==>runtrx start: date: Thu May 29 17:46:41 EDT 2025 ( mccune002.pppl.gov ) argv = 2 iarg = 2 cmd_opt = pre runtrx: tok.yy = D3D.20 ==========(runtrx)====================== date: Thu May 29 17:46:41 EDT 2025 ( mccune002.pppl.gov ) args: 202020C10 pre ==========(runtrx)====================== ==========(runtrx)====================== ==========TRANSP preprocessing========== date: Thu May 29 17:46:41 EDT 2025 ( mccune002.pppl.gov ) ==========check for 202020C10_mdsmark.sh=== ==========(runtrx)====================== ==========TRDAT execution=============== date: Thu May 29 17:46:41 EDT 2025 ( mccune002.pppl.gov ) TRDAT TRANSP Version: 24.0.1 TRANSP DOI: 10.11578/dc.20180627.4 Build Date: 2023/10/21 %trmpi_init.f90: LOG_LEVEL env. var.: 1 %trmpi_init.f90: logfile_level: warn (mpi_share_env) process myid= 0 cwd: /local/tr_kcallaha/transp_compute/D3D/202020C10 CTOKNM : Cdir = /local/tr_kcallaha/transp_compute/D3D/202020C10/ % DIRECTORY IS /local/tr_kcallaha/transp_compute/D3D/202020C10/; TOKAMAK ID SET TO D3D %trmpi_openlog: LOGFILE_LEVEL = warn namelist element value field(s): decimal point(s) inserted: FOCLRA FOCLZA DTMINT DTMING PDELTA %NLIST: open namelist file202020C10TR.ZDA %trcom_static_box: loading static data -----------> entering UF0GET. NAMED FILE: ./202020C10_tmp/OMF202020.NB2 %UF0DRD: DIMENSIONALITY OF INPUT FILE = 2 % NO. OF BEAMS (NB2 DATA) = 20 NAMED FILE: ./202020C10_tmp/OMF202020.MMX %UF0DRD: DIMENSIONALITY OF INPUT FILE = 3 UF0GET: -> Btor is clockwise from BTOR_CCW scalar in MMX data. UF0GET: -> Itor is counter-clockwise from ITOR_CCW scalar in MMX data. UF0GET: MMX max exponent: 2 %UF0GET -- finished. %DATCHK: full equilibrium input DATCHK: CHECKING ARRAY DIMENSIONS, SWITCHES, ETC %DATCHK: NYXINV incremented to be odd: 101 161 %DATCHK: no ECH/ECCD, NLECH=F, %DATCHK: no Lower Hybrid, NLLH=F %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. dummy trdatusub vsn trgdat_check called (OK). dummy trdatusub vsn trgdat_psload called (OK). *UTRCHK: CHECKING TRDAT NAMELIST SPECIFICATIONS. %UTRCHK: full equilibrium input %UTRCZEF - ZF2 DATA SPECIFIED - PLEASE SET NLZFI2=.T TO USE. *DDEFIN: SET UP PHYSICS DATA FOR ANALYSIS: TIME RANGE IS TINIT= 2.0000E-01, FTIME= 1.0200E+00 SECONDS. SETSCD - SET SCALAR DATA FOR UPF SETTIM - SET UP TIMING INFORMATION FOR UPF *UF1GET: PROCESSING "CUR": plasma current amps ------------------- NAMED FILE: ./202020C10_tmp/OMF202020.CUR %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "RBZ": [ext. B field] * R Tesla*cm ----------- NAMED FILE: ./202020C10_tmp/OMF202020.RBZ %FIXUNS: CONVERTING UFILE RBZ DATA UNITS, M.T , TO Tesla*cm >CONVERSION FACTOR: * 100.000 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "BDI": beta diamagnetic -------------------- NAMED FILE: ./202020C10_tmp/OMF202020.BDI %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "DFL": diamagnetic flux Webers --------------- NAMED FILE: ./202020C10_tmp/OMF202020.DFL %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDFLT: "GAS" INPUT DATA FILE NOT SPECIFIED ==>DEFAULT VALUE SUBSTITUTED, GASFLN = 0.0000E+00 *UF1GET: PROCESSING "L2B": li/2 + beta(pol) -------------------- NAMED FILE: ./202020C10_tmp/OMF202020.L2B %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "NTX": Neutron flux n/sec -------------------- NAMED FILE: ./202020C10_tmp/OMF202020.NTX *UF1GET: PROCESSING "PF0": Psi(axis) Wb/rad ---------------------- NAMED FILE: ./202020C10_tmp/OMF202020.PF0 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "PLF": Poloidal flux Wb/rad ------------------ NAMED FILE: ./202020C10_tmp/OMF202020.PLF %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "TPI": particle confinement seconds ---------- NAMED FILE: ./202020C10_tmp/OMF202020.TPI %CHKTIM: DATA TIME RANGE 2.0000E-01 TO 1.0200E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "TRF": Toroidal flux Webers ------------------ NAMED FILE: ./202020C10_tmp/OMF202020.TRF %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF1GET: PROCESSING "VSF": surface voltage volts ----------------- NAMED FILE: ./202020C10_tmp/OMF202020.VSF %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). *UF3GET: PROCESSING "MMX": Equilibrium moments cm ---------------- NAMED FILE: ./202020C10_tmp/OMF202020.MMX %FIXUNS: CONVERTING UFILE DATA UNITS, M , TO cm >CONVERSION FACTOR: * 100.000 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %Geteq: MMX file does not cover time range of run; equilibrium geometry will be extrapolated flat to fill the time range ---> Geteq: #moments NMOM = 16 Geteq: Interpolate equilibrium data for UPF %rmcb2 im= 6 out of range low (reset to zero): 1.0052E-39 at GETEQ: t= 4.1500E-01 x= 1.2563E-01 %rmcb1 im= 6 out of range low (reset to zero): 1.0153E-39 at GETEQ: t= 4.2000E-01 x= 1.2563E-01 %ymcb1 im= 6 out of range low (reset to zero): 5.0763E-40 at GETEQ: t= 4.2000E-01 x= 1.2563E-01 %rmcb2 im= 6 out of range low (reset to zero): -5.9993E-40 at GETEQ: t= 4.3000E-01 x= 1.2563E-01 %rmcb2 im= 8 out of range low (reset to zero): -5.9070E-39 at GETEQ: t= 4.4000E-01 x= 2.5126E-01 %ymcb1 im= 9 out of range low (reset to zero): 3.6054E-43 at GETEQ: t= 4.4000E-01 x= 2.5126E-01 %rmcb1 im= 16 out of range low (reset to zero): 2.3628E-38 at GETEQ: t= 4.4000E-01 x= 5.0251E-01 %ymcb1 im= 6 out of range low (reset to zero): 2.3074E-40 at GETEQ: t= 4.5000E-01 x= 1.2563E-01 %rmcb1 im= 6 out of range low (reset to zero): 6.4608E-40 at GETEQ: t= 4.6000E-01 x= 1.2563E-01 %rmcb2 im= 6 out of range low (reset to zero): -3.2304E-40 at GETEQ: t= 4.6000E-01 x= 1.2563E-01 %ymcb2 im= 6 out of range low (reset to zero): -1.2922E-39 at GETEQ: t= 4.6000E-01 x= 1.2563E-01 %ymcb2 im= 16 out of range low (reset to zero): 9.4512E-38 at GETEQ: t= 4.7000E-01 x= 5.0251E-01 %rmcb1 im= 6 out of range low (reset to zero): -1.6613E-39 at GETEQ: t= 4.8000E-01 x= 1.2563E-01 %rmcb2 im= 6 out of range low (reset to zero): -4.1534E-40 at GETEQ: t= 4.9000E-01 x= 1.2563E-01 %rmcb1 im= 5 out of range low (reset to zero): 9.0134E-42 at GETEQ: t= 5.0000E-01 x= 1.2563E-01 %rmcb1 im= 8 out of range low (reset to zero): 3.5209E-44 at GETEQ: t= 5.0000E-01 x= 2.5126E-01 %rmcb2 im= 8 out of range low (reset to zero): -2.2005E-45 at GETEQ: t= 