676E+00 4.709E-02 2.78401E+01 1.24E-02 0.985 1.26 1.26 300 1.51E-08 4.15E-09 3.81E-10 1.19E-14 2.60E-14 1.10E+00 1.676E+00 4.722E-02 2.74334E+01 1.26E-02 0.978 1.26 1.26 400 4.98E-09 1.40E-09 5.32E-11 1.50E-15 3.00E-15 1.10E+00 1.677E+00 4.729E-02 2.72100E+01 1.27E-02 0.974 1.26 1.26 500 1.95E-09 4.94E-10 1.28E-11 2.92E-16 4.44E-16 1.10E+00 1.677E+00 4.734E-02 2.70814E+01 1.27E-02 0.972 1.26 1.26 560 9.89E-10 2.58E-10 4.94E-12 1.35E-16 1.77E-16 1.10E+00 1.677E+00 4.736E-02 2.70297E+01 1.28E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.908E-05 d(ln R0)/dt = 5.610E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.228225 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9756E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.770000 TO TG2= 1.775000 @ NSTEP 1506 GFRAME TG2 MOMENTS CHECKSUM: 8.9821102542928E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1506 TA= 1.77000E+00 CPU TIME= 2.46484E+00 SECONDS. DT= 5.52663E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1507 TA= 1.77055E+00 CPU TIME= 2.75000E+00 SECONDS. DT= 6.90829E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1514 TA= 1.77362E+00 CPU TIME= 2.93750E+00 SECONDS. DT= 5.34845E-04 %MFRCHK - LABEL "QMINORB", # 3= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.10179E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.15127E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.10179E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.15127E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -1.10179E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.27921E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -1.10179E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.27921E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.775000E+00 NSTEP= 1518 Hash code: 104967116 ->PRGCHK: bdy curvature ratio at t= 1.7800E+00 seconds is: 1.0004E-01 % MHDEQ: TG1= 1.775000 ; TG2= 1.780000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.709E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -6.9282E-02 0.0000E+00 1.6769E+00 4.7356E-02 1 0 4.7077E-01 5.2016E-02 5.2016E-02 8.6206E-01 2 0 3.8163E-02 5.5855E-02 8.8342E-04 -2.6506E-02 3 0 2.4203E-02 -8.8169E-03 -6.1794E-03 -6.7767E-03 4 0 -3.1999E-03 -3.4825E-03 -2.2666E-03 4.5152E-03 5 0 -4.6028E-05 3.7553E-04 1.1193E-03 1.9152E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.45E-01 4.68E-02 5.51E-02 4.46E-03 5.02E-04 1.10E+00 1.677E+00 4.736E-02 3.15506E+01 1.07E-02 1.000 1.26 1.01 100 4.67E-06 1.52E-06 9.97E-07 3.47E-09 7.47E-10 1.10E+00 1.671E+00 4.084E-02 2.87424E+01 1.19E-02 1.000 1.26 1.22 120 9.49E-07 3.83E-07 2.92E-07 2.03E-10 4.16E-10 1.10E+00 1.673E+00 4.348E-02 2.87420E+01 1.19E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.152E-07 d(ln R0)/dt = 4.427E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.48E-02 8.59E-02 2.40E-04 1.58E-08 4.15E-08 1.10E+00 1.673E+00 4.359E-02 2.87407E+01 1.20E-02 1.000 1.26 1.24 100 2.10E-06 8.67E-07 3.61E-08 6.17E-12 1.67E-11 1.10E+00 1.675E+00 4.686E-02 2.88013E+01 1.20E-02 1.001 1.26 1.26 200 6.29E-08 1.59E-08 3.17E-09 2.44E-13 4.27E-13 1.10E+00 1.676E+00 4.730E-02 2.78510E+01 1.24E-02 0.985 1.26 1.26 300 1.51E-08 4.18E-09 3.84E-10 1.21E-14 2.62E-14 1.10E+00 1.677E+00 4.744E-02 2.74426E+01 1.26E-02 0.977 1.26 1.26 400 4.96E-09 1.39E-09 5.23E-11 1.46E-15 2.95E-15 1.10E+00 1.677E+00 4.751E-02 2.72156E+01 1.27E-02 0.973 1.26 1.26 500 1.95E-09 4.96E-10 1.27E-11 2.82E-16 4.30E-16 1.10E+00 1.677E+00 4.755E-02 2.70870E+01 1.28E-02 0.971 1.26 1.26 560 9.93E-10 2.61E-10 4.97E-12 1.35E-16 1.77E-16 1.10E+00 1.677E+00 4.757E-02 2.70367E+01 1.28E-02 0.970 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.880E-05 d(ln R0)/dt = 5.611E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.185608 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7578E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0004E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.775000 TO TG2= 1.780000 @ NSTEP 1518 GFRAME TG2 MOMENTS CHECKSUM: 8.9838791599676E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1518 TA= 1.77500E+00 CPU TIME= 2.91797E+00 SECONDS. DT= 5.23002E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1519 TA= 1.77541E+00 CPU TIME= 3.10156E+00 SECONDS. DT= 5.17734E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1526 TA= 1.77823E+00 CPU TIME= 2.96875E+00 SECONDS. DT= 4.91377E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6167E+00 3.0184E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1458E+20 nbi_getprofiles ne*dVol sum (ions): 4.1458E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16477 - 0 (killed) + 5001 (dep) = 21478 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0023E+00 %ORBALL: In processor 0: orbit # IORB= 4347 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7122 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7599 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8185 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8336 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8394 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8606 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8760 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8776 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8797 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9108 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9135 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9190 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9823 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9894 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10087 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10193 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10369 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10385 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10513 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10546 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21478 SPL= 0 TOT=16596 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1531 TA= 1.78000E+00 CPU TIME= 2.59375E+00 SECONDS. DT= 2.85128E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7800000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.780000E+00 NSTEP= 1531 Hash code: 9664284 ->PRGCHK: bdy curvature ratio at t= 1.7850E+00 seconds is: 1.0033E-01 % MHDEQ: TG1= 1.780000 ; TG2= 1.785000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -6.8784E-02 0.0000E+00 1.6772E+00 4.7568E-02 1 0 4.7092E-01 5.1876E-02 5.1876E-02 8.6190E-01 2 0 3.8158E-02 5.5681E-02 8.4262E-04 -2.6586E-02 3 0 2.4192E-02 -8.8231E-03 -6.1654E-03 -6.7604E-03 4 0 -3.2207E-03 -3.4814E-03 -2.2514E-03 4.5335E-03 5 0 -5.4393E-05 3.8976E-04 1.1255E-03 1.9157E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.47E-01 4.71E-02 5.52E-02 4.48E-03 5.03E-04 1.10E+00 1.677E+00 4.757E-02 3.15653E+01 1.07E-02 1.000 1.26 1.01 100 4.52E-06 1.45E-06 1.01E-06 3.30E-09 7.84E-10 1.10E+00 1.672E+00 4.111E-02 2.87425E+01 1.20E-02 1.000 1.26 1.22 119 9.94E-07 4.63E-07 3.27E-07 3.76E-10 3.43E-10 1.10E+00 1.673E+00 4.359E-02 2.87421E+01 1.20E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.818E-07 d(ln R0)/dt = 3.777E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.37E-02 8.45E-02 2.35E-04 1.66E-08 4.19E-08 1.10E+00 1.673E+00 4.371E-02 2.87406E+01 1.21E-02 1.000 1.26 1.24 100 2.07E-06 8.67E-07 3.60E-08 6.22E-12 1.70E-11 1.10E+00 1.675E+00 4.705E-02 2.88290E+01 1.21E-02 1.002 1.26 1.26 200 6.34E-08 1.61E-08 3.18E-09 2.47E-13 4.31E-13 1.10E+00 1.677E+00 4.751E-02 2.78689E+01 1.25E-02 0.985 1.26 1.26 300 1.52E-08 4.22E-09 3.86E-10 1.22E-14 2.63E-14 1.10E+00 1.677E+00 4.764E-02 2.74576E+01 1.27E-02 0.978 1.26 1.26 400 5.00E-09 1.40E-09 5.20E-11 1.45E-15 2.94E-15 1.10E+00 1.677E+00 4.771E-02 2.72276E+01 1.28E-02 0.974 1.26 1.26 500 1.96E-09 5.02E-10 1.28E-11 2.83E-16 4.26E-16 1.10E+00 1.678E+00 4.776E-02 2.70990E+01 1.29E-02 0.971 1.26 1.26 561 9.94E-10 2.60E-10 5.01E-12 1.49E-16 1.80E-16 1.10E+00 1.678E+00 4.778E-02 2.70482E+01 1.29E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.915E-05 d(ln R0)/dt = 5.729E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.143152 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3984E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0033E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.780000 TO TG2= 1.785000 @ NSTEP 1531 GFRAME TG2 MOMENTS CHECKSUM: 8.9854518981580E+03 %MFRCHK - LABEL "QMINORB", # 2= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.34112E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.15674E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.34112E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.15674E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 2.93645E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.29000E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 2.93645E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.29000E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.785000E+00 NSTEP= 1539 Hash code: 46017784 ->PRGCHK: bdy curvature ratio at t= 1.7900E+00 seconds is: 1.0062E-01 % MHDEQ: TG1= 1.785000 ; TG2= 1.790000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.710E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -6.8286E-02 0.0000E+00 1.6776E+00 4.7776E-02 1 0 4.7107E-01 5.1736E-02 5.1736E-02 8.6175E-01 2 0 3.8153E-02 5.5507E-02 8.0182E-04 -2.6666E-02 3 0 2.4181E-02 -8.8293E-03 -6.1514E-03 -6.7441E-03 4 0 -3.2414E-03 -3.4803E-03 -2.2363E-03 4.5518E-03 5 0 -6.2757E-05 4.0400E-04 1.1317E-03 1.9161E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.48E-01 4.73E-02 5.53E-02 4.49E-03 5.03E-04 1.10E+00 1.678E+00 4.778E-02 3.15796E+01 1.08E-02 1.000 1.26 1.01 100 4.20E-06 1.39E-06 9.92E-07 3.14E-09 7.66E-10 1.10E+00 1.672E+00 4.126E-02 2.87425E+01 1.21E-02 1.000 1.26 1.22 119 9.52E-07 4.51E-07 3.20E-07 3.64E-10 3.35E-10 1.10E+00 1.673E+00 4.378E-02 2.87421E+01 1.21E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.759E-07 d(ln R0)/dt = 3.846E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.33E-02 8.39E-02 2.32E-04 1.63E-08 4.12E-08 1.10E+00 