WARNING: Unable to read mpd.hosts or list of hosts isn't provided. MPI job will be run on the current machine only. 0: 0: ======================================================================== 0: Begin execution of tiegcm_trunk at 03/17/16 11:45:23 0: Host = tethysv 0: System = LINUX 0: Logname = stans 0: ======================================================================== 0: 1: 2: 1: ======================================================================== 2: ======================================================================== 1: Begin execution of tiegcm_trunk at 03/17/16 11:45:23 2: Begin execution of tiegcm_trunk at 03/17/16 11:45:23 1: Host = tethysv 2: Host = tethysv 1: System = LINUX 2: System = LINUX 1: Logname = stans 2: Logname = stans 1: ======================================================================== 2: ======================================================================== 1: 2: 3: 3: ======================================================================== 3: Begin execution of tiegcm_trunk at 03/17/16 11:45:23 3: Host = tethysv 3: System = LINUX 3: Logname = stans 3: ======================================================================== 3: 0: init_timer: level= 1 rtc=F sys=T 1: init_timer: level= 1 rtc=F sys=T 2: init_timer: level= 1 rtc=F sys=T 3: init_timer: level= 1 rtc=F sys=T 0: Current working directory (cwd) = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm.exec 1: Current working directory (cwd) = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm.exec 2: Current working directory (cwd) = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm.exec 0: 0: Reading namelist input data from /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0.inp 3: Current working directory (cwd) = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm.exec 2: 0: &tgcm_input 0: LABEL = 'tiegcm res=5.0' 0: START_YEAR = 2002 0: START_DAY = 80 0: CALENDAR_ADVANCE = 1 0: SOURCE = '$TGCMDATA/tiegcm_res5.0_mareqx_smin_prim.nc' 0: SOURCE_START = 80 0 0 0: START = 80 0 0 0: STOP = 81 0 0 0: STEP = 60 0: HIST = 1 0 0 0: OUTPUT = 'tiegcm2.0_res5.0_mareqx_smin_prim_001.nc' 0: MXHIST_PRIM = 10 0: SECSTART = 80 1 0 0: SECSTOP = 81 0 0 0: SECHIST = 0 1 0 0: SECOUT = 'tiegcm2.0_res5.0_mareqx_smin_sech_001.nc' 0: MXHIST_SECH = 24 0: SECFLDS = 'TN' 'UN' 'VN' 'WN' 'O2' 'O1' 'N2' 'NO' 'N4S' 'HE' 'NE' 0: 'TE' 'TI' 'TEC' 'O2P' 'OP' 'POTEN' 'UI_ExB' 'VI_ExB' 0: 'WI_ExB' 'DEN' 'QJOULE' 'HMF2' 'NMF2' 'Z' 'ZG' 0: GSWM_MI_DI_NCFILE = '$TGCMDATA/gswm_diurn_5.0d_99km.nc' 1: 2: Reading namelist input data from /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0.inp 0: GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_99km.nc' 0: POTENTIAL_MODEL = 'HEELIS' 0: POWER = 18. 0: CTPOTEN = 30. 0: F107 = 70. 0: F107A = 70. 0: AURORA = 1 0: COLFAC = 1.5 0: DYNAMO = 1 0: CURRENT_PG = 1 0: CURRENT_KQ = 0 1: Reading namelist input data from /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0.inp 2: &tgcm_input 0: CALC_HELIUM = 1 0: / 0: Completed successful read of namelist inputs. 0: 0: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 0: Input: mkntask chose ntask_maglon= 2 ntask_maglat= 2 (ntask= 4) 0: Input: Using default joulefac = 1.50 0: Input: default diffusion maximum (opdiffcap) is turned off by default. 0: Input: enforce_opfloor= 1 0: Will use the Heelis potential model 0: Note input: Setting BY to 0 with HEELIS potential model. 3: 2: LABEL = 'tiegcm res=5.0' 1: &tgcm_input 2: START_YEAR = 2002 1: LABEL = 'tiegcm res=5.0' 2: START_DAY = 80 1: START_YEAR = 2002 2: CALENDAR_ADVANCE = 1 1: START_DAY = 80 2: SOURCE = '$TGCMDATA/tiegcm_res5.0_mareqx_smin_prim.nc' 1: CALENDAR_ADVANCE = 1 2: SOURCE_START = 80 0 0 1: SOURCE = '$TGCMDATA/tiegcm_res5.0_mareqx_smin_prim.nc' 2: START = 80 0 0 1: SOURCE_START = 80 0 0 2: STOP = 81 0 0 1: START = 80 0 0 2: STEP = 60 1: STOP = 81 0 0 2: HIST = 1 0 0 1: STEP = 60 2: OUTPUT = 'tiegcm2.0_res5.0_mareqx_smin_prim_001.nc' 1: HIST = 1 0 0 2: MXHIST_PRIM = 10 1: OUTPUT = 'tiegcm2.0_res5.0_mareqx_smin_prim_001.nc' 2: SECSTART = 80 1 0 0: INPUT NOTE: adding mandatory field ZMAG to secondary history fields (field 27) 3: Reading namelist input data from /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0.inp 2: SECSTOP = 81 0 0 0: 0: ------------------------------------------------------------------------ 0: USER INPUT PARAMETERS: 0: label = tiegcm res=5.0 0: (optional text label for current run) 0: High-lat electric potential model: potential_model = HEELIS 0: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: start_year = 2002 (starting calendar day) 0: start_day = 80 (starting calendar year) 0: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 0: step = 60 (model timestep (seconds)) 0: ntask_lon = 2 (number of mpi tasks in longitude dimension) 0: ntask_lat = 2 (number of mpi tasks in latitude dimension) 0: total tasks = ntask_lon*ntask_lat = 4 0: source = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: (file or mss path containing source1: MXHIST_PRIM = 10 2: SECHIST = 0 1 0 history) 0: source_start = 80, 0, 0 (model time of source history) 0: output (primary history output files) = 0: tiegcm2.0_res5.0_mareqx_smin_prim_001.nc, 0: start (model start times) = 0: 80, 0, 0 0: stop (model stop times) = 0: 81, 0, 0 0: hist (primary history disk write frequencies) = 0: 1, 0, 0 0: Maxmimum number of histories per primary file = 10 1: SECSTART = 80 1 0 2: SECOUT = 'tiegcm2.0_res5.0_mareqx_smin_sech_001.nc' 1: SECSTOP = 81 0 0 2: MXHIST_SECH = 24 0: secout (secondary history output files)= 0: tiegcm2.0_res5.0_mareqx_smin_sech_001.nc, 0: secstart (secondary history start times) = 0: 80, 1, 0 0: secstop (secondary history stop times) = 0: 81, 0, 0 0: sechist (secondary history disk write frequencies) = 0: 0, 1, 0 0: secflds (secondary history fields) = 0: TN UN VN WN O2 0: O1 N2 NO N4S HE 0: NE TE TI TEC O2P 0: OP POTEN UI_ExB VI_ExB WI_ExB 0: DEN QJOULE HMF2 NMF2 Z 0: ZG ZMAG 0: Maximum number of histories per secondary file = 24 0: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 0: dynamo = 1 (dynamo will be calculated) 0: current_pg = 1 (Add current due to plasma pressure gradient and gravity to rhs) 0: current_kq = 0 (Calculate height-integrated current density) 0: eddy_dif = 0 (DOY-dependent 1: SECHIST = 0 1 0 2: SECFLDS = 'TN' 'UN' 'VN' 'WN' 'O2' 'O1' 'N2' 'NO' 'N4S' 'HE' 'NE' eddy diffusion flag) 0: tide (amplitudes and phases of semidiurnal tide) = 0: 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.00 0.00 0.00 0.00 0.00 0: tide2 (amplitude and phase of diurnal tide) = 0: 0.0E+00 0.00 0: aurora = 1 (0/1 flag for aurora) 0: colfac = 1.500 (collision factor) 0: joulefac = 1.500 (joule heating factor) 0: diffcap = 0.0000E+00 (Maximum O+ diffusion) 0: calc_helium = 1 (0/1 flag for helium) 0: If any of the following are spval ( 0.1000E+37), they will be calculated 0: during the simulation on a per timestep basis: 0: power = 0.1800E+02 (Hemispheric Power) 0: ctpoten= 0.3000E+02 (Cross-cap potential) 0: kp = 0.1000E+37 (Kp index) 0: bximf = 0.1000E+37 (BX component of IMF) 0: byimf = 0.0000E+00 (BY component of IMF) 0: bzimf = 0.1000E+37 (Bz component of IMF) 0: swvel = 0.1000E+37 (solar wind velocity) 0: swden = 0.1000E+37 (solar wind density) 0: f107 = 0.7000E+02 (F10.7 solar flux) 0: f107a = 0.7000E+02 (81-day ave F10.7 flux) 0: al = 0.1000E+37 (AL, 1: SECOUT = 'tiegcm2.0_res5.0_mareqx_smin_sech_001.nc' 2: 'TE' 'TI' 'TEC' 'O2P' 'OP' 'POTEN' 'UI_ExB' 'VI_ExB' lower auroral mag index) 0: END USER INPUT PARAMETERS 0: ------------------------------------------------------------------------ 0: 1: MXHIST_SECH = 24 2: 'WI_ExB' 'DEN' 'QJOULE' 'HMF2' 'NMF2' 'Z' 'ZG' 1: SECFLDS = 'TN' 'UN' 'VN' 'WN' 'O2' 'O1' 'N2' 'NO' 'N4S' 'HE' 'NE' 2: GSWM_MI_DI_NCFILE = '$TGCMDATA/gswm_diurn_5.0d_99km.nc' 1: 'TE' 'TI' 'TEC' 'O2P' 'OP' 'POTEN' 'UI_ExB' 'VI_ExB' 2: GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_99km.nc' 1: 'WI_ExB' 'DEN' 'QJOULE' 'HMF2' 'NMF2' 'Z' 'ZG' 2: POTENTIAL_MODEL = 'HEELIS' 1: GSWM_MI_DI_NCFILE = '$TGCMDATA/gswm_diurn_5.0d_99km.nc' 2: POWER = 18. 1: GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_99km.nc' 2: CTPOTEN = 30. 1: POTENTIAL_MODEL = 'HEELIS' 2: F107 = 70. 1: POWER = 18. 2: F107A = 70. 1: CTPOTEN = 30. 2: AURORA = 1 1: F107 = 70. 2: COLFAC = 1.5 1: F107A = 70. 2: DYNAMO = 1 1: AURORA = 1 2: CURRENT_PG = 1 1: COLFAC = 1.5 2: CURRENT_KQ = 0 1: DYNAMO = 1 2: CALC_HELIUM = 1 1: CURRENT_PG = 1 2: / 1: CURRENT_KQ = 0 2: Completed successful read of namelist inputs. 1: CALC_HELIUM = 1 2: 1: / 2: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 1: Completed successful read of namelist inputs. 2: Input: mkntask chose ntask_maglon= 2 ntask_maglat= 2 (ntask= 4) 1: 2: Input: Using default joulefac = 1.50 1: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 2: Input: default diffusion maximum (opdiffcap) is turned off by default. 1: Input: mkntask chose ntask_maglon= 2 ntask_maglat= 2 (ntask= 4) 2: Input: enforce_opfloor= 1 3: &tgcm_input 2: Will use the Heelis potential model 1: Input: Using default joulefac = 1.50 2: Note input: Setting BY to 0 with HEELIS potential model. 1: Input: default diffusion maximum (opdiffcap) is turned off by default. 2: INPUT NOTE: adding mandatory field ZMAG to secondary history fields (field 27) 1: Input: enforce_opfloor= 1 2: 1: Will use the Heelis potential model 2: ------------------------------------------------------------------------ 1: Note input: Setting BY to 0 with HEELIS potential model. 2: USER INPUT PARAMETERS: 3: LABEL = 'tiegcm res=5.0' 2: label = tiegcm res=5.0 3: START_YEAR = 2002 2: (optional text label for current run) 3: START_DAY = 80 2: High-lat electric potential model: potential_model = HEELIS 3: CALENDAR_ADVANCE = 1 2: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: SOURCE = '$TGCMDATA/tiegcm_res5.0_mareqx_smin_prim.nc' 2: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: SOURCE_START = 80 0 0 2: start_year = 2002 (starting calendar day) 3: START = 80 0 0 2: start_day = 80 (starting calendar year) 3: STOP = 81 0 0 2: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 3: STEP = 60 2: step = 60 (model timestep (seconds)) 3: HIST = 1 0 0 2: ntask_lon = 2 (number of mpi tasks in longitude dimension) 3: OUTPUT = 'tiegcm2.0_res5.0_mareqx_smin_prim_001.nc' 2: ntask_lat = 2 (number of mpi tasks in latitude dimension) 3: MXHIST_PRIM = 10 2: total tasks = ntask_lon*ntask_lat = 4 3: SECSTART = 80 1 0 2: source = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: SECSTOP = 81 0 0 2: (file or mss path containing source history) 3: SECHIST = 0 1 0 2: source_start = 80, 0, 0 (model time of source history) 3: SECOUT = 'tiegcm2.0_res5.0_mareqx_smin_sech_001.nc' 2: output (primary history output files) = 3: MXHIST_SECH = 24 2: tiegcm2.0_res5.0_mareqx_smin_prim_001.nc, 3: SECFLDS = 'TN' 'UN' 'VN' 'WN' 'O2' 'O1' 'N2' 'NO' 'N4S' 'HE' 'NE' 2: start (model start times) = 3: 'TE' 'TI' 'TEC' 'O2P' 'OP' 'POTEN' 'UI_ExB' 'VI_ExB' 2: 80, 0, 0 3: 'WI_ExB' 'DEN' 'QJOULE' 'HMF2' 'NMF2' 'Z' 'ZG' 2: stop (model stop times) = 3: GSWM_MI_DI_NCFILE = '$TGCMDATA/gswm_diurn_5.0d_99km.nc' 2: 81, 0, 0 3: GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_99km.nc' 2: hist (primary history disk write frequencies) = 3: POTENTIAL_MODEL = 'HEELIS' 2: 1, 0, 0 3: POWER = 18. 2: Maxmimum number of histories per primary file = 10 3: CTPOTEN = 30. 2: secout (secondary history output files)= 3: F107 = 70. 2: tiegcm2.0_res5.0_mareqx_smin_sech_001.nc, 3: F107A = 70. 2: secstart (secondary history start times) = 3: AURORA = 1 2: 80, 1, 0 3: COLFAC = 1.5 2: secstop (secondary history stop times) = 3: DYNAMO = 1 2: 81, 0, 0 3: CURRENT_PG = 1 2: sechist (secondary history disk write frequencies) = 3: CURRENT_KQ = 0 2: 0, 1, 0 3: CALC_HELIUM = 1 2: secflds (secondary history fields) = 3: / 2: TN UN VN WN O2 3: Completed successful read of namelist inputs. 2: O1 N2 NO N4S HE 3: 2: NE TE TI TEC O2P 3: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 2: OP POTEN UI_ExB VI_ExB WI_ExB 3: Input: mkntask chose ntask_maglon= 2 ntask_maglat= 2 (ntask= 4) 2: DEN QJOULE HMF2 NMF2 Z 3: Input: Using default joulefac = 1.50 2: ZG ZMAG 3: Input: default diffusion maximum (opdiffcap) is turned off by default. 2: Maximum number of histories per secondary file = 24 3: Input: enforce_opfloor= 1 2: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 3: Will use the Heelis potential model 2: dynamo = 1 (dynamo will be calculated) 3: Note input: Setting BY to 0 with HEELIS potential model. 2: current_pg = 1 (Add current due to plasma pressure gradient and gravity to rhs) 1: INPUT NOTE: adding mandatory field ZMAG to secondary history fields (field 27) 2: current_kq = 0 (Calculate height-integrated current density) 3: INPUT NOTE: adding mandatory field ZMAG to secondary history fields (field 27) 2: eddy_dif = 0 (DOY-dependent eddy diffusion flag) 1: 2: tide (amplitudes and phases of semidiurnal tide) = 1: ------------------------------------------------------------------------ 2: 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.00 0.00 0.00 0.00 0.00 1: USER INPUT PARAMETERS: 2: tide2 (amplitude and phase of diurnal tide) = 1: label = tiegcm res=5.0 2: 0.0E+00 0.00 1: (optional text label for current run) 2: aurora = 1 (0/1 flag for aurora) 1: High-lat electric potential model: potential_model = HEELIS 2: colfac = 1.500 (collision factor) 1: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: joulefac = 1.500 (joule heating factor) 1: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: diffcap = 0.0000E+00 (Maximum O+ diffusion) 1: start_year = 2002 (starting calendar day) 2: calc_helium = 1 (0/1 flag for helium) 1: start_day = 80 (starting calendar year) 2: If any of the following are spval ( 0.1000E+37), they will be calculated 1: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 2: during the simulation on a per timestep basis: 1: step = 60 (model timestep (seconds)) 2: power = 0.1800E+02 (Hemispheric Power) 1: ntask_lon = 2 (number of mpi tasks in longitude dimension) 2: ctpoten= 0.3000E+02 (Cross-cap potential) 1: ntask_lat = 2 (number of mpi tasks in latitude dimension) 2: kp = 0.1000E+37 (Kp index) 1: total tasks = ntask_lon*ntask_lat = 4 2: bximf = 0.1000E+37 (BX component of IMF) 1: source = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 2: byimf = 0.0000E+00 (BY component of IMF) 1: (file or mss path containing source3: 2: bzimf = 0.1000E+37 (Bz component of IMF) history) 2: swvel = 0.1000E+37 (solar wind velocity) 1: source_start = 80, 0, 0 (model time of source history) 2: swden = 0.1000E+37 (solar wind density) 3: ------------------------------------------------------------------------ 2: f107 = 0.7000E+02 (F10.7 solar flux) 3: USER INPUT PARAMETERS: 2: f107a = 0.7000E+02 (81-day ave F10.7 flux) 3: label = tiegcm res=5.0 2: al = 0.1000E+37 (AL, lower auroral mag index) 3: (optional text label for current run) 2: END USER INPUT PARAMETERS 3: High-lat electric potential model: potential_model = HEELIS 2: ------------------------------------------------------------------------ 1: output (primary history output files) = 2: 1: tiegcm2.0_res5.0_mareqx_smin_prim_001.nc, 1: start (model start times) = 1: 80, 0, 0 1: stop (model stop times) = 1: 81, 0, 0 1: hist (primary history disk write frequencies) = 1: 1, 0, 0 1: Maxmimum number of histories per primary file = 10 3: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: start_year = 2002 (starting calendar day) 3: start_day = 80 (starting calendar year) 3: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 1: secout (secondary history output files)= 1: tiegcm2.0_res5.0_mareqx_smin_sech_001.nc, 1: secstart (secondary history start times) = 1: 80, 1, 0 1: secstop (secondary history stop times) = 1: 81, 0, 0 1: sechist (secondary history disk write frequencies) = 1: 0, 1, 0 1: secflds (secondary history fields) = 1: TN UN VN WN O2 1: O1 N2 NO N4S HE 1: NE TE TI TEC O2P 1: OP POTEN UI_ExB VI_ExB WI_ExB 1: DEN QJOULE HMF2 NMF2 Z 1: ZG ZMAG 1: Maximum number of histories per secondary file = 24 1: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 1: dynamo = 1 (dynamo will be calculated) 1: current_pg = 1 (Add current due to plasma pressure gradient and gravity to rhs) 1: current_kq = 0 (Calculate height-integrated current density) 1: eddy_dif = 0 (DOY-dependent 3: step = 60 (model timestep (seconds)) eddy diffusion flag) 1: tide (amplitudes and phases of semidiurnal tide) = 1: 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.00 0.00 0.00 0.00 0.00 1: tide2 (amplitude and phase of diurnal tide) = 1: 0.0E+00 0.00 1: aurora = 1 (0/1 flag for aurora) 1: colfac = 1.500 (collision factor) 1: joulefac = 1.500 (joule heating factor) 1: diffcap = 0.0000E+00 (Maximum O+ diffusion) 1: calc_helium = 1 (0/1 flag for helium) 1: If any of the following are spval ( 0.1000E+37), they will be calculated 1: during the simulation on a per timestep basis: 1: power = 0.1800E+02 (Hemispheric Power) 1: ctpoten= 0.3000E+02 (Cross-cap potential) 1: kp = 0.1000E+37 (Kp index) 1: bximf = 0.1000E+37 (BX component of IMF) 1: byimf = 0.0000E+00 (BY component of IMF) 1: bzimf = 0.1000E+37 (Bz component of IMF) 1: swvel = 0.1000E+37 (solar wind velocity) 1: swden = 0.1000E+37 (solar wind density) 1: f107 = 0.7000E+02 (F10.7 solar flux) 1: f107a = 0.7000E+02 (81-day ave F10.7 flux) 1: al = 0.1000E+37 (AL, 3: ntask_lon = 2 (number of mpi tasks in longitude dimension) lower auroral mag index) 1: END USER INPUT PARAMETERS 1: ------------------------------------------------------------------------ 1: 3: ntask_lat = 2 (number of mpi tasks in latitude dimension) 3: total tasks = ntask_lon*ntask_lat = 4 3: source = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: (file or mss path containing source history) 3: source_start = 80, 0, 0 (model time of source history) 3: output (primary history output files) = 3: tiegcm2.0_res5.0_mareqx_smin_prim_001.nc, 3: start (model start times) = 3: 80, 0, 0 3: stop (model stop times) = 3: 81, 0, 0 3: hist (primary history disk write frequencies) = 3: 1, 0, 0 3: Maxmimum number of histories per primary file = 10 3: secout (secondary history output files)= 3: tiegcm2.0_res5.0_mareqx_smin_sech_001.nc, 3: secstart (secondary history start times) = 3: 80, 1, 0 3: secstop (secondary history stop times) = 3: 81, 0, 0 3: sechist (secondary history disk write frequencies) = 3: 0, 1, 0 3: secflds (secondary history fields) = 3: TN UN VN WN O2 3: O1 N2 NO N4S HE 3: NE TE TI TEC O2P 3: OP POTEN UI_ExB VI_ExB WI_ExB 3: DEN QJOULE HMF2 NMF2 Z 3: ZG ZMAG 3: Maximum number of histories per secondary file = 24 3: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 3: dynamo = 1 (dynamo will be calculated) 3: current_pg = 1 (Add current due to plasma pressure gradient and gravity to rhs) 3: current_kq = 0 (Calculate height-integrated current density) 3: eddy_dif = 0 (DOY-dependent eddy diffusion flag) 3: tide (amplitudes and phases of semidiurnal tide) = 3: 