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 timegcm_trunk at 12/03/12 10:06:01 0: Host = iris 0: System = LINUX 0: Logname = foster 0: ======================================================================== 0: 0: init_timer: level= 1 rtc=F sys=T 2: 2: ======================================================================== 2: Begin execution of timegcm_trunk at 12/03/12 10:06:01 2: Host = iris 2: System = LINUX 2: Logname = foster 2: ======================================================================== 2: 3: 2: init_timer: level= 1 rtc=F sys=T 1: 1: ======================================================================== 1: Begin execution of timegcm_trunk at 12/03/12 10:06:01 1: Host = iris 1: System = LINUX 1: Logname = foster 1: ======================================================================== 1: 1: init_timer: level= 1 rtc=F sys=T 3: ======================================================================== 3: Begin execution of timegcm_trunk at 12/03/12 10:06:01 3: Host = iris 3: System = LINUX 3: Logname = foster 3: ======================================================================== 3: 3: init_timer: level= 1 rtc=F sys=T 1: Current working directory (cwd) = /hao/aim/foster/timegcm_zg/timegcm-linux 1: 0: Current working directory (cwd) = /hao/aim/foster/timegcm_zg/timegcm-linux 0: 3: Current working directory (cwd) = /hao/aim/foster/timegcm_zg/timegcm-linux 3: 2: Current working directory (cwd) = /hao/aim/foster/timegcm_zg/timegcm-linux 2: 0: Process ID (pid) = 10814 1: Process ID (pid) = 10814 2: Process ID (pid) = 10814 3: Process ID (pid) = 10814 0: &tgcm_input 0: LABEL = 'timegcm res=5' 0: START_YEAR = 2002 0: START_DAY = 80 0: CALENDAR_ADVANCE = 1 0: SOURCE = '$TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc' 0: SOURCE_START = 80,0,0 0: START = 80,0,0 0: STOP = 80,1,0 0: STEP = 120 0: HIST = 0,1,0 0: OUTPUT = 'FOSTER.timegcm.ptest001.nc' 0: MXHIST_PRIM = 10 0: SECSTART = 80,0,0 0: SECSTOP = 80,1,0 0: SECHIST = 0,0,12 0: SECOUT = 'FOSTER.timegcm.stest001.nc' 0: MXHIST_SECH = 24 0: SECFLDS = 'TN','UN','VN','OMEGA','O3','O1','OX','NO','NO2','NOZ','H2O', 0: 'OH','HO2','H','HOX','OP','CO2','CO','CH4','NE','TE','TI','Z', 0: 'POTEN','UI_VEL','VI_VEL','WI_VEL','ZG' 0: TIDE = 0.,0.,0.,0.,0.,0.,0.,0.,0.,0. 0: TIDE2 = 0.,0. 0: TIDE3M3 = 0.,0. 0: TIDEANN = 1 0: ZATMOS_NCFILE = '$TGCMDATA/zatmos_bndry.nc' 0: SOLGAR_BNDRY_FILE = '$TGCMDATA/solgar_bndry.nc' 0: SOLGAR_IMPORT_FILE = '$TGCMDATA/solgar_import_ubc7.nc' 0: GSWM_MI_DI_NCFILE = '$TGCMDATA/gswm_diurn_5.0d_32km.nc' 0: GSWM_MI_SDI_NCFILE = '$TGCMDATA/gswm_semi_5.0d_32km.nc' 0: POTENTIAL_MODEL = 'HEELIS' 0: POWER = 16. 0: CTPOTEN = 45. 0: F107 = 150. 0: F107A = 150. 0: BYIMF = 0. 0: BZIMF = 0. 0: AURORA = 1 0: COLFAC = 1.5 0: DYNAMO = 1 0: / 0: 1: 1: Reading input data... 0: Reading input data... 0: 2: 1: 2: Reading input data... 2: 3: 3: Reading input data... 3: 2: Completed successful read of namelist inputs. 2: 2: input: setting step_compqrj = step = 120 2: input: setting step_ch4 = step = 120 2: 2: Input: setting default MAGPHR = 0 2: 2: Input: setting default SOLAR_PROTONS = 0 2: 2: Input: setting default PLANETARY = 0 2: 2: Input: setting default KELVIN = 0 2: mkntask: i= 1 j= 4 i*j= 4 ntask= 4 2: mkntask: i= 2 j= 2 i*j= 4 ntask= 4 2: mkntask: i= 4 j= 1 i*j= 4 ntask= 4 2: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 2: 2: Input: User provided all gpi input variables: 2: f107 = 150.00 2: f107a = 150.00 2: power = 16.00 2: ctpoten = 45.00 2: expand_path returning path = '/hao/aim/tgcm/data/zatmos_bndry.nc' 2: expand_path returning path = '/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc' 2: expand_path returning path = '/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc' 2: Input: will use the Heelis electric potential model 2: Input: Will use default swvel = 400 km/s 2: Input: Will use default swden = 4 #/cm3 2: Input: Will use default AL = -20. ALUSE=FALSE 2: Input: dynamo= 1 --> dynamo will be called. 