1.673E+00 4.389E-02 2.87405E+01 1.22E-02 1.000 1.26 1.24 100 2.03E-06 8.51E-07 3.55E-08 6.17E-12 1.70E-11 1.10E+00 1.676E+00 4.719E-02 2.88449E+01 1.21E-02 1.002 1.26 1.26 200 6.31E-08 1.60E-08 3.17E-09 2.45E-13 4.31E-13 1.10E+00 1.677E+00 4.766E-02 2.78832E+01 1.26E-02 0.985 1.26 1.26 300 1.51E-08 4.19E-09 3.84E-10 1.22E-14 2.62E-14 1.10E+00 1.677E+00 4.780E-02 2.74727E+01 1.27E-02 0.978 1.26 1.26 400 4.98E-09 1.38E-09 5.17E-11 1.44E-15 2.95E-15 1.10E+00 1.678E+00 4.787E-02 2.72431E+01 1.29E-02 0.974 1.26 1.26 500 1.94E-09 4.98E-10 1.27E-11 2.82E-16 4.23E-16 1.10E+00 1.678E+00 4.792E-02 2.71144E+01 1.29E-02 0.972 1.26 1.26 560 9.92E-10 2.61E-10 4.98E-12 1.35E-16 1.77E-16 1.10E+00 1.678E+00 4.793E-02 2.70642E+01 1.29E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.19E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.890E-05 d(ln R0)/dt = 5.726E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.135063 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4766E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0062E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.785000 TO TG2= 1.790000 @ NSTEP 1539 GFRAME TG2 MOMENTS CHECKSUM: 8.9862078947351E+03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.08984375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6167E+00 3.0188E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.0 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.0 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1238E+20 nbi_getprofiles ne*dVol sum (ions): 4.1238E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16596 - 0 (killed) + 4938 (dep) = 21534 ptcls. DEPALL EXITED 0 ORBALL... %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 6132 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6489 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6763 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6946 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7984 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8442 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8769 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8937 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9268 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9316 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9420 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9532 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9664 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9991 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10093 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10216 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10344 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10372 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10480 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10555 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10610 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10715 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10815 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21534 SPL= 0 TOT=16598 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1542 TA= 1.79000E+00 CPU TIME= 2.91797E+00 SECONDS. DT= 2.00000E-03 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.7900000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.790000E+00 NSTEP= 1542 Hash code: 113153378 ->PRGCHK: bdy curvature ratio at t= 1.7950E+00 seconds is: 1.0092E-01 % MHDEQ: TG1= 1.790000 ; TG2= 1.795000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.709E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5822E+00 0.0000E+00 -6.7788E-02 0.0000E+00 1.6778E+00 4.7933E-02 1 0 4.7122E-01 5.1595E-02 5.1595E-02 8.6159E-01 2 0 3.8148E-02 5.5333E-02 7.6102E-04 -2.6746E-02 3 0 2.4170E-02 -8.8355E-03 -6.1374E-03 -6.7278E-03 4 0 -3.2622E-03 -3.4791E-03 -2.2212E-03 4.5701E-03 5 0 -7.1122E-05 4.1824E-04 1.1379E-03 1.9165E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.49E-01 4.74E-02 5.53E-02 4.50E-03 5.03E-04 1.10E+00 1.678E+00 4.793E-02 3.15571E+01 1.08E-02 1.000 1.26 1.01 100 4.04E-06 1.33E-06 9.71E-07 3.03E-09 7.34E-10 1.10E+00 1.672E+00 4.136E-02 2.87130E+01 1.21E-02 1.000 1.26 1.22 119 9.37E-07 4.49E-07 3.16E-07 3.66E-10 3.32E-10 1.10E+00 1.673E+00 4.390E-02 2.87126E+01 1.21E-02 1.000 1.26 1.23 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.20E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.800E-07 d(ln R0)/dt = 3.890E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.25E-02 8.32E-02 2.29E-04 1.62E-08 4.10E-08 1.10E+00 1.674E+00 4.402E-02 2.87110E+01 1.22E-02 1.000 1.26 1.24 100 1.98E-06 8.34E-07 3.52E-08 6.12E-12 1.69E-11 1.10E+00 1.676E+00 4.735E-02 2.88525E+01 1.22E-02 1.002 1.26 1.26 200 6.26E-08 1.60E-08 3.15E-09 2.42E-13 4.29E-13 1.10E+00 1.677E+00 4.783E-02 2.78955E+01 1.26E-02 0.986 1.26 1.26 300 1.48E-08 4.13E-09 3.80E-10 1.21E-14 2.60E-14 1.10E+00 1.678E+00 4.796E-02 2.74873E+01 1.28E-02 0.979 1.26 1.26 400 4.90E-09 1.35E-09 5.09E-11 1.42E-15 2.94E-15 1.10E+00 1.678E+00 4.803E-02 2.72591E+01 1.29E-02 0.975 1.26 1.26 500 1.89E-09 4.88E-10 1.25E-11 2.79E-16 4.17E-16 1.10E+00 1.678E+00 4.808E-02 2.71312E+01 1.30E-02 0.972 1.26 1.26 557 9.99E-10 2.61E-10 5.09E-12 2.31E-16 1.51E-16 1.10E+00 1.678E+00 4.810E-02 2.70832E+01 1.30E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.78E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.877E-05 d(ln R0)/dt = 5.719E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.126986 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8359E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0092E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.790000 TO TG2= 1.795000 @ NSTEP 1542 GFRAME TG2 MOMENTS CHECKSUM: 8.9868750820626E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1542 TA= 1.79000E+00 CPU TIME= 2.77344E+00 SECONDS. DT= 2.00000E-03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1543 TA= 1.79034E+00 CPU TIME= 2.80078E+00 SECONDS. DT= 4.30936E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1549 TA= 1.79273E+00 CPU TIME= 2.78906E+00 SECONDS. DT= 4.53329E-04 %MFRCHK - LABEL "QMINORB", # 2= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 17= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 4= -5.50863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.22694E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 4= -5.50863E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.22694E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -9.91554E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.36301E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -9.91554E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.36301E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.795000E+00 NSTEP= 1555 Hash code: 116836178 ->PRGCHK: bdy curvature ratio at t= 1.8000E+00 seconds is: 1.0121E-01 % MHDEQ: TG1= 1.795000 ; TG2= 1.800000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.708E+00 1.257E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5823E+00 0.0000E+00 -6.7290E-02 0.0000E+00 1.6780E+00 4.8095E-02 1 0 4.7138E-01 5.1455E-02 5.1455E-02 8.6144E-01 2 0 3.8143E-02 5.5160E-02 7.2022E-04 -2.6826E-02 3 0 2.4159E-02 -8.8417E-03 -6.1234E-03 -6.7115E-03 4 0 -3.2829E-03 -3.4780E-03 -2.2061E-03 4.5884E-03 5 0 -7.9486E-05 4.3248E-04 1.1441E-03 1.9169E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.50E-01 4.76E-02 5.54E-02 4.51E-03 5.03E-04 1.10E+00 1.678E+00 4.810E-02 3.15358E+01 1.09E-02 1.000 1.26 1.01 100 3.90E-06 1.26E-06 9.25E-07 2.89E-09 6.81E-10 1.10E+00 1.672E+00 4.148E-02 2.86841E+01 1.22E-02 1.000 1.26 1.22 119 9.49E-07 4.59E-07 3.14E-07 3.73E-10 3.25E-10 1.10E+00 1.674E+00 4.408E-02 2.86837E+01 1.22E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.98E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.984E-07 d(ln R0)/dt = 4.061E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.19E-02 8.23E-02 2.28E-04 1.62E-08 4.16E-08 1.10E+00 1.674E+00 4.421E-02 2.86820E+01 1.23E-02 1.000 1.26 1.24 100 1.99E-06 8.48E-07 3.50E-08 5.96E-12 1.65E-11 1.10E+00 1.676E+00 4.758E-02 2.88399E+01 1.23E-02 1.003 1.26 1.26 200 6.22E-08 1.61E-08 3.12E-09 2.41E-13 4.34E-13 1.10E+00 1.678E+00 4.805E-02 2.78990E+01 1.27E-02 0.986 1.26 1.26 300 1.45E-08 4.08E-09 3.79E-10 1.22E-14 2.61E-14 1.10E+00 1.678E+00 4.819E-02 2.74945E+01 1.29E-02 0.979 1.26 1.26 400 4.79E-09 1.31E-09 4.99E-11 1.41E-15 2.93E-15 1.10E+00 1.678E+00 4.826E-02 2.72672E+01 1.30E-02 0.975 1.26 1.26 500 1.83E-09 4.75E-10 1.22E-11 2.82E-16 4.14E-16 1.10E+00 1.678E+00 4.831E-02 2.71416E+01 1.30E-02 0.973 1.26 1.26 554 9.97E-10 2.61E-10 5.33E-12 1.39E-16 1.79E-16 1.10E+00 1.678E+00 4.832E-02 2.70961E+01 1.30E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.74E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.855E-05 d(ln R0)/dt = 5.742E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.118752 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8750E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0121E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.795000 TO TG2= 1.800000 @ NSTEP 1555 GFRAME TG2 MOMENTS CHECKSUM: 8.9885320124650E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1555 TA= 1.79500E+00 CPU TIME= 2.94531E+00 SECONDS. DT= 5.87113E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1556 TA= 1.79538E+00 CPU TIME= 2.72656E+00 SECONDS. DT= 4.79608E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1562 TA= 1.79804E+00 CPU TIME= 2.94531E+00 SECONDS. DT= 5.05824E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6151E+00 3.0162E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.7 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.7 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.7 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.7 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.7 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1236E+20 nbi_getprofiles ne*dVol sum (ions): 4.1236E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16598 - 0 (killed) + 4901 (dep) = 21499 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4356 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 