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.00 0.00 0.00 0.00 0.00 3: tide2 (amplitude and phase of diurnal tide) = 3: 0.0E+00 0.00 3: aurora = 1 (0/1 flag for aurora) 3: colfac = 1.500 (collision factor) 3: joulefac = 1.500 (joule heating factor) 3: diffcap = 0.0000E+00 (Maximum O+ diffusion) 3: calc_helium = 1 (0/1 flag for helium) 3: If any of the following are spval ( 0.1000E+37), they will be calculated 3: during the simulation on a per timestep basis: 3: power = 0.1800E+02 (Hemispheric Power) 3: ctpoten= 0.3000E+02 (Cross-cap potential) 3: kp = 0.1000E+37 (Kp index) 3: bximf = 0.1000E+37 (BX component of IMF) 3: byimf = 0.0000E+00 (BY component of IMF) 3: bzimf = 0.1000E+37 (Bz component of IMF) 3: swvel = 0.1000E+37 (solar wind velocity) 3: swden = 0.1000E+37 (solar wind density) 3: f107 = 0.7000E+02 (F10.7 solar flux) 3: f107a = 0.7000E+02 (81-day ave F10.7 flux) 3: al = 0.1000E+37 (AL, lower auroral mag index) 3: END USER INPUT PARAMETERS 3: ------------------------------------------------------------------------ 3: 0: tgcm: dynamo= 1 -- calling apxparm: start_year= 2002 2: tgcm: dynamo= 1 -- calling apxparm: start_year= 2002 1: tgcm: dynamo= 1 -- calling apxparm: start_year= 2002 3: tgcm: dynamo= 1 -- calling apxparm: start_year= 2002 3: Time in apxparm = 0.388 (secs) 3: 3: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 3: j= -1 itask_table(:,j)= -1 -1 -1 -1 3: j= 0 itask_table(:,j)= -1 0 1 -1 3: j= 1 itask_table(:,j)= -1 2 3 -1 3: j= 2 itask_table(:,j)= -1 -1 -1 -1 3: 3: mytid= 3 mytidi,j= 1 1 lat0,1= 19 36 (18) lon0,1= 39 76 (38) ncells= 684 3: 3: ntask= 4 ntask_maglon= 2 ntask_maglat= 2 Task Table: 3: j= -1 itask_table_mag(:,j)= -1 -1 -1 -1 -1 3: j= 0 itask_table_mag(:,j)= 1 0 1 0 -1 3: j= 1 itask_table_mag(:,j)= 3 2 3 2 -1 3: j= 2 itask_table_mag(:,j)= -1 -1 -1 -1 -1 3: 3: mytid= 3 magtidi,j= 1 1 mlat0,1= 50 97 (48) mlon0,1= 42 81 (40) ncells=1920 0: Time in apxparm = 0.393 (secs) 0: 0: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 0: j= -1 itask_table(:,j)= -1 -1 -1 -1 0: j= 0 itask_table(:,j)= -1 0 1 -1 0: j= 1 itask_table(:,j)= -1 2 3 -1 0: j= 2 itask_table(:,j)= -1 -1 -1 -1 0: 0: mytid= 0 mytidi,j= 0 0 lat0,1= 1 18 (18) lon0,1= 1 38 (38) ncells= 684 0: 0: ntask= 4 ntask_maglon= 2 ntask_maglat= 2 Task Table: 0: j= -1 itask_table_mag(:,j)= -1 -1 -1 -1 -1 0: j= 0 itask_table_mag(:,j)= 1 0 1 0 -1 0: j= 1 itask_table_mag(:,j)= 3 2 3 2 -1 0: j= 2 itask_table_mag(:,j)= -1 -1 -1 -1 -1 0: 0: mytid= 0 magtidi,j= 0 0 mlat0,1= 1 49 (49) mlon0,1= 1 41 (41) ncells=2009 1: Time in apxparm = 0.395 (secs) 1: 1: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 1: j= -1 itask_table(:,j)= -1 -1 -1 -1 1: j= 0 itask_table(:,j)= -1 0 1 -1 1: j= 1 itask_table(:,j)= -1 2 3 -1 1: j= 2 itask_table(:,j)= -1 -1 -1 -1 1: 1: mytid= 1 mytidi,j= 1 0 lat0,1= 1 18 (18) lon0,1= 39 76 (38) ncells= 684 1: 1: ntask= 4 ntask_maglon= 2 ntask_maglat= 2 Task Table: 1: j= -1 itask_table_mag(:,j)= -1 -1 -1 -1 -1 1: j= 0 itask_table_mag(:,j)= 1 0 1 0 -1 1: j= 1 itask_table_mag(:,j)= 3 2 3 2 -1 1: j= 2 itask_table_mag(:,j)= -1 -1 -1 -1 -1 1: 1: mytid= 1 magtidi,j= 1 0 mlat0,1= 1 49 (49) mlon0,1= 42 81 (40) ncells=1960 0: mp_distribute_geo: nmagtaski= 2 tidcol= 0 2: Time in apxparm = 0.413 (secs) 1: mp_distribute_geo: nmagtaski= 2 tidcol= 0 2: 3: mp_distribute_geo: nmagtaski= 2 tidcol= 1 2: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 2: j= -1 itask_table(:,j)= -1 -1 -1 -1 2: j= 0 itask_table(:,j)= -1 0 1 -1 2: j= 1 itask_table(:,j)= -1 2 3 -1 2: j= 2 itask_table(:,j)= -1 -1 -1 -1 2: 2: mytid= 2 mytidi,j= 0 1 lat0,1= 19 36 (18) lon0,1= 1 38 (38) ncells= 684 2: 2: ntask= 4 ntask_maglon= 2 ntask_maglat= 2 Task Table: 2: j= -1 itask_table_mag(:,j)= -1 -1 -1 -1 -1 2: j= 0 itask_table_mag(:,j)= 1 0 1 0 -1 2: j= 1 itask_table_mag(:,j)= 3 2 3 2 -1 2: j= 2 itask_table_mag(:,j)= -1 -1 -1 -1 -1 2: 2: mytid= 2 magtidi,j= 0 1 mlat0,1= 50 97 (48) mlon0,1= 1 41 (41) ncells=1968 2: mp_distribute_geo: nmagtaski= 2 tidcol= 1 0: 0: Task 0: 0: 0: Subdomain on geographic grid: 0: tasks( 0)%mytid = 0 0: tasks( 0)%mytidi= 0 0: tasks( 0)%mytidj= 0 0: tasks( 0)%nlats = 18 0: tasks( 0)%nlons = 38 0: tasks( 0)%lat0 = 1 0: tasks( 0)%lat1 = 18 0: tasks( 0)%lon0 = 1 0: tasks( 0)%lon1 = 38 0: Number of geo subdomain grid points = 684 0: 0: Subdomain on geomagnetic grid: 0: tasks( 0)%magtidi= 0 0: tasks( 0)%magtidj= 0 0: tasks( 0)%nmaglats = 49 0: tasks( 0)%nmaglons = 41 0: tasks( 0)%mlat0 = 1 0: tasks( 0)%mlat1 = 49 0: tasks( 0)%mlon0 = 1 0: tasks( 0)%mlon1 = 41 0: Number of mag subdomain grid points = 2009 0: mp_exchange_tasks: mxmaglat= 49 mxmaglon= 41 1: 2: 1: Task 1: 2: Task 2: 1: 2: 1: Subdomain on geographic grid: 2: Subdomain on geographic grid: 1: tasks( 1)%mytid = 1 2: tasks( 2)%mytid = 2 1: tasks( 1)%mytidi= 1 2: tasks( 2)%mytidi= 0 1: tasks( 1)%mytidj= 0 2: tasks( 2)%mytidj= 1 1: tasks( 1)%nlats = 18 2: tasks( 2)%nlats = 18 1: tasks( 1)%nlons = 38 2: tasks( 2)%nlons = 38 1: tasks( 1)%lat0 = 1 2: tasks( 2)%lat0 = 19 1: tasks( 1)%lat1 = 18 2: tasks( 2)%lat1 = 36 1: tasks( 1)%lon0 = 39 2: tasks( 2)%lon0 = 1 1: tasks( 1)%lon1 = 76 2: tasks( 2)%lon1 = 38 1: Number of geo subdomain grid points = 684 2: Number of geo subdomain grid points = 684 1: 2: 1: Subdomain on geomagnetic grid: 2: Subdomain on geomagnetic grid: 1: tasks( 1)%magtidi= 1 2: tasks( 2)%magtidi= 0 1: tasks( 1)%magtidj= 0 2: tasks( 2)%magtidj= 1 1: tasks( 1)%nmaglats = 49 2: tasks( 2)%nmaglats = 48 1: tasks( 1)%nmaglons = 40 2: tasks( 2)%nmaglons = 41 1: tasks( 1)%mlat0 = 1 2: tasks( 2)%mlat0 = 50 1: tasks( 1)%mlat1 = 49 2: tasks( 2)%mlat1 = 97 1: tasks( 1)%mlon0 = 42 2: tasks( 2)%mlon0 = 1 1: tasks( 1)%mlon1 = 81 2: tasks( 2)%mlon1 = 41 1: Number of mag subdomain grid points = 1960 2: Number of mag subdomain grid points = 1968 1: mp_exchange_tasks: mxmaglat= 49 mxmaglon= 41 2: mp_exchange_tasks: mxmaglat= 49 mxmaglon= 41 3: 3: Task 3: 3: 3: Subdomain on geographic grid: 3: tasks( 3)%mytid = 3 3: tasks( 3)%mytidi= 1 3: tasks( 3)%mytidj= 1 3: tasks( 3)%nlats = 18 3: tasks( 3)%nlons = 38 3: tasks( 3)%lat0 = 19 3: tasks( 3)%lat1 = 36 3: tasks( 3)%lon0 = 39 3: tasks( 3)%lon1 = 76 3: Number of geo subdomain grid points = 684 3: 3: Subdomain on geomagnetic grid: 3: tasks( 3)%magtidi= 1 3: tasks( 3)%magtidj= 1 3: tasks( 3)%nmaglats = 48 3: tasks( 3)%nmaglons = 40 3: tasks( 3)%mlat0 = 50 3: tasks( 3)%mlat1 = 97 3: tasks( 3)%mlon0 = 42 3: tasks( 3)%mlon1 = 81 3: Number of mag subdomain grid points = 1920 3: mp_exchange_tasks: mxmaglat= 49 mxmaglon= 41 0: Model version = tiegcm_trunk 1: Model version = tiegcm_trunk 2: Model version = tiegcm_trunk 1: 2: 1: Set constants: 2: Set constants: 1: nlat= 36 nlon= 72 nlev= 28 2: nlat= 36 nlon= 72 nlev= 28 1: dz= 0.50 2: dz= 0.50 1: dlat= 5.00 dlon= 5.00 2: dlat= 5.00 dlon= 5.00 1: zbound (cm) = 0.963723E+07 2: zbound (cm) = 0.963723E+07 1: zmbot, zmtop = -6.750 7.250 (bottom,top midpoint levels) 2: zmbot, zmtop = -6.750 7.250 (bottom,top midpoint levels) 1: zibot, zitop = -7.000 7.000 (bottom,top interface levels) 2: zibot, zitop = -7.000 7.000 (bottom,top interface levels) 1: dt = 60.00 secs 2: dt = 60.00 secs 1: grav = 870.00 2: grav = 870.00 1: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 2: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 1: dipmin = 0.170 2: dipmin = 0.170 1: check_exp = F 2: check_exp = F 1: kut (for filtering) = 1 2 3 5 6 7 9 10 11 13 14 15 17 17 17 17 17 17 17 17 17 17 17 17 15 14 13 11 10 9 7 6 5 3 2 1 2: kut (for filtering) = 1 2 3 5 6 7 9 10 11 13 14 15 17 17 17 17 17 17 17 17 17 17 17 17 15 14 13 11 10 9 7 6 5 3 2 1 1: step= 60 smooth_fac= 3.00E-03 shapiro= 3.00E-03 2: step= 60 smooth_fac= 3.00E-03 shapiro= 3.00E-03 1: init: iyear= 2002 iday= 80 2: init: iyear= 2002 iday= 80 1: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: hist_init: nstep= 1440 2: hist_init: nstep= 1440 3: Model version = tiegcm_trunk 3: 3: Set constants: 3: nlat= 36 nlon= 72 nlev= 28 3: dz= 0.50 3: dlat= 5.00 dlon= 5.00 3: zbound (cm) = 0.963723E+07 3: zmbot, zmtop = -6.750 7.250 (bottom,top midpoint levels) 3: zibot, zitop = -7.000 7.000 (bottom,top interface levels) 3: dt = 60.00 secs 3: grav = 870.00 3: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 3: dipmin = 0.170 3: check_exp = F 0: 0: Set constants: 0: nlat= 36 nlon= 72 nlev= 28 0: dz= 0.50 0: dlat= 5.00 dlon= 5.00 0: zbound (cm) = 0.963723E+07 3: kut (for filtering) = 1 2 3 5 6 7 9 10 11 13 14 15 17 17 17 17 17 17 17 17 17 17 17 17 15 14 13 11 10 9 7 6 5 3 2 1 0: zmbot, zmtop = -6.750 7.250 (bottom,top midpoint levels) 0: zibot, zitop = -7.000 7.000 (bottom,top interface levels) 0: dt = 60.00 secs 0: grav = 870.00 0: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 0: dipmin = 0.170 0: check_exp = F 0: kut (for filtering) = 1 2 3 5 6 7 9 10 11 13 14 15 17 17 17 17 17 17 17 17 17 17 17 17 15 14 13 11 10 9 7 6 5 3 2 1 0: step= 60 smooth_fac= 3.00E-03 shapiro= 3.00E-03 0: init: iyear= 2002 iday= 80 0: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: hist_init: nstep= 1440 3: step= 60 smooth_fac= 3.00E-03 shapiro= 3.00E-03 3: init: iyear= 2002 iday= 80 3: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: hist_init: nstep= 1440 2: alloc_ar: allocated module data 1: alloc_ar: allocated module data 2: Allocated gswm t,u,v,z (lon0:lon1,lat0:lat1) 1: Allocated gswm t,u,v,z (lon0:lon1,lat0:lat1) 2: Allocated private gwm t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 1: Allocated private gwm t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 2: Allocated background t,u,v,z (lon0:lon1,lat0:lat1) 1: Allocated background t,u,v,z (lon0:lon1,lat0:lat1) 2: Allocated private background t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 1: Allocated private background t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 2: Allocated ctmt t,u,v,z (lon0:lon1,lat0:lat1) 1: Allocated ctmt t,u,v,z (lon0:lon1,lat0:lat1) 2: Allocated private ctmt t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 1: Allocated private ctmt t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 3: alloc_ar: allocated module data 2: alloc_pdyn: allocate fmeq_in with mlev0,1= -2 29 3: Allocated gswm t,u,v,z (lon0:lon1,lat0:lat1) 3: Allocated private gwm t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 3: Allocated background t,u,v,z (lon0:lon1,lat0:lat1) 3: Allocated private background t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 3: Allocated ctmt t,u,v,z (lon0:lon1,lat0:lat1) 0: alloc_ar: allocated module data 0: Allocated gswm t,u,v,z (lon0:lon1,lat0:lat1) 0: Allocated private gwm t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 0: Allocated background t,u,v,z (lon0:lon1,lat0:lat1) 0: Allocated private background t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 0: Allocated ctmt t,u,v,z (lon0:lon1,lat0:lat1) 3: Allocated private ctmt t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 0: Allocated private ctmt t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 1: alloc_pdyn: allocate fmeq_in with mlev0,1= -2 29 3: alloc_pdyn: allocate fmeq_in with mlev0,1= -2 29 1: allocdata: all tasks allocate fzg: nlevp1= 29 nlonp4= 76 nlat= 36 2: allocdata: all tasks allocate fzg: nlevp1= 29 nlonp4= 76 nlat= 36 3: allocdata: all tasks allocate fzg: nlevp1= 29 nlonp4= 76 nlat= 36 2: init_lbc: allocated subdomains tlbc, ulbc, vlbc 1: init_lbc: allocated subdomains tlbc, ulbc, vlbc 2: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 1: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 2: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 1: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 2: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 1: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 2: 1: 2: Model run initialization: 0: alloc_pdyn: allocate fmeq_in with mlev0,1= -2 29 1: Model run initialization: 2: nstep = 1440 (Number of time steps this run) 1: nstep = 1440 (Number of time steps this run) 2: iter = 115200 (Initial iteration number) 1: iter = 115200 (Initial iteration number) 2: iyear = 2002 (Beginning calendar year) 1: iyear = 2002 (Beginning calendar year) 2: iday = 80 (Beginning calendar day) 1: iday = 80 (Beginning calendar day) 2: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 1: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 2: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 1: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 2: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 1: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 2: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 1: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 2: ibgrddata= 0 (If > 0, background datafile will be used.) 1: ibgrddata= 0 (If > 0, background datafile will be used.) 2: ictmt= 0 (If > 0, CTMT tidal database will be used.) 0: Allocated 3d data for all fields on root task: 0: nlevp1*nlonp4*nlat*nf4d = 29* 76* 36* 30 = 2380320 words *8 = 19042560 bytes. 0: allocdata: all tasks allocate fzg: nlevp1= 29 nlonp4= 76 nlat= 36 1: ictmt= 0 (If > 0, CTMT tidal database will be used.) 2: 1: 2: This is an initial run: 0: init_lbc: allocated subdomains tlbc, ulbc, vlbc 0: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 0: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 0: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 0: 0: Model run initialization: 0: nstep = 1440 (Number of time steps this run) 0: iter = 115200 (Initial iteration number) 0: iyear = 2002 (Beginning calendar year) 0: iday = 80 (Beginning calendar day) 0: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 0: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 0: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 0: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 0: ibgrddata= 0 (If > 0, background datafile will be used.) 0: ictmt= 0 (If > 0, CTMT tidal database will be used.) 0: 0: This is an initial run: 0: 1: This is an initial run: 2: start_year = 2002 (Starting year of initial run) start_year = 2002 (Starting year of initial run) 0: start_day = 80 (Starting day of initial run) 0: start_mtime= 80 0 0 (Starting mtime of initial run) 0: 0: Primary Histories: 0: nsource = 1 (If > 0, a primary source history was provided) 0: nseries_prim = 1 (Number of primary time series) 0: nhist_total = 2 (Number of primary histories to be written) 0: nfiles_prim = 1 (Number of primary output files to be written) 0: mxhist_prim = 10 (Maximum number of primary histories per file) 0: 0: Secondary Histories: 0: nseries_sech = 1 (Number of secondary time series) 0: nsech_total = 24 (Number of secondary histories to be written) 0: nfiles_sech = 1 (Number of secondary output files to be written) 0: mxhist_sech = 24 (Maximum number of secondary histories per file) 0: nfsech = 27 (Number of requested secondary history fields) 0: secondary history field 1: TN 0: secondary history field 2: UN 0: secondary history fiel1: start_year = 2002 (Starting year of initial run) 2: start_day = 80 (Starting day of initial run) d 3: VN 0: secondary history field 4: WN 0: secondary history field 5: O2 0: secondary history field 6: O1 0: secondary history field 7: N2 0: secondary history field 8: NO 0: secondary history field 9: N4S 0: secondary history field 10: HE 0: secondary history field 11: NE 0: secondary history field 12: TE 0: secondary history field 13: TI 0: secondary history field 14: TEC 0: secondary history field 15: O2P 0: secondary history field 16: OP 0: secondary history field 17: POTEN 0: secondary history field 18: UI_ExB 0: secondary history field 19: VI_ExB 0: secondary history field 20: WI_ExB 0: secondary history field 21: DEN 0: secondary history field 22: QJOULE 0: secondary history field 23: HMF2 0: secondary history field 24: NMF2 1: start_day = 80 (Starting day of initial run) 2: start_mtime= 80 0 0 (Starting mtime of initial run) 0: secondary history field 25: Z 0: secondary history field 26: ZG 0: secondary history field 27: ZMAG 0: 0: ------------------------------------------------------------------------------------------------ 0: Table of Available Diagnostic Fields: 0: Shortnames may be added to namelist SECFLDS 0: 0: Field Shortname Units Levels Caller Longname 0: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 0: 1 CO2_COOL erg/g/s lev newton.F CO2 Cooling 0: 2 NO_COOL erg/g/s lev newton.F NO Cooling 0: 3 DEN g/cm3 ilev dt.F Total Density 0: 4 HEATING erg/g/s lev dt.F Total Heating 0: 5 HMF2 km none elden.F HMF2: Height of the F2 Layer 0: 6 NMF2 1/cm3 none elden.F NMF2: Peak Density of the F2 Layer 0: 7 FOF2 1: start_mtime= 80 0 0 (Starting mtime of initial run) 2: MHz none elden.F FOF2: Critical Frequency of the F2 Layer 0: 8 JE13D A/m2 mlev current.F90 JE13D: Eastward current density (3d) 0: 9 JE23D A/m2 mlev current.F90 JE23D: Downward current density (3d) 0: 10 JQR A/m2 none current.F90 JQR: Upward current density (2d) 0: 11 KQLAM A/m none current.F90 KQLAM: Height-integrated current density (+north) 0: 12 KQPHI A/m none current.F90 KQPHI: Height-integrated current density (+east) 0: 13 LAMDA_HAL 1/s lev lamdas.F LAMDA_HAL: Hall Ion Drag Coefficient 0: 14 LAMDA_PED 1/s lev lamdas.F LAMDA_PED: Pedersen Ion Drag Coefficient 0: 15 MU_M g/cm/s lev cpktkm.F MU_M: Molecular Viscosity Coefficient 0: 16 QJOULE erg/g/s lev qjoule.F QJOULE: Joule Heating 0: 17 SCHT 1: 2: Primary Histories: km lev addiag.F SCHT: Pressure Scale Height 0: 18 SIGMA_HAL S/m lev lamdas.F SIGMA_HAL: Hall Conductivity 0: 19 SIGMA_PED S/m lev lamdas.F SIGMA_PED: Pedersen Conductivity 0: 20 TEC 1/cm2 none elden.F TEC: Total Electron Content 0: 21 UI_ExB cm/s ilev ionvel.F UI: Zonal ExB Velocity 0: 22 VI_ExB cm/s ilev ionvel.F VI: Meridional ExB Velocity 0: 23 WI_ExB cm/s ilev ionvel.F WI: Vertical ExB Velocity 0: 24 WN cm/s ilev swdot.F WN: Neutral Vertical Wind (plus up) 0: 25 O_N2 none lev comp.F O/N2 RATIO 0: 26 QJOULE_INTEG erg/cm2/s none qjoule.F Height-integrated Joule Heating 0: 27 BX none oplus.F BX/BMAG: Normalized eastward component of magnetic field 0: 28 BY1: Primary Histories: 2: nsource = 1 (If > 0, a primary source history was provided) none oplus.F BY/BMAG: Normalized northward component of magnetic field 0: 29 BZ none oplus.F BZ/BMAG: Normalized upward component of magnetic field 0: 30 BMAG Gauss none oplus.F BMAG: Magnetic field magnitude 0: 31 EX V/m ilev pdynamo.F EX: Zonal component of electric field 0: 32 EY V/m ilev pdynamo.F EY: Meridional component of electric field 0: 33 EZ V/m ilev pdynamo.F EZ: Vertical component of electric field 0: 34 ED1 V/m imlev pdynamo.F ED1: Magnetic eastward component of electric field 0: 35 ED2 V/m imlev pdynamo.F ED2: Magnetic downward (equatorward) component of electric field 0: 36 PHIM2D V none pdynamo.F PHIM2D: 2d Electric Potential on magnetic grid 0: 37 N2 mmr 1: nsource = 1 (If > 0, a primary source history was provided) 2: nseries_prim = 1 (Number of primary time series) lev comp.F N2: Molecular Nitrogen 0: 38 ZGMID cm lev addiag.F ZGMID: Geometric Height at midpoints 0: 39 CUSP erg/cm2/s none dynamics.F CUSP