2: INPUT NOTE: adding mandatory field O2 to secondary history fields (field 29) 2: 2: Input: The following input parameters will be used 2: to configure lower boundary conditions of T,U,V,Z: 2: ZATMOS_NCFILE = /hao/aim/tgcm/data/zatmos_bndry.nc 2: GSWM_MI_DI_NCFILE = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: GSWM_MI_SDI_NCFILE = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 2: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 2: TIDE2 = 0.0000E+00 0.0000E+00 2: TIDE3M3 = 2: 0.0000E+00 0.0000E+00 1: Completed successful read of namelist inputs. 2: TIDEANN = 1 1: 2: Planet = F 1: input: setting step_compqrj = step = 120 2: Kelvin = F 1: input: setting step_ch4 = step = 120 2: 1: 2: ------------------------------------------------------------------------ 1: Input: setting default MAGPHR = 0 2: USER INPUT PARAMETERS: 1: 2: label = timegcm res=5 1: Input: setting default SOLAR_PROTONS = 0 2: (optional text label for current run) 1: 2: high-lat electric potential model: potential_model = HEELIS 1: Input: setting default PLANETARY = 0 2: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: 2: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: Input: setting default KELVIN = 0 2: Solgar bndry data: solgar_bndry_file = $TGCMDATA/solgar_bndry.nc 1: mkntask: i= 1 j= 4 i*j= 4 ntask= 4 2: Solgar import data: solgar_import_file = $TGCMDATA/solgar_import_ubc7.nc 1: mkntask: i= 2 j= 2 i*j= 4 ntask= 4 2: Zatmos data: zatmos_ncfile = /hao/aim/tgcm/data/zatmos_bndry.nc 1: mkntask: i= 4 j= 1 i*j= 4 ntask= 4 2: start_year = 2002 (starting calendar day) 1: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 2: start_day = 80 (starting calendar year) 1: 2: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 1: Input: User provided all gpi input variables: 2: step = 120 (model timestep (seconds)) 1: f107 = 150.00 2: ntask_lon = 2 (number of mpi tasks in longitude dimension. 1: f107a = 150.00 2: ntask_lat = 2 (number of mpi tasks in latitude dimension. 1: power = 16.00 2: total tasks = ntask_lon*ntask_lat = 4 1: ctpoten = 45.00 2: source = $TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: expand_path returning path = '/hao/aim/tgcm/data/zatmos_bndry.nc' 2: (file or mss path containing source history) 1: expand_path returning path = '/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc' 2: source_start = 80, 0, 0 (model time of source history) 1: expand_path returning path = '/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc' 2: output (primary history output files) = 1: Input: will use the Heelis electric potential model 2: FOSTER.timegcm.ptest001.nc, 1: Input: Will use default swvel = 400 km/s 2: start (model start times) = 1: Input: Will use default swden = 4 #/cm3 2: 80, 0, 0 1: Input: Will use default AL = -20. ALUSE=FALSE 2: stop (model stop times) = 1: Input: dynamo= 1 --> dynamo will be called. 