5.0000E-01 x= 2.5126E-01 %ymcb2 im= 15 out of range low (reset to zero): -5.7686E-40 at GETEQ: t= 5.0000E-01 x= 5.2764E-01 %rmcb1 im= 16 out of range low (reset to zero): 2.2533E-42 at GETEQ: t= 5.0000E-01 x= 5.2764E-01 %ymcb1 im= 16 out of range low (reset to zero): -9.0134E-42 at GETEQ: t= 5.0000E-01 x= 5.2764E-01 %ymcb2 im= 16 out of range low (reset to zero): 4.5067E-42 at GETEQ: t= 5.0000E-01 x= 5.2764E-01 %rmcb2 im= 15 out of range low (reset to zero): -2.3074E-41 at GETEQ: t= 5.2000E-01 x= 5.2764E-01 %rmcb2 im= 6 out of range low (reset to zero): -8.3067E-40 at GETEQ: t= 5.4000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): 4.8672E-42 at GETEQ: t= 5.4000E-01 x= 2.5126E-01 %rmcb1 im= 6 out of range low (reset to zero): 1.8459E-40 at GETEQ: t= 5.6000E-01 x= 1.2563E-01 %rmcb2 im= 16 out of range low (reset to zero): -2.3628E-38 at GETEQ: t= 5.6000E-01 x= 5.0251E-01 %ymcb2 im= 6 out of range low (reset to zero): -4.4303E-39 at GETEQ: t= 5.7000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): -7.5712E-42 at GETEQ: t= 5.8000E-01 x= 2.5126E-01 %ymcb2 im= 6 out of range low (reset to zero): 4.4303E-39 at GETEQ: t= 6.1000E-01 x= 1.2563E-01 %ymcb1 im= 6 out of range low (reset to zero): 5.5378E-40 at GETEQ: t= 6.2000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): -2.1632E-42 at GETEQ: t= 6.2000E-01 x= 2.5126E-01 %ymcb2 im= 6 out of range low (reset to zero): 4.4302E-39 at GETEQ: t= 6.4000E-01 x= 1.2563E-01 %rmcb1 im= 9 out of range low (reset to zero): 2.1632E-42 at GETEQ: t= 6.4000E-01 x= 2.5126E-01 %rmcb2 im= 8 out of range low (reset to zero): 5.9070E-38 at GETEQ: t= 6.5000E-01 x= 2.5126E-01 %ymcb2 im= 6 out of range low (reset to zero): 1.0337E-38 at GETEQ: t= 6.7000E-01 x= 1.2563E-01 %rmcb1 im= 9 out of range low (reset to zero): 1.0816E-42 at GETEQ: t= 6.8000E-01 x= 2.5126E-01 %ymcb1 im= 9 out of range low (reset to zero): -1.6224E-42 at GETEQ: t= 6.8000E-01 x= 2.5126E-01 %rmcb2 im= 16 out of range low (reset to zero): -3.5442E-38 at GETEQ: t= 6.8000E-01 x= 5.0251E-01 %ymcb1 im= 6 out of range low (reset to zero): 6.4608E-40 at GETEQ: t= 7.1000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): 4.3264E-42 at GETEQ: t= 7.2000E-01 x= 2.5126E-01 %rmcb2 im= 6 out of range low (reset to zero): -1.4768E-39 at GETEQ: t= 7.4000E-01 x= 1.2563E-01 %rmcb2 im= 14 out of range low (reset to zero): -2.6540E-38 at GETEQ: t= 7.5000E-01 x= 5.0251E-01 %rmcb2 im= 6 out of range low (reset to zero): 1.1076E-39 at GETEQ: t= 7.6000E-01 x= 1.2563E-01 %ymcb1 im= 6 out of range low (reset to zero): -7.3838E-40 at GETEQ: t= 7.6000E-01 x= 1.2563E-01 %ymcb2 im= 6 out of range low (reset to zero): 2.9535E-39 at GETEQ: t= 7.6000E-01 x= 1.2563E-01 %rmcb1 im= 6 out of range low (reset to zero): -2.7689E-40 at GETEQ: t= 7.8000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): 6.4896E-42 at GETEQ: t= 7.8000E-01 x= 2.5126E-01 %ymcb2 im= 9 out of range low (reset to zero): -4.3264E-42 at GETEQ: t= 7.8000E-01 x= 2.5126E-01 %ymcb1 im= 6 out of range low (reset to zero): -9.2297E-40 at GETEQ: t= 8.0000E-01 x= 1.2563E-01 %rmcb2 im= 16 out of