5242 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0041E+00 %ORBALL: In processor 0: orbit # IORB= 8400 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8792 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9004 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9202 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9239 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9800 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10224 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10262 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10355 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10404 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10531 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10677 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10754 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21499 SPL= 0 TOT=16577 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1567 TA= 1.80000E+00 CPU TIME= 2.48437E+00 SECONDS. DT= 1.34273E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8000000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.800000E+00 NSTEP= 1567 Hash code: 91862726 ->PRGCHK: bdy curvature ratio at t= 1.8050E+00 seconds is: 1.0092E-01 % MHDEQ: TG1= 1.800000 ; TG2= 1.805000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.706E+00 1.256E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5823E+00 0.0000E+00 -6.7361E-02 0.0000E+00 1.6785E+00 4.8322E-02 1 0 4.7118E-01 5.1460E-02 5.1460E-02 8.6135E-01 2 0 3.8202E-02 5.5152E-02 7.3356E-04 -2.6811E-02 3 0 2.4170E-02 -8.8403E-03 -6.1156E-03 -6.7130E-03 4 0 -3.2931E-03 -3.4623E-03 -2.1950E-03 4.5888E-03 5 0 -7.9990E-05 4.3786E-04 1.1472E-03 1.9169E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.51E-01 4.82E-02 5.56E-02 4.52E-03 5.06E-04 1.10E+00 1.678E+00 4.832E-02 3.15279E+01 1.09E-02 1.000 1.26 1.01 100 4.13E-06 1.36E-06 9.16E-07 3.01E-09 6.82E-10 1.10E+00 1.672E+00 4.139E-02 2.86661E+01 1.22E-02 1.000 1.26 1.22 120 8.97E-07 3.52E-07 2.89E-07 1.97E-10 3.50E-10 1.10E+00 1.674E+00 4.425E-02 2.86657E+01 1.23E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.364E-07 d(ln R0)/dt = 4.888E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.26E-02 8.28E-02 2.29E-04 1.51E-08 4.15E-08 1.10E+00 1.674E+00 4.437E-02 2.86639E+01 1.24E-02 1.000 1.26 1.24 100 2.15E-06 9.36E-07 3.60E-08 5.83E-12 1.62E-11 1.10E+00 1.677E+00 4.768E-02 2.87646E+01 1.23E-02 1.002 1.26 1.26 200 6.28E-08 1.66E-08 3.16E-09 2.46E-13 4.45E-13 1.10E+00 1.678E+00 4.815E-02 2.78431E+01 1.27E-02 0.986 1.26 1.26 300 1.45E-08 4.09E-09 3.88E-10 1.26E-14 2.71E-14 1.10E+00 1.679E+00 4.829E-02 2.74429E+01 1.29E-02 0.979 1.26 1.26 400 4.73E-09 1.30E-09 4.99E-11 1.39E-15 2.92E-15 1.10E+00 1.679E+00 4.836E-02 2.72139E+01 1.30E-02 0.975 1.26 1.26 500 1.83E-09 4.72E-10 1.24E-11 2.86E-16 4.22E-16 1.10E+00 1.679E+00 4.841E-02 2.70909E+01 1.31E-02 0.973 1.26 1.26 554 9.97E-10 2.60E-10 5.42E-12 1.45E-16 1.85E-16 1.10E+00 1.679E+00 4.842E-02 2.70465E+01 1.31E-02 0.972 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.99E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.833E-05 d(ln R0)/dt = 5.765E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.110366 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.2422E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0092E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.800000 TO TG2= 1.805000 @ NSTEP 1567 GFRAME TG2 MOMENTS CHECKSUM: 8.9899899654334E+03 %MFRCHK - LABEL "QMINORB", # 2= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -2.57067E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.19654E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -2.57067E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.19654E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67238E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.32630E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67238E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.32630E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.805000E+00 NSTEP= 1578 Hash code: 17339277 ->PRGCHK: bdy curvature ratio at t= 1.8100E+00 seconds is: 1.0063E-01 % MHDEQ: TG1= 1.805000 ; TG2= 1.810000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.705E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5824E+00 0.0000E+00 -6.7432E-02 0.0000E+00 1.6790E+00 4.8420E-02 1 0 4.7099E-01 5.1465E-02 5.1465E-02 8.6126E-01 2 0 3.8261E-02 5.5144E-02 7.4691E-04 -2.6797E-02 3 0 2.4181E-02 -8.8389E-03 -6.1079E-03 -6.7145E-03 4 0 -3.3033E-03 -3.4467E-03 -2.1839E-03 4.5892E-03 5 0 -8.0493E-05 4.4324E-04 1.1504E-03 1.9169E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.53E-01 4.87E-02 5.59E-02 4.52E-03 5.09E-04 1.10E+00 1.679E+00 4.842E-02 3.15256E+01 1.09E-02 1.000 1.26 1.01 100 4.74E-06 1.81E-06 9.79E-07 3.39E-09 6.96E-10 1.10E+00 1.672E+00 4.134E-02 2.86494E+01 1.22E-02 1.000 1.26 1.22 120 9.06E-07 3.88E-07 3.01E-07 2.04E-10 3.43E-10 1.10E+00 1.674E+00 4.422E-02 2.86490E+01 1.22E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.21E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.278E-07 d(ln R0)/dt = 4.578E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.26E-02 8.28E-02 2.30E-04 1.46E-08 4.26E-08 1.10E+00 1.674E+00 4.434E-02 2.86465E+01 1.24E-02 1.000 1.26 1.24 100 2.21E-06 9.93E-07 3.71E-08 5.86E-12 1.64E-11 1.10E+00 1.677E+00 4.771E-02 2.87066E+01 1.24E-02 1.001 1.26 1.26 200 6.42E-08 1.72E-08 3.22E-09 2.51E-13 4.50E-13 1.10E+00 1.679E+00 4.821E-02 2.77846E+01 1.28E-02 0.985 1.26 1.26 300 1.48E-08 4.16E-09 4.00E-10 1.31E-14 2.82E-14 1.10E+00 1.679E+00 4.834E-02 2.73860E+01 1.30E-02 0.978 1.26 1.26 400 4.77E-09 1.33E-09 5.11E-11 1.43E-15 2.99E-15 1.10E+00 1.679E+00 4.842E-02 2.71556E+01 1.31E-02 0.974 1.26 1.26 500 1.86E-09 4.82E-10 1.27E-11 2.91E-16 4.33E-16 1.10E+00 1.679E+00 4.846E-02 2.70317E+01 1.31E-02 0.972 1.26 1.26 556 9.96E-10 2.62E-10 5.43E-12 2.23E-16 1.75E-16 1.10E+00 1.680E+00 4.848E-02 2.69859E+01 1.32E-02 0.971 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 6.99E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.874E-05 d(ln R0)/dt = 5.911E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.061668 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0063E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.805000 TO TG2= 1.810000 @ NSTEP 1578 GFRAME TG2 MOMENTS CHECKSUM: 8.9906653449271E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1578 TA= 1.80500E+00 CPU TIME= 3.43750E+00 SECONDS. DT= 1.25052E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.078125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6154E+00 3.0147E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.6 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.6 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.6 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.6 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.6 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1062E+20 nbi_getprofiles ne*dVol sum (ions): 4.1062E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16577 - 0 (killed) + 4875 (dep) = 21452 ptcls. DEPALL EXITED 0 ORBALL... %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0005E+00 %ORBALL: In processor 0: orbit # IORB= 8494 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8540 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8645 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9221 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9333 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9396 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0034E+00 %ORBALL: In processor 0: orbit # IORB= 9589 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9662 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9770 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9812 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10310 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10616 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10693 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10802 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21452 SPL= 0 TOT=16573 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1583 TA= 1.81000E+00 CPU TIME= 2.40625E+00 SECONDS. DT= 9.40140E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8100000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.810000E+00 NSTEP= 1583 Hash code: 7347363 ->PRGCHK: bdy curvature ratio at t= 1.8150E+00 seconds is: 1.0034E-01 % MHDEQ: TG1= 1.810000 ; TG2= 1.815000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5824E+00 0.0000E+00 -6.7503E-02 0.0000E+00 1.6795E+00 4.8477E-02 1 0 4.7079E-01 5.1469E-02 5.1469E-02 8.6118E-01 2 0 3.8321E-02 5.5137E-02 7.6025E-04 -2.6782E-02 3 0 2.4192E-02 -8.8375E-03 -6.1001E-03 -6.7161E-03 4 0 -3.3136E-03 -3.4310E-03 -2.1729E-03 4.5896E-03 5 0 -8.0997E-05 4.4863E-04 1.1535E-03 1.9169E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.55E-01 4.92E-02 5.61E-02 4.53E-03 5.12E-04 1.10E+00 1.680E+00 4.848E-02 3.15523E+01 1.09E-02 1.000 1.25 1.01 100 4.71E-06 1.68E-06 9.89E-07 3.34E-09 7.30E-10 1.10E+00 1.672E+00 4.136E-02 2.86606E+01 1.22E-02 1.000 1.25 1.22 120 9.08E-07 3.81E-07 3.02E-07 2.02E-10 3.43E-10 1.10E+00 1.674E+00 4.421E-02 2.86602E+01 1.22E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.268E-07 d(ln R0)/dt = 4.486E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.29E-02 8.27E-02 2.30E-04 1.40E-08 4.32E-08 1.10E+00 1.674E+00 4.433E-02 2.86572E+01 1.24E-02 1.000 1.25 1.24 100 2.21E-06 1.01E-06 3.74E-08 5.89E-12 1.67E-11 1.10E+00 1.678E+00 4.771E-02 2.87204E+01 1.24E-02 1.001 1.25 1.26 200 6.49E-08 1.76E-08 3.27E-09 2.54E-13 4.53E-13 1.10E+00 1.679E+00 4.824E-02 2.77885E+01 1.28E-02 0.985 1.25 1.26 300 1.51E-08 4.24E-09 4.09E-10 1.34E-14 2.89E-14 1.10E+00 1.679E+00 4.837E-02 2.73886E+01 1.30E-02 0.978 1.25 1.26 400 4.85E-09 1.37E-09 5.25E-11 1.48E-15 3.07E-15 1.10E+00 1.680E+00 4.845E-02 2.71568E+01 1.31E-02 0.974 1.25 1.26 500 1.91E-09 4.94E-10 1.31E-11 2.94E-16 4.42E-16 1.10E+00 1.680E+00 4.850E-02 2.70308E+01 1.31E-02 0.972 1.25 1.26 559 9.85E-10 