2: 80, 1, 0 1: INPUT NOTE: adding mandatory field O2 to secondary history fields (field 29) 2: hist (primary history disk write frequencies) = 1: 2: 0, 1, 0 1: Input: The following input parameters will be used 2: save (primary history file save frequencies) = 1: to configure lower boundary conditions of T,U,V,Z: 2: 1: ZATMOS_NCFILE = /hao/aim/tgcm/data/zatmos_bndry.nc 2: Maxmimum number of histories per primary file = 10 1: GSWM_MI_DI_NCFILE = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: secout (secondary history output files)= 1: GSWM_MI_SDI_NCFILE = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: FOSTER.timegcm.stest001.nc, 1: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 2: secstart (secondary history start times) = 1: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 2: 80, 0, 0 1: TIDE2 = 0.0000E+00 0.0000E+00 2: secstop (secondary history stop times) = 1: TIDE3M3 = 2: 80, 1, 0 1: 0.0000E+00 0.0000E+00 2: sechist (secondary history disk write frequencies) = 1: TIDEANN = 1 2: 0, 0,12 1: Planet = F 2: secflds (secondary history fields) = 1: Kelvin = F 2: TN UN VN OMEGA O3 1: 2: O1 OX NO NO2 NOZ 1: ------------------------------------------------------------------------ 2: H2O OH HO2 H HOX 1: USER INPUT PARAMETERS: 2: OP CO2 CO CH4 NE 1: label = timegcm res=5 2: TE TI Z POTEN UI_VEL 1: (optional text label for current run) 2: VI_VEL WI_VEL ZG O2 1: high-lat electric potential model: potential_model = HEELIS 2: Maximum number of histories per secondary file = 24 1: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 1: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: mag (lat,lon of south,north magnetic poles) = 1: Solgar bndry data: solgar_bndry_file = $TGCMDATA/solgar_bndry.nc 2: ******************************** 1: Solgar import data: solgar_import_file = $TGCMDATA/solgar_import_ubc7.nc 2: difhor = ** (horizontal eddy diffusion flag) 1: Zatmos data: zatmos_ncfile = /hao/aim/tgcm/data/zatmos_bndry.nc 2: dynamo = 1 (dynamo will be calculated) 1: start_year = 2002 (starting calendar day) 2: tide (amplitudes and phases of semidiurnal tide) = 1: start_day = 80 (starting calendar year) 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: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 2: tide2 (amplitude and phase of diurnal tide) = 1: step = 120 (model timestep (seconds)) 2: 0.0E+00 0.00 1: ntask_lon = 2 (number of mpi tasks in longitude dimension. 2: tide3m3 (amplitude and phase of 2-day wave)= 1: ntask_lat = 2 (number of mpi tasks in latitude dimension. 2: 0.0E+00 0.00 1: total tasks = ntask_lon*ntask_lat = 4 2: tideann = 1 (0/1 flag for annual tides) 1: source = $TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 2: aurora = 1 (0/1 flag for aurora) 1: (file or mss path containing source history) 2: magphr = 0 (0/1 flag for magnetosphere) 1: source_start = 80, 0, 0 (model time of source history) 2: solar_protons = 0 (0/1 flag for solar protons) 1: output (primary history output files) = 2: planetary = 0 (0/1 flag for planetary waves in lbc of Z) 1: FOSTER.timegcm.ptest001.nc, 2: kelvin = 0 (0/1 flag for kelvin waves in lbc of Z) 1: start (model start times) = 2: f107 = 150.000 (daily 10.7 cm solar flux) 1: 80, 0, 0 2: f107a = 150.000 (81-day ave 10.7 cm solar flux) 1: stop (model stop times) = 2: power = 16.000 (hemispheric power (gw) 1: 80, 1, 0 2: ctpoten = 45.000 (cross-cap potential (volts) 1: hist (primary history disk write frequencies) = 2: byimf = 0.000 (BY component of IMF) 1: 0, 1, 0 2: bzimf = 0.000 (Bz component of IMF) 1: save (primary history file save frequencies) = 2: swvel = 400.000 (solar wind velocity) 1: 2: swden = 4.000 (solar wind density) 1: Maxmimum number of histories per primary file = 10 2: AL = -20.000 (AL, lower auroral mag index) 1: secout (secondary history output files)= 2: colfac = 1.500 (collision factor) 1: FOSTER.timegcm.stest001.nc, 2: END USER INPUT PARAMETERS 1: secstart (secondary history start times) = 2: ------------------------------------------------------------------------ 1: 