Low Energy Electron Flux 0: 40 DRIZZLE erg/cm2/s none dynamics.F DRIZZLE Low Energy Electron Flux 0: 41 ALFA keV none dynamics.F Aurora Characteristic Energy 0: 42 NFLUX #/cm2/s none dynamics.F Aurora Number Flux 0: 43 EFLUX erg/cm2/s none dynamics.F Aurora Energy Flux 0: ------------------------------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: -------------------------1: nseries_prim = 1 (Number of primary time series) 2: nhist_total = 2 (Number of primary histories to be written) ----------------------------------------------- 0: 0: Acquired source history file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: (disk file is /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc) 0: Reading source history from diskfile /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc: 0: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 0: Note nc_rdhist: unused variable: calendar_advance 0: Note nc_rdhist: unused variable: write_date 1: nhist_total = 2 (Number of primary histories to be written) 2: nfiles_prim = 1 (Number of primary output files to be written) 1: nfiles_prim = 1 (Number of primary output files to be written) 2: mxhist_prim = 10 (Maximum number of primary histories per file) 1: mxhist_prim = 10 (Maximum number of primary histories per file) 2: 1: 2: Secondary Histories: 1: Secondary Histories: 2: nseries_sech = 1 (Number of secondary time series) 0: Note nc_rdhist: unused variable: crit1 0: Note nc_rdhist: unused variable: crit2 0: Note nc_rdhist: unused variable: mag 1: nseries_sech = 1 (Number of secondary 3: init_lbc: allocated subdomains tlbc, ulbc, vlbc 2: nsech_total = 24 (Number of secondary histories to be written) 0: Read field TN 3d subdomain min,max= 0.1481E+03 0.7760E+03 0: Read field UN 3d subdomain min,max= -0.1109E+05 0.1257E+05 0: Read field VN 3d subdomain min,max= -0.8445E+04 0.1102E+05 0: Read field O2 3d subdomain min,max= 0.3649E-04 0.2306E+00 0: Read field O1 3d subdomain min,max= 0.3060E-02 0.9493E+00 0: Read field N4S 3d subdomain min,max= 0.1000E-11 0.1390E-01 0: Read field NO 3d subdomain min,max= 0.1518E-06 0.2506E-03 0: Read field HE 3d subdomain min,max= 0.1152E-05 0.1783E+00 0: Read field AR 3d subdomain min,max= 0.6910E-08 0.1118E-01 0: Read field OP 3d subdomain min,max= 0.0000E+00 0.9780E+06 0: Read field N2D 3d subdomain min,max= 0.0000E+00 0.3599E-03 0: Read field TI 3d subdomain min,max= 0.1481E+03 0.1621E+04 0: Read field TE 3d subdomain min,max= 0.1481E+03 0.3292E+04 0: Read field NE 3d subdomain min,max= 0.1190E+04 time series) 2: nfiles_sech = 1 (Number of secondary output files to be written) 0.9683E+06 0: Read field O2P 3d subdomain min,max= 0.0000E+00 0.7672E+05 0: Read field OMEGA 3d subdomain min,max= -0.4512E-04 0.4158E-04 0: Read field Z 3d subdomain min,max= 0.9608E+07 0.5224E+08 0: Read field POTEN 3d subdomain min,max= -0.1460E+05 0.1314E+04 0: Read field TN_NM 3d subdomain min,max= 0.1481E+03 0.7760E+03 0: Read field UN_NM 3d subdomain min,max= -0.1109E+05 0.1258E+05 0: Read field VN_NM 3d subdomain min,max= -0.8456E+04 0.1101E+05 0: Read field O2_NM 3d subdomain min,max= 0.3654E-04 0.2306E+00 0: Read field O1_NM 3d subdomain min,max= 0.3060E-02 0.9493E+00 0: Read field N4S_NM 3d subdomain min,max= 0.1000E-11 0.1390E-01 0: Read field NO_NM 3d subdomain min,max= 0.1521E-06 0.2505E-03 0: Read field OP_NM 3d subdomain min,max= 0.0000E+00 0.9779E+06 0: Read field HE_NM 3d subdomain min,max= 0.1152E-05 0.1782E+00 0: Read field AR_NM 3d subdomain min,max= 1: nsech_total = 24 (Number of secondary histories to be written) 2: mxhist_sech = 24 (Maximum number of secondary histories per file) 0.6917E-08 0.1118E-01 0: Read LBC from source history: i= 95 sh%lbc= -7.00 0: 0: ------------------------------------------------------------------------ 0: Read TGCM PRIMARY HISTORY (source history) 0: Diskfile: /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: label = tiegcm_res5.0_mareqx_smin 0: model_name = tiegcm 0: model_version = tiegcm_trunk 0: create_date= 02/01/16 13:51:46 0: write_date = 0: logname = foster 0: host = ys0225 0: system = LINUX 0: run_type = 0: source_file = 0: output_file = 0: source_mtime = 80 0 0 0: initial_year = 2002 0: initial_day = 80 0: initial_mtime= 80 0 0 0: type = primary 0: ihist = 1 (nth history on history file) 0: delhmins= 0 (delta minutes between histories) 0: calendar year,day = 2002, 80 0: (model IS being advanced in calendar time) 0: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 0: time = 0: ut = 0.00 (ut hours) 0: step = 60 (time step in seconds) 0: iter = 1: nfiles_sech = 1 (Number of secondary output files to be written) 2: nfsech = 27 (Number of requested secondary history fields) 115200 (number of steps from 0,0,0) 0: nlat = 36 (number of latitudes) 0: nlon = 72 (number of longitudes) 0: nlev = 29 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -6.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -7.000 (bottom interface level) 0: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 0: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 0: (amp/phase of semi-diurnal tide) 0: f107d = 0.7000E+02 (daily solar flux) 0: f107a = 0.7000E+02 (average solar flux) 0: hpower = 0.1800E+02 (Gw) 0: ctpoten = 0.3000E+02 (Volts) 0: kp = 0.1000E+37 () 0: byimf = 0.0000E+00 0: bzimf = 0.1000E+37 0: swvel = 0.1000E+37 0: swden = 0.1000E+37 0: al = 0.1000E+37 0: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 0: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 0: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 0: colfac = 0.15E+01 0: joulefac = 0.15E+01 0: p0 = 0.50E-06 0: 1: mxhist_sech = 24 (Maximum number of secondary histories per file) 2: secondary history field 1: TN p0_model= 0.50E-03 0: grav = 0.87E+03 0: nflds = 28 (number of model fields) 0: gswm_mi_di_ncfile = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc 0: gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: see_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_ncfile = [none] 0: imf_ncfile = [none] 0: saber_ncfile = [none] 0: tidi_ncfile = [none] 0: ctmt_ncfile = [none] 0: bgrddata_ncfile = [none] 0: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 0: LBC = -7.00 (lower boundary interface level) 0: ntask_mpi = 16 (number of MPI tasks) 0: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 0: There are 28 fields on this history, as follows: 0: TN UN VN O2 O1 N4S NO HE 0: AR OP N2D TI TE NE O2P OMEGA 0: Z POTEN TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM 0: N1: nfsech = 27 (Number of requested secondary history fields) 2: secondary history field 2: UN O_NM OP_NM HE_NM AR_NM 0: ------------------------------------------------------------------------ 0: 0: 0: Enter advance: iter= 115200 nstep= 1440 1: secondary history field 1: TN 2: secondary history field 3: VN 1: secondary history field 2: UN 2: secondary history field 4: WN 1: secondary history field 3: VN 2: secondary history field 5: O2 1: secondary history field 4: WN 2: secondary history field 6: O1 1: secondary history field 5: O2 2: secondary history field 7: N2 1: secondary history field 6: O1 2: secondary history field 8: NO 1: secondary history field 7: N2 2: secondary history field 9: N4S 1: secondary history field 8: NO 2: secondary history field 10: HE 1: secondary history field 9: N4S 2: secondary history field 11: NE 1: secondary history field 10: HE 2: secondary history field 12: TE 1: secondary history field 11: NE 2: secondary history field 13: TI 1: secondary history field 12: TE 2: secondary history field 14: TEC 1: secondary history field 13: TI 2: secondary history field 15: O2P 1: secondary history field 14: TEC 2: secondary history field 16: OP 1: secondary history field 15: O2P 2: secondary history field 17: POTEN 3: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 2: secondary history field 18: UI_ExB 1: secondary history field 16: OP 2: secondary history field 19: VI_ExB 1: secondary history field 17: POTEN 2: secondary history field 20: WI_ExB 1: secondary history field 18: UI_ExB 2: secondary history field 21: DEN 1: secondary history field 19: VI_ExB 2: secondary history field 22: QJOULE 1: secondary history field 20: WI_ExB 2: secondary history field 23: HMF2 1: secondary history field 21: DEN 2: secondary history field 24: NMF2 1: secondary history field 22: QJOULE 2: secondary history field 25: Z 1: secondary history field 23: HMF2 2: secondary history field 26: ZG 1: secondary history field 24: NMF2 2: secondary history field 27: ZMAG 1: secondary history field 25: Z 2: 1: secondary history field 26: ZG 2: ------------------------------------------------------------------------------------------------ 1: secondary history field 27: ZMAG 2: Table of Available Diagnostic Fields: 1: 2: Shortnames may be added to namelist SECFLDS 1: ------------------------------------------------------------------------------------------------ 2: 1: Table of Available Diagnostic Fields: 2: Field Shortname Units Levels Caller Longname 1: Shortnames may be added to namelist SECFLDS 2: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 1: 2: 1 CO2_COOL erg/g/s lev newton.F CO2 Cooling 1: Field Shortname Units Levels Caller Longname 2: 2 NO_COOL erg/g/s lev newton.F NO Cooling 1: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2: 3 DEN g/cm3 ilev dt.F Total Density 1: 1 CO2_COOL erg/g/s lev newton.F CO2 Cooling 2: 4 HEATING erg/g/s lev dt.F Total Heating 1: 2 NO_COOL 3: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 2: 5 HMF2 km none elden.F HMF2: Height of the F2 Layer erg/g/s lev newton.F NO Cooling 2: 6 NMF2 1/cm3 none elden.F NMF2: Peak Density of the F2 Layer 1: 3 DEN g/cm3 ilev dt.F Total Density 2: 7 FOF2 MHz none elden.F FOF2: Critical Frequency of the F2 Layer 1: 4 HEATING erg/g/s lev dt.F Total Heating 2: 8 JE13D A/m2 mlev current.F90 JE13D: Eastward current density (3d) 1: 5 HMF2 km none elden.F HMF2: Height of the F2 Layer 2: 9 JE23D A/m2 mlev current.F90 JE23D: Downward current density (3d) 1: 6 NMF2 1/cm3 none elden.F NMF2: Peak Density of the F2 Layer 2: 10 JQR A/m2 none current.F90 JQR: Upward current density (2d) 1: 7 FOF2 MHz none elden.F FOF2: Critical Frequency of the F2 Layer 2: 11 KQLAM A/m none current.F90 KQLAM: Height-integrated current density (+north) 1: 8 JE13D A/m2 mlev current.F90 JE13D: Eastward current density (3d) 2: 12 KQPHI A/m none current.F90 KQPHI: Height-integrated current density (+east) 1: 9 JE23D A/m2 mlev current.F90 JE23D: Downward current density (3d) 2: 13 LAMDA_HAL 1/s lev lamdas.F LAMDA_HAL: Hall Ion Drag Coefficient 1: 10 JQR A/m2 none current.F90 JQR: Upward current density (2d) 2: 14 LAMDA_PED 1/s lev lamdas.F LAMDA_PED: Pedersen Ion Drag Coefficient 1: 11 KQLAM A/m none current.F90 KQLAM: Height-integrated current density (+north) 2: 15 MU_M g/cm/s lev cpktkm.F MU_M: Molecular Viscosity Coefficient 1: 12 KQPHI A/m none current.F90 KQPHI: Height-integrated current density3: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 2: 16 QJOULE erg/g/s lev qjoule.F QJOULE: Joule Heating (+east) 2: 17 SCHT km lev addiag.F SCHT: Pressure Scale Height 1: 13 LAMDA_HAL 1/s lev lamdas.F LAMDA_HAL: Hall Ion Drag Coefficient 2: 18 SIGMA_HAL S/m lev lamdas.F SIGMA_HAL: Hall Conductivity 1: 14 LAMDA_PED 1/s lev lamdas.F LAMDA_PED: Pedersen Ion Drag Coefficient 2: 19 SIGMA_PED S/m lev lamdas.F SIGMA_PED: Pedersen Conductivity 1: 15 MU_M g/cm/s lev cpktkm.F MU_M: Molecular Viscosity Coefficient 2: 20 TEC 1/cm2 none elden.F TEC: Total Electron Content 1: 16 QJOULE erg/g/s lev qjoule.F QJOULE: Joule Heating 2: 21 UI_ExB cm/s ilev ionvel.F UI: Zonal ExB Velocity 1: 17 SCHT km lev addiag.F SCHT: Pressure Scale Height 2: 22 VI_ExB cm/s ilev ionvel.F VI: Meridional ExB Velocity 1: 18 SIGMA_HAL S/m lev lamdas.F SIGMA_HAL: Hall Conductivity 2: 23 WI_ExB cm/s ilev ionvel.F WI: Vertical ExB Velocity 1: 19 SIGMA_PED S/m lev lamdas.F SIGMA_PED: Pedersen Conductivity 2: 24 WN cm/s ilev swdot.F WN: Neutral Vertical Wind (plus up) 1: 20 TEC 1/cm2 none elden.F TEC: Total Electron Content 2: 25 O_N2 none lev comp.F O/N2 RATIO 1: 21 UI_ExB cm/s ilev ionvel.F UI: Zonal ExB Velocity 2: 26 QJOULE_INTEG erg/cm2/s none qjoule.F Height-integrated Joule Heating 1: 22 VI_ExB cm/s ilev ionvel.F VI: Meridional ExB Velocity 2: 27 BX none oplus.F BX/BMAG: Normalized eastward component of magnetic field 1: 23 WI_ExB cm/s ilev ionvel.F WI: 3: 2: 28 BY none oplus.F BY/BMAG: Normalized northward component of magnetic field Vertical ExB Velocity 2: 29 BZ none oplus.F BZ/BMAG: Normalized upward component of magnetic field 1: 24 WN cm/s ilev swdot.F WN: Neutral Vertical Wind (plus up) 2: 30 BMAG Gauss none oplus.F BMAG: Magnetic field magnitude 1: 25 O_N2 none lev comp.F O/N2 RATIO 2: 31 EX V/m ilev pdynamo.F EX: Zonal component of electric field 1: 26 QJOULE_INTEG erg/cm2/s none qjoule.F Height-integrated Joule Heating 2: 32 EY V/m ilev pdynamo.F EY: Meridional component of electric field 1: 27 BX none oplus.F BX/BMAG: Normalized eastward component of magnetic field 2: 33 EZ V/m ilev pdynamo.F EZ: Vertical component of electric field 1: 28 BY none oplus.F BY/BMAG: Normalized northward component of magnetic field 2: 34 ED1 V/m imlev pdynamo.F ED1: Magnetic eastward component of electric field 1: 29 BZ none oplus.F BZ/BMAG: Normalized upward component of magnetic field 2: 35 ED2 V/m imlev pdynamo.F ED2: Magnetic downward (equatorward) component of electric field 1: 30 BMAG Gauss none oplus.F BMAG: Magnetic field magnitude 2: 36 PHIM2D V none pdynamo.F PHIM2D: 2d Electric Potential on magnetic grid 1: 31 EX V/m ilev pdynamo.F EX: Zonal component of electric field 2: 37 N2 mmr lev comp.F N2: Molecular Nitrogen 1: 32 EY V/m ilev pdynamo.F EY: Meridional component of electric field 2: 38 ZGMID cm lev addiag.F ZGMID: Geometric Height at midpoints 1: 33 EZ V/m ilev pdynamo.F E3: Model run initialization: 2: 39 CUSP erg/cm2/s none dynamics.F CUSP Low Energy Electron Flux Z: Vertical component of electric field 2: 40 DRIZZLE erg/cm2/s none dynamics.F DRIZZLE Low Energy Electron Flux 1: 34 ED1 V/m imlev pdynamo.F ED1: Magnetic eastward component of electric field 2: 41 ALFA keV none dynamics.F Aurora Characteristic Energy 1: 35 ED2 V/m imlev pdynamo.F ED2: Magnetic downward (equatorward) component of electric field 2: 42 NFLUX #/cm2/s none dynamics.F Aurora Number Flux 1: 36 PHIM2D V none pdynamo.F PHIM2D: 2d Electric Potential on magnetic grid 2: 43 EFLUX erg/cm2/s none dynamics.F Aurora Energy Flux 1: 37 N2 mmr lev comp.F N2: Molecular Nitrogen 2: ------------------------------------------------------------------------------------------------ 1: 38 ZGMID cm lev addiag.F ZGMID: Geometric Height at midpoints 2: 1: 39 CUSP erg/cm2/s none dynamics.F CUSP Low Energy Electron Flux 2: 1: 40 DRIZZLE erg/cm2/s none dynamics.F DRIZZLE Low Energy Electron Flux 2: ------------------------------------------------------------------------ 1: 41 ALFA keV none dynamics.F Aurora Characteristic Energy 2: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 1: 42 NFLUX #/cm2/s none dynamics.F Aurora Number Flux 2: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 1: 43 EFLUX erg/cm2/s none dynamics.F Aurora Ene3: nstep = 1440 (Number of time steps this run) 2: ------------------------------------------------------------------------ rgy Flux 2: 1: ------------------------------------------------------------------------------------------------ 2: Acquired source history file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 1: 2: (disk file is /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc) 1: 2: Reading source history from diskfile /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc: 1: ------------------------------------------------------------------------ 2: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 1: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 2: Note nc_rdhist: unused variable: calendar_advance 1: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 2: Note nc_rdhist: unused variable: write_date 1: ------------------------------------------------------------------------ 2: Note nc_rdhist: unused variable: crit1 1: 2: Note nc_rdhist: unused variable: crit2 1: Acquired source history file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 2: Note nc_rdhist: unused variable: mag 1: (disk file is /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc) 2: Read field TN 3d subdomain min,max= 0.1478E+03 0.7814E+03 1: Reading source history from diskfile /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc: 2: Read field UN 3d subdomain min,max= -0.1127E+05 0.2920E+05 1: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 2: Read field VN 3d subdomain min,max= -0.2882E+05 0.2997E+05 1: Note nc_rdhist: unused variable: calendar_advance 2: Read field O2 3d subdomain min,max= 0.4604E-04 0.2304E+00 1: Note nc_rdhist: unused variable: write_date 2: Read field O1 3d subdomain min,max= 0.3265E-02 0.9517E+00 3: iter = 115200 (Initial iteration number) 2: Read field N4S 3d subdomain min,max= 0.1000E-11 0.1415E-01 3: iyear = 2002 (Beginning calendar year) 2: Read field NO 3d subdomain min,max= 0.1570E-06 0.2388E-03 3: iday = 80 (Beginning calendar day) 2: Read field HE 3d subdomain min,max= 0.1152E-05 0.1466E+00 3: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 2: Read field AR 3d subdomain min,max= 0.1104E-07 0.1118E-01 3: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 2: Read field OP 3d subdomain min,max= 0.0000E+00 0.9976E+06 1: Note nc_rdhist: unused variable: crit1 2: Read field N2D 3d subdomain min,max= 0.0000E+00 0.5085E-03 1: Note nc_rdhist: unused variable: crit2 2: Read field TI 3d subdomain min,max= 0.1478E+03 0.1543E+04 1: Note nc_rdhist: unused variable: mag 2: Read field TE 3d subdomain min,max= 0.1478E+03 0.3333E+04 3: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 2: Read field NE 3d subdomain min,max= 0.1233E+04 0.9859E+06 3: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 2: Read field O2P 3d subdomain min,max= 0.0000E+00 0.7976E+05 3: ibgrddata= 0 (If > 0, background datafile will be used.) 2: Read field OMEGA 3d subdomain min,max= -0.4415E-04 0.4824E-04 3: ictmt= 0 (If > 0, CTMT tidal database will be used.) 2: Read field Z 3d subdomain min,max= 0.9603E+07 0.5217E+08 1: Read field TN 3d subdomain min,max= 0.1486E+03 0.7638E+03 2: Read field POTEN 3d subdomain min,max= -0.1642E+05 0.9464E+04 3: 2: Read field TN_NM 3d subdomain min,max= 0.1478E+03 0.7814E+03 3: This is an initial run: 2: Read field UN_NM 3d subdomain min,max= -0.1128E+05 0.2922E+05 3: start_year = 2002 (Starting year of initial run) 2: Read field VN_NM 3d subdomain min,max= -0.2881E+05 0.2998E+05 3: start_day = 80 (Starting day of initial run) 2: Read field O2_NM 3d subdomain min,max= 0.4600E-04 0.2304E+00 3: start_mtime= 80 0 0 (Starting mtime of initial run) 2: Read field O1_NM 3d subdomain min,max= 0.3265E-02 0.9517E+00 3: 2: Read field N4S_NM 3d subdomain min,max= 0.1000E-11 0.1414E-01 1: Read field UN 3d subdomain