2.58E-10 5.11E-12 1.72E-16 1.64E-16 1.10E+00 1.680E+00 4.851E-02 2.69821E+01 1.32E-02 0.971 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.03E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.893E-05 d(ln R0)/dt = 6.051E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.81 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.078711 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3594E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0034E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.810000 TO TG2= 1.815000 @ NSTEP 1583 GFRAME TG2 MOMENTS CHECKSUM: 8.9909149553951E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1583 TA= 1.81000E+00 CPU TIME= 2.40234E+00 SECONDS. DT= 9.40140E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1584 TA= 1.81050E+00 CPU TIME= 2.42187E+00 SECONDS. DT= 6.19274E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1590 TA= 1.81393E+00 CPU TIME= 3.06641E+00 SECONDS. DT= 6.53400E-04 %MFRCHK - LABEL "QMINORB", # 1= 5.60519E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= 6.24480E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.31523E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= 6.24480E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.31523E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 7.34683E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.45241E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 7.34683E-40 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.45241E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.815000E+00 NSTEP= 1592 Hash code: 94117859 ->PRGCHK: bdy curvature ratio at t= 1.8200E+00 seconds is: 1.0005E-01 % MHDEQ: TG1= 1.815000 ; TG2= 1.820000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.704E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5825E+00 0.0000E+00 -6.7574E-02 0.0000E+00 1.6800E+00 4.8513E-02 1 0 4.7060E-01 5.1474E-02 5.1474E-02 8.6109E-01 2 0 3.8380E-02 5.5129E-02 7.7360E-04 -2.6768E-02 3 0 2.4203E-02 -8.8361E-03 -6.0923E-03 -6.7176E-03 4 0 -3.3238E-03 -3.4153E-03 -2.1618E-03 4.5900E-03 5 0 -8.1500E-05 4.5401E-04 1.1567E-03 1.9168E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.56E-01 4.97E-02 5.62E-02 4.53E-03 5.14E-04 1.10E+00 1.680E+00 4.851E-02 3.15792E+01 1.08E-02 1.000 1.25 1.01 100 4.65E-06 1.65E-06 9.89E-07 3.35E-09 7.39E-10 1.10E+00 1.673E+00 4.137E-02 2.86747E+01 1.21E-02 1.000 1.25 1.21 120 9.06E-07 3.78E-07 2.99E-07 2.00E-10 3.40E-10 1.10E+00 1.674E+00 4.419E-02 2.86743E+01 1.21E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.02E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.179E-07 d(ln R0)/dt = 4.349E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.33E-02 8.20E-02 2.29E-04 1.38E-08 4.53E-08 1.10E+00 1.674E+00 4.431E-02 2.86700E+01 1.23E-02 1.000 1.25 1.24 100 2.13E-06 9.67E-07 3.63E-08 5.90E-12 1.65E-11 1.10E+00 1.679E+00 4.782E-02 2.87935E+01 1.23E-02 1.002 1.25 1.26 200 6.45E-08 1.74E-08 3.27E-09 2.55E-13 4.60E-13 1.10E+00 1.680E+00 4.839E-02 2.78554E+01 1.27E-02 0.986 1.25 1.26 300 1.51E-08 4.24E-09 4.09E-10 1.34E-14 2.89E-14 1.10E+00 1.681E+00 4.853E-02 2.74538E+01 1.29E-02 0.979 1.25 1.26 400 4.89E-09 1.38E-09 5.27E-11 1.52E-15 3.07E-15 1.10E+00 1.681E+00 4.860E-02 2.72215E+01 1.30E-02 0.975 1.25 1.26 500 1.93E-09 4.98E-10 1.32E-11 3.08E-16 4.51E-16 1.10E+00 1.681E+00 4.865E-02 2.70960E+01 1.31E-02 0.973 1.25 1.25 559 1.00E-09 2.60E-10 5.19E-12 1.77E-16 1.68E-16 1.10E+00 1.681E+00 4.867E-02 2.70468E+01 1.31E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.70E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.903E-05 d(ln R0)/dt = 6.320E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.251577 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9141E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 1.0005E-01 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.815000 TO TG2= 1.820000 @ NSTEP 1592 GFRAME TG2 MOMENTS CHECKSUM: 8.9916231475401E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1592 TA= 1.81500E+00 CPU TIME= 2.95703E+00 SECONDS. DT= 8.16750E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1593 TA= 1.81554E+00 CPU TIME= 2.94922E+00 SECONDS. DT= 6.69884E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1599 TA= 1.81925E+00 CPU TIME= 2.87500E+00 SECONDS. DT= 7.07881E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.078125 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6171E+00 3.0164E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.5 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.5 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.5 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.5 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.5 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.0343E+20 nbi_getprofiles ne*dVol sum (ions): 4.0343E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16573 - 0 (killed) + 4853 (dep) = 21426 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 4152 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4335 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 4803 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6432 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0071E+00 %ORBALL: In processor 0: orbit # IORB= 8457 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8588 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8959 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9000 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9125 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9194 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9385 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9422 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9485 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9530 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9607 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9647 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9680 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9724 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9823 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9903 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10032 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10204 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10767 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21426 SPL= 0 TOT=16863 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1601 TA= 1.82000E+00 CPU TIME= 3.08984E+00 SECONDS. DT= 5.10700E-05 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8200000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.820000E+00 NSTEP= 1601 Hash code: 60005630 ->PRGCHK: bdy curvature ratio at t= 1.8250E+00 seconds is: 9.9763E-02 % MHDEQ: TG1= 1.820000 ; TG2= 1.825000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.701E+00 1.254E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5825E+00 0.0000E+00 -6.7645E-02 0.0000E+00 1.6814E+00 4.8670E-02 1 0 4.7040E-01 5.1479E-02 5.1479E-02 8.6101E-01 2 0 3.8439E-02 5.5121E-02 7.8694E-04 -2.6753E-02 3 0 2.4214E-02 -8.8346E-03 -6.0846E-03 -6.7191E-03 4 0 -3.3340E-03 -3.3997E-03 -2.1507E-03 4.5904E-03 5 0 -8.2004E-05 4.5940E-04 1.1599E-03 1.9168E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.62E-01 5.10E-02 5.69E-02 4.56E-03 5.20E-04 1.10E+00 1.681E+00 4.867E-02 3.15837E+01 1.07E-02 1.000 1.25 1.01 100 5.80E-06 1.76E-06 1.18E-06 3.58E-09 9.57E-10 1.10E+00 1.674E+00 4.182E-02 2.86351E+01 1.20E-02 1.000 1.25 1.21 120 9.61E-07 3.89E-07 3.05E-07 1.87E-10 3.31E-10 1.10E+00 1.675E+00 4.436E-02 2.86347E+01 1.20E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.355E-07 d(ln R0)/dt = 3.196E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.35E-02 8.11E-02 2.25E-04 1.41E-08 4.73E-08 1.10E+00 1.675E+00 4.447E-02 2.86290E+01 1.23E-02 1.000 1.25 1.24 100 1.99E-06 8.92E-07 3.43E-08 5.83E-12 1.65E-11 1.10E+00 1.680E+00 4.794E-02 2.87995E+01 1.22E-02 1.003 1.25 1.26 200 6.30E-08 1.70E-08 3.25E-09 2.53E-13 4.61E-13 1.10E+00 1.682E+00 4.856E-02 2.78540E+01 1.26E-02 0.987 1.25 1.25 300 1.49E-08 4.20E-09 4.01E-10 1.30E-14 2.85E-14 1.10E+00 1.682E+00 4.870E-02 2.74532E+01 1.28E-02 0.980 1.25 1.25 400 4.86E-09 1.37E-09 5.20E-11 1.52E-15 3.01E-15 1.10E+00 1.683E+00 4.878E-02 2.72215E+01 1.29E-02 0.975 1.25 1.25 500 1.92E-09 4.94E-10 1.31E-11 3.17E-16 4.53E-16 1.10E+00 1.683E+00 4.883E-02 2.70981E+01 1.30E-02 0.973 1.25 1.25 559 9.93E-10 2.57E-10 5.14E-12 1.80E-16 1.69E-16 1.10E+00 1.683E+00 4.885E-02 2.70487E+01 1.30E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.66E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.898E-05 d(ln R0)/dt = 6.560E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.65 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.439399 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7578E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9763E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.820000 TO TG2= 1.825000 @ NSTEP 1601 GFRAME TG2 MOMENTS CHECKSUM: 8.9925690908986E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1601 TA= 1.82000E+00 CPU TIME= 2.89453E+00 SECONDS. DT= 5.10700E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1602 TA= 1.82005E+00 CPU TIME= 2.57812E+00 SECONDS. DT= 6.38375E-05 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1614 TA= 1.82297E+00 CPU TIME= 2.40625E+00 SECONDS. DT= 4.94450E-04 %MFRCHK - LABEL "QMINORB", # 1= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -6.60728E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.27038E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -6.60728E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.27038E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= -3.67071E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.40267E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= -3.67071E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.40267E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.825000E+00 NSTEP= 1620 Hash code: 122073406 ->PRGCHK: bdy curvature ratio at t= 1.8300E+00 seconds is: 9.9477E-02 % MHDEQ: TG1= 1.825000 ; TG2= 