80, 0, 0 2: 1: secstop (secondary history stop times) = 2: 1: 80, 1, 0 2: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 1: sechist (secondary history disk write frequencies) = 2: j= -1 itask_table(:,j)= -1 -1 -1 -1 1: 0, 0,12 2: j= 0 itask_table(:,j)= -1 0 1 -1 1: secflds (secondary history fields) = 2: j= 1 itask_table(:,j)= -1 2 3 -1 1: TN UN VN OMEGA O3 2: j= 2 itask_table(:,j)= -1 -1 -1 -1 1: O1 OX NO NO2 NOZ 2: 1: H2O OH HO2 H HOX 2: mytid= 2 mytidi,j= 0 1 lat0,1= 19 36 (18) lon0,1= 1 38 (38) ncells= 684 1: OP CO2 CO CH4 NE 1: TE TI Z POTEN UI_VEL 1: VI_VEL WI_VEL ZG O2 1: Maximum number of histories per secondary file = 24 1: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 1: mag (lat,lon of south,north magnetic poles) = 1: ******************************** 1: difhor = ** (horizontal eddy diffusion flag) 1: dynamo = 1 (dynamo will be calculated) 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: tide3m3 (amplitude and phase of 2-day wave)= 1: 0.0E+00 0.00 1: tideann = 1 (0/1 flag for annual tides) 1: aurora = 1 (0/1 flag for aurora) 1: magphr = 0 (0/1 flag for magnetosphere) 1: solar_protons = 0 (0/1 flag for solar protons) 1: planetary = 0 (0/1 flag for planetary waves in lbc of Z) 1: kelvin = 0 (0/1 flag for kelvin waves in lbc of Z) 1: f107 = 150.000 (daily 10.7 cm solar flux) 1: f107a = 150.000 (81-day ave 10.7 cm solar flux) 1: power = 16.000 (hemispheric power (gw) 1: ctpoten = 45.000 (cross-cap potential (volts) 1: byimf = 0.000 (BY component of IMF) 1: bzimf = 0.000 (Bz component of IMF) 1: swvel = 400.000 (solar wind velocity) 1: swden = 4.000 (solar wind density) 1: AL = -20.000 (AL, lower auroral mag index) 1: colfac = 1.500 (collision factor) 1: END USER INPUT PARAMETERS 1: ------------------------------------------------------------------------ 1: 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 3: Completed successful read of namelist inputs. 0: Completed successful read of namelist inputs. 0: 0: input: setting step_compqrj = step = 120 0: input: setting step_ch4 = step = 120 0: 0: Input: setting default MAGPHR = 0 0: 0: Input: setting default SOLAR_PROTONS = 0 0: 0: Input: setting default PLANETARY = 0 0: 0: Input: setting default KELVIN = 0 0: mkntask: i= 1 j= 4 i*j= 4 ntask= 4 0: mkntask: i= 2 j= 2 i*j= 4 ntask= 4 0: mkntask: i= 4 j= 1 i*j= 4 ntask= 4 0: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 0: 0: Input: User provided all gpi input variables: 0: f107 = 150.00 0: f107a = 150.00 0: power = 16.00 0: ctpoten = 45.00 0: expand_path returning path = '/hao/aim/tgcm/data/zatmos_bndry.nc' 0: expand_path returning path = '/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc' 0: expand_path returning path = '/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc' 0: Input: will use the Heelis electric potential model 0: Input: Will use default swvel = 400 km/s 0: Input: Will use default swden = 4 #/cm3 0: Input: Will use default AL = -20. ALUSE=FA3: LSE 0: Input: dynamo= 1 --> dynamo will be called. 0: INPUT NOTE: adding mandatory field O2 to secondary history fields (field 29) 0: 0: Input: The following input parameters will be used 0: to configure lower boundary conditions of T,U,V,Z: 0: ZATMOS_NCFILE = /hao/aim/tgcm/data/zatmos_bndry.nc 0: GSWM_MI_DI_NCFILE = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: GSWM_MI_SDI_NCFILE = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0: TIDE2 = 0.0000E+00 0.0000E+00 0: TIDE3M3 = 0: 0.0000E+00 0.0000E+00 0: TIDEANN = 1 0: Planet = F 0: Kelvin = F 0: 0: ------------------------------------------------------------------------ 0: USER INPUT PARAMETERS: 0: label = timegcm res=5 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/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: gswm migrating semi-diurnal f3: input: setting step_compqrj = step = 120 ile: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: Solgar bndry data: solgar_bndry_file = $TGCMDATA/solgar_bndry.nc 0: Solgar import data: solgar_import_file = $TGCMDATA/solgar_import_ubc7.nc 0: Zatmos data: zatmos_ncfile = /hao/aim/tgcm/data/zatmos_bndry.