min,max= -0.3096E+05 0.4617E+04 2: Read field NO_NM 3d subdomain min,max= 0.1574E-06 0.2390E-03 3: Primary Histories: 2: Read field OP_NM 3d subdomain min,max= 0.0000E+00 0.9975E+06 3: nsource = 1 (If > 0, a primary source history was provided) 2: Read field HE_NM 3d subdomain min,max= 0.1152E-05 0.1467E+00 3: nseries_prim = 1 (Number of primary time series) 2: Read field AR_NM 3d subdomain min,max= 0.1102E-07 0.1118E-01 3: nhist_total = 2 (Number of primary histories to be written) 2: Read LBC from source history: i= 95 sh%lbc= -7.00 1: Read field VN 3d subdomain min,max= -0.1493E+05 0.1375E+05 2: 3: nfiles_prim = 1 (Number of primary output files to be written) 2: ------------------------------------------------------------------------ 3: mxhist_prim = 10 (Maximum number of primary histories per file) 2: Read TGCM PRIMARY HISTORY (source history) 3: 2: Diskfile: /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: Secondary Histories: 2: label = tiegcm_res5.0_mareqx_smin 3: nseries_sech = 1 (Number of secondary time series) 2: model_name = tiegcm 1: Read field O2 3d subdomain min,max= 0.3561E-04 0.2306E+00 2: model_version = tiegcm_trunk 3: nsech_total = 24 (Number of secondary histories to be written) 2: create_date= 02/01/16 13:51:46 3: nfiles_sech = 1 (Number of secondary output files to be written) 2: write_date = 3: mxhist_sech = 24 (Maximum number of secondary histories per file) 2: logname = foster 3: nfsech = 27 (Number of requested secondary history fields) 2: host = ys0225 1: Read field O1 3d subdomain min,max= 0.3049E-02 0.9485E+00 2: system = LINUX 3: secondary history field 1: TN 2: run_type = 3: secondary history field 2: UN 2: source_file = 3: secondary history field 3: VN 2: output_file = 3: secondary history field 4: WN 2: source_mtime = 80 0 0 3: secondary history field 5: O2 2: initial_year = 2002 3: secondary history field 6: O1 2: initial_day = 80 1: Read field N4S 3d subdomain min,max= 0.1000E-11 0.1220E-01 2: initial_mtime= 80 0 0 3: secondary history field 7: N2 2: type = primary 3: secondary history field 8: NO 2: ihist = 1 (nth history on history file) 3: secondary history field 9: N4S 2: delhmins= 0 (delta minutes between histories) 3: secondary history field 10: HE 2: calendar year,day = 2002, 80 3: secondary history field 11: NE 2: (model IS being advanced in calendar time) 1: Read field NO 3d subdomain min,max= 0.1219E-06 0.2822E-03 2: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 3: secondary history field 12: TE 2: time = 3: secondary history field 13: TI 2: ut = 0.00 (ut hours) 3: secondary history field 14: TEC 2: step = 60 (time step in seconds) 3: secondary history field 15: O2P 2: iter = 115200 (number of steps from 0,0,0) 3: secondary history field 16: OP 2: nlat = 36 (number of latitudes) 3: secondary history field 17: POTEN 2: nlon = 72 (number of longitudes) 1: Read field HE 3d subdomain min,max= 0.1152E-05 0.2095E+00 2: nlev = 29 (number of levels) 3: secondary history field 18: UI_ExB 2: zmtop = 7.250 (top midpoint level) 3: secondary history field 19: VI_ExB 2: zmbot = -6.750 (bottom midpoint level) 3: secondary history field 20: WI_ExB 2: zitop = 7.000 (top interface level) 3: secondary history field 21: DEN 2: zibot = -7.000 (bottom interface level) 3: secondary history field 22: QJOULE 2: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 1: Read field AR 3d subdomain min,max= 0.5826E-08 0.1118E-01 2: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 3: secondary history field 23: HMF2 2: (amp/phase of semi-diurnal tide) 3: secondary history field 24: NMF2 2: f107d = 0.7000E+02 (daily solar flux) 3: secondary history field 25: Z 2: f107a = 0.7000E+02 (average solar flux) 3: secondary history field 26: ZG 2: hpower = 0.1800E+02 (Gw) 3: secondary history field 27: ZMAG 2: ctpoten = 0.3000E+02 (Volts) 1: Read field OP 3d subdomain min,max= 0.0000E+00 0.7909E+06 2: kp = 0.1000E+37 () 3: 2: byimf = 0.0000E+00 3: ------------------------------------------------------------------------------------------------ 2: bzimf = 0.1000E+37 3: Table of Available Diagnostic Fields: 2: swvel = 0.1000E+37 3: Shortnames may be added to namelist SECFLDS 2: swden = 0.1000E+37 3: 2: al = 0.1000E+37 3: Field Shortname Units Levels Caller Longname 2: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 1: Read field N2D 3d subdomain min,max= 0.0000E+00 0.5181E-03 2: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 3: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 3: 1 CO2_COOL erg/g/s lev newton.F CO2 Cooling 2: colfac = 0.15E+01 3: 2 NO_COOL erg/g/s lev newton.F NO Cooling 2: joulefac = 0.15E+01 3: 3 DEN g/cm3 ilev dt.F Total Density 2: p0 = 0.50E-06 1: Read field TI 3d subdomain min,max= 0.1486E+03 0.1591E+04 2: p0_model= 0.50E-03 3: 4 HEATING erg/g/s lev dt.F Total Heating 2: grav = 0.87E+03 3: 5 HMF2 km none elden.F HMF2: Height of the F2 Layer 2: nflds = 28 (number of model fields) 3: 6 NMF2 1/cm3 none elden.F NMF2: Peak Density of the F2 Layer 2: gswm_mi_di_ncfile = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc 1: Read field TE 3d subdomain min,max= 0.1486E+03 0.3325E+04 2: gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc 3: 7 FOF2 MHz none elden.F FOF2: Critical Frequency of the F2 Layer 2: gswm_nm_di_ncfile = [none] 3: 8 JE13D A/m2 mlev current.F90 JE13D: Eastward current density (3d) 2: gswm_nm_sdi_ncfile = [none] 3: 9 JE23D A/m2 mlev current.F90 JE23D: Downward current density (3d) 2: see_ncfile = [none] 1: Read field NE 3d subdomain min,max= 0.1278E+04 0.7859E+06 2: gpi_ncfile = [none] 3: 10 JQR A/m2 none current.F90 JQR: Upward current density (2d) 2: ncep_ncfile = [none] 3: 11 KQLAM A/m none current.F90 KQLAM: Height-integrated current density (+north) 2: imf_ncfile = [none] 3: 12 KQPHI A/m none current.F90 KQPHI: Height-integrated current density (+east) 2: saber_ncfile = [none] 1: Read field O2P 3d subdomain min,max= 0.0000E+00 0.8701E+05 2: tidi_ncfile = [none] 3: 13 LAMDA_HAL 1/s lev lamdas.F LAMDA_HAL: Hall Ion Drag Coefficient 2: ctmt_ncfile = [none] 3: 14 LAMDA_PED 1/s lev lamdas.F LAMDA_PED: Pedersen Ion Drag Coefficient 2: bgrddata_ncfile = [none] 3: 15 MU_M g/cm/s lev cpktkm.F MU_M: Molecular Viscosity Coefficient 2: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 1: Read field OMEGA 3d subdomain min,max= -0.4230E-04 0.3621E-04 2: LBC = -7.00 (lower boundary interface level) 3: 16 QJOULE erg/g/s lev qjoule.F QJOULE: Joule Heating 2: ntask_mpi = 16 (number of MPI tasks) 3: 17 SCHT km lev addiag.F SCHT: Pressure Scale Height 2: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 3: 18 SIGMA_HAL S/m lev lamdas.F SIGMA_HAL: Hall Conductivity 2: There are 28 fields on this history, as follows: 3: 19 SIGMA_PED S/m lev lamdas.F SIGMA_PED: Pedersen Conductivity 2: TN UN VN O2 O1 N4S NO HE 1: Read field Z 3d subdomain min,max= 0.9569E+07 0.5179E+08 2: AR OP N2D TI TE NE O2P OMEGA 3: 20 TEC 1/cm2 none elden.F TEC: Total Electron Content 2: Z POTEN TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM 3: 21 UI_ExB cm/s ilev ionvel.F UI: Zonal ExB Velocity 2: NO_NM OP_NM HE_NM AR_NM 3: 22 VI_ExB cm/s ilev ionvel.F VI: Meridional ExB Velocity 2: ------------------------------------------------------------------------ 1: Read field POTEN 3d subdomain min,max= -0.1664E+05 0.1234E+05 2: 3: 23 WI_ExB cm/s ilev ionvel.F WI: Vertical ExB Velocity 2: 3: 24 WN cm/s ilev swdot.F WN: Neutral Vertical Wind (plus up) 2: Enter advance: iter= 115200 nstep= 1440 3: 25 O_N2 none lev comp.F O/N2 RATIO 3: 26 QJOULE_INTEG erg/cm2/s none qjoule.F Height-integrated Joule Heating 1: Read field TN_NM 3d subdomain min,max= 0.1486E+03 0.7637E+03 3: 27 BX none oplus.F BX/BMAG: Normalized eastward component of magnetic field 3: 28 BY none oplus.F BY/BMAG: Normalized northward component of magnetic field 3: 29 BZ none oplus.F BZ/BMAG: Normalized upward component of magnetic field 1: Read field UN_NM 3d subdomain min,max= -0.3096E+05 0.4647E+04 3: 30 BMAG Gauss none oplus.F BMAG: Magnetic field magnitude 3: 31 EX V/m ilev pdynamo.F EX: Zonal component of electric field 3: 32 EY V/m ilev pdynamo.F EY: Meridional component of electric field 1: Read field VN_NM 3d subdomain min,max= -0.1485E+05 0.1377E+05 3: 33 EZ V/m ilev pdynamo.F EZ: Vertical component of electric field 3: 34 ED1 V/m imlev pdynamo.F ED1: Magnetic eastward component of electric field 3: 35 ED2 V/m imlev pdynamo.F ED2: Magnetic downward (equatorward) component of electric field 1: Read field O2_NM 3d subdomain min,max= 0.3561E-04 0.2306E+00 3: 36 PHIM2D V none pdynamo.F PHIM2D: 2d Electric Potential on magnetic grid 3: 37 N2 mmr lev comp.F N2: Molecular Nitrogen 1: Read field O1_NM 3d subdomain min,max= 0.3049E-02 0.9486E+00 3: 38 ZGMID cm lev addiag.F ZGMID: Geometric Height at midpoints 3: 39 CUSP erg/cm2/s none dynamics.F CUSP Low Energy Electron Flux 3: 40 DRIZZLE erg/cm2/s none dynamics.F DRIZZLE Low Energy Electron Flux 3: 41 ALFA keV none dynamics.F Aurora Characteristic Energy 1: Read field N4S_NM 3d subdomain min,max= 0.1000E-11 0.1218E-01 3: 42 NFLUX #/cm2/s none dynamics.F Aurora Number Flux 3: 43 EFLUX erg/cm2/s none dynamics.F Aurora Energy Flux 3: ------------------------------------------------------------------------------------------------ 1: Read field NO_NM 3d subdomain min,max= 0.1220E-06 0.2820E-03 3: 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 1: Read field OP_NM 3d subdomain min,max= 0.0000E+00 0.7889E+06 3: ------------------------------------------------------------------------ 3: 3: Acquired source history file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: (disk file is /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc) 1: Read field HE_NM 3d subdomain min,max= 0.1152E-05 0.2094E+00 3: Reading source history from diskfile /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc: 3: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 3: Note nc_rdhist: unused variable: calendar_advance 1: Read field AR_NM 3d subdomain min,max= 0.5828E-08 0.1118E-01 3: Note nc_rdhist: unused variable: write_date 3: Note nc_rdhist: unused variable: crit1 1: Read LBC from source history: i= 95 sh%lbc= -7.00 1: 1: ------------------------------------------------------------------------ 1: Read TGCM PRIMARY HISTORY (source history) 1: Diskfile: /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 1: label = tiegcm_res5.0_mareqx_smin 1: model_name = tiegcm 1: model_version = tiegcm_trunk 1: create_date= 02/01/16 13:51:46 1: write_date = 1: logname = foster 1: host = ys0225 1: system = LINUX 1: run_type = 1: source_file = 1: output_file = 1: source_mtime = 80 0 0 1: initial_year = 2002 1: initial_day = 80 1: initial_mtime= 80 0 0 1: type = primary 1: ihist = 1 (nth history on history file) 1: delhmins= 0 (delta minutes between histories) 1: calendar year,day = 2002, 80 1: (model IS being advanced in calendar time) 1: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 1: time = 1: ut = 0.00 (ut hours) 1: step = 60 (time step in seconds) 1: iter = 115200 (number of steps3: Note nc_rdhist: unused variable: crit2 from 0,0,0) 1: nlat = 36 (number of latitudes) 1: nlon = 72 (number of longitudes) 1: nlev = 29 (number of levels) 1: zmtop = 7.250 (top midpoint level) 1: zmbot = -6.750 (bottom midpoint level) 1: zitop = 7.000 (top interface level) 1: zibot = -7.000 (bottom interface level) 1: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 1: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 1: (amp/phase of semi-diurnal tide) 1: f107d = 0.7000E+02 (daily solar flux) 1: f107a = 0.7000E+02 (average solar flux) 1: hpower = 0.1800E+02 (Gw) 1: ctpoten = 0.3000E+02 (Volts) 1: kp = 0.1000E+37 () 1: byimf = 0.0000E+00 1: bzimf = 0.1000E+37 1: swvel = 0.1000E+37 1: swden = 0.1000E+37 1: al = 0.1000E+37 1: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 1: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 1: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 1: colfac = 0.15E+01 1: joulefac = 0.15E+01 1: p0 = 0.50E-06 1: p0_model= 0.50E-03 1: g3: Note nc_rdhist: unused variable: mag rav = 0.87E+03 1: nflds = 28 (number of model fields) 1: gswm_mi_di_ncfile = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc 1: gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc 1: gswm_nm_di_ncfile = [none] 1: gswm_nm_sdi_ncfile = [none] 1: see_ncfile = [none] 1: gpi_ncfile = [none] 1: ncep_ncfile = [none] 1: imf_ncfile = [none] 1: saber_ncfile = [none] 1: tidi_ncfile = [none] 1: ctmt_ncfile = [none] 1: bgrddata_ncfile = [none] 1: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 1: LBC = -7.00 (lower boundary interface level) 1: ntask_mpi = 16 (number of MPI tasks) 1: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 1: There are 28 fields on this history, as follows: 1: TN UN VN O2 O1 N4S NO HE 1: AR OP N2D TI TE NE O2P OMEGA 1: Z POTEN TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM 1: NO_NM OP_NM HE_NM3: Read field TN 3d subdomain min,max= 0.1481E+03 0.7537E+03 AR_NM 1: ------------------------------------------------------------------------ 1: 3: Read field UN 3d subdomain min,max= -0.2474E+05 0.8887E+04 3: Read field VN 3d subdomain min,max= -0.2876E+05 0.3003E+05 3: Read field O2 3d subdomain min,max= 0.2896E-04 0.2304E+00 3: Read field O1 3d subdomain min,max= 0.3265E-02 0.9510E+00 3: Read field N4S 3d subdomain min,max= 0.1000E-11 0.1217E-01 3: Read field NO 3d subdomain min,max= 0.1103E-06 0.2388E-03 3: Read field HE 3d subdomain min,max= 0.1152E-05 0.2255E+00 3: Read field AR 3d subdomain min,max= 0.4033E-08 0.1118E-01 3: Read field OP 3d subdomain min,max= 0.0000E+00 0.8519E+06 3: Read field N2D 3d subdomain min,max= 0.0000E+00 0.5149E-03 3: Read field TI 3d subdomain min,max= 0.1481E+03 0.1484E+04 3: Read field TE 3d subdomain min,max= 0.1481E+03 0.3297E+04 3: Read field NE 3d subdomain min,max= 0.1197E+04 0.8500E+06 3: Read field O2P 3d subdomain min,max= 0.0000E+00 0.7661E+05 3: Read field OMEGA 3d subdomain min,max= -0.5512E-04 0.3597E-04 3: Read field Z 3d subdomain min,max= 0.9568E+07 0.5108E+08 3: Read field POTEN 3d subdomain min,max= -0.1724E+04 0.1263E+05 3: Read field TN_NM 3d subdomain min,max= 0.1481E+03 0.7537E+03 3: Read field UN_NM 3d subdomain min,max= -0.2474E+05 0.8950E+04 3: Read field VN_NM 3d subdomain min,max= -0.2877E+05 0.3003E+05 3: Read field O2_NM 3d subdomain min,max= 0.2895E-04 0.2304E+00 3: Read field O1_NM 3d subdomain min,max= 0.3265E-02 0.9510E+00 3: Read field N4S_NM 3d subdomain min,max= 0.1000E-11 0.1215E-01 3: Read field NO_NM 3d subdomain min,max= 0.1105E-06 0.2388E-03 3: Read field OP_NM 3d subdomain min,max= 0.0000E+00 0.8497E+06 3: Read field HE_NM 3d subdomain min,max= 0.1152E-05 0.2255E+00 3: Read field AR_NM 3d subdomain min,max= 0.4034E-08 0.1118E-01 3: Read LBC from source history: i= 95 sh%lbc= -7.00 3: 3: ------------------------------------------------------------------------ 3: Read TGCM PRIMARY HISTORY (source history) 3: Diskfile: /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 3: label = tiegcm_res5.0_mareqx_smin 3: model_name = tiegcm 3: model_version = tiegcm_trunk 3: create_date= 02/01/16 13:51:46 3: write_date = 3: logname = foster 3: host = ys0225 3: system = LINUX 3: run_type = 3: source_file = 3: output_file = 3: source_mtime = 80 0 0 3: initial_year = 2002 3: initial_day = 80 3: initial_mtime= 80 0 0 3: type = primary 3: ihist = 1 (nth history on history file) 3: delhmins= 0 (delta minutes between histories) 3: calendar year,day = 2002, 80 3: (model IS being advanced in calendar time) 3: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 3: time = 3: ut = 0.00 (ut hours) 3: step = 60 (time step in seconds) 3: iter = 115200 (number of steps from 0,0,0) 3: nlat = 36 (number of latitudes) 3: nlon = 72 (number of longitudes) 3: nlev = 29 (number of levels) 3: zmtop = 7.250 (top midpoint level) 3: zmbot = -6.750 (bottom midpoint level) 3: zitop = 7.000 (top interface level) 3: zibot = -7.000 (bottom interface level) 3: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 3: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 3: (amp/phase of semi-diurnal tide) 3: f107d = 0.7000E+02 (daily solar flux) 3: f107a = 0.7000E+02 (average solar flux) 3: hpower = 0.1800E+02 (Gw) 3: ctpoten = 0.3000E+02 (Volts) 3: kp = 0.1000E+37 () 3: byimf = 0.0000E+00 3: bzimf = 0.1000E+37 3: swvel = 0.1000E+37 3: swden = 0.1000E+37 3: al = 0.1000E+37 3: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 3: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 3: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 3: colfac = 0.15E+01 3: joulefac = 0.15E+01 3: p0 = 0.50E-06 3: p0_model= 0.50E-03 3: grav = 0.87E+03 3: nflds = 28 (number of model fields) 3: gswm_mi_di_ncfile = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc 3: gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc 3: gswm_nm_di_ncfile = [none] 3: gswm_nm_sdi_ncfile = [none] 3: see_ncfile = [none] 3: gpi_ncfile = [none] 3: ncep_ncfile = [none] 3: imf_ncfile = [none] 3: saber_ncfile = [none] 3: tidi_ncfile = [none] 3: ctmt_ncfile = [none] 3: bgrddata_ncfile = [none] 3: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 3: LBC = -7.00 (lower boundary interface level) 3: ntask_mpi = 16 (number of MPI tasks) 3: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 3: There are 28 fields on this history, as follows: 3: TN UN VN O2 O1 N4S NO HE 3: AR OP N2D TI TE NE O2P OMEGA 3: Z POTEN TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM 3: NO_NM OP_NM HE_NM AR_NM 3: ------------------------------------------------------------------------ 3: 1: 1: Enter advance: iter= 115200 nstep= 1440 3: 3: Enter advance: iter= 115200 nstep= 1440 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: 2: ------------------------------------------------------------------------ 2: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: ------------------------------------------------------------------------ 2: 2: 2: ------------------------------------------------------------------------ 2: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: ------------------------------------------------------------------------ 0: 0: Starting primary history time series 1 at model time 80 0 0 0 3: 0: Created netcdf file tiegcm2.0_res5.0_mareqx_smin_prim_001.nc ncid= 8 0: Opened new primary history file tiegcm2.0_res5.0_mareqx_smin_prim_001.nc (ioutfile= 1) 0: Copied history structure at modeltime 80 0 0 0: output_hist: copied source history structure sh to history structure h (nhist= 1) 3: 3: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: nc_define: svn_revision = tiegcm2.0 0: 0: ------------------------------------------------------------------------ 0: Write TGCM PRIMARY HISTORY 0: Diskfile: tiegcm2.0_res5.0_mareqx_smin_prim_001.nc 0: label = tiegcm_res5.0_mareqx_smin 0: model_name = tiegcm 0: model_version = tiegcm_trunk 0: create_date= 03/17/16 11:45:28 0: write_date = 0: logname = foster 0: host = ys0225 0: system = LINUX 0: run_type = 0: source_file = 0: output_file = 0: source_mtime = 80 0 0 0: initial_year = 2002 0: initial_day = 80 0: initial_mtime= 80 0 0 0: type = primary 0: ihist = 1 (nth history on history file) 0: delhmins= 0 (delta minutes between histories) 0: calendar year,day = 2002, 80 0: (model IS being advanced in calendar time) 0: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 0: time = 0: ut = 0.00 (ut hours) 0: step = 60 (time step in seconds) 0: iter = 115200 (number of steps from 0,0,0) 0: nlat = 36 (number of latitudes) 0: nlon = 72 (number of longitudes) 0: nlev = 29 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -6.