1.830000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.698E+00 1.253E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5826E+00 0.0000E+00 -6.7716E-02 0.0000E+00 1.6829E+00 4.8845E-02 1 0 4.7021E-01 5.1483E-02 5.1483E-02 8.6092E-01 2 0 3.8498E-02 5.5114E-02 8.0029E-04 -2.6739E-02 3 0 2.4225E-02 -8.8332E-03 -6.0768E-03 -6.7206E-03 4 0 -3.3442E-03 -3.3840E-03 -2.1396E-03 4.5909E-03 5 0 -8.2507E-05 4.6478E-04 1.1630E-03 1.9168E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.67E-01 5.23E-02 5.76E-02 4.58E-03 5.27E-04 1.10E+00 1.683E+00 4.885E-02 3.15870E+01 1.07E-02 1.000 1.25 1.01 100 5.14E-06 1.57E-06 1.16E-06 3.30E-09 1.14E-09 1.10E+00 1.674E+00 4.200E-02 2.85912E+01 1.21E-02 1.000 1.25 1.21 117 9.92E-07 3.88E-07 2.42E-07 1.35E-10 9.92E-10 1.10E+00 1.675E+00 4.415E-02 2.85908E+01 1.21E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.17E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.374E-07 d(ln R0)/dt = 2.162E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.11E-02 7.67E-02 2.18E-04 1.63E-08 4.02E-08 1.10E+00 1.675E+00 4.427E-02 2.85875E+01 1.23E-02 1.000 1.25 1.24 100 1.94E-06 8.87E-07 3.44E-08 5.87E-12 1.77E-11 1.10E+00 1.679E+00 4.775E-02 2.87194E+01 1.22E-02 1.002 1.25 1.25 200 6.41E-08 1.77E-08 3.38E-09 2.57E-13 4.74E-13 1.10E+00 1.680E+00 4.829E-02 2.77508E+01 1.26E-02 0.985 1.25 1.25 300 1.54E-08 4.37E-09 4.14E-10 1.35E-14 2.93E-14 1.10E+00 1.681E+00 4.843E-02 2.73441E+01 1.28E-02 0.978 1.25 1.25 400 5.02E-09 1.43E-09 5.39E-11 1.60E-15 3.10E-15 1.10E+00 1.681E+00 4.851E-02 2.71110E+01 1.29E-02 0.974 1.25 1.25 500 1.99E-09 5.15E-10 1.36E-11 3.25E-16 4.69E-16 1.10E+00 1.681E+00 4.856E-02 2.69851E+01 1.30E-02 0.972 1.25 1.25 562 9.95E-10 2.56E-10 5.18E-12 2.27E-16 1.73E-16 1.10E+00 1.681E+00 4.858E-02 2.69325E+01 1.30E-02 0.971 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.81E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.975E-05 d(ln R0)/dt = 6.399E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.90 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.097517 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 9.1406E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9477E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.825000 TO TG2= 1.830000 @ NSTEP 1620 GFRAME TG2 MOMENTS CHECKSUM: 8.9910925778886E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1620 TA= 1.82500E+00 CPU TIME= 2.46094E+00 SECONDS. DT= 4.75564E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1621 TA= 1.82538E+00 CPU TIME= 2.48828E+00 SECONDS. DT= 4.71317E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1628 TA= 1.82793E+00 CPU TIME= 2.42578E+00 SECONDS. DT= 4.46029E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.1015625 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6155E+00 3.0118E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.4 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.4 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.4 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.4 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.4 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.0457E+20 nbi_getprofiles ne*dVol sum (ions): 4.0457E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16863 - 0 (killed) + 4774 (dep) = 21637 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 5853 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6541 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 7476 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0074E+00 %ORBALL: In processor 0: orbit # IORB= 7810 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8540 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8691 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8771 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8865 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8885 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8948 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 9277 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9317 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9449 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9503 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9521 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9586 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9633 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9660 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0041E+00 %ORBALL: In processor 0: orbit # IORB= 9907 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10049 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10294 never inside plasma. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 10569 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10690 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10742 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10779 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21637 SPL= 0 TOT=16930 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1634 TA= 1.83000E+00 CPU TIME= 2.36328E+00 SECONDS. DT= 4.03242E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8300000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.830000E+00 NSTEP= 1634 Hash code: 78546399 ->PRGCHK: bdy curvature ratio at t= 1.8350E+00 seconds is: 9.9191E-02 % MHDEQ: TG1= 1.830000 ; TG2= 1.835000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.697E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5826E+00 0.0000E+00 -6.7788E-02 0.0000E+00 1.6813E+00 4.8578E-02 1 0 4.7001E-01 5.1488E-02 5.1488E-02 8.6084E-01 2 0 3.8557E-02 5.5106E-02 8.1363E-04 -2.6725E-02 3 0 2.4236E-02 -8.8318E-03 -6.0690E-03 -6.7222E-03 4 0 -3.3544E-03 -3.3683E-03 -2.1285E-03 4.5913E-03 5 0 -8.3011E-05 4.7016E-04 1.1662E-03 1.9167E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.60E-01 5.09E-02 5.68E-02 4.54E-03 5.20E-04 1.10E+00 1.681E+00 4.858E-02 3.15009E+01 1.08E-02 1.000 1.25 1.01 100 5.47E-06 1.57E-06 1.13E-06 3.20E-09 9.79E-10 1.10E+00 1.675E+00 4.200E-02 2.85709E+01 1.22E-02 1.000 1.25 1.21 119 9.90E-07 4.68E-07 3.23E-07 3.49E-10 3.79E-10 1.10E+00 1.676E+00 4.446E-02 2.85706E+01 1.22E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 5.351E-07 d(ln R0)/dt = 2.741E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.42E-02 8.09E-02 2.26E-04 1.82E-08 3.77E-08 1.10E+00 1.676E+00 4.458E-02 2.85698E+01 1.22E-02 1.000 1.25 1.24 100 2.02E-06 9.35E-07 3.59E-08 5.90E-12 1.72E-11 1.10E+00 1.677E+00 4.756E-02 2.86347E+01 1.22E-02 1.001 1.25 1.25 200 6.51E-08 1.79E-08 3.33E-09 2.53E-13 4.53E-13 1.10E+00 1.679E+00 4.802E-02 2.76689E+01 1.27E-02 0.984 1.25 1.25 300 1.59E-08 4.45E-09 4.18E-10 1.37E-14 2.92E-14 1.10E+00 1.679E+00 4.816E-02 2.72640E+01 1.28E-02 0.977 1.25 1.25 400 5.16E-09 1.48E-09 5.55E-11 1.60E-15 3.18E-15 1.10E+00 1.679E+00 4.824E-02 2.70303E+01 1.30E-02 0.973 1.25 1.25 500 2.07E-09 5.34E-10 1.39E-11 3.14E-16 4.77E-16 1.10E+00 1.680E+00 4.828E-02 2.69004E+01 1.30E-02 0.971 1.25 1.25 564 9.95E-10 2.60E-10 5.00E-12 2.22E-16 1.47E-16 1.10E+00 1.680E+00 4.830E-02 2.68447E+01 1.31E-02 0.970 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.15E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.021E-05 d(ln R0)/dt = 6.231E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.83 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.308478 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.9191E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.830000 TO TG2= 1.835000 @ NSTEP 1634 GFRAME TG2 MOMENTS CHECKSUM: 8.9893778373950E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1634 TA= 1.83000E+00 CPU TIME= 2.44141E+00 SECONDS. DT= 4.03242E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1635 TA= 1.83025E+00 CPU TIME= 2.52734E+00 SECONDS. DT= 3.17447E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1641 TA= 1.83201E+00 CPU TIME= 2.50000E+00 SECONDS. DT= 3.35197E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1647 TA= 1.83387E+00 CPU TIME= 2.51562E+00 SECONDS. DT= 3.54030E-04 %MFRCHK - LABEL "QMINORB", # 1= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 14= 4.20390E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -1.47027E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -2.00400E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -1.47027E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -2.00400E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_SRC", # 3= 1.83784E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SRC", # 1= -2.12143E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_RC_D", # 3= 1.83784E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_RC_D", # 1= -2.12143E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.835000E+00 NSTEP= 1651 Hash code: 119309280 ->PRGCHK: bdy curvature ratio at t= 1.8400E+00 seconds is: 9.8906E-02 % MHDEQ: TG1= 1.835000 ; TG2= 1.840000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.695E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5827E+00 0.0000E+00 -6.7859E-02 0.0000E+00 1.6797E+00 4.8303E-02 1 0 4.6982E-01 5.1493E-02 5.1493E-02 8.6075E-01 2 0 3.8617E-02 5.5099E-02 8.2698E-04 -2.6710E-02 3 0 2.4247E-02 -8.8304E-03 -6.0612E-03 -6.7237E-03 4 0 -3.3646E-03 -3.3527E-03 -2.1175E-03 4.5917E-03 5 0 -8.3514E-05 4.7555E-04 1.1693E-03 1.9167E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.54E-01 4.96E-02 5.60E-02 4.50E-03 5.15E-04 1.10E+00 1.680E+00 4.830E-02 3.14184E+01 1.08E-02 1.000 1.25 1.00 100 4.77E-06 1.71E-06 9.78E-07 3.38E-09 7.12E-10 1.10E+00 1.673E+00 4.128E-02 2.85533E+01 1.21E-02 1.000 1.25 1.21 120 9.51E-07 3.97E-07 3.03E-07 2.01E-10 3.44E-10 1.10E+00 1.675E+00 4.416E-02 2.85529E+01 1.21E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.09E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.262E-07 d(ln R0)/dt = 4.415E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.59E-02 8.33E-02 2.35E-04 1.68E-08 4.06E-08 1.10E+00 1.675E+00 4.428E-02 2.85523E+01 1.22E-02 1.000 1.25 1.24 100 2.07E-06 9.63E-07 3.66E-08 5.91E-12 1.63E-11 1.10E+00 1.677E+00 4.732E-02 2.86461E+01 1.22E-02 1.002 1.25 1.25 200 6.62E-08 1.79E-08 3.32E-09 2.53E-13 4.53E-13 1.10E+00 1.678E+00 4.776E-02 2.76977E+01 