range low (reset to zero): 3.4611E-40 at GETEQ: t= 8.0000E-01 x= 5.0251E-01 %rmcb2 im= 8 out of range low (reset to zero): -9.4513E-38 at GETEQ: t= 8.1000E-01 x= 2.5126E-01 %ymcb1 im= 9 out of range low (reset to zero): -3.2448E-42 at GETEQ: t= 8.2000E-01 x= 2.5126E-01 %ymcb2 im= 6 out of range low (reset to zero): -1.3034E-38 at GETEQ: t= 8.3250E-01 x= 1.2563E-01 %rmcb1 im= 16 out of range low (reset to zero): -6.4977E-38 at GETEQ: t= 8.4000E-01 x= 5.0251E-01 %rmcb2 im= 6 out of range low (reset to zero): -1.1076E-39 at GETEQ: t= 8.6000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): -6.4896E-42 at GETEQ: t= 8.6000E-01 x= 2.5126E-01 %ymcb1 im= 6 out of range low (reset to zero): 7.3837E-40 at GETEQ: t= 8.8000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): -1.0816E-42 at GETEQ: t= 8.8000E-01 x= 2.5126E-01 %rmcb2 im= 6 out of range low (reset to zero): 1.8459E-39 at GETEQ: t= 9.0000E-01 x= 1.2563E-01 %ymcb1 im= 6 out of range low (reset to zero): -1.1076E-39 at GETEQ: t= 9.1000E-01 x= 1.2563E-01 %ymcb1 im= 9 out of range low (reset to zero): -3.7856E-42 at GETEQ: t= 9.2000E-01 x= 2.5126E-01 %rmcb1 im= 16 out of range low (reset to zero): 8.2698E-38 at GETEQ: t= 9.2000E-01 x= 5.0251E-01 %ymcb2 im= 6 out of range low (reset to zero): 7.3837E-40 at GETEQ: t= 9.4000E-01 x= 1.2563E-01 %rmcb2 im= 8 out of range low (reset to zero): -4.7256E-38 at GETEQ: t= 9.4000E-01 x= 2.5126E-01 %ymcb1 im= 9 out of range low (reset to zero): -2.7040E-43 at GETEQ: t= 9.4000E-01 x= 2.5126E-01 %rmcb2 im= 9 out of range low (reset to zero): 2.4336E-42 at GETEQ: t= 9.6000E-01 x= 2.5126E-01 %rmcb2 im= 16 out of range low (reset to zero): -2.3628E-38 at GETEQ: t= 9.7000E-01 x= 5.0251E-01 %ymcb1 im= 9 out of range low (reset to zero): -2.1632E-42 at GETEQ: t= 9.8000E-01 x= 2.5126E-01 %rmcb1 im= 6 out of range low (reset to zero): 8.0807E-46 at GETEQ: t= 1.0000E+00 x= 1.2563E-01 %ymcb1 im= 6 out of range low (reset to zero): -8.0807E-46 at GETEQ: t= 1.0000E+00 x= 1.2563E-01 %ymcb2 im= 6 out of range low (reset to zero): -4.8484E-45 at GETEQ: t= 1.0000E+00 x= 1.2563E-01 %rmcb2 im= 7 out of range low (reset to zero): -2.7114E-38 at GETEQ: t= 1.0000E+00 x= 2.5126E-01 %rmcb1 im= 8 out of range low (reset to zero): 4.1373E-43 at GETEQ: t= 1.0000E+00 x= 2.5126E-01 %ymcb1 im= 8 out of range low (reset to zero): -8.2747E-43 at GETEQ: t= 1.0000E+00 x= 2.5126E-01 %rmcb2 im= 9 out of range low (reset to zero): 1.1837E-48 at GETEQ: t= 1.0000E+00 x= 2.5126E-01 %ymcb2 im= 15 out of range low (reset to zero): 1.0592E-40 at GETEQ: t= 1.0000E+00 x= 5.0251E-01 %ymcb1 im= 16 out of range low (reset to zero): 7.2395E-43 at GETEQ: t= 1.0000E+00 x= 5.0251E-01 %ymcb2 im= 16 out of range low (reset to zero): -2.4824E-42 at GETEQ: t= 1.0000E+00 x= 5.0251E-01 %rmcb2 im= 15 out of range low (reset to zero): -8.1343E-38 at GETEQ: t= 1.0000E+00 x= 5.2764E-01 %ymcb2 im= 15 out of range low (reset to zero): -2.7114E-38 at GETEQ: t= 1.0000E+00 x= 5.2764E-01 %rmcb2 im= 16 out of range low (reset to zero): 5.2958E-41 at GETEQ: t= 1.0000E+00 x= 5.2764E-01 SETLIM - SET UP Axisymmetric