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -7.000 (bottom interface level) 0: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 0: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 0: (amp/phase of semi-diurnal tide) 0: f107d = 0.7000E+02 (daily solar flux) 0: f107a = 0.7000E+02 (average solar flux) 0: hpower = 0.1800E+02 (Gw) 0: ctpoten = 0.3000E+02 (Volts) 0: kp = 0.1000E+37 () 0: byimf = 0.0000E+00 0: bzimf = 0.1000E+37 0: swvel = 0.1000E+37 0: swden = 0.1000E+37 0: al = 0.1000E+37 0: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 0: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 0: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 0: colfac = 0.15E+01 0: joulefac = 0.15E+01 0: p0 = 0.50E-06 0: p0_model= 0.50E-03 0: grav = 0.87E+03 0: nflds = 28 (number of model fields) 0: gswm_mi_di_ncfile = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc 0: gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: see_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_ncfile = [none] 0: imf_ncfile = [none] 0: saber_ncfile = [none] 0: tidi_ncfile = [none] 0: ctmt_ncfile = [none] 0: bgrddata_ncfile = [none] 0: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 0: LBC = -7.00 (lower boundary interface level) 0: ntask_mpi = 16 (number of MPI tasks) 0: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 0: There are 28 fields on this history, as follows: 0: TN UN VN O2 O1 N4S NO HE 0: AR OP N2D TI TE NE O2P OMEGA 0: Z POTEN TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM 0: NO_NM OP_NM HE_NM AR_NM 0: ------------------------------------------------------------------------ 0: 0: Wrote primary history 80, 0, 0 to tiegcm2.0_res5.0_mareqx_smin_prim_001.nc ( 1 of 2) 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: 1: 2: ------------------------------------------------------------------------ 1: ------------------------------------------------------------------------ 2: 3: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: ------------------------------------------------------------------------ 3: 2: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: ------------------------------------------------------------------------ 2: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: 2: ------------------------------------------------------------------------ 3: ------------------------------------------------------------------------ 2: 3: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: 3: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: ------------------------------------------------------------------------ 3: ------------------------------------------------------------------------ 2: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: 3: 3: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: 0: ------------------------------------------------------------------------ 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: 0: ------------------------------------------------------------------------ 1: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: 1: ------------------------------------------------------------------------ 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 2: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: 0: ------------------------------------------------------------------------ 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 1: 1: ------------------------------------------------------------------------ 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: Getfile: Found file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: 2: ------------------------------------------------------------------------ 3: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 2: 3: 2: aurora_cons: 3: ------------------------------------------------------------------------ 2: cusp: alfac= 0.100 ec= 0.072 fc= 0.2251E+09 3: 2: drizzle: alfad= 0.500 ed= 0.012 fd= 0.7491E+07 3: aurora_cons: 2: auroral radius = max of rhp,rcp= 19.999 17.905 3: cusp: alfac= 0.100 ec= 0.072 fc= 0.2251E+09 2: roth, rote (MLT) = 0.448 -0.072 3: drizzle: alfad= 0.500 ed= 0.012 fd= 0.7491E+07 2: 1/e-widths = h1,h2= 2.350 3.505 3: auroral radius = max of rhp,rcp= 19.999 17.905 2: energy flux = e1,e2= 1.595 2.980 3: roth, rote (MLT) = 0.448 -0.072 2: add_sproton = F 3: 1/e-widths = h1,h2= 2.350 3.505 2: 3: energy flux = e1,e2= 1.595 2.980 2: mpitime_init: Completed initialization of mpi timing 3: add_sproton = F 3: 3: mpitime_init: Completed initialization of mpi timing 0: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: 0: ------------------------------------------------------------------------ 0: 0: aurora_cons: 0: cusp: alfac= 0.100 ec= 0.072 fc= 0.2251E+09 0: drizzle: alfad= 0.500 ed= 0.012 fd= 0.7491E+07 0: auroral radius = max of rhp,rcp= 19.999 17.905 0: roth, rote (MLT) = 0.448 -0.072 0: 1/e-widths = h1,h2= 2.350 3.505 0: energy flux = e1,e2= 1.595 2.980 0: add_sproton = F 0: 0: mpitime_init: Completed initialization of mpi timing 1: Completed read from GSWM data file /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 1: 1: ------------------------------------------------------------------------ 1: 1: aurora_cons: 1: cusp: alfac= 0.100 ec= 0.072 fc= 0.2251E+09 1: drizzle: alfad= 0.500 ed= 0.012 fd= 0.7491E+07 1: auroral radius = max of rhp,rcp= 19.999 17.905 1: roth, rote (MLT) = 0.448 -0.072 1: 1/e-widths = h1,h2= 2.350 3.505 1: energy flux = e1,e2= 1.595 2.980 1: add_sproton = F 1: 1: mpitime_init: Completed initialization of mpi timing 0: Step 10 of 1440 mtime= 80 0 10 0 secs/step (sys) = 0.15 1: Step 10 of 1440 mtime= 80 0 10 0 secs/step (sys) = 0.15 2: Step 10 of 1440 mtime= 80 0 10 0 secs/step (sys) = 0.15 3: Step 10 of 1440 mtime= 80 0 10 0 secs/step (sys) = 0.15 0: Step 20 of 1440 mtime= 80 0 20 0 secs/step (sys) = 0.14 1: Step 20 of 1440 mtime= 80 0 20 0 secs/step (sys) = 0.14 2: Step 20 of 1440 mtime= 80 0 20 0 secs/step (sys) = 0.14 3: Step 20 of 1440 mtime= 80 0 20 0 secs/step (sys) = 0.14 0: Step 30 of 1440 mtime= 80 0 30 0 secs/step (sys) = 0.14 1: Step 30 of 1440 mtime= 80 0 30 0 secs/step (sys) = 0.14 2: Step 30 of 1440 mtime= 80 0 30 0 secs/step (sys) = 0.14 3: Step 30 of 1440 mtime= 80 0 30 0 secs/step (sys) = 0.14 0: Step 40 of 1440 mtime= 80 0 40 0 secs/step (sys) = 0.14 1: Step 40 of 1440 mtime= 80 0 40 0 secs/step (sys) = 0.14 2: Step 40 of 1440 mtime= 80 0 40 0 secs/step (sys) = 0.14 3: Step 40 of 1440 mtime= 80 0 40 0 secs/step (sys) = 0.14 0: Step 50 of 1440 mtime= 80 0 50 0 secs/step (sys) = 0.15 1: Step 50 of 1440 mtime= 80 0 50 0 secs/step (sys) = 0.15 2: Step 50 of 1440 mtime= 80 0 50 0 secs/step (sys) = 0.15 3: Step 50 of 1440 mtime= 80 0 50 0 secs/step (sys) = 0.15 0: Step 60 of 1440 mtime= 80 1 0 0 secs/step (sys) = 0.14 1: Step 60 of 1440 mtime= 80 1 0 0 secs/step (sys) = 0.14 2: Step 60 of 1440 mtime= 80 1 0 0 secs/step (sys) = 0.14 3: Step 60 of 1440 mtime= 80 1 0 0 secs/step (sys) = 0.14 2: 0: 0: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29) 0: 0: Initialized diagnostic secondary history field ZG (ix= 26): 0: short_name = ZG 0: long_name = Geometric Height ZG 0: units = cm 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: 2: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29) 1: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29) 2: 1: 2: Initialized diagnostic secondary history field ZG (ix= 26): 1: Initialized diagnostic secondary history field ZG (ix= 26): 2: short_name = ZG 1: short_name = ZG 2: long_name = Geometric Height ZG 1: long_name = Geometric Height ZG 2: units = cm 1: units = cm 2: geo = T 1: geo = T 2: mag = F 1: mag = F 2: dimnames = lon lat ilev 1: dimnames = lon lat ilev 2: dimsizes = 76 36 29 1: dimsizes = 76 36 29 2: ndims = 3 1: ndims = 3 2: task0_only = F 1: task0_only = F 3: 3: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29) 3: 3: Initialized diagnostic secondary history field ZG (ix= 26): 3: short_name = ZG 3: long_name = Geometric Height ZG 3: units = cm 3: geo = T 3: mag = F 3: dimnames = lon lat ilev 3: dimsizes = 76 36 29 3: ndims = 3 3: task0_only = F 0: 0: Allocated 3d sech field WN(lon= 76,lat= 36,ilev= 29) 0: 0: Initialized diagnostic secondary history field WN (ix= 4): 0: short_name = WN 0: long_name = WN: Neutral Vertical Wind (plus up) 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: 2: 1: Allocated 3d sech field WN(lon= 76,lat= 36,ilev= 29) 2: Allocated 3d sech field WN(lon= 76,lat= 36,ilev= 29) 1: 2: 1: Initialized diagnostic secondary history field WN (ix= 4): 2: Initialized diagnostic secondary history field WN (ix= 4): 1: short_name = WN 2: short_name = WN 1: long_name = WN: Neutral Vertical Wind (plus up) 2: long_name = WN: Neutral Vertical Wind (plus up) 1: units = cm/s 2: units = cm/s 1: geo = T 2: geo = T 1: mag = F 2: mag = F 1: dimnames = lon lat ilev 2: dimnames = lon lat ilev 1: dimsizes = 76 36 29 2: dimsizes = 76 36 29 0: 0: Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29) 0: 0: Initialized diagnostic secondary history field UI_ExB (ix= 18): 0: short_name = UI_ExB 0: long_name = UI: Zonal ExB Velocity 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 1: ndims = 3 2: ndims = 3 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: task0_only = F 2: task0_only = F 3: 2: 3: Allocated 3d sech field WN(lon= 76,lat= 36,ilev= 29) 2: Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29) 3: 2: 3: Initialized diagnostic secondary history field WN (ix= 4): 2: Initialized diagnostic secondary history field UI_ExB (ix= 18): 0: 0: Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29) 3: short_name = WN 2: short_name = UI_ExB 0: 0: Initialized diagnostic secondary history field VI_ExB (ix= 19): 0: short_name = VI_ExB 0: long_name = VI: Meridional ExB Velocity 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 3: long_name = WN: Neutral Vertical Wind (plus up) 2: long_name = UI: Zonal ExB Velocity 3: units = cm/s 2: units = cm/s 3: geo = T 2: geo = T 3: mag = F 2: mag = F 3: dimnames = lon lat ilev 2: dimnames = lon lat ilev 0: 0: Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29) 0: 0: Initialized diagnostic secondary history field WI_ExB (ix= 20): 0: short_name = WI_ExB 0: long_name = WI: Vertical ExB Velocity 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 3: dimsizes = 76 36 29 2: dimsizes = 76 36 29 3: ndims = 3 2: ndims = 3 3: task0_only = F 2: task0_only = F 3: 2: 3: Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29) 2: Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29) 1: 2: 1: Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29) 2: Initialized diagnostic secondary history field VI_ExB (ix= 19): 3: 2: short_name = VI_ExB 1: 2: long_name = VI: Meridional ExB Velocity 1: Initialized diagnostic secondary history field UI_ExB (ix= 18): 2: units = cm/s 1: short_name = UI_ExB 2: geo = T 1: long_name = UI: Zonal ExB Velocity 2: mag = F 1: units = cm/s 2: dimnames = lon lat ilev 1: geo = T 2: dimsizes = 76 36 29 1: mag = F 2: ndims = 3 1: dimnames = lon lat ilev 2: task0_only = F 1: dimsizes = 76 36 29 2: 1: ndims = 3 2: Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29) 1: task0_only = F 2: 3: Initialized diagnostic secondary history field UI_ExB (ix= 18): 2: Initialized diagnostic secondary history field WI_ExB (ix= 20): 3: short_name = UI_ExB 2: short_name = WI_ExB 3: long_name = UI: Zonal ExB Velocity 2: long_name = WI: Vertical ExB Velocity 3: units = cm/s 2: units = cm/s 3: geo = T 2: geo = T 3: mag = F 2: mag = F 3: dimnames = lon lat ilev 2: dimnames = lon lat ilev 3: dimsizes = 76 36 29 2: dimsizes = 76 36 29 3: ndims = 3 2: ndims = 3 3: task0_only = F 2: task0_only = F 1: 1: Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29) 3: 3: Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29) 1: 1: Initialized diagnostic secondary history field VI_ExB (ix= 19): 1: short_name = VI_ExB 1: long_name = VI: Meridional ExB Velocity 1: units = cm/s 1: geo = T 1: mag = F 1: dimnames = lon lat ilev 1: dimsizes = 76 36 29 1: ndims = 3 1: task0_only = F 3: 3: Initialized diagnostic secondary history field VI_ExB (ix= 19): 3: short_name = VI_ExB 3: long_name = VI: Meridional ExB Velocity 3: units = cm/s 3: geo = T 3: mag = F 3: dimnames = lon lat ilev 3: dimsizes = 76 36 29 1: 1: Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29) 3: ndims = 3 3: task0_only = F 1: 1: Initialized diagnostic secondary history field WI_ExB (ix= 20): 1: short_name = WI_ExB 1: long_name = WI: Vertical ExB Velocity 1: units = cm/s 1: geo = T 1: mag = F 1: dimnames = lon lat ilev 1: dimsizes = 76 36 29 1: ndims = 3 1: task0_only = F 3: 3: Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29) 3: 3: Initialized diagnostic secondary history field WI_ExB (ix= 20): 3: short_name = WI_ExB 3: long_name = WI: Vertical ExB Velocity 3: units = cm/s 3: geo = T 3: mag = F 3: dimnames = lon lat ilev 3: dimsizes = 76 36 29 3: ndims = 3 3: task0_only = F 0: 0: Allocated 2d sech field TEC(lon= 76,lat= 36) 0: 0: Initialized diagnostic secondary history field TEC (ix= 14): 0: short_name = TEC 0: long_name = TEC: Total Electron Content 0: units = 1/cm2 0: geo = T 0: mag = F 0: dimnames = lon lat 0: dimsizes = 76 36 0 0: ndims = 2 0: task0_only = F 0: 0: Allocated 2d sech field HMF2(lon= 76,lat= 36) 0: 0: Initialized diagnostic secondary history field HMF2 (ix= 23): 0: short_name = HMF2 0: long_name = HMF2: Height of the F2 Layer 0: units = km 0: geo = T 0: mag = F 0: dimnames = lon lat 0: dimsizes = 76 36 0 0: ndims = 2 0: task0_only = F 0: 0: Allocated 2d sech field NMF2(lon= 76,lat= 36) 0: 0: Initialized diagnostic secondary history field NMF2 (ix= 24): 0: short_name = NMF2 0: long_name = NMF2: Peak Density of the F2 Layer 0: units = 1/cm3 0: geo = T 0: mag = F 0: dimnames = lon lat 0: dimsizes = 76 36 0 0: ndims = 2 0: task0_only = F 1: 2: 1: Allocated 2d sech field TEC(lon= 76,lat= 36) 2: Allocated 2d sech field TEC(lon= 76,lat= 36) 1: 2: 1: Initialized diagnostic secondary history field TEC (ix= 14): 2: Initialized diagnostic secondary history field TEC (ix= 14): 1: short_name = TEC 2: short_name = TEC 1: long_name = TEC: Total Electron Content 2: long_name = TEC: Total Electron Content 1: units = 1/cm2 2: units = 1/cm2 1: geo = T 2: geo = T 1: mag = F 2: mag = F 1: dimnames = lon lat 2: dimnames = lon lat 1: dimsizes = 76 36 0 2: dimsizes = 76 36 0 1: ndims = 2 2: ndims = 2 1: task0_only = F 2: task0_only = F 1: 2: 1: Allocated 2d sech field HMF2(lon= 76,lat= 36) 2: Allocated 2d sech field HMF2(lon= 76,lat= 36) 1: 2: 1: Initialized diagnostic secondary history field HMF2 (ix= 23): 2: Initialized diagnostic secondary history field HMF2 (ix= 23): 1: short_name = HMF2 2: short_name = HMF2 1: long_name = HMF2: Height of the F2 Layer 2: long_name = HMF2: Height of the F2 Layer 1: units = km 2: units = km 1: geo = T 2: geo = T 1: mag = F 2: mag = F 1: dimnames = lon lat 2: dimnames = lon lat 1: dimsizes = 76 36 0 2: dimsizes = 76 36 0 1: ndims = 2 2: ndims = 2 1: task0_only = F 2: task0_only = F 1: 2: 1: Allocated 2d sech field NMF2(lon= 76,lat= 36) 2: Allocated 2d sech field NMF2(lon= 76,lat= 36) 1: 2: 1: Initialized diagnostic secondary history field NMF2 (ix= 24): 2: Initialized diagnostic secondary history field NMF2 (ix= 24): 1: short_name = NMF2 2: short_name = NMF2 1: long_name = NMF2: Peak Density of the F2 Layer 2: long_name = NMF2: Peak Density of the F2 Layer 1: units = 1/cm3 2: units = 1/cm3 1: geo = T 2: geo = T 1: mag = F 2: mag = F 1: dimnames = lon lat 2: dimnames = lon lat 1: dimsizes = 76 36 0 2: dimsizes = 76 36 0 1: ndims = 2 2: ndims = 2 1: task0_only = F 2: task0_only = F 3: 3: Allocated 2d sech field TEC(lon= 76,lat= 36) 3: 3: Initialized diagnostic secondary history field TEC (ix= 14): 3: short_name = TEC 3: long_name = TEC: Total Electron Content 3: units = 1/cm2 3: geo = T 3: mag = F 3: dimnames = lon lat 3: dimsizes = 76 36 0 3: ndims = 2 3: task0_only = F 3: 3: Allocated 2d sech field HMF2(lon= 76,lat= 36) 3: 3: Initialized diagnostic secondary history field HMF2 (ix= 23): 3: short_name = HMF2 3: long_name = HMF2: Height of the F2 Layer 3: units = km 3: geo = T 3: mag = F 3: dimnames = lon lat 3: dimsizes = 76 36 0 3: ndims = 2 3: task0_only = F 3: 3: Allocated 2d sech field NMF2(lon= 76,lat= 36) 3: 3: Initialized diagnostic secondary history field NMF2 (ix= 24): 3: short_name = NMF2 3: long_name = NMF2: Peak Density of the F2 Layer 3: units = 1/cm3 3: geo = T 3: mag = F 3: dimnames = lon lat 3: dimsizes = 76 36 0 3: ndims = 2 3: task0_only = F 2: 3: 2: Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29) 3: Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29) 2: 3: 2: Initialized diagnostic secondary history field QJOULE (ix= 22): 3: Initialized diagnostic secondary history field QJOULE (ix= 22): 2: short_name = QJOULE 3: short_name = QJOULE 2: long_name = QJOULE: Joule Heating 3: long_name = QJOULE: Joule Heating 2: units = erg/g/s 3: units = erg/g/s 2: geo = T 3: geo = T 2: mag = F 3: mag = F 2: dimnames = lon lat lev 3: dimnames = lon lat lev 2: dimsizes = 76 36 29 3: dimsizes = 76 36 29 2: ndims = 3 3: ndims = 3 2: task0_only = F 3: task0_only = F 2: 3: 2: Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29) 3: Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29) 2: 3: 2: Initialized diagnostic secondary history field DEN (ix= 21): 3: Initialized diagnostic secondary history field DEN (ix= 21): 2: short_name = DEN 3: short_name = DEN 2: long_name = Total Density 3: long_name = Total Density 2: units = g/cm3 3: units = g/cm3 2: geo = T 3: geo = T 2: mag = F 3: mag = F 2: dimnames = lon lat ilev 3: dimnames = lon lat ilev 2: dimsizes = 76 36 29 3: dimsizes = 76 36 29 2: ndims = 3 3: ndims = 3 2: task0_only = F 3: task0_only = F 1: 1: Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29) 1: 1: Initialized diagnostic secondary history field QJOULE (ix= 22): 0: 0: Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29) 0: 0: Initialized diagnostic secondary history field QJOULE (ix= 22): 0: short_name = QJOULE 1: short_name = QJOULE 0: long_name = QJOULE: Joule Heating 0: units = erg/g/s 0: geo = T 0: mag = F 0: dimnames = lon lat lev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: long_name = QJOULE: Joule Heating 1: units = erg/g/s 1: geo = T 1: mag = F 1: dimnames = lon lat lev 1: dimsizes = 76 36 29 1: ndims = 3 1: task0_only = F 1: 1: Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29) 1: 1: Initialized diagnostic