1.26E-02 0.985 1.25 1.25 300 1.60E-08 4.45E-09 4.20E-10 1.36E-14 2.91E-14 1.10E+00 1.678E+00 4.790E-02 2.72923E+01 1.28E-02 0.978 1.25 1.25 400 5.23E-09 1.48E-09 5.64E-11 1.59E-15 3.22E-15 1.10E+00 1.678E+00 4.797E-02 2.70610E+01 1.29E-02 0.974 1.25 1.25 500 2.09E-09 5.38E-10 1.41E-11 3.13E-16 4.87E-16 1.10E+00 1.679E+00 4.802E-02 2.69302E+01 1.29E-02 0.972 1.25 1.25 566 9.99E-10 2.58E-10 4.88E-12 1.30E-16 1.55E-16 1.10E+00 1.679E+00 4.804E-02 2.68726E+01 1.30E-02 0.971 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.029E-05 d(ln R0)/dt = 6.053E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.237564 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4766E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8906E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.835000 TO TG2= 1.840000 @ NSTEP 1651 GFRAME TG2 MOMENTS CHECKSUM: 8.9859706681620E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1651 TA= 1.83500E+00 CPU TIME= 2.39062E+00 SECONDS. DT= 4.50680E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1652 TA= 1.83530E+00 CPU TIME= 2.44141E+00 SECONDS. DT= 3.69011E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1658 TA= 1.83734E+00 CPU TIME= 2.61328E+00 SECONDS. DT= 3.90151E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1664 TA= 1.83951E+00 CPU TIME= 2.97656E+00 SECONDS. DT= 4.12534E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6155E+00 3.0103E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.8 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.8 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.8 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.8 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.8 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.0587E+20 nbi_getprofiles ne*dVol sum (ions): 4.0587E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16930 - 0 (killed) + 4723 (dep) = 21653 ptcls. DEPALL EXITED 0 ORBALL... %trackr(xstraln): too many re-entries, track truncated. %trackr(xstraln): too many re-entries, track truncated. %ORBALL: In processor 0: orbit # IORB= 5191 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6769 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8256 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8494 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8570 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8754 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8843 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8844 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8924 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8979 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9025 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9180 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9392 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9455 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9574 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9579 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9902 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9975 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10042 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10118 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10142 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10254 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10263 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10281 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10345 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10591 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10826 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21653 SPL= 0 TOT=16926 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1666 TA= 1.84000E+00 CPU TIME= 2.96094E+00 SECONDS. DT= 1.00760E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8400000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.840000E+00 NSTEP= 1666 Hash code: 42046002 ->PRGCHK: bdy curvature ratio at t= 1.8450E+00 seconds is: 9.8621E-02 % MHDEQ: TG1= 1.840000 ; TG2= 1.845000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.694E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5827E+00 0.0000E+00 -6.7930E-02 0.0000E+00 1.6787E+00 4.8040E-02 1 0 4.6962E-01 5.1497E-02 5.1497E-02 8.6066E-01 2 0 3.8676E-02 5.5091E-02 8.4032E-04 -2.6696E-02 3 0 2.4258E-02 -8.8290E-03 -6.0535E-03 -6.7252E-03 4 0 -3.3749E-03 -3.3370E-03 -2.1064E-03 4.5921E-03 5 0 -8.4018E-05 4.8093E-04 1.1725E-03 1.9167E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.49E-01 4.88E-02 5.54E-02 4.47E-03 5.11E-04 1.10E+00 1.679E+00 4.804E-02 3.13618E+01 1.08E-02 1.000 1.25 1.00 100 3.83E-06 1.18E-06 8.74E-07 2.87E-09 6.54E-10 1.10E+00 1.673E+00 4.113E-02 2.85396E+01 1.21E-02 1.000 1.25 1.21 119 9.84E-07 4.65E-07 3.14E-07 3.68E-10 3.25E-10 1.10E+00 1.674E+00 4.377E-02 2.85392E+01 1.21E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.182E-07 d(ln R0)/dt = 4.061E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.59E-02 8.33E-02 2.34E-04 1.85E-08 4.32E-08 1.10E+00 1.674E+00 4.390E-02 2.85388E+01 1.21E-02 1.000 1.25 1.23 100 2.13E-06 9.76E-07 3.66E-08 5.98E-12 1.66E-11 1.10E+00 1.676E+00 4.707E-02 2.87214E+01 1.21E-02 1.003 1.25 1.25 200 6.67E-08 1.78E-08 3.37E-09 2.55E-13 4.64E-13 1.10E+00 1.677E+00 4.751E-02 2.77767E+01 1.25E-02 0.987 1.25 1.25 300 1.58E-08 4.40E-09 4.23E-10 1.36E-14 2.95E-14 1.10E+00 1.677E+00 4.765E-02 2.73716E+01 1.27E-02 0.980 1.25 1.25 400 5.20E-09 1.47E-09 5.70E-11 1.60E-15 3.30E-15 1.10E+00 1.677E+00 4.771E-02 2.71430E+01 1.28E-02 0.976 1.25 1.25 500 2.06E-09 5.30E-10 1.41E-11 3.10E-16 4.90E-16 1.10E+00 1.678E+00 4.776E-02 2.70120E+01 1.29E-02 0.973 1.25 1.25 564 9.99E-10 2.60E-10 5.14E-12 2.04E-16 1.50E-16 1.10E+00 1.678E+00 4.778E-02 2.69552E+01 1.29E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 3.003E-05 d(ln R0)/dt = 5.804E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.193988 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.8750E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8621E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.840000 TO TG2= 1.845000 @ NSTEP 1666 GFRAME TG2 MOMENTS CHECKSUM: 8.9822610499093E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1666 TA= 1.84000E+00 CPU TIME= 3.11328E+00 SECONDS. DT= 1.00760E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1667 TA= 1.84010E+00 CPU TIME= 3.06641E+00 SECONDS. DT= 1.25950E-04 %MFRCHK - LABEL "QMINORB", # 2= 2.80260E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -7.73356E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.99783E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -7.73356E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.99783E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.845000E+00 NSTEP= 1678 Hash code: 25106615 ->PRGCHK: bdy curvature ratio at t= 1.8500E+00 seconds is: 9.8337E-02 % MHDEQ: TG1= 1.845000 ; TG2= 1.850000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.692E+00 1.252E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5828E+00 0.0000E+00 -6.8001E-02 0.0000E+00 1.6777E+00 4.7779E-02 1 0 4.6943E-01 5.1502E-02 5.1502E-02 8.6058E-01 2 0 3.8735E-02 5.5083E-02 8.5367E-04 -2.6681E-02 3 0 2.4269E-02 -8.8276E-03 -6.0457E-03 -6.7268E-03 4 0 -3.3851E-03 -3.3213E-03 -2.0953E-03 4.5925E-03 5 0 -8.4521E-05 4.8631E-04 1.1757E-03 1.9167E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.45E-01 4.79E-02 5.49E-02 4.44E-03 5.07E-04 1.10E+00 1.678E+00 4.778E-02 3.13025E+01 1.09E-02 1.000 1.25 1.00 100 4.92E-06 1.41E-06 9.88E-07 3.36E-09 7.18E-10 1.10E+00 1.673E+00 4.114E-02 2.85230E+01 1.21E-02 1.000 1.25 1.21 121 9.73E-07 2.64E-07 2.86E-07 1.13E-10 6.42E-10 1.10E+00 1.674E+00 4.390E-02 2.85226E+01 1.21E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.266E-07 d(ln R0)/dt = 4.391E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.76E-02 8.70E-02 2.44E-04 1.67E-08 4.25E-08 1.10E+00 1.674E+00 4.402E-02 2.85222E+01 1.22E-02 1.000 1.25 1.24 100 2.23E-06 1.05E-06 3.83E-08 5.98E-12 1.65E-11 1.10E+00 1.676E+00 4.702E-02 2.86865E+01 1.22E-02 1.003 1.25 1.25 200 6.66E-08 1.81E-08 3.32E-09 2.54E-13 4.49E-13 1.10E+00 1.677E+00 4.746E-02 2.77595E+01 1.26E-02 0.987 1.25 1.25 300 1.58E-08 4.36E-09 4.20E-10 1.36E-14 2.91E-14 1.10E+00 1.677E+00 4.760E-02 2.73588E+01 1.27E-02 0.980 1.25 1.25 400 5.08E-09 1.46E-09 5.69E-11 1.59E-15 3.35E-15 1.10E+00 1.677E+00 4.766E-02 2.71328E+01 1.29E-02 0.976 1.25 1.25 500 2.03E-09 5.22E-10 1.39E-11 2.93E-16 4.83E-16 1.10E+00 1.678E+00 4.771E-02 2.70006E+01 1.29E-02 0.973 1.25 1.25 564 9.85E-10 2.56E-10 5.06E-12 1.98E-16 1.46E-16 1.10E+00 1.678E+00 4.773E-02 2.69445E+01 1.29E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.82E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.962E-05 d(ln R0)/dt = 5.691E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.67 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.206420 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.9141E-01 SECONDS DATA R*BT AT EDGE: 3.3375E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8337E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.845000 TO TG2= 1.850000 @ NSTEP 1678 GFRAME TG2 MOMENTS CHECKSUM: 8.9815151701190E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1678 TA= 1.84500E+00 CPU TIME= 3.06641E+00 SECONDS. DT= 1.17300E-03 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6156E+00 3.0088E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.9 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.9 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.9 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 172.9 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 172.9 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1227E+20 nbi_getprofiles ne*dVol sum (ions): 4.1227E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16926 - 0 (killed) + 4691 (dep) = 21617 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6961 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0066E+00 %ORBALL: In processor 0: orbit # IORB= 7584 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8706 