limiter data for UPF *UF1GET: PROCESSING "LIM": Axisymmetric Limiter cm --------------- NAMED FILE: ./202020C10_tmp/OMF202020.LIM %UF1GET: X axis is not the timebase, processing axis units cm %FIXUNS: CONVERTING UFILE LIM TIMEBASE UNITS, M , TO cm >CONVERSION FACTOR: * 100.000 %FIXUNS: CONVERTING UFILE LIM DATA UNITS, M , TO cm >CONVERSION FACTOR: * 100.000 *UF2GET: PROCESSING "BOL": Power radiated W/cm**3 ---------------- NAMED FILE: ./202020C10_tmp/OMF202020.QRA %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "D2F": fast ion diffusivity cm**2/sec -------- NAMED FILE: ./202020C10_tmp/DB202020.D2F %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %CHKTIM: DATA TIME RANGE 0.0000E+00 TO 9.9872E-01 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=101 *UF2GET: PROCESSING "GRB": MHD g (R*Bt) profile Tesla*cm --------- NAMED FILE: ./202020C10_tmp/OMF202020.GRB %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "Seconds " %FIXUNS: CONVERTING UFILE GRB DATA UNITS, TESLA*M , TO Tesla*cm >CONVERSION FACTOR: * 100.000 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=200 *UF2GET: PROCESSING "NER": electron density n/cm**3 -------------- NAMED FILE: ./202020C10_tmp/OMF202020.NEL %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %FIXUNS: CONVERTING UFILE NER DATA UNITS, M**-3 , TO n/cm**3 >CONVERSION FACTOR: *0.100000E-05 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "NIM": impurity density n/cm**3 -------------- NAMED FILE: ./202020C10_tmp/OMF202020.NC %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %FIXUNS: CONVERTING UFILE NIM DATA UNITS, M**-3 , TO n/cm**3 >CONVERSION FACTOR: *0.100000E-05 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "OMG": plasma rotation rad/sec --------------- NAMED FILE: ./202020C10_tmp/OMF202020.OME %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "PRS": MHD Pressure profile Pascals ---------- NAMED FILE: ./202020C10_tmp/OMF202020.PRS %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "Seconds " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=200 *UF2GET: PROCESSING "QPR": q profile --------------------------- NAMED FILE: ./202020C10_tmp/OMF202020.QPR %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "Seconds " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=200 *UF2GET: PROCESSING "TER": electron temperature eV --------------- NAMED FILE: ./202020C10_tmp/OMF202020.TEL %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %FIXUNS: CONVERTING UFILE TER DATA UNITS, KEV , TO eV >CONVERSION FACTOR: * 1000.00 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "TI2": ion temperature eV -------------------- NAMED FILE: ./202020C10_tmp/OMF202020.TIO %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %FIXUNS: CONVERTING UFILE TI2 DATA UNITS, KEV , TO eV >CONVERSION FACTOR: * 1000.00 %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "VPO": Er potential volts -------------------- NAMED FILE: ./202020C10_tmp/OMF202020.VPO %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *UF2GET: PROCESSING "ZF2": Zeff profile ------------------------ NAMED FILE: ./202020C10_tmp/OMF202020.ZFC %UF2GET -- INPUT UFILE AXES OUT OF ORDER, WILL SWAP: 1ST DIMENSION = " "; 2ND DIMENSION = "SEC " %CHKTIM: DATA TIME RANGE 4.0000E-01 TO 1.0000E+00 SECONDS DOES NOT COVER THE ENTIRE ANALYSIS TIME RANGE (TINIT,FTIME). %SETDAT2-- X axis is normalized flux, not modified, npts=201 *DDEFIN: Set Plasma Heating parameters :- ========================== -> entering setnbi (neutral beam powers, voltages, etc.) SETNBI - SET UP NEUTRAL BEAM DATA FOR UPF *UF2GET: PROCESSING "NB2": beam heating data ------------------- NAMED FILE: ./202020C10_tmp/OMF202020.NB2 %SETNBI- BEAM FULL ENERGY FRACTIONS SET BY NBI FILE ** %SETNBI- BEAM HALF ENERGY FRACTIONS SET BY NBI FILE ** %setnbi: NBI on/off times taken from data. %NB_ONOFF: NBI on/off times (s): 2.9980E-01 1.2200E+00 Non-simple Zeff data: Zeff inferred from impurity density data. %SETDFLT: "DTG" INPUT DATA FILE NOT SPECIFIED ==>DEFAULT VALUE SUBSTITUTED, DTMAXG = 1.0000E-02 %setmisc -- time dependent geometry timestep enabled (ZOOM is off). %SETDFLT: "DTS" INPUT DATA FILE NOT SPECIFIED ==>DEFAULT VALUE SUBSTITUTED, DT_SOURCES = 1.0000E-03 %setmisc -- time dependent source timestep enabled (ZOOM is off). %SETDFLT: "DTX" INPUT DATA FILE NOT SPECIFIED ==>DEFAULT VALUE SUBSTITUTED, DT_OUTPUT = 2.5000E-03 %setmisc -- time dependent output timestep enabled (ZOOM is off). -------------------------------------------------- %trdat_bdy_check -- checking plasma boundary data trdat_bdy_check: OK ...min(r_curvature/(Rmax-Rmin)) is: 4.797038691987265E-002 ...at time t= 0.500000000000000 seconds. ------------> thermal ion ptcl balance summary: Hydrogen (absent) Deuterium NDEFINE=0 NMODEL=4 RC=Tau(p) GF=ZERO Tritium (absent) Helium-3 (absent) Helium-4 (absent) Lithium-6 (absent) Recycling fractions RFRAC are specified. ------------------------------------ Fast ion summary: Beam species: D Fusion product species: (None) Minority RF species: (None) ------------------------------------ ==========(runtrx TRDAT sts = 0)====== ==>runtrx: trdat execution successful will write to mdsplus later ==========LABEL execution=============== date: Thu May 29 17:46:42 EDT 2025 ( mccune002.pppl.gov ) ==>runtrx: label execution successful ==========add TF.PLN to MDSplus ======== ==========(runtrx)====================== date: Thu May 29 17:46:42 EDT 2025 ( mccune002.pppl.gov ) ************************************************************************ Program: mds_start Version: v0.3.2 Revision: 953b182 Date: 03/20/2024 ************************************************************************ mds_conopn: option = 4 2020200310 TRANSP ...connecting to server: ATLAS.GAT.COM ...tcl("EDIT TRANSP/SHOT=2020200310") nid = 9867 open 202020C10TF.PLN add_file: 9056 lines - 76 tcl("WRITE") stat = 1 ==========add PH.CDF to MDSplus ======== ==========(runtrx)====================== date: Thu May 29 17:46:45 EDT 2025 ( mccune002.pppl.gov ) ==>runtrx: LINK_ON_HOST environment variable detected. ==========(runtrx)====================== ==========>runtrx normal exit<========== date: Thu May 29 17:46:45 EDT 2025 ( mccune002.pppl.gov )