secondary history field DEN (ix= 21): 1: short_name = DEN 1: long_name = Total Density 1: units = g/cm3 0: 0: Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29) 1: geo = T 0: 0: Initialized diagnostic secondary history field DEN (ix= 21): 0: short_name = DEN 0: long_name = Total Density 0: units = g/cm3 0: geo = T 0: mag = F 0: dimnames = lon lat ilev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: mag = F 1: dimnames = lon lat ilev 1: dimsizes = 76 36 29 1: ndims = 3 1: task0_only = F 0: 0: Allocated 3d sech field N2(lon= 76,lat= 36,lev= 29) 0: 0: Initialized diagnostic secondary history field N2 (ix= 7): 0: short_name = N2 0: long_name = N2: Molecular Nitrogen 0: units = mmr 0: geo = T 0: mag = F 0: dimnames = lon lat lev 0: dimsizes = 76 36 29 0: ndims = 3 0: task0_only = F 1: 2: 1: Allocated 3d sech field N2(lon= 76,lat= 36,lev= 29) 2: Allocated 3d sech field N2(lon= 76,lat= 36,lev= 29) 1: 2: 1: Initialized diagnostic secondary history field N2 (ix= 7): 2: Initialized diagnostic secondary history field N2 (ix= 7): 1: short_name = N2 2: short_name = N2 1: long_name = N2: Molecular Nitrogen 2: long_name = N2: Molecular Nitrogen 1: units = mmr 2: units = mmr 1: geo = T 2: geo = T 1: mag = F 2: mag = F 1: dimnames = lon lat lev 2: dimnames = lon lat lev 1: dimsizes = 76 36 29 2: dimsizes = 76 36 29 1: ndims = 3 2: ndims = 3 1: task0_only = F 2: task0_only = F 3: 3: Allocated 3d sech field N2(lon= 76,lat= 36,lev= 29) 3: 3: Initialized diagnostic secondary history field N2 (ix= 7): 3: short_name = N2 3: long_name = N2: Molecular Nitrogen 3: units = mmr 3: geo = T 3: mag = F 3: dimnames = lon lat lev 3: dimsizes = 76 36 29 3: ndims = 3 3: task0_only = F 0: 0: Allocated 3d sech field ZMAG(mlon= 81,mlat= 97,imlev= 32) 1: 1: Allocated 3d sech field ZMAG(mlon= 81,mlat= 97,imlev= 32) 0: 0: Initialized diagnostic secondary history field ZMAG (ix= 27): 0: short_name = ZMAG 0: long_name = ZMAG from pdynamo 0: units = km 0: geo = F 0: mag = T 0: dimnames = mlon mlat imlev 0: dimsizes = 81 97 32 0: ndims = 3 0: task0_only = F 1: 1: Initialized diagnostic secondary history field ZMAG (ix= 27): 1: short_name = ZMAG 2: 1: long_name = ZMAG from pdynamo 2: Allocated 3d sech field ZMAG(mlon= 81,mlat= 97,imlev= 32) 1: units = km 1: geo = F 2: 1: mag = T 2: Initialized diagnostic secondary history field ZMAG (ix= 27): 1: dimnames = mlon mlat imlev 2: short_name = ZMAG 1: dimsizes = 81 97 32 2: long_name = ZMAG from pdynamo 1: ndims = 3 2: units = km 1: task0_only = F 2: geo = F 3: 2: mag = T 3: Allocated 3d sech field ZMAG(mlon= 81,mlat= 97,imlev= 32) 2: dimnames = mlon mlat imlev 3: 2: dimsizes = 81 97 32 3: Initialized diagnostic secondary history field ZMAG (ix= 27): 2: ndims = 3 3: short_name = ZMAG 2: task0_only = F 3: long_name = ZMAG from pdynamo 3: units = km 3: geo = F 3: mag = T 3: dimnames = mlon mlat imlev 3: dimsizes = 81 97 32 3: ndims = 3 3: task0_only = F 0: 0: Starting secondary history time series 1 at model time 80 1 0 0 0: Created netcdf file tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ncid= 8 0: Opened new secondary history file tiegcm2.0_res5.0_mareqx_smin_sech_001.nc (isecout= 1) 0: nc_define: svn_revision = tiegcm2.0 0: 0: ------------------------------------------------------------------------ 0: Write TGCM SECONDARY HISTORY 0: Diskfile: tiegcm2.0_res5.0_mareqx_smin_sech_001.nc 0: label = tiegcm res=5.0 0: model_name = tiegcm 0: model_version = tiegcm_trunk 0: create_date= 03/17/16 11:45:37 0: write_date = 03/17/16 11:45:37 0: logname = stans 0: host = tethysv 0: system = LINUX 0: run_type = initial 0: source_file = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/tiegcm_res5.0_mareqx_smin_prim.nc 0: output_file = tiegcm2.0_res5.0_mareqx_smin_sech_001.nc 0: source_mtime = 80 0 0 0: initial_year = 2002 0: initial_day = 80 0: initial_mtime= 80 0 0 0: type = secondary 0: ihist = 1 (nth history on history file) 0: delhmins= 60 (delta minutes between histories) 0: calendar year,day = 2002, 80 0: (model IS being advanced in calendar time) 0: modeltime = 80, 1, 0, 0 (model time day,hour,minute,seconds) 0: time = 60.00 (minutes in current day) 0: ut = 1.00 (ut hours) 0: step = 60 (time step in seconds) 0: iter = 115260 (number of steps from 0,0,0) 0: nlat = 36 (number of latitudes) 0: nlon = 72 (number of longitudes) 0: nlev = 29 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -6.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -7.000 (bottom interface level) 0: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 0: sdtide = 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0E+00 0.0 0.0 0.0 0.0 0.0 0: (amp/phase of semi-diurnal tide) 0: f107d = 0.7000E+02 (daily solar flux) 0: f107a = 0.7000E+02 (average solar flux) 0: hpower = 0.1800E+02 (Gw) 0: ctpoten = 0.3000E+02 (Volts) 0: kp = 0.1000E+37 () 0: byimf = 0.0000E+00 0: bzimf = 0.1000E+37 0: swvel = 0.1000E+37 0: swden = 0.1000E+37 0: al = 0.1000E+37 0: e1,e2 = 0.1595E+01 0.2980E+01 (ergs/cm2/s) 0: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 0: ec,ed = 0.7212E-01 0.1200E-01 (ergs/cm2/s) 0: colfac = 0.15E+01 0: joulefac = 0.15E+01 0: p0 = 0.50E-06 0: p0_model= 0.50E-03 0: grav = 0.87E+03 0: nflds = 0 (number of model fields) 0: gswm_mi_di_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_diurn_5.0d_99km.nc 0: gswm_mi_sdi_ncfile = /hao/tethysv1/data/tiegcm/tiegcm2test/tiegcm_res5.0_data/gswm_semi_5.0d_99km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: see_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_ncfile = [none] 0: imf_ncfile = [none] 0: saber_ncfile = [none] 0: tidi_ncfile = [none] 0: ctmt_ncfile = [none] 0: bgrddata_ncfile = [none] 0: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 0: LBC = -7.00 (lower boundary interface level) 0: ntask_mpi = 4 (number of MPI tasks) 0: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 0: ------------------------------------------------------------------------ 0: 0: Wrote secondary history 80, 1, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 1 of 24) 0: Step 70 of 1440 mtime= 80 1 10 0 secs/step (sys) = 0.15 2: Step 70 of 1440 mtime= 80 1 10 0 secs/step (sys) = 0.15 1: Step 70 of 1440 mtime= 80 1 10 0 secs/step (sys) = 0.15 3: Step 70 of 1440 mtime= 80 1 10 0 secs/step (sys) = 0.15 0: Step 80 of 1440 mtime= 80 1 20 0 secs/step (sys) = 0.15 2: Step 80 of 1440 mtime= 80 1 20 0 secs/step (sys) = 0.15 1: Step 80 of 1440 mtime= 80 1 20 0 secs/step (sys) = 0.15 3: Step 80 of 1440 mtime= 80 1 20 0 secs/step (sys) = 0.15 0: Step 90 of 1440 mtime= 80 1 30 0 secs/step (sys) = 0.14 2: Step 90 of 1440 mtime= 80 1 30 0 secs/step (sys) = 0.14 1: Step 90 of 1440 mtime= 80 1 30 0 secs/step (sys) = 0.14 3: Step 90 of 1440 mtime= 80 1 30 0 secs/step (sys) = 0.14 0: Step 100 of 1440 mtime= 80 1 40 0 secs/step (sys) = 0.15 2: Step 100 of 1440 mtime= 80 1 40 0 secs/step (sys) = 0.15 1: Step 100 of 1440 mtime= 80 1 40 0 secs/step (sys) = 0.15 3: Step 100 of 1440 mtime= 80 1 40 0 secs/step (sys) = 0.15 0: Step 110 of 1440 mtime= 80 1 50 0 secs/step (sys) = 0.15 1: Step 110 of 1440 mtime= 80 1 50 0 secs/step (sys) = 0.15 3: Step 110 of 1440 mtime= 80 1 50 0 secs/step (sys) = 0.15 2: Step 110 of 1440 mtime= 80 1 50 0 secs/step (sys) = 0.15 0: Step 120 of 1440 mtime= 80 2 0 0 secs/step (sys) = 0.15 2: Step 120 of 1440 mtime= 80 2 0 0 secs/step (sys) = 0.15 1: Step 120 of 1440 mtime= 80 2 0 0 secs/step (sys) = 0.15 3: Step 120 of 1440 mtime= 80 2 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 2, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 2 of 24) 0: Step 130 of 1440 mtime= 80 2 10 0 secs/step (sys) = 0.15 2: Step 130 of 1440 mtime= 80 2 10 0 secs/step (sys) = 0.15 1: Step 130 of 1440 mtime= 80 2 10 0 secs/step (sys) = 0.15 3: Step 130 of 1440 mtime= 80 2 10 0 secs/step (sys) = 0.15 0: Step 140 of 1440 mtime= 80 2 20 0 secs/step (sys) = 0.15 2: Step 140 of 1440 mtime= 80 2 20 0 secs/step (sys) = 0.15 1: Step 140 of 1440 mtime= 80 2 20 0 secs/step (sys) = 0.15 3: Step 140 of 1440 mtime= 80 2 20 0 secs/step (sys) = 0.15 0: Step 150 of 1440 mtime= 80 2 30 0 secs/step (sys) = 0.15 1: Step 150 of 1440 mtime= 80 2 30 0 secs/step (sys) = 0.15 3: Step 150 of 1440 mtime= 80 2 30 0 secs/step (sys) = 0.15 2: Step 150 of 1440 mtime= 80 2 30 0 secs/step (sys) = 0.15 0: Step 160 of 1440 mtime= 80 2 40 0 secs/step (sys) = 0.15 1: Step 160 of 1440 mtime= 80 2 40 0 secs/step (sys) = 0.15 3: Step 160 of 1440 mtime= 80 2 40 0 secs/step (sys) = 0.15 2: Step 160 of 1440 mtime= 80 2 40 0 secs/step (sys) = 0.15 0: Step 170 of 1440 mtime= 80 2 50 0 secs/step (sys) = 0.15 2: Step 170 of 1440 mtime= 80 2 50 0 secs/step (sys) = 0.15 1: Step 170 of 1440 mtime= 80 2 50 0 secs/step (sys) = 0.15 3: Step 170 of 1440 mtime= 80 2 50 0 secs/step (sys) = 0.15 0: Step 180 of 1440 mtime= 80 3 0 0 secs/step (sys) = 0.15 2: Step 180 of 1440 mtime= 80 3 0 0 secs/step (sys) = 0.15 1: Step 180 of 1440 mtime= 80 3 0 0 secs/step (sys) = 0.15 3: Step 180 of 1440 mtime= 80 3 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 3, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 3 of 24) 0: Step 190 of 1440 mtime= 80 3 10 0 secs/step (sys) = 0.15 2: Step 190 of 1440 mtime= 80 3 10 0 secs/step (sys) = 0.15 1: Step 190 of 1440 mtime= 80 3 10 0 secs/step (sys) = 0.15 3: Step 190 of 1440 mtime= 80 3 10 0 secs/step (sys) = 0.15 0: Step 200 of 1440 mtime= 80 3 20 0 secs/step (sys) = 0.15 2: Step 200 of 1440 mtime= 80 3 20 0 secs/step (sys) = 0.15 1: Step 200 of 1440 mtime= 80 3 20 0 secs/step (sys) = 0.15 3: Step 200 of 1440 mtime= 80 3 20 0 secs/step (sys) = 0.15 0: Step 210 of 1440 mtime= 80 3 30 0 secs/step (sys) = 0.15 1: Step 210 of 1440 mtime= 80 3 30 0 secs/step (sys) = 0.15 3: Step 210 of 1440 mtime= 80 3 30 0 secs/step (sys) = 0.15 2: Step 210 of 1440 mtime= 80 3 30 0 secs/step (sys) = 0.15 0: Step 220 of 1440 mtime= 80 3 40 0 secs/step (sys) = 0.15 2: Step 220 of 1440 mtime= 80 3 40 0 secs/step (sys) = 0.15 1: Step 220 of 1440 mtime= 80 3 40 0 secs/step (sys) = 0.15 3: Step 220 of 1440 mtime= 80 3 40 0 secs/step (sys) = 0.15 0: Step 230 of 1440 mtime= 80 3 50 0 secs/step (sys) = 0.15 2: Step 230 of 1440 mtime= 80 3 50 0 secs/step (sys) = 0.15 1: Step 230 of 1440 mtime= 80 3 50 0 secs/step (sys) = 0.15 3: Step 230 of 1440 mtime= 80 3 50 0 secs/step (sys) = 0.15 0: Step 240 of 1440 mtime= 80 4 0 0 secs/step (sys) = 0.15 2: Step 240 of 1440 mtime= 80 4 0 0 secs/step (sys) = 0.15 1: Step 240 of 1440 mtime= 80 4 0 0 secs/step (sys) = 0.15 3: Step 240 of 1440 mtime= 80 4 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 4, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 4 of 24) 0: Step 250 of 1440 mtime= 80 4 10 0 secs/step (sys) = 0.14 1: Step 250 of 1440 mtime= 80 4 10 0 secs/step (sys) = 0.14 3: Step 250 of 1440 mtime= 80 4 10 0 secs/step (sys) = 0.14 2: Step 250 of 1440 mtime= 80 4 10 0 secs/step (sys) = 0.14 0: Step 260 of 1440 mtime= 80 4 20 0 secs/step (sys) = 0.15 2: Step 260 of 1440 mtime= 80 4 20 0 secs/step (sys) = 0.15 1: Step 260 of 1440 mtime= 80 4 20 0 secs/step (sys) = 0.15 3: Step 260 of 1440 mtime= 80 4 20 0 secs/step (sys) = 0.15 0: Step 270 of 1440 mtime= 80 4 30 0 secs/step (sys) = 0.15 2: Step 270 of 1440 mtime= 80 4 30 0 secs/step (sys) = 0.15 1: Step 270 of 1440 mtime= 80 4 30 0 secs/step (sys) = 0.15 3: Step 270 of 1440 mtime= 80 4 30 0 secs/step (sys) = 0.15 0: Step 280 of 1440 mtime= 80 4 40 0 secs/step (sys) = 0.15 2: Step 280 of 1440 mtime= 80 4 40 0 secs/step (sys) = 0.15 1: Step 280 of 1440 mtime= 80 4 40 0 secs/step (sys) = 0.15 3: Step 280 of 1440 mtime= 80 4 40 0 secs/step (sys) = 0.15 0: Step 290 of 1440 mtime= 80 4 50 0 secs/step (sys) = 0.15 1: Step 290 of 1440 mtime= 80 4 50 0 secs/step (sys) = 0.15 3: Step 290 of 1440 mtime= 80 4 50 0 secs/step (sys) = 0.15 2: Step 290 of 1440 mtime= 80 4 50 0 secs/step (sys) = 0.15 0: Step 300 of 1440 mtime= 80 5 0 0 secs/step (sys) = 0.15 1: Step 300 of 1440 mtime= 80 5 0 0 secs/step (sys) = 0.15 3: Step 300 of 1440 mtime= 80 5 0 0 secs/step (sys) = 0.15 2: Step 300 of 1440 mtime= 80 5 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 5, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 5 of 24) 0: Step 310 of 1440 mtime= 80 5 10 0 secs/step (sys) = 0.15 1: Step 310 of 1440 mtime= 80 5 10 0 secs/step (sys) = 0.15 3: Step 310 of 1440 mtime= 80 5 10 0 secs/step (sys) = 0.15 2: Step 310 of 1440 mtime= 80 5 10 0 secs/step (sys) = 0.15 0: Step 320 of 1440 mtime= 80 5 20 0 secs/step (sys) = 0.15 1: Step 320 of 1440 mtime= 80 5 20 0 secs/step (sys) = 0.15 3: Step 320 of 1440 mtime= 80 5 20 0 secs/step (sys) = 0.15 2: Step 320 of 1440 mtime= 80 5 20 0 secs/step (sys) = 0.15 0: Step 330 of 1440 mtime= 80 5 30 0 secs/step (sys) = 0.15 1: Step 330 of 1440 mtime= 80 5 30 0 secs/step (sys) = 0.15 3: Step 330 of 1440 mtime= 80 5 30 0 secs/step (sys) = 0.15 2: Step 330 of 1440 mtime= 80 5 30 0 secs/step (sys) = 0.15 0: Step 340 of 1440 mtime= 80 5 40 0 secs/step (sys) = 0.15 1: Step 340 of 1440 mtime= 80 5 40 0 secs/step (sys) = 0.15 3: Step 340 of 1440 mtime= 80 5 40 0 secs/step (sys) = 0.15 2: Step 340 of 1440 mtime= 80 5 40 0 secs/step (sys) = 0.15 0: Step 350 of 1440 mtime= 80 5 50 0 secs/step (sys) = 0.15 2: Step 350 of 1440 mtime= 80 5 50 0 secs/step (sys) = 0.15 1: Step 350 of 1440 mtime= 80 5 50 0 secs/step (sys) = 0.15 3: Step 350 of 1440 mtime= 80 5 50 0 secs/step (sys) = 0.15 0: Step 360 of 1440 mtime= 80 6 0 0 secs/step (sys) = 0.15 2: Step 360 of 1440 mtime= 80 6 0 0 secs/step (sys) = 0.15 1: Step 360 of 1440 mtime= 80 6 0 0 secs/step (sys) = 0.15 3: Step 360 of 1440 mtime= 80 6 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 6, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 6 of 24) 0: Step 370 of 1440 mtime= 80 6 10 0 secs/step (sys) = 0.15 2: Step 370 of 1440 mtime= 80 6 10 0 secs/step (sys) = 0.15 1: Step 370 of 1440 mtime= 80 6 10 0 secs/step (sys) = 0.15 3: Step 370 of 1440 mtime= 80 6 10 0 secs/step (sys) = 0.15 0: Step 380 of 1440 mtime= 80 6 20 0 secs/step (sys) = 0.15 2: Step 380 of 1440 mtime= 80 6 20 0 secs/step (sys) = 0.15 1: Step 380 of 1440 mtime= 80 6 20 0 secs/step (sys) = 0.15 3: Step 380 of 1440 mtime= 80 6 20 0 secs/step (sys) = 0.15 0: Step 390 of 1440 mtime= 80 6 30 0 secs/step (sys) = 0.15 1: Step 390 of 1440 mtime= 80 6 30 0 secs/step (sys) = 0.15 3: Step 390 of 1440 mtime= 80 6 30 0 secs/step (sys) = 0.15 2: Step 390 of 1440 mtime= 80 6 30 0 secs/step (sys) = 0.15 0: Step 400 of 1440 mtime= 80 6 40 0 secs/step (sys) = 0.15 2: Step 400 of 1440 mtime= 80 6 40 0 secs/step (sys) = 0.15 1: Step 400 of 1440 mtime= 80 6 40 0 secs/step (sys) = 0.15 3: Step 400 of 1440 mtime= 80 6 40 0 secs/step (sys) = 0.15 0: Step 410 of 1440 mtime= 80 6 50 0 secs/step (sys) = 0.15 2: Step 410 of 1440 mtime= 80 6 50 0 secs/step (sys) = 0.15 1: Step 410 of 1440 mtime= 80 6 50 0 secs/step (sys) = 0.15 3: Step 410 of 1440 mtime= 80 6 50 0 secs/step (sys) = 0.15 0: Step 420 of 1440 mtime= 80 7 0 0 secs/step (sys) = 0.15 2: Step 420 of 1440 mtime= 80 7 0 0 secs/step (sys) = 0.15 1: Step 420 of 1440 mtime= 80 7 0 0 secs/step (sys) = 0.15 3: Step 420 of 1440 mtime= 80 7 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 7, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 7 of 24) 0: Step 430 of 1440 mtime= 80 7 10 0 secs/step (sys) = 0.15 1: Step 430 of 1440 mtime= 80 7 10 0 secs/step (sys) = 0.15 3: Step 430 of 1440 mtime= 80 7 10 0 secs/step (sys) = 0.15 2: Step 430 of 1440 mtime= 80 7 10 0 secs/step (sys) = 0.15 0: Step 440 of 1440 mtime= 80 7 20 0 secs/step (sys) = 0.14 2: Step 440 of 1440 mtime= 80 7 20 0 secs/step (sys) = 0.14 1: Step 440 of 1440 mtime= 80 7 20 0 secs/step (sys) = 0.14 3: Step 440 of 1440 mtime= 80 7 20 0 secs/step (sys) = 0.14 0: Step 450 of 1440 mtime= 80 7 30 0 secs/step (sys) = 0.15 2: Step 450 of 1440 mtime= 80 7 30 0 secs/step (sys) = 0.15 1: Step 450 of 1440 mtime= 80 7 30 0 secs/step (sys) = 0.15 3: Step 450 of 1440 mtime= 80 7 30 0 secs/step (sys) = 0.15 0: Step 460 of 1440 mtime= 80 7 40 0 secs/step (sys) = 0.15 2: Step 460 of 1440 mtime= 80 7 40 0 secs/step (sys) = 0.15 1: Step 460 of 1440 mtime= 80 7 40 0 secs/step (sys) = 0.15 3: Step 460 of 1440 mtime= 80 7 40 0 secs/step (sys) = 0.15 0: Step 470 of 1440 mtime= 80 7 50 0 secs/step (sys) = 0.15 1: Step 470 of 1440 mtime= 80 7 50 0 secs/step (sys) = 0.15 3: Step 470 of 1440 mtime= 80 7 50 0 secs/step (sys) = 0.15 2: Step 470 of 1440 mtime= 80 7 50 0 secs/step (sys) = 0.15 0: Step 480 of 1440 mtime= 80 8 0 0 secs/step (sys) = 0.15 2: Step 480 of 1440 mtime= 80 8 0 0 secs/step (sys) = 0.15 1: Step 480 of 1440 mtime= 80 8 0 0 secs/step (sys) = 0.15 3: Step 480 of 1440 mtime= 80 8 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80, 8, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 8 of 24) 0: Step 490 of 1440 mtime= 80 8 10 0 secs/step (sys) = 0.15 2: Step 490 of 1440 mtime= 80 8 10 0 secs/step (sys) = 0.15 1: Step 490 of 1440 mtime= 80 8 10 0 secs/step (sys) = 0.15 3: Step 490 of 1440 mtime= 80 8 10 0 secs/step (sys) = 0.15 0: Step 500 of 1440 mtime= 80 8 20 0 secs/step (sys) = 0.15 2: Step 500 of 1440 mtime= 80 8 20 0 secs/step (sys) = 0.15 1: Step 500 of 1440 mtime= 80 8 20 0 secs/step (sys) = 0.15 3: Step 500 of 1440 mtime= 80 8 20 0 secs/step (sys) = 0.15 0: Step 510 of 1440 mtime= 80 8 30 0 secs/step (sys) = 0.15 1: Step 510 of 1440 mtime= 80 8 30 0 secs/step (sys) = 0.15 3: Step 510 of 1440 mtime= 80 8 30 0 secs/step (sys) = 0.15 2: Step 510 of 1440 mtime= 80 8 30 0 secs/step (sys) = 0.15 0: Step 520 of 1440 mtime= 80 8 40 0 secs/step (sys) = 0.15 2: Step 520 of 1440 mtime= 80 8 40 0 secs/step (sys) = 0.15 1: Step 520 of 1440 mtime= 80 8 40 0 secs/step (sys) = 0.15 3: Step 520 of 1440 mtime= 80 8 40 0 secs/step (sys) = 0.15 0: Step 530 of 1440 mtime= 80 8 50 0 secs/step (sys) = 0.14 2: Step 530 of 1440 mtime= 80 8 50 0 secs/step (sys) = 0.14 1: Step 530 of 1440 mtime= 80 8 50 0 secs/step (sys) = 0.14 3: Step 530 of 1440 mtime= 80 8 50 0 secs/step (sys) = 0.14 0: Step 540 of 1440 mtime= 80 9 0 0 secs/step (sys) = 0.14 1: Step 540 of 1440 mtime= 80 9 0 0 secs/step (sys) = 0.14 3: Step 540 of 1440 mtime= 80 9 0 0 secs/step (sys) = 0.14 2: Step 540 of 1440 mtime= 80 9 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80, 9, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 9 of 24) 0: Step 550 of 1440 mtime= 80 9 10 0 secs/step (sys) = 0.14 1: Step 550 of 1440 mtime= 80 9 10 0 secs/step (sys) = 0.14 2: Step 550 of 1440 mtime= 80 9 10 0 secs/step (sys) = 0.14 3: Step 550 of 1440 mtime= 80 9 10 0 secs/step (sys) = 0.14 0: Step 560 of 1440 mtime= 80 9 20 0 secs/step (sys) = 0.14 1: Step 560 of 1440 mtime= 80 9 20 0 secs/step (sys) = 0.14 3: Step 560 of 1440 mtime= 80 9 20 0 secs/step (sys) = 0.14 2: Step 560 of 1440 mtime= 80 9 20 0 secs/step (sys) = 0.14 0: Step 570 of 1440 mtime= 80 9 30 0 secs/step (sys) = 0.15 1: Step 570 of 1440 mtime= 80 9 30 0 secs/step (sys) = 0.15 3: Step 570 of 1440 mtime= 80 9 30 0 secs/step (sys) = 0.15 2: Step 570 of 1440 mtime= 80 9 30 0 secs/step (sys) = 0.15 0: Step 580 of 