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8752 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8785 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8823 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9119 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9199 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9588 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9592 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9741 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9965 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10380 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10393 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10571 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10798 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21617 SPL= 0 TOT=16861 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1685 TA= 1.85000E+00 CPU TIME= 2.37500E+00 SECONDS. DT= 6.72481E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8500000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.850000E+00 NSTEP= 1685 Hash code: 123095593 ->PRGCHK: bdy curvature ratio at t= 1.8550E+00 seconds is: 9.8055E-02 % MHDEQ: TG1= 1.850000 ; TG2= 1.855000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.692E+00 1.253E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5828E+00 0.0000E+00 -6.8072E-02 0.0000E+00 1.6776E+00 4.7727E-02 1 0 4.6923E-01 5.1507E-02 5.1507E-02 8.6049E-01 2 0 3.8794E-02 5.5076E-02 8.6701E-04 -2.6667E-02 3 0 2.4279E-02 -8.8262E-03 -6.0379E-03 -6.7283E-03 4 0 -3.3953E-03 -3.3057E-03 -2.0842E-03 4.5929E-03 5 0 -8.5025E-05 4.9170E-04 1.1788E-03 1.9166E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.45E-01 4.79E-02 5.48E-02 4.44E-03 5.08E-04 1.10E+00 1.678E+00 4.773E-02 3.13052E+01 1.09E-02 1.000 1.25 1.00 100 5.25E-06 1.46E-06 1.04E-06 3.48E-09 7.89E-10 1.10E+00 1.673E+00 4.118E-02 2.85315E+01 1.22E-02 1.000 1.25 1.21 121 9.59E-07 2.61E-07 2.90E-07 1.14E-10 6.32E-10 1.10E+00 1.674E+00 4.386E-02 2.85311E+01 1.22E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.131E-07 d(ln R0)/dt = 4.196E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.73E-02 8.76E-02 2.45E-04 1.64E-08 4.21E-08 1.10E+00 1.674E+00 4.398E-02 2.85307E+01 1.23E-02 1.000 1.25 1.24 100 2.18E-06 1.04E-06 3.85E-08 5.96E-12 1.67E-11 1.10E+00 1.676E+00 4.695E-02 2.86876E+01 1.22E-02 1.003 1.25 1.25 200 6.59E-08 1.81E-08 3.31E-09 2.52E-13 4.41E-13 1.10E+00 1.677E+00 4.740E-02 2.77598E+01 1.26E-02 0.987 1.25 1.25 300 1.58E-08 4.36E-09 4.18E-10 1.36E-14 2.90E-14 1.10E+00 1.677E+00 4.753E-02 2.73607E+01 1.28E-02 0.980 1.25 1.25 400 5.05E-09 1.47E-09 5.70E-11 1.58E-15 3.37E-15 1.10E+00 1.677E+00 4.760E-02 2.71349E+01 1.29E-02 0.976 1.25 1.25 500 2.01E-09 5.19E-10 1.37E-11 2.81E-16 4.75E-16 1.10E+00 1.677E+00 4.764E-02 2.70009E+01 1.30E-02 0.973 1.25 1.25 563 9.89E-10 2.54E-10 5.06E-12 2.30E-16 1.47E-16 1.10E+00 1.678E+00 4.766E-02 2.69454E+01 1.30E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.11E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.932E-05 d(ln R0)/dt = 5.579E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.218633 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.3984E-01 SECONDS DATA R*BT AT EDGE: 3.3393E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.8055E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.850000 TO TG2= 1.855000 @ NSTEP 1685 GFRAME TG2 MOMENTS CHECKSUM: 8.9807372098101E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1685 TA= 1.85000E+00 CPU TIME= 2.41016E+00 SECONDS. DT= 6.72481E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1686 TA= 1.85067E+00 CPU TIME= 2.39844E+00 SECONDS. DT= 8.40601E-04 %MFRCHK - LABEL "QMINORB", # 2= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 3= -4.77888E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.99531E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 3= -4.77888E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.99531E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.855000E+00 NSTEP= 1692 Hash code: 88593934 ->PRGCHK: bdy curvature ratio at t= 1.8600E+00 seconds is: 9.7773E-02 % MHDEQ: TG1= 1.855000 ; TG2= 1.860000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.691E+00 1.254E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5829E+00 0.0000E+00 -6.8143E-02 0.0000E+00 1.6775E+00 4.7661E-02 1 0 4.6904E-01 5.1511E-02 5.1511E-02 8.6041E-01 2 0 3.8853E-02 5.5068E-02 8.8036E-04 -2.6652E-02 3 0 2.4290E-02 -8.8248E-03 -6.0301E-03 -6.7298E-03 4 0 -3.4055E-03 -3.2900E-03 -2.0732E-03 4.5933E-03 5 0 -8.5529E-05 4.9708E-04 1.1820E-03 1.9166E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.44E-01 4.78E-02 5.47E-02 4.43E-03 5.08E-04 1.10E+00 1.678E+00 4.766E-02 3.13065E+01 1.10E-02 1.000 1.25 1.00 100 4.71E-06 1.33E-06 1.00E-06 3.30E-09 7.51E-10 1.10E+00 1.673E+00 4.106E-02 2.85397E+01 1.23E-02 1.000 1.25 1.21 121 9.06E-07 2.54E-07 2.89E-07 1.15E-10 6.13E-10 1.10E+00 1.674E+00 4.390E-02 2.85392E+01 1.23E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.13E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.223E-07 d(ln R0)/dt = 4.488E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.76E-02 8.86E-02 2.45E-04 1.61E-08 4.13E-08 1.10E+00 1.674E+00 4.402E-02 2.85389E+01 1.23E-02 1.000 1.25 1.24 100 2.07E-06 9.92E-07 3.80E-08 5.92E-12 1.67E-11 1.10E+00 1.676E+00 4.691E-02 2.86926E+01 1.23E-02 1.003 1.25 1.26 200 6.43E-08 1.78E-08 3.28E-09 2.49E-13 4.30E-13 1.10E+00 1.677E+00 4.736E-02 2.77632E+01 1.27E-02 0.987 1.25 1.25 300 1.57E-08 4.33E-09 4.10E-10 1.35E-14 2.84E-14 1.10E+00 1.677E+00 4.749E-02 2.73655E+01 1.29E-02 0.980 1.25 1.25 400 5.00E-09 1.46E-09 5.65E-11 1.55E-15 3.32E-15 1.10E+00 1.677E+00 4.756E-02 2.71396E+01 1.30E-02 0.976 1.25 1.25 500 1.99E-09 5.14E-10 1.35E-11 2.70E-16 4.66E-16 1.10E+00 1.678E+00 4.760E-02 2.70052E+01 1.31E-02 0.973 1.25 1.25 562 9.93E-10 2.53E-10 5.02E-12 1.90E-16 1.55E-16 1.10E+00 1.678E+00 4.762E-02 2.69505E+01 1.31E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.07E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.894E-05 d(ln R0)/dt = 5.484E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.82 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.244713 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.4375E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7773E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.855000 TO TG2= 1.860000 @ NSTEP 1692 GFRAME TG2 MOMENTS CHECKSUM: 8.9803229300438E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1692 TA= 1.85500E+00 CPU TIME= 2.49219E+00 SECONDS. DT= 9.20257E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1693 TA= 1.85573E+00 CPU TIME= 2.45312E+00 SECONDS. DT= 9.06259E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.09375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A4_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A4_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A4_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A4_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 %fp_nshells: warning: id_mcgridi=0 -> attempting setup with 10 / 13 zone rows. fpnharm: resonances based on mod(B) estimate Bmin, Bmax :- 1.6175E+00 3.0104E+00 "*" indicates fast species handled in fpp code Antenna # 1 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 2 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 3 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) Antenna # 4 frequency = 3.0000E+07 Hz. D harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) C12_6 harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) D_MCfi harmonic 2 at R= 173.1 cm.B= 1.9678E+00 gauss(?) *H_mino harmonic 1 at R= 173.1 cm.B= 1.9678E+00 gauss(?) fpnharm: done. trmpi_requestor broadcast (cpu0): NUBEAM_STEP %nubeam_step ++++++++ NLTRK_DEP0 F %nubeam_step ++++++++ NLBOUT (lost ptcl.) F ==> Entering NUBEAM_STEP_CHILD, MPI myidd = 0 NBI_INTERP_PROFILES... nbi_getprofiles ne*dVol sum (input): 4.1877E+20 nbi_getprofiles ne*dVol sum (ions): 4.1877E+20 NBSTART... % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_debug_nbi_fld_state.cdf %nbatom deposition model: lev_nbidep= 2 %nbatom deposition model: NSIGEXC= 1 DEPALL... %DEPALL specie #1 -> 16861 - 0 (killed) + 4680 (dep) = 21541 ptcls. DEPALL EXITED 0 ORBALL... %ORBALL: In processor 0: orbit # IORB= 6676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 6837 never inside plasma. %ORBIT -- AN ORBIT TRACK IS STUCK ENTIRELY OUTSIDE THE PLASMA: min(XION)= 1.0064E+00 %ORBALL: In processor 0: orbit # IORB= 7567 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8326 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8447 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8587 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8676 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 8741 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9317 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9527 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9625 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9930 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9948 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 9967 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10034 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10105 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10164 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10234 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10237 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10482 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10687 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10729 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10750 never inside plasma. %ORBALL: In processor 0: orbit # IORB= 10771 never inside plasma. In Processor , 0 %MC ptcl counts, specie #1: ORIG=21541 SPL= 0 TOT=16616 ORBALL EXITED 0 NBFINISH... ==> Exiting NUBEAM_STEP_CHILD, MPI myidd = 0 NUBEAM_LOAD_STATE... NUBEAM_STEP: LEVMOD_HALO= 0 %entering FPPRF, numfasti= 1 %nconpro: copying namelist: &FPPIN %exiting FPPRF trfpi/tr_fptotr2 -I- lcentr, ledge, mj, nzones 