1440 mtime= 80 9 40 0 secs/step (sys) = 0.15 1: Step 580 of 1440 mtime= 80 9 40 0 secs/step (sys) = 0.15 3: Step 580 of 1440 mtime= 80 9 40 0 secs/step (sys) = 0.15 2: Step 580 of 1440 mtime= 80 9 40 0 secs/step (sys) = 0.15 0: Step 590 of 1440 mtime= 80 9 50 0 secs/step (sys) = 0.15 1: Step 590 of 1440 mtime= 80 9 50 0 secs/step (sys) = 0.15 3: Step 590 of 1440 mtime= 80 9 50 0 secs/step (sys) = 0.15 2: Step 590 of 1440 mtime= 80 9 50 0 secs/step (sys) = 0.15 0: Step 600 of 1440 mtime= 80 10 0 0 secs/step (sys) = 0.15 1: Step 600 of 1440 mtime= 80 10 0 0 secs/step (sys) = 0.15 3: Step 600 of 1440 mtime= 80 10 0 0 secs/step (sys) = 0.15 2: Step 600 of 1440 mtime= 80 10 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,10, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 10 of 24) 0: Step 610 of 1440 mtime= 80 10 10 0 secs/step (sys) = 0.14 1: Step 610 of 1440 mtime= 80 10 10 0 secs/step (sys) = 0.14 2: Step 610 of 1440 mtime= 80 10 10 0 secs/step (sys) = 0.14 3: Step 610 of 1440 mtime= 80 10 10 0 secs/step (sys) = 0.14 0: Step 620 of 1440 mtime= 80 10 20 0 secs/step (sys) = 0.15 1: Step 620 of 1440 mtime= 80 10 20 0 secs/step (sys) = 0.15 2: Step 620 of 1440 mtime= 80 10 20 0 secs/step (sys) = 0.15 3: Step 620 of 1440 mtime= 80 10 20 0 secs/step (sys) = 0.15 0: Step 630 of 1440 mtime= 80 10 30 0 secs/step (sys) = 0.15 1: Step 630 of 1440 mtime= 80 10 30 0 secs/step (sys) = 0.14 2: Step 630 of 1440 mtime= 80 10 30 0 secs/step (sys) = 0.14 3: Step 630 of 1440 mtime= 80 10 30 0 secs/step (sys) = 0.14 0: Step 640 of 1440 mtime= 80 10 40 0 secs/step (sys) = 0.15 1: Step 640 of 1440 mtime= 80 10 40 0 secs/step (sys) = 0.15 2: Step 640 of 1440 mtime= 80 10 40 0 secs/step (sys) = 0.15 3: Step 640 of 1440 mtime= 80 10 40 0 secs/step (sys) = 0.15 0: Step 650 of 1440 mtime= 80 10 50 0 secs/step (sys) = 0.15 1: Step 650 of 1440 mtime= 80 10 50 0 secs/step (sys) = 0.15 2: Step 650 of 1440 mtime= 80 10 50 0 secs/step (sys) = 0.15 3: Step 650 of 1440 mtime= 80 10 50 0 secs/step (sys) = 0.15 0: Step 660 of 1440 mtime= 80 11 0 0 secs/step (sys) = 0.14 1: Step 660 of 1440 mtime= 80 11 0 0 secs/step (sys) = 0.14 2: Step 660 of 1440 mtime= 80 11 0 0 secs/step (sys) = 0.14 3: Step 660 of 1440 mtime= 80 11 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80,11, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 11 of 24) 0: Step 670 of 1440 mtime= 80 11 10 0 secs/step (sys) = 0.14 1: Step 670 of 1440 mtime= 80 11 10 0 secs/step (sys) = 0.14 2: Step 670 of 1440 mtime= 80 11 10 0 secs/step (sys) = 0.14 3: Step 670 of 1440 mtime= 80 11 10 0 secs/step (sys) = 0.14 0: Step 680 of 1440 mtime= 80 11 20 0 secs/step (sys) = 0.14 1: Step 680 of 1440 mtime= 80 11 20 0 secs/step (sys) = 0.14 2: Step 680 of 1440 mtime= 80 11 20 0 secs/step (sys) = 0.14 3: Step 680 of 1440 mtime= 80 11 20 0 secs/step (sys) = 0.14 0: Step 690 of 1440 mtime= 80 11 30 0 secs/step (sys) = 0.14 1: Step 690 of 1440 mtime= 80 11 30 0 secs/step (sys) = 0.14 2: Step 690 of 1440 mtime= 80 11 30 0 secs/step (sys) = 0.14 3: Step 690 of 1440 mtime= 80 11 30 0 secs/step (sys) = 0.14 0: Step 700 of 1440 mtime= 80 11 40 0 secs/step (sys) = 0.14 1: Step 700 of 1440 mtime= 80 11 40 0 secs/step (sys) = 0.14 2: Step 700 of 1440 mtime= 80 11 40 0 secs/step (sys) = 0.14 3: Step 700 of 1440 mtime= 80 11 40 0 secs/step (sys) = 0.14 0: Step 710 of 1440 mtime= 80 11 50 0 secs/step (sys) = 0.14 1: Step 710 of 1440 mtime= 80 11 50 0 secs/step (sys) = 0.14 2: Step 710 of 1440 mtime= 80 11 50 0 secs/step (sys) = 0.14 3: Step 710 of 1440 mtime= 80 11 50 0 secs/step (sys) = 0.14 0: Step 720 of 1440 mtime= 80 12 0 0 secs/step (sys) = 0.14 1: Step 720 of 1440 mtime= 80 12 0 0 secs/step (sys) = 0.14 2: Step 720 of 1440 mtime= 80 12 0 0 secs/step (sys) = 0.14 3: Step 720 of 1440 mtime= 80 12 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80,12, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 12 of 24) 0: Step 730 of 1440 mtime= 80 12 10 0 secs/step (sys) = 0.14 1: Step 730 of 1440 mtime= 80 12 10 0 secs/step (sys) = 0.14 2: Step 730 of 1440 mtime= 80 12 10 0 secs/step (sys) = 0.14 3: Step 730 of 1440 mtime= 80 12 10 0 secs/step (sys) = 0.14 0: Step 740 of 1440 mtime= 80 12 20 0 secs/step (sys) = 0.14 1: Step 740 of 1440 mtime= 80 12 20 0 secs/step (sys) = 0.14 2: Step 740 of 1440 mtime= 80 12 20 0 secs/step (sys) = 0.14 3: Step 740 of 1440 mtime= 80 12 20 0 secs/step (sys) = 0.14 0: Step 750 of 1440 mtime= 80 12 30 0 secs/step (sys) = 0.14 1: Step 750 of 1440 mtime= 80 12 30 0 secs/step (sys) = 0.14 2: Step 750 of 1440 mtime= 80 12 30 0 secs/step (sys) = 0.14 3: Step 750 of 1440 mtime= 80 12 30 0 secs/step (sys) = 0.14 0: Step 760 of 1440 mtime= 80 12 40 0 secs/step (sys) = 0.14 1: Step 760 of 1440 mtime= 80 12 40 0 secs/step (sys) = 0.14 2: Step 760 of 1440 mtime= 80 12 40 0 secs/step (sys) = 0.14 3: Step 760 of 1440 mtime= 80 12 40 0 secs/step (sys) = 0.14 0: Step 770 of 1440 mtime= 80 12 50 0 secs/step (sys) = 0.15 1: Step 770 of 1440 mtime= 80 12 50 0 secs/step (sys) = 0.15 2: Step 770 of 1440 mtime= 80 12 50 0 secs/step (sys) = 0.15 3: Step 770 of 1440 mtime= 80 12 50 0 secs/step (sys) = 0.15 0: Step 780 of 1440 mtime= 80 13 0 0 secs/step (sys) = 0.14 1: Step 780 of 1440 mtime= 80 13 0 0 secs/step (sys) = 0.14 2: Step 780 of 1440 mtime= 80 13 0 0 secs/step (sys) = 0.14 3: Step 780 of 1440 mtime= 80 13 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80,13, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 13 of 24) 0: Step 790 of 1440 mtime= 80 13 10 0 secs/step (sys) = 0.15 1: Step 790 of 1440 mtime= 80 13 10 0 secs/step (sys) = 0.15 2: Step 790 of 1440 mtime= 80 13 10 0 secs/step (sys) = 0.15 3: Step 790 of 1440 mtime= 80 13 10 0 secs/step (sys) = 0.15 0: Step 800 of 1440 mtime= 80 13 20 0 secs/step (sys) = 0.14 1: Step 800 of 1440 mtime= 80 13 20 0 secs/step (sys) = 0.14 2: Step 800 of 1440 mtime= 80 13 20 0 secs/step (sys) = 0.14 3: Step 800 of 1440 mtime= 80 13 20 0 secs/step (sys) = 0.14 0: Step 810 of 1440 mtime= 80 13 30 0 secs/step (sys) = 0.15 1: Step 810 of 1440 mtime= 80 13 30 0 secs/step (sys) = 0.15 2: Step 810 of 1440 mtime= 80 13 30 0 secs/step (sys) = 0.15 3: Step 810 of 1440 mtime= 80 13 30 0 secs/step (sys) = 0.15 0: Step 820 of 1440 mtime= 80 13 40 0 secs/step (sys) = 0.15 1: Step 820 of 1440 mtime= 80 13 40 0 secs/step (sys) = 0.15 2: Step 820 of 1440 mtime= 80 13 40 0 secs/step (sys) = 0.15 3: Step 820 of 1440 mtime= 80 13 40 0 secs/step (sys) = 0.15 0: Step 830 of 1440 mtime= 80 13 50 0 secs/step (sys) = 0.14 1: Step 830 of 1440 mtime= 80 13 50 0 secs/step (sys) = 0.14 2: Step 830 of 1440 mtime= 80 13 50 0 secs/step (sys) = 0.14 3: Step 830 of 1440 mtime= 80 13 50 0 secs/step (sys) = 0.14 0: Step 840 of 1440 mtime= 80 14 0 0 secs/step (sys) = 0.15 1: Step 840 of 1440 mtime= 80 14 0 0 secs/step (sys) = 0.15 2: Step 840 of 1440 mtime= 80 14 0 0 secs/step (sys) = 0.15 3: Step 840 of 1440 mtime= 80 14 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,14, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 14 of 24) 0: Step 850 of 1440 mtime= 80 14 10 0 secs/step (sys) = 0.15 1: Step 850 of 1440 mtime= 80 14 10 0 secs/step (sys) = 0.15 2: Step 850 of 1440 mtime= 80 14 10 0 secs/step (sys) = 0.15 3: Step 850 of 1440 mtime= 80 14 10 0 secs/step (sys) = 0.15 0: Step 860 of 1440 mtime= 80 14 20 0 secs/step (sys) = 0.15 1: Step 860 of 1440 mtime= 80 14 20 0 secs/step (sys) = 0.15 2: Step 860 of 1440 mtime= 80 14 20 0 secs/step (sys) = 0.15 3: Step 860 of 1440 mtime= 80 14 20 0 secs/step (sys) = 0.15 0: Step 870 of 1440 mtime= 80 14 30 0 secs/step (sys) = 0.14 1: Step 870 of 1440 mtime= 80 14 30 0 secs/step (sys) = 0.14 2: Step 870 of 1440 mtime= 80 14 30 0 secs/step (sys) = 0.14 3: Step 870 of 1440 mtime= 80 14 30 0 secs/step (sys) = 0.14 0: Step 880 of 1440 mtime= 80 14 40 0 secs/step (sys) = 0.14 1: Step 880 of 1440 mtime= 80 14 40 0 secs/step (sys) = 0.14 2: Step 880 of 1440 mtime= 80 14 40 0 secs/step (sys) = 0.14 3: Step 880 of 1440 mtime= 80 14 40 0 secs/step (sys) = 0.14 0: Step 890 of 1440 mtime= 80 14 50 0 secs/step (sys) = 0.14 1: Step 890 of 1440 mtime= 80 14 50 0 secs/step (sys) = 0.14 2: Step 890 of 1440 mtime= 80 14 50 0 secs/step (sys) = 0.14 3: Step 890 of 1440 mtime= 80 14 50 0 secs/step (sys) = 0.14 0: Step 900 of 1440 mtime= 80 15 0 0 secs/step (sys) = 0.15 1: Step 900 of 1440 mtime= 80 15 0 0 secs/step (sys) = 0.15 2: Step 900 of 1440 mtime= 80 15 0 0 secs/step (sys) = 0.15 3: Step 900 of 1440 mtime= 80 15 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,15, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 15 of 24) 0: Step 910 of 1440 mtime= 80 15 10 0 secs/step (sys) = 0.15 1: Step 910 of 1440 mtime= 80 15 10 0 secs/step (sys) = 0.15 2: Step 910 of 1440 mtime= 80 15 10 0 secs/step (sys) = 0.15 3: Step 910 of 1440 mtime= 80 15 10 0 secs/step (sys) = 0.15 0: Step 920 of 1440 mtime= 80 15 20 0 secs/step (sys) = 0.15 1: Step 920 of 1440 mtime= 80 15 20 0 secs/step (sys) = 0.15 2: Step 920 of 1440 mtime= 80 15 20 0 secs/step (sys) = 0.15 3: Step 920 of 1440 mtime= 80 15 20 0 secs/step (sys) = 0.15 0: Step 930 of 1440 mtime= 80 15 30 0 secs/step (sys) = 0.14 1: Step 930 of 1440 mtime= 80 15 30 0 secs/step (sys) = 0.14 2: Step 930 of 1440 mtime= 80 15 30 0 secs/step (sys) = 0.14 3: Step 930 of 1440 mtime= 80 15 30 0 secs/step (sys) = 0.14 0: Step 940 of 1440 mtime= 80 15 40 0 secs/step (sys) = 0.15 1: Step 940 of 1440 mtime= 80 15 40 0 secs/step (sys) = 0.15 2: Step 940 of 1440 mtime= 80 15 40 0 secs/step (sys) = 0.15 3: Step 940 of 1440 mtime= 80 15 40 0 secs/step (sys) = 0.15 0: Step 950 of 1440 mtime= 80 15 50 0 secs/step (sys) = 0.15 1: Step 950 of 1440 mtime= 80 15 50 0 secs/step (sys) = 0.15 2: Step 950 of 1440 mtime= 80 15 50 0 secs/step (sys) = 0.15 3: Step 950 of 1440 mtime= 80 15 50 0 secs/step (sys) = 0.15 0: Step 960 of 1440 mtime= 80 16 0 0 secs/step (sys) = 0.15 1: Step 960 of 1440 mtime= 80 16 0 0 secs/step (sys) = 0.15 2: Step 960 of 1440 mtime= 80 16 0 0 secs/step (sys) = 0.15 3: Step 960 of 1440 mtime= 80 16 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,16, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 16 of 24) 0: Step 970 of 1440 mtime= 80 16 10 0 secs/step (sys) = 0.15 1: Step 970 of 1440 mtime= 80 16 10 0 secs/step (sys) = 0.15 2: Step 970 of 1440 mtime= 80 16 10 0 secs/step (sys) = 0.15 3: Step 970 of 1440 mtime= 80 16 10 0 secs/step (sys) = 0.15 0: Step 980 of 1440 mtime= 80 16 20 0 secs/step (sys) = 0.15 1: Step 980 of 1440 mtime= 80 16 20 0 secs/step (sys) = 0.15 2: Step 980 of 1440 mtime= 80 16 20 0 secs/step (sys) = 0.15 3: Step 980 of 1440 mtime= 80 16 20 0 secs/step (sys) = 0.15 0: Step 990 of 1440 mtime= 80 16 30 0 secs/step (sys) = 0.15 2: Step 990 of 1440 mtime= 80 16 30 0 secs/step (sys) = 0.15 1: Step 990 of 1440 mtime= 80 16 30 0 secs/step (sys) = 0.15 3: Step 990 of 1440 mtime= 80 16 30 0 secs/step (sys) = 0.15 0: Step 1000 of 1440 mtime= 80 16 40 0 secs/step (sys) = 0.15 2: Step 1000 of 1440 mtime= 80 16 40 0 secs/step (sys) = 0.15 1: Step 1000 of 1440 mtime= 80 16 40 0 secs/step (sys) = 0.15 3: Step 1000 of 1440 mtime= 80 16 40 0 secs/step (sys) = 0.15 0: Step 1010 of 1440 mtime= 80 16 50 0 secs/step (sys) = 0.14 1: Step 1010 of 1440 mtime= 80 16 50 0 secs/step (sys) = 0.14 2: Step 1010 of 1440 mtime= 80 16 50 0 secs/step (sys) = 0.14 3: Step 1010 of 1440 mtime= 80 16 50 0 secs/step (sys) = 0.14 0: Step 1020 of 1440 mtime= 80 17 0 0 secs/step (sys) = 0.15 1: Step 1020 of 1440 mtime= 80 17 0 0 secs/step (sys) = 0.15 2: Step 1020 of 1440 mtime= 80 17 0 0 secs/step (sys) = 0.15 3: Step 1020 of 1440 mtime= 80 17 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,17, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 17 of 24) 0: Step 1030 of 1440 mtime= 80 17 10 0 secs/step (sys) = 0.14 1: Step 1030 of 1440 mtime= 80 17 10 0 secs/step (sys) = 0.14 2: Step 1030 of 1440 mtime= 80 17 10 0 secs/step (sys) = 0.14 3: Step 1030 of 1440 mtime= 80 17 10 0 secs/step (sys) = 0.14 0: Step 1040 of 1440 mtime= 80 17 20 0 secs/step (sys) = 0.15 1: Step 1040 of 1440 mtime= 80 17 20 0 secs/step (sys) = 0.15 2: Step 1040 of 1440 mtime= 80 17 20 0 secs/step (sys) = 0.15 3: Step 1040 of 1440 mtime= 80 17 20 0 secs/step (sys) = 0.15 0: Step 1050 of 1440 mtime= 80 17 30 0 secs/step (sys) = 0.15 1: Step 1050 of 1440 mtime= 80 17 30 0 secs/step (sys) = 0.15 2: Step 1050 of 1440 mtime= 80 17 30 0 secs/step (sys) = 0.15 3: Step 1050 of 1440 mtime= 80 17 30 0 secs/step (sys) = 0.15 0: Step 1060 of 1440 mtime= 80 17 40 0 secs/step (sys) = 0.15 1: Step 1060 of 1440 mtime= 80 17 40 0 secs/step (sys) = 0.15 2: Step 1060 of 1440 mtime= 80 17 40 0 secs/step (sys) = 0.15 3: Step 1060 of 1440 mtime= 80 17 40 0 secs/step (sys) = 0.15 0: Step 1070 of 1440 mtime= 80 17 50 0 secs/step (sys) = 0.15 1: Step 1070 of 1440 mtime= 80 17 50 0 secs/step (sys) = 0.15 2: Step 1070 of 1440 mtime= 80 17 50 0 secs/step (sys) = 0.15 3: Step 1070 of 1440 mtime= 80 17 50 0 secs/step (sys) = 0.15 0: Step 1080 of 1440 mtime= 80 18 0 0 secs/step (sys) = 0.15 1: Step 1080 of 1440 mtime= 80 18 0 0 secs/step (sys) = 0.15 2: Step 1080 of 1440 mtime= 80 18 0 0 secs/step (sys) = 0.15 3: Step 1080 of 1440 mtime= 80 18 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,18, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 18 of 24) 0: Step 1090 of 1440 mtime= 80 18 10 0 secs/step (sys) = 0.15 1: Step 1090 of 1440 mtime= 80 18 10 0 secs/step (sys) = 0.15 2: Step 1090 of 1440 mtime= 80 18 10 0 secs/step (sys) = 0.15 3: Step 1090 of 1440 mtime= 80 18 10 0 secs/step (sys) = 0.15 0: Step 1100 of 1440 mtime= 80 18 20 0 secs/step (sys) = 0.15 1: Step 1100 of 1440 mtime= 80 18 20 0 secs/step (sys) = 0.15 2: Step 1100 of 1440 mtime= 80 18 20 0 secs/step (sys) = 0.15 3: Step 1100 of 1440 mtime= 80 18 20 0 secs/step (sys) = 0.15 0: Step 1110 of 1440 mtime= 80 18 30 0 secs/step (sys) = 0.15 1: Step 1110 of 1440 mtime= 80 18 30 0 secs/step (sys) = 0.15 2: Step 1110 of 1440 mtime= 80 18 30 0 secs/step (sys) = 0.15 3: Step 1110 of 1440 mtime= 80 18 30 0 secs/step (sys) = 0.15 0: Step 1120 of 1440 mtime= 80 18 40 0 secs/step (sys) = 0.15 1: Step 1120 of 1440 mtime= 80 18 40 0 secs/step (sys) = 0.15 2: Step 1120 of 1440 mtime= 80 18 40 0 secs/step (sys) = 0.15 3: Step 1120 of 1440 mtime= 80 18 40 0 secs/step (sys) = 0.15 0: Step 1130 of 1440 mtime= 80 18 50 0 secs/step (sys) = 0.15 1: Step 1130 of 1440 mtime= 80 18 50 0 secs/step (sys) = 0.15 2: Step 1130 of 1440 mtime= 80 18 50 0 secs/step (sys) = 0.15 3: Step 1130 of 1440 mtime= 80 18 50 0 secs/step (sys) = 0.15 0: Step 1140 of 1440 mtime= 80 19 0 0 secs/step (sys) = 0.15 1: Step 1140 of 1440 mtime= 80 19 0 0 secs/step (sys) = 0.15 2: Step 1140 of 1440 mtime= 80 19 0 0 secs/step (sys) = 0.15 3: Step 1140 of 1440 mtime= 80 19 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,19, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 19 of 24) 0: Step 1150 of 1440 mtime= 80 19 10 0 secs/step (sys) = 0.15 1: Step 1150 of 1440 mtime= 80 19 10 0 secs/step (sys) = 0.15 2: Step 1150 of 1440 mtime= 80 19 10 0 secs/step (sys) = 0.15 3: Step 1150 of 1440 mtime= 80 19 10 0 secs/step (sys) = 0.15 0: Step 1160 of 1440 mtime= 80 19 20 0 secs/step (sys) = 0.15 1: Step 1160 of 1440 mtime= 80 19 20 0 secs/step (sys) = 0.15 2: Step 1160 of 1440 mtime= 80 19 20 0 secs/step (sys) = 0.15 3: Step 1160 of 1440 mtime= 80 19 20 0 secs/step (sys) = 0.15 0: Step 1170 of 1440 mtime= 80 19 30 0 secs/step (sys) = 0.14 1: Step 1170 of 1440 mtime= 80 19 30 0 secs/step (sys) = 0.14 2: Step 1170 of 1440 mtime= 80 19 30 0 secs/step (sys) = 0.14 3: Step 1170 of 1440 mtime= 80 19 30 0 secs/step (sys) = 0.14 0: Step 1180 of 1440 mtime= 80 19 40 0 secs/step (sys) = 0.15 1: Step 1180 of 1440 mtime= 80 19 40 0 secs/step (sys) = 0.15 2: Step 1180 of 1440 mtime= 80 19 40 0 secs/step (sys) = 0.15 3: Step 1180 of 1440 mtime= 80 19 40 0 secs/step (sys) = 0.15 0: Step 1190 of 1440 mtime= 80 19 50 0 secs/step (sys) = 0.15 1: Step 1190 of 1440 mtime= 80 19 50 0 secs/step (sys) = 0.15 2: Step 1190 of 1440 mtime= 80 19 50 0 secs/step (sys) = 0.15 3: Step 1190 of 1440 mtime= 80 19 50 0 secs/step (sys) = 0.15 0: Step 1200 of 1440 mtime= 80 20 0 0 secs/step (sys) = 0.15 1: Step 1200 of 1440 mtime= 80 20 0 0 secs/step (sys) = 0.15 2: Step 1200 of 1440 mtime= 80 20 0 0 secs/step (sys) = 0.15 3: Step 1200 of 1440 mtime= 80 20 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,20, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 20 of 24) 0: Step 1210 of 1440 mtime= 80 20 10 0 secs/step (sys) = 0.15 1: Step 1210 of 1440 mtime= 80 20 10 0 secs/step (sys) = 0.15 2: Step 1210 of 1440 mtime= 80 20 10 0 secs/step (sys) = 0.15 3: Step 1210 of 1440 mtime= 80 20 10 0 secs/step (sys) = 0.15 0: Step 1220 of 1440 mtime= 80 20 20 0 secs/step (sys) = 0.15 1: Step 1220 of 1440 mtime= 80 20 20 0 secs/step (sys) = 0.15 2: Step 1220 of 1440 mtime= 80 20 20 0 secs/step (sys) = 0.15 3: Step 1220 of 1440 mtime= 80 20 20 0 secs/step (sys) = 0.15 0: Step 1230 of 1440 mtime= 80 20 30 0 secs/step (sys) = 0.15 1: Step 1230 of 1440 mtime= 80 20 30 0 secs/step (sys) = 0.15 2: Step 1230 of 1440 mtime= 80 20 30 0 secs/step (sys) = 0.15 3: Step 1230 of 1440 mtime= 80 20 30 0 secs/step (sys) = 0.15 0: Step 1240 of 1440 mtime= 80 20 40 0 secs/step (sys) = 0.14 1: Step 1240 of 1440 mtime= 80 20 40 0 secs/step (sys) = 0.14 2: Step 1240 of 1440 mtime= 80 20 40 0 secs/step (sys) = 0.14 3: Step 1240 of 1440 mtime= 80 20 40 0 secs/step (sys) = 0.14 0: Step 1250 of 1440 mtime= 80 20 50 0 secs/step (sys) = 0.14 1: Step 1250 of 1440 mtime= 80 20 50 0 secs/step (sys) = 0.14 2: Step 1250 of 1440 mtime= 80 20 50 0 secs/step (sys) = 0.14 3: Step 1250 of 1440 mtime= 80 20 50 0 secs/step (sys) = 0.14 0: Step 1260 of 1440 mtime= 80 21 0 0 secs/step (sys) = 0.15 1: Step 1260 of 1440 mtime= 80 21 0 0 secs/step (sys) = 0.15 2: Step 1260 of 1440 mtime= 80 21 0 0 secs/step (sys) = 0.14 3: Step 1260 of 1440 mtime= 80 21 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80,21, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 21 of 24) 0: Step 1270 of 1440 mtime= 80 21 10 0 secs/step (sys) = 0.14 1: Step 1270 of 1440 mtime= 80 21 10 0 secs/step (sys) = 0.14 2: Step 1270 of 1440 mtime= 80 21 10 0 secs/step (sys) = 0.14 3: Step 1270 of 1440 mtime= 80 21 10 0 secs/step (sys) = 0.14 0: Step 1280 of 1440 mtime= 80 21 20 0 secs/step (sys) = 0.15 1: Step 1280 of 1440 mtime= 80 21 20 0 secs/step (sys) = 0.15 2: Step 1280 of 1440 mtime= 80 21 20 0 secs/step (sys) = 0.15 3: Step 1280 of 1440 mtime= 80 21 20 0 secs/step (sys) = 0.14 0: Step 1290 of 1440 mtime= 80 21 30 0 secs/step (sys) = 0.14 1: Step 1290 of 1440 mtime= 80 21 30 0 secs/step (sys) = 0.14 2: Step 1290 of 1440 mtime= 80 21 30 0 secs/step (sys) = 0.14 3: Step 1290 of 1440 mtime= 80 21 30 0 secs/step (sys) = 0.14 0: Step 1300 of 1440 mtime= 80 21 40 0 secs/step (sys) = 0.14 1: Step 1300 of 1440 mtime= 80 21 40 0 secs/step (sys) = 0.14 2: Step 1300 of 1440 mtime= 80 21 40 0 secs/step (sys) = 0.14 3: Step 1300 of 1440 mtime= 80 21 40 0 secs/step (sys) = 0.14 0: Step 1310 of 1440 mtime= 80 21 50 0 secs/step (sys) = 0.14 1: Step 1310 of 1440 mtime= 80 21 50 0 secs/step (sys) = 0.14 2: Step 1310 of 1440 mtime= 80 21 50 0 secs/step (sys) = 0.14 3: Step 1310 of 1440 mtime= 80 21 50 0 secs/step (sys) = 0.14 0: Step 1320 of 1440 mtime= 80 22 0 0 secs/step (sys) = 0.14 1: Step 1320 of 1440 mtime= 80 22 0 0 secs/step (sys) = 0.14 2: Step 1320 of 1440 mtime= 80 22 0 0 secs/step (sys) = 0.14 3: Step 1320 of 1440 mtime= 80 22 0 0 secs/step (sys) = 0.14 0: Wrote secondary history 80,22, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 22 of 24) 0: Step 1330 of 1440 mtime= 80 22 10 0 secs/step (sys) = 0.14 1: Step 1330 of 1440 mtime= 80 22 10 0 secs/step (sys) = 0.14 2: Step 1330 of 1440 mtime= 80 22 10 0 secs/step (sys) = 0.14 3: Step 1330 of 1440 mtime= 80 22 10 0 secs/step (sys) = 0.14 0: Step 1340 of 1440 mtime= 80 22 20 0 secs/step (sys) = 0.14 1: Step 1340 of 1440 mtime= 80 22 20 0 secs/step (sys) = 0.14 2: Step 1340 of 1440 mtime= 80 22 20 0 secs/step (sys) = 0.14 3: Step 1340 of 1440 mtime= 80 22 20 0 secs/step (sys) = 0.14 0: Step 1350 of 1440 mtime= 80 22 30 0 secs/step (sys) = 0.14 1: Step 1350 of 1440 mtime= 80 22 30 0 secs/step (sys) = 0.14 2: Step 1350 of 1440 mtime= 80 22 30 0 secs/step (sys) = 0.14 3: Step 1350 of 1440 mtime= 80 22 30 0 secs/step (sys) = 0.14 0: Step 1360 of 1440 mtime= 80 22 40 0 secs/step (sys) = 0.14 1: Step 1360 of 1440 mtime= 80 22 40 0 secs/step (sys) = 0.14 2: Step 1360 of 1440 mtime= 80 22 40 0 secs/step (sys) = 0.14 3: Step 1360 of 1440 mtime= 80 22 40 0 secs/step (sys) = 0.14 0: Step 1370 of 1440 mtime= 80 22 50 0 secs/step (sys) = 0.14 1: Step 1370 of 1440 mtime= 80 22 50 0 secs/step (sys) = 0.14 2: Step 1370 of 1440 mtime= 80 22 50 0 secs/step (sys) = 0.14 3: Step 1370 of 1440 mtime= 80 22 50 0 secs/step (sys) = 0.14 0: Step 1380 of 1440 mtime= 80 23 0 0 secs/step (sys) = 0.15 1: Step 1380 of 1440 mtime= 80 23 0 0 secs/step (sys) = 0.15 2: Step 1380 of 1440 mtime= 80 23 0 0 secs/step (sys) = 0.15 3: Step 1380 of 1440 mtime= 80 23 0 0 secs/step (sys) = 0.15 0: Wrote secondary history 80,23, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 23 of 24) 0: Step 1390 of 1440 mtime= 80 23 10 0 secs/step (sys) = 0.15 1: Step 1390 of 1440 mtime= 80 23 10 0 secs/step (sys) = 0.15 2: Step 1390 of 1440 mtime= 80 23 10 0 secs/step (sys) = 0.15 3: Step 1390 of 1440 mtime= 80 23 10 0 secs/step (sys) = 0.15 0: Step 1400 of 1440 mtime= 80 23 20 0 secs/step (sys) = 0.15 1: Step 1400 of 1440 mtime= 80 23 20 0 secs/step (sys) = 0.15 2: Step 1400 of 1440 mtime= 80 23 20 0 secs/step (sys) = 0.15 3: Step 1400 of 1440 mtime= 80 23 20 0 secs/step (sys) = 0.15 0: Step 1410 of 1440 mtime= 80 23 30 0 secs/step (sys) = 0.15 1: Step 1410 of 1440 mtime= 80 23 30 0 secs/step (sys) = 0.15 2: Step 1410 of 1440 mtime= 80 23 30 0 secs/step (sys) = 0.15 3: Step 1410 of 1440 mtime= 80 23 30 0 secs/step (sys) = 0.15 0: Step 1420 of 1440 mtime= 80 23 40 0 secs/step (sys) = 0.15 1: Step 1420 of 1440 mtime= 80 23 40 0 secs/step (sys) = 0.15 2: Step 1420 of 1440 mtime= 80 23 40 0 secs/step (sys) = 0.15 3: Step 1420 of 1440 mtime= 80 23 40 0 secs/step (sys) = 0.15 0: Step 1430 of 1440 mtime= 80 23 50 0 secs/step (sys) = 0.14 1: Step 1430 of 1440 mtime= 80 23 50 0 secs/step (sys) = 0.14 2: Step 1430 of 1440 mtime= 80 23 50 0 secs/step (sys) = 0.14 3: Step 1430 of 1440 mtime= 80 23 50 0 secs/step (sys) = 0.14 0: Advancing day (previous,present)= 80 2002 81 2002 sfeps= 0.1007E+01 1: Advancing day (previous,present)= 80 2002 81 2002 sfeps= 0.1007E+01 0: Step 1440 of 1440 mtime= 81 0 0 0 secs/step (sys) = 0.15 3: Advancing day (previous,present)= 80 2002 81 2002 sfeps= 0.1007E+01 2: Advancing day (previous,present)= 80 2002 81 2002 sfeps= 0.1007E+01 1: Step 1440 of 1440 mtime= 81 0 0 0 secs/step (sys) = 0.15 2: Step 1440 of 1440 mtime= 81 0 0 0 secs/step (sys) = 0.15 3: Step 1440 of 1440 mtime= 81 0 0 0 secs/step (sys) = 0.15 3: 2: 3: MPI run with ntask = 4 2: MPI run with ntask = 4 3: nstep= 1440 step= 60 2: nstep= 1440 step= 60 3: Model simulation time: hours= 24.00 days= 1.00 2: Model simulation time: hours= 24.00 days= 1.00 3: Cpu time for run = 215.59 2: Cpu time for run = 215.60 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Total wallclock time: mins= 3.60 hours= 0.06 2: Total wallclock time: mins= 3.60 hours= 0.06 3: Total MPI timing: mins= 0.5870E+00 hours= 0.9784E-02 %Total runtime= 16.29 2: Total MPI timing: mins= 0.2974E+00 hours= 0.4957E-02 %Total runtime= 8.25 3: Subroutine Time (mins) %Total mpi %Total run 2: Subroutine Time (mins) %Total mpi %Total run 3: mp_gather2root_prim 0.5220E-02 0.89 0.14 2: mp_gather2root_prim 0.4421E-02 1.49 0.12 3: mp_gather2root_sech 0.6496E-02 1.11 0.18 2: mp_gather2root_sech 0.6146E-02 2.07 0.17 3: mp_gather2root_lbc 0.2500E-04 0.00 0.00 2: mp_gather2root_lbc 0.2108E-04 0.01 0.00 3: mp_bndlats 0.2274E-01 3.87 0.63 2: mp_bndlats 0.2282E-01 7.67 0.63 3: mp_bndlats_f2d 0.3647E-02 0.62 0.10 2: mp_bndlats_f2d 0.3654E-02 1.23 0.10 3: mp_bndlons 0.1456E-01 2.48 0.40 2: mp_bndlons 0.1433E-01 4.82 0.40 3: mp_bndlons_f3d 0.2035E-01 3.47 0.56 2: mp_bndlons_f3d 0.1976E-01 6.64 0.55 3: mp_polelats 0.1369E-01 2.33 0.38 2: mp_polelats 0.1432E-01 4.82 0.40 3: mp_polelat_f3d 0.1146E-01 1.95 0.32 2: mp_polelat_f3d 0.1082E-01 3.64 0.30 3: mp_gatherlons_f3d 0.2041E-01 3.48 0.57 2: mp_gatherlons_f3d 0.2687E-01 9.03 0.75 3: mp_scatterlons_f3d 0.2844E+00 48.44 7.89 2: mp_scatterlons_f3d 0.1713E-01 5.76 0.48 3: mp_periodic_f4d 0.8742E-02 1.49 0.24 2: mp_periodic_f4d 0.9777E-02 3.29 0.27 3: mp_periodic_f3d 0.9035E-02 1.54 0.25 2: mp_periodic_f3d 0.8762E-02 2.95 0.24 3: mp_periodic_f2d 0.5022E-03 0.09 0.01 2: mp_periodic_f2d 0.5462E-03 0.18 0.02 3: mp_bndlats_kmh 0.4112E-03 0.07 0.01 2: mp_bndlats_kmh 0.4474E-03 0.15 0.01 3: mp_bndlons_kmh 0.1429E-03 0.02 0.00 2: mp_bndlons_kmh 0.2326E-03 0.08 0.01 3: mp_mageq 0.1007E-02 0.17 0.03 2: mp_mageq 0.1297E-02 0.44 0.04 3: mp_mageq_jpm1 0.4851E-02 0.83 0.13 2: mp_mageq_jpm1 0.5552E-03 0.19 0.02 3: mp_mageq_jpm3 0.1252E-02 0.21 0.03 2: mp_mageq_jpm3 0.1252E-02 0.42 0.03 3: mp_magpole_2d 0.1881E-02 0.32 0.05 2: mp_magpole_2d 0.1909E-02 0.64 0.05 3: mp_magpole_3d 0.2910E-04 0.00 0.00 2: mp_magpole_3d 0.2919E-04 0.01 0.00 3: mp_magpoles 0.3531E-01 6.02 0.98 2: mp_magpoles 0.1103E-01 3.71 0.31 3: mp_conjugate_points 0.2503E-06 0.00 0.00 2: mp_conjugate_points 0.2344E-06 0.00 0.00 3: mp_foldhem 0.3258E-02 0.56 0.09 2: mp_foldhem 0.3284E-02 1.10 0.09 3: mp_mag_periodic_f2d 0.2350E-02 0.40 0.07 2: mp_mag_periodic_f2d 0.2284E-02 0.77 0.06 3: mp_gather_pdyn 0.2337E-02 0.40 0.06 2: mp_gather_pdyn 0.2635E-02 0.89 0.07 3: mp_mag_halos 0.9519E-03 0.16 0.03 2: mp_mag_halos 0.1172E-02 0.39 0.03 3: mp_geo_halos 0.0000E+00 0.00 0.00 2: mp_geo_halos 0.0000E+00 0.00 0.00 3: mp_geo_halos_f3d 0.1514E-02 0.26 0.04 2: mp_geo_halos_f3d 0.1534E-02 0.52 0.04 3: mp_scatter_coeffs 0.0000E+00 0.00 0.00 2: mp_scatter_coeffs 0.0000E+00 0.00 0.00 3: mp_scatter_phim 0.1103E+00 18.79 3.06 2: mp_scatter_phim 0.1098E+00 36.92 3.05 3: mp_gather_f2d 0.2505E-03 0.04 0.01 2: mp_gather_f2d 0.2045E-03 0.07 0.01 3: mp_scatter_f2d 0.1918E-02 0.33 0.05 2: mp_scatter_f2d 0.1627E-02 0.55 0.05 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: Report MPI wall-clock timing (mpi_wtime): mytid= 3 istep= 1440 nstep= 1440 2: Report MPI wall-clock timing (mpi_wtime): mytid= 2 istep= 1440 nstep= 1440 3: Total Time (mins) in 'pefield ' = 0.7777E-01 ( 2.16% of total run time) 2: Total Time (mins) in 'pefield ' = 0.7688E-01 ( 2.13% of total run time) 3: Total Time (mins) in 'dynamo_inputs ' = 0.3357E+00 ( 9.32% of total run time) 2: Total Time (mins) in 'dynamo_inputs ' = 0.3359E+00 ( 9.32% of total run time) 3: Total Time (mins) in 'pdynamo_fieldline_integrals ' = 0.5110E-01 ( 1.42% of total run time) 2: Total Time (mins) in 'pdynamo_fieldline_integrals ' = 0.5508E-01 ( 1.53% of total run time) 3: Total Time (mins) in 'pdynamo_complete_integrals ' = 0.1069E-01 ( 0.30% of total run time) 2: Total Time (mins) in 'pdynamo_complete_integrals ' = 0.6352E-02 ( 0.18% of total run time) 3: Total Time (mins) in 'pdynamo_rhspde ' = 0.2718E-03 ( 0.01% of total run time) 2: Total Time (mins) in 'pdynamo_rhspde ' = 0.2823E-03 ( 0.01% of total run time) 3: Total Time (mins) in 'highlat_poten ' = 0.1019E-03 ( 0.00% of total run time) 2: Total Time (mins) in 'highlat_poten ' = 0.9588E-04 ( 0.00% of total run time) 3: Total Time (mins) in 'pthreed ' = 0.5395E+00 ( 14.97% of total run time) 2: Total Time (mins) in 'pthreed ' = 0.5399E+00 ( 14.98% of total run time) 3: ------------------------------------------------------------------------ 2: ------------------------------------------------------------------------ 3: 2: 0: Wrote primary history 81, 0, 0 to tiegcm2.0_res5.0_mareqx_smin_prim_001.nc ( 2 of 2) 0: Wrote secondary history 81, 0, 0 to tiegcm2.0_res5.0_mareqx_smin_sech_001.nc ( 24 of 24) 0: 0: MPI run with ntask = 4 0: nstep= 1440 step= 60 0: Model simulation time: hours= 24.00 days= 1.00 0: Cpu time for run = 215.61 0: 0: ------------------------------------------------------------------------ 0: Total wallclock time: mins= 3.60 hours= 0.06 0: Total MPI timing: mins= 0.1970E+00 hours= 0.3284E-02 %Total runtime= 5.47 0: Subroutine Time (mins) %Total mpi %Total run 0: mp_gather2root_prim 0.5693E-02 2.89 0.16 0: mp_gather2root_sech 0.6071E-02 3.08 0.17 0: mp_gather2root_lbc 0.5270E-04 0.03 0.00 0: mp_bndlats 0.1714E-01 8.70 0.48 0: mp_bndlats_f2d 0.1286E-02 0.65 0.04 0: mp_bndlons 0.1412E-01 7.17 0.39 0: mp_bndlons_f3d 0.2149E-01 10.91 0.60 0: mp_polelats 0.1495E-01 7.59 0.41 0: mp_polelat_f3d 0.1019E-01 5.17 0.28 0: mp_gatherlons_f3d 0.2878E-01 14.61 0.80 0: mp_scatterlons_f3d 0.1739E-01 8.83 0.48 0: mp_periodic_f4d 0.8477E-02 4.30 0.24 0: mp_periodic_f3d 0.1121E-01 5.69 0.31 0: mp_periodic_f2d 0.5947E-03 0.30 0.02 0: mp_bndlats_kmh 0.3686E-03 0.19 0.01 0: mp_bndlons_kmh 0.2698E-03 0.14 0.01 0: mp_mageq 0.1502E-02 0.76 0.04 0: mp_mageq_jpm1 0.1693E-01 8.59 0.47 0: mp_mageq_jpm3 0.1263E-02 0.64 0.04 0: mp_magpole_2d 0.1920E-02 0.97 0.05 0: mp_magpole_3d 0.2884E-04 0.01 0.00 0: mp_magpoles 0.1064E-02 0.54 0.03 0: mp_conjugate_points 0.2344E-06 0.00 0.00 0: mp_foldhem 0.2982E-02 1.51 0.08 0: mp_mag_periodic_f2d 0.2273E-02 1.15 0.06 0: mp_gather_pdyn 0.4744E-02 2.41 0.13 0: mp_mag_halos 0.1384E-02 0.70 0.04 0: mp_geo_halos 0.0000E+00 0.00 0.00 0: mp_geo_halos_f3d 0.3924E-02 1.99 0.11 0: mp_scatter_coeffs 0.0000E+00 0.00 0.00 0: mp_scatter_phim 0.3480E-03 0.18 0.01 0: mp_gather_f2d 0.6565E-03 0.33 0.02 0: mp_scatter_f2d 0.2245E-03 0.11 0.01 0: 0: ------------------------------------------------------------------------ 0: 0: ------------------------------------------------------------------------ 0: Report MPI wall-clock timing (mpi_wtime): mytid= 0 istep= 1440 nstep= 1440 0: Total Time (mins) in 'pefield ' = 0.8178E-01 ( 2.27% of total run time) 0: Total Time (mins) in 'dynamo_inputs ' = 0.3155E+00 ( 8.75% of total run time) 0: Total Time (mins) in 'pdynamo_fieldline_integrals '1: = 0.5724E-01 ( 1.59% of total run time) 0: Total Time (mins) in 'pdynamo_complete_integrals ' = 0.2250E-01 ( 0.62% of total run time) 0: Total Time (mins) in 'pdynamo_rhspde ' = 0.2073E-03 ( 0.01% of total run time) 0: Total Time (mins) in 'stencils ' = 0.1942E-01 ( 0.54% of total run time) 0: Total Time (mins) in 'solver ' = 0.8611E-01 ( 2.39% of total run time) 0: Total Time (mins) in 'highlat_poten ' = 0.2269E-03 ( 0.01% of total run time) 0: Total Time (mins) in 'pthreed ' = 0.5406E+00 ( 15.00% of total run time) 0: ------------------------------------------------------------------------ 0: 1: MPI run with ntask = 4 1: nstep= 1440 step= 60 1: Model simulation time: hours= 24.00 days= 1.00 1: Cpu time for run = 215.71 1: 1: ------------------------------------------------------------------------ 1: Total wallclock time: mins= 3.60 hours= 0.06 1: Total MPI timing: mins= 0.6039E+00 hours= 0.1007E-01 %Total runtime= 16.75 1: Subroutine Time (mins) %Total mpi %Total run 1: mp_gather2root_prim 0.3728E-02 0.62 0.10 1: mp_gather2root_sech 0.5573E-02 0.92 0.15 1: mp_gather2root_lbc 0.1821E-04 0.00 0.00 1: mp_bndlats 0.1707E-01 2.83 0.47 1: mp_bndlats_f2d 0.1176E-02 0.19 0.03 1: mp_bndlons 0.1437E-01 2.38 0.40 1: mp_bndlons_f3d 0.1975E-01 3.27 0.55 0: 0: ------------------------------------------------------------------------ 0: TIMER (system_clock): 0: Elapsed run time = 216.28 (secs) 3.60 (mins) 0.06 (hrs) 0: 0: Elapsed init time = 5.03 secs, 0.001 hrs, 2.3% (includes source i/o) 0: Elapsed step time = 210.02 secs, 0.058 hrs, 97.1% 0: Elapsed prep time = 225.78 secs, 0.063 hrs, 104.4% 0: Elapsed apxparm time= 0.39 secs, 0.000 hrs, 100.0% 0: Elapsed dynamics = 127.44 secs, 0.035 hrs, 58.9% 0: Elapsed qrj = 18.91 secs, 0.005 hrs, 8.7% 0: Elapsed oplus = 14.54 secs, 0.004 hrs, 6.7% 0: Elapsed cmpminor = 20.18 secs, 0.006 hrs, 9.3% (n4s,n2d,no) 0: Elapsed cmpmajor = 14.25 secs, 0.004 hrs, 6.6% (o2, o, he) 0: Elapsed dt = 3.38 secs, 0.001 hrs, 1.6% 0: Elapsed duv = 6.10 secs, 0.002 hrs, 2.8% 0: Elapsed pdynamo = 44.22 secs, 0.012 hrs, 20.4% 0: Elapsed magpres_grav= 3.93 secs, 0.001 hrs, 1.8% 0: Elapsed i/o = 1.49 secs, 0.000 hrs, 0.1: mp_polelats 0.1471E-01 2.44 0.41 7% 0: Elapsed Primary io = 0.27 secs, 0.000 hrs, 0.1% 0: Elapsed Secondary = 1.22 secs, 0.000 hrs, 0.6% 0: 0: Average secs/step = 0.15 0: Average mins/simulated day = 3.60 0: ------------------------------------------------------------------------ 0: 0: End execution of tiegcm_trunk at 03/17/16 11:49:00 0: NORMAL EXIT 1: mp_polelat_f3d 0.1052E-01 1.74 0.29 1: mp_gatherlons_f3d 0.2070E-01 3.43 0.57 2: 1: mp_scatterlons_f3d 0.2907E+00 48.13 8.06 2: ------------------------------------------------------------------------ 1: mp_periodic_f4d 0.2210E-01 3.66 0.61 2: TIMER (system_clock): 1: mp_periodic_f3d 0.6694E-02 1.11 0.19 2: Elapsed run time = 216.20 (secs) 3.60 (mins) 0.06 (hrs) 1: mp_periodic_f2d 0.7405E-03 0.12 0.02 2: 1: mp_bndlats_kmh 0.2972E-03 0.05 0.01 2: Elapsed init time = 4.99 secs, 0.001 hrs, 2.3% (includes source i/o) 1: mp_bndlons_kmh 0.1752E-03 0.03 0.00 2: Elapsed step time = 210.09 secs, 0.058 hrs, 97.2% 1: mp_mageq 0.1316E-02 0.22 0.04 2: Elapsed prep time = 225.21 secs, 0.063 hrs, 104.2% 1: mp_mageq_jpm1 0.2330E-01 3.86 0.65 2: Elapsed apxparm time= 0.41 secs, 0.000 hrs, 100.0% 1: mp_mageq_jpm3 0.1248E-02 0.21 0.03 2: Elapsed dynamics = 127.32 secs, 0.035 hrs, 58.9% 1: mp_magpole_2d 0.1908E-02 0.32 0.05 2: Elapsed qrj = 19.11 secs, 0.005 hrs, 8.8% 1: mp_magpole_3d 0.2900E-04 0.00 0.00 2: Elapsed oplus = 14.39 secs, 0.004 hrs, 6.7% 1: mp_magpoles 0.2478E-01 4.10 0.69 2: Elapsed cmpminor = 19.94 secs, 0.006 hrs, 9.2% (n4s,n2d,no) 1: mp_conjugate_points 0.2186E-06 0.00 0.00 2: Elapsed cmpmajor = 14.14 secs, 0.004 hrs, 6.5% (o2, o, he) 1: mp_foldhem 0.2973E-02 0.49 0.08 2: Elapsed dt = 3.33 secs, 0.001 hrs, 1.5% 1: mp_mag_periodic_f2d 0.2381E-02 0.39 0.07 2: Elapsed duv = 6.23 secs, 0.002 hrs, 2.9% 1: mp_gather_pdyn 0.2074E-02 0.34 0.06 2: Elapsed pdynamo = 43.06 secs, 0.012 hrs, 19.9% 1: mp_mag_halos 0.1073E-02 0.18 0.03 2: Elapsed magpres_grav= 3.93 secs, 0.001 hrs, 1.8% 1: mp_geo_halos 0.0000E+00 0.00 0.00 2: Elapsed i/o = 0.66 secs, 0.000 hrs, 0.3% 1: mp_geo_halos_f3d 0.3892E-02 0.64 0.11 2: Elapsed Primary io = 0.14 secs, 0.000 hrs, 0.1% 1: mp_scatter_coeffs 0.0000E+00 0.00 0.00 2: Elapsed Secondary = 0.51 secs, 0.000 hrs, 0.2% 1: mp_scatter_phim 0.1105E+00 18.30 3.07 2: 1: mp_gather_f2d 0.1747E-03 0.03 0.00 2: Average secs/step = 0.15 1: mp_scatter_f2d 0.1553E-02 0.26 0.04 2: Average mins/simulated day = 3.60 1: 2: ------------------------------------------------------------------------ 1: ------------------------------------------------------------------------ 2: 1: 2: End execution of tiegcm_trunk at 03/17/16 11:49:00 1: ------------------------------------------------------------------------ 2: NORMAL EXIT 1: Report MPI wall-clock timing (mpi_wtime): mytid= 1 istep= 1440 nstep= 1440 1: Total Time (mins) in 'pefield ' = 0.8197E-01 ( 2.27% of total run time) 1: Total Time (mins) in 'dynamo_inputs ' = 0.3125E+00 ( 8.67% of total run time) 1: Total Time (mins) in 'pdynamo_fieldline_integrals ' = 0.5392E-01 ( 1.50% of total run time) 1: Total Time (mins) in 'pdynamo_complete_integrals ' = 0.2902E-01 ( 0.81% of total run time) 1: Total Time (mins) in 'pdynamo_rhspde ' = 0.1988E-03 ( 0.01% of total run time) 1: Total Time (mins) in 'highlat_poten ' = 0.3015E-03 ( 0.01% of total run time) 1: Total Time (mins) in 'pthreed ' = 0.5399E+00 ( 14.98% of total run time) 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: TIMER (system_clock): 1: Elapsed run time = 216.28 (secs) 3.60 (mins) 0.06 (hrs) 1: 1: Elapsed init time = 4.99 secs, 0.001 hrs, 2.3% (includes source i/o) 1: Elapsed step time = 210.83 secs, 0.059 hrs, 97.5% 1: Elapsed prep time = 225.95 secs, 0.063 hrs, 104.5% 1: Elapsed apxparm time= 0.39 secs, 0.000 hrs, 100.0% 1: Elapsed dynamics = 127.38 secs, 0.035 hrs, 58.9% 1: Elapsed qrj = 18.82 secs, 0.005 hrs, 8.7% 1: Elapsed oplus = 14.56 secs, 0.004 hrs, 6.7% 1: Elapsed cmpminor = 20.12 secs, 0.006 hrs, 9.3% (n4s,n2d,no) 1: Elapsed cmpmajor = 14.27 secs, 0.004 hrs, 6.6% (o2, o, he) 1: Elapsed dt = 3.37 secs, 0.001 hrs, 1.6% 1: Elapsed duv = 6.07 secs, 0.002 hrs, 2.8% 1: Elapsed pdynamo = 44.37 secs, 0.012 hrs, 20.5% 1: Elapsed magpres_grav= 3.90 secs, 0.001 hrs, 1.8% 1: Elapsed i/o = 0.58 secs, 0.000 hrs, 0.3% 1: Elapsed Primary io = 0.14 secs, 0.000 hrs, 0.1% 1: Elapsed Secondary = 0.44 secs, 0.000 hrs, 0.2% 1: 1: Average secs/step = 0.15 1: Average mins/simulated day = 3.60 1: ------------------------------------------------------------------------ 1: 1: End execution of tiegcm_trunk at 03/17/16 11:49:00 1: NORMAL EXIT 3: 3: ------------------------------------------------------------------------ 3: TIMER (system_clock): 3: Elapsed run time = 216.20 (secs) 3.60 (mins) 0.06 (hrs) 3: 3: Elapsed init time = 4.99 secs, 0.001 hrs, 2.3% (includes source i/o) 3: Elapsed step time = 210.00 secs, 0.058 hrs, 97.1% 3: Elapsed prep time = 225.21 secs, 0.063 hrs, 104.2% 3: Elapsed apxparm time= 0.39 secs, 0.000 hrs, 100.0% 3: Elapsed dynamics = 127.34 secs, 0.035 hrs, 58.9% 3: Elapsed qrj = 19.07 secs, 0.005 hrs, 8.8% 3: Elapsed oplus = 14.42 secs, 0.004 hrs, 6.7% 3: Elapsed cmpminor = 20.03 secs, 0.006 hrs, 9.3% (n4s,n2d,no) 3: Elapsed cmpmajor = 14.20 secs, 0.004 hrs, 6.6% (o2, o, he) 3: Elapsed dt = 3.35 secs, 0.001 hrs, 1.5% 3: Elapsed duv = 6.20 secs, 0.002 hrs, 2.9% 3: Elapsed pdynamo = 43.06 secs, 0.012 hrs, 19.9% 3: Elapsed magpres_grav= 3.88 secs, 0.001 hrs, 1.8% 3: Elapsed i/o = 0.73 secs, 0.000 hrs, 0.3% 3: Elapsed Primary io = 0.15 secs, 0.000 hrs, 0.1% 3: Elapsed Secondary = 0.58 secs, 0.000 hrs, 0.3% 3: 3: Average secs/step = 0.15 3: Average mins/simulated day = 3.60 3: ------------------------------------------------------------------------ 3: 3: End execution of tiegcm_trunk at 03/17/16 11:49:00 3: NORMAL EXIT