2 41 43 40 %fi_finish: enter %fimain: eflux cpu time = 0.E+0 Before calling heaterec *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1699 TA= 1.86000E+00 CPU TIME= 2.43359E+00 SECONDS. DT= 9.43511E-04 %wrstf: start call wrstf. %wrstf: open new restart file:18941A02RS.DAT %wrstf: open18941A02RS.DAT_NEW, status= 0 %wrstf: record, ier= 1 (ier=1, OK) %wrstf: psload_save %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %ps_rezone_chk: no rezone operator available (no MHD equilibrium). %wrstf: write marker file. trmpi_requestor broadcast (cpu0): NUBEAM_SAVE % nbi_states: fld_states write OK to filename: 18941A02_fi/18941A02_nbi_fld_state.cdf %wrstf: transp_rplot_state_backup % RESTART RECORD WRITTEN AT TA= 1.8600000E+00 arrays allocated in pt_diff_data_init arrays allocated in ptsolver_data_init %WRSTF: virtual memory size = 1.065E+03 MB. --> plasma_hash("gframe"): TA= 1.860000E+00 NSTEP= 1699 Hash code: 118725814 ->PRGCHK: bdy curvature ratio at t= 1.8650E+00 seconds is: 9.7491E-02 % MHDEQ: TG1= 1.860000 ; TG2= 1.865000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.690E+00 1.255E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5829E+00 0.0000E+00 -6.8214E-02 0.0000E+00 1.6776E+00 4.7623E-02 1 0 4.6885E-01 5.1516E-02 5.1516E-02 8.6032E-01 2 0 3.8913E-02 5.5060E-02 8.9370E-04 -2.6638E-02 3 0 2.4301E-02 -8.8234E-03 -6.0224E-03 -6.7313E-03 4 0 -3.4157E-03 -3.2743E-03 -2.0621E-03 4.5937E-03 5 0 -8.6032E-05 5.0247E-04 1.1851E-03 1.9166E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.44E-01 4.79E-02 5.47E-02 4.42E-03 5.08E-04 1.10E+00 1.678E+00 4.762E-02 3.12789E+01 1.10E-02 1.000 1.25 1.00 100 4.78E-06 1.36E-06 1.03E-06 3.27E-09 7.90E-10 1.10E+00 1.673E+00 4.108E-02 2.85168E+01 1.23E-02 1.000 1.25 1.21 121 8.81E-07 2.50E-07 2.91E-07 1.16E-10 5.94E-10 1.10E+00 1.674E+00 4.391E-02 2.85164E+01 1.23E-02 1.000 1.25 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 1.21E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.149E-07 d(ln R0)/dt = 4.417E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.74E-02 8.90E-02 2.45E-04 1.59E-08 4.08E-08 1.10E+00 1.674E+00 4.403E-02 2.85161E+01 1.24E-02 1.000 1.25 1.24 100 1.99E-06 9.53E-07 3.76E-08 5.91E-12 1.67E-11 1.10E+00 1.676E+00 4.688E-02 2.86823E+01 1.24E-02 1.003 1.25 1.26 200 6.31E-08 1.75E-08 3.25E-09 2.46E-13 4.20E-13 1.10E+00 1.677E+00 4.733E-02 2.77495E+01 1.28E-02 0.987 1.25 1.26 300 1.57E-08 4.31E-09 4.04E-10 1.33E-14 2.80E-14 1.10E+00 1.677E+00 4.746E-02 2.73522E+01 1.30E-02 0.980 1.25 1.25 400 4.99E-09 1.47E-09 5.63E-11 1.54E-15 3.29E-15 1.10E+00 1.677E+00 4.752E-02 2.71264E+01 1.31E-02 0.976 1.25 1.25 500 1.99E-09 5.12E-10 1.33E-11 2.65E-16 4.59E-16 1.10E+00 1.678E+00 4.757E-02 2.69912E+01 1.31E-02 0.973 1.25 1.25 562 9.88E-10 2.54E-10 4.96E-12 1.87E-16 1.53E-16 1.10E+00 1.678E+00 4.759E-02 2.69364E+01 1.32E-02 0.972 1.25 1.25 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 7.38E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.884E-05 d(ln R0)/dt = 5.461E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.86 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.270754 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 8.7500E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7491E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.860000 TO TG2= 1.865000 @ NSTEP 1699 GFRAME TG2 MOMENTS CHECKSUM: 8.9799227936819E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1699 TA= 1.86000E+00 CPU TIME= 2.84375E+00 SECONDS. DT= 9.43511E-04 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1700 TA= 1.86068E+00 CPU TIME= 2.96484E+00 SECONDS. DT= 8.47695E-04 %MFRCHK - LABEL "QMINORB", # 3= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "TQMINORB", # 13= 1.40130E-45 RESET TO ZERO %MFRCHK - LABEL "BALE0_SGF", # 4= 6.61483E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_SGF", # 1= -1.94823E-41 RESET TO ZERO %MFRCHK - LABEL "BALE0_GF_D", # 4= 6.61483E-39 RESET TO ZERO %MFRCHK - LABEL "TQBA0_GF_D", # 1= -1.94823E-41 RESET TO ZERO %(TRANSP)elvis_request: requesting ElVis data transfer. --> plasma_hash("gframe"): TA= 1.865000E+00 NSTEP= 1707 Hash code: 101764216 ->PRGCHK: bdy curvature ratio at t= 1.8700E+00 seconds is: 9.7211E-02 % MHDEQ: TG1= 1.865000 ; TG2= 1.870000 ; DTG= 5.000E-03 *** Calling VMEC6 --- the UDA HIRSHMAN Code (5/94) *** *** VMEC6 Fixed Boundary Up-Down Asymmetric Equilibrium Code *** *** S.P. Hirshman (ORNL) & R.M.Wieland (PPPL) *** COMPUTATION PARAMETERS: (u = theta, v = zeta) --------------------------------------------- ns nu nv mu mv 201 22 1 9 0 CONFIGURATION PARAMETERS: ------------------------- nfp idata gamma phiedge(wb) curtor(A) betafac 0 1 0.000E+00 -2.688E+00 1.256E+00 1.000E+00 RUN CONTROL PARAMETERS: ----------------------- ncurr niter nsin nstep nvacskip ftol 0 2000 11 100 0 1.00E-09 R-Z FOURIER BOUNDARY COEFFICIENTS R = RBC*cos(m*u - n*v) + RBS*sin(m*u - n*v), Z = ZBC*cos(m*u - n*v) + ZBS*sin(m*u-n*v) -------------------------------------------------------------------------------------- mb nb rbc rbs zbc zbs raxis zaxis 0 0 1.5830E+00 0.0000E+00 -6.8285E-02 0.0000E+00 1.6776E+00 4.7587E-02 1 0 4.6865E-01 5.1521E-02 5.1521E-02 8.6024E-01 2 0 3.8972E-02 5.5053E-02 9.0705E-04 -2.6624E-02 3 0 2.4312E-02 -8.8219E-03 -6.0146E-03 -6.7329E-03 4 0 -3.4259E-03 -3.2587E-03 -2.0510E-03 4.5941E-03 5 0 -8.6536E-05 5.0785E-04 1.1883E-03 1.9165E-03 LEGEND ------ FSQR, FSQZ = Normalized Physical Force Residuals fsqr, fsqz = Preconditioned Force Residuals ----------------------- BEGIN FORCE ITERATIONS ----------------------- VMEC6 > betafac= 1. NS = 11 NO. FOURIER MODES = 9 ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 2.44E-01 4.80E-02 5.47E-02 4.42E-03 5.09E-04 1.10E+00 1.678E+00 4.759E-02 3.12519E+01 1.11E-02 1.000 1.26 1.00 100 4.79E-06 1.36E-06 1.03E-06 3.27E-09 7.97E-10 1.10E+00 1.673E+00 4.104E-02 2.84940E+01 1.24E-02 1.000 1.26 1.22 121 8.82E-07 2.50E-07 2.91E-07 1.17E-10 5.92E-10 1.10E+00 1.674E+00 4.385E-02 2.84936E+01 1.24E-02 1.000 1.26 1.22 VMEC6> COMPUTATIONAL TIME FOR NS= 11 IS 8.59E-02 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 11 :d(ln W)/dt = 6.128E-07 d(ln R0)/dt = 4.382E-05 NS = 31 NO. FOURIER MODES = 9 VMEC6> Turning ON Ip-edge Matching by varying Phi-edge. ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR ITER FSQR FSQZ FSQL fsqr fsqz DELT R00(0) Z00(0) WMHD BETA PHIFAC CURTOR CTOR 1 6.73E-02 8.90E-02 2.44E-04 1.59E-08 4.08E-08 1.10E+00 1.674E+00 4.397E-02 2.84934E+01 1.25E-02 1.000 1.26 1.24 100 1.95E-06 9.30E-07 3.72E-08 5.86E-12 1.67E-11 1.10E+00 1.675E+00 4.679E-02 2.86779E+01 1.24E-02 1.003 1.26 1.26 200 6.29E-08 1.74E-08 3.24E-09 2.43E-13 4.17E-13 1.10E+00 1.677E+00 4.724E-02 2.77486E+01 1.28E-02 0.987 1.26 1.26 300 1.56E-08 4.28E-09 3.99E-10 1.31E-14 2.76E-14 1.10E+00 1.677E+00 4.736E-02 2.73523E+01 1.30E-02 0.980 1.26 1.26 400 4.95E-09 1.45E-09 5.56E-11 1.51E-15 3.25E-15 1.10E+00 1.677E+00 4.743E-02 2.71277E+01 1.31E-02 0.976 1.26 1.26 500 1.97E-09 5.08E-10 1.32E-11 2.64E-16 4.60E-16 1.10E+00 1.677E+00 4.747E-02 2.69940E+01 1.32E-02 0.974 1.26 1.26 560 9.92E-10 2.61E-10 4.94E-12 1.13E-16 1.61E-16 1.10E+00 1.677E+00 4.749E-02 2.69408E+01 1.32E-02 0.973 1.26 1.26 VMEC6> COMPUTATIONAL TIME FOR NS= 31 IS 5.70E-01 SECONDS VMEC6> JACOBIAN RESETS = 0 VMEC6> ns= 31 :d(ln W)/dt = 2.892E-05 d(ln R0)/dt = 5.450E-07 VMEC6> NUMBER OF JACOBIAN RESETS = 0 VMEC6> TOTAL COMPUTATIONAL TIME : 0.66 SECONDS VMEC6> TIME IN VACUUM LOOP : 0.00 SECONDS VMEC6> TIME TO READ IN DATA: 0.00 SECONDS VMEC6> TIME TO OUTPUT DATA : 0.00 SECONDS VMEC6> TIME IN PROFILE RECONSTRUCTION: 0.00 SECONDS %VMEC6 Rel. Grad-Shaf. error (excl. edge): 0.261911 * MHD EQUILIBRIUM CALCULATED, CPU TIME = 6.7578E-01 SECONDS DATA R*BT AT EDGE: 3.3410E+02 ->EQBDY_CHECK: last flux surface curvature ratio is: 9.7211E-02 %get_rygrid: no grids for Psi(R,Y) % GFRAME - GEOMETRY TIMESTEP TG1= 1.865000 TO TG2= 1.870000 @ NSTEP 1707 GFRAME TG2 MOMENTS CHECKSUM: 8.9786494815336E+03 *** FULL NEUTRAL SOURCE CALCULATION PERFORMED *** NSTEP= 1707 TA= 1.86500E+00 CPU TIME= 3.03906E+00 SECONDS. DT= 8.79843E-04 trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_profnt.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_xx.dat trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_icrf/18941A02_equigs.dat %tr_rfprep: rfxqlo setup done, cpu(s) = 1.0859375 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A1_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A1_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A1_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A1_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A2_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A2_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A2_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A2_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadcast (cpu0): T4_LUNSET 44, LUN11 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN16 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUTMPA trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUTMPB trmpi_requestor broadcast (cpu0): T4_LUNSET 59, LUN15 trmpi_requestor broadcast (cpu0): T4_LUNSET 50, LUN22 trmpi_requestor broadcast (cpu0): TORIC trmpi_requestor broadcast (cpu0): FILE_CLOSE 41 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY /local/tr_mcavedon/transp_compute/AUGD/18941A02 trmpi_requestor broadcast (cpu0): CHANGE_DIRECTORY 18941A02_icrf/ lun for writing 18941A02_A3_12_torica.inp = 41 toric4_fpdrive: ncpu = 1 toric4_fpdrive: call trmpi_requestor BROADCAST_FILE 41 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): BROADCAST_FILE 18941A02_A3_12_torica.inp %toric4_fpdrive: starting TORIC4/5, messages to: 18941A02_A3_12_toric5.msgs toric4_fpdrive: call trmpi_requestor FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): FILE_OPEN_READ 41, 18941A02_A3_12_torica.inp trmpi_requestor broadcast (cpu0): T4_LUNSET 41, LUN5 trmpi_requestor broadcast (cpu0): T4_LUNSET 45, LUN6 trmpi_requestor broadcast (cpu0): T4_LUNSET 42, LUN9 trmpi_requestor broadcast (cpu0): T4_LUNSET 43, LUN10 trmpi_requestor broadc