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 = 120 (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 = $TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: (file or mss path containing source history) 0: source_start = 80, 0, 0 (model time of source history) 0: output (primary history output files) = 0: FOSTER.timegcm.ptest001.nc, 0: start (model start times) = 0: 80, 0, 0 0: stop (model stop times) = 0: 80, 1, 0 0: hist (primary history 3: input: setting step_ch4 = step = 120 disk write frequencies) = 0: 0, 1, 0 0: save (primary history file save frequencies) = 0: 0: Maxmimum number of histories per primary file = 10 0: secout (secondary history output files)= 0: FOSTER.timegcm.stest001.nc, 0: secstart (secondary history start times) = 0: 80, 0, 0 0: secstop (secondary history stop times) = 0: 80, 1, 0 0: sechist (secondary history disk write frequencies) = 0: 0, 0,12 0: secflds (secondary history fields) = 0: TN UN VN OMEGA O3 0: O1 OX NO NO2 NOZ 0: H2O OH HO2 H HOX 0: OP CO2 CO CH4 NE 0: TE TI Z POTEN UI_VEL 0: VI_VEL WI_VEL ZG O2 0: Maximum number of histories per secondary file = 24 0: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 0: mag (lat,lon of south,north magnetic poles) = 0: **************3: ****************** 0: difhor = ** (horizontal eddy diffusion flag) 0: dynamo = 1 (dynamo will be calculated) 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: tide3m3 (amplitude and phase of 2-day wave)= 0: 0.0E+00 0.00 0: tideann = 1 (0/1 flag for annual tides) 0: aurora = 1 (0/1 flag for aurora) 0: magphr = 0 (0/1 flag for magnetosphere) 0: solar_protons = 0 (0/1 flag for solar protons) 0: planetary = 0 (0/1 flag for planetary waves in lbc of Z) 0: kelvin = 0 (0/1 flag for kelvin waves in lbc of Z) 0: f107 = 150.000 (daily 10.7 cm solar flux) 0: f107a = 150.000 (81-day ave 10.7 cm solar flux) 0: power = 16.000 (hemispheric power (gw) 0: ctpoten = 45.000 (cross-cap potential (volts) 0: byimf = 0.000 (BY component of IMF) 0: bzimf = 0.000 (Bz component of IMF) 0: swvel = 400.000 (solar wind velocity) 0: swden = 4.000 (solar wind d3: Input: setting default MAGPHR = 0 ensity) 0: AL = -20.000 (AL, lower auroral mag index) 0: colfac = 1.500 (collision factor) 0: END USER INPUT PARAMETERS 0: ------------------------------------------------------------------------ 0: 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 3: 3: Input: setting default SOLAR_PROTONS = 0 3: 3: Input: setting default PLANETARY = 0 3: 3: Input: setting default KELVIN = 0 3: mkntask: i= 1 j= 4 i*j= 4 ntask= 4 3: mkntask: i= 2 j= 2 i*j= 4 ntask= 4 3: mkntask: i= 4 j= 1 i*j= 4 ntask= 4 3: Input: mkntask chose ntask_lon= 2 ntask_lat= 2 (ntask= 4) 3: 3: Input: User provided all gpi input variables: 3: f107 = 150.00 3: f107a = 150.00 3: power = 16.00 3: ctpoten = 45.00 3: expand_path returning path = '/hao/aim/tgcm/data/zatmos_bndry.nc' 3: expand_path returning path = '/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc' 3: expand_path returning path = '/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc' 3: Input: will use the Heelis electric potential model 3: Input: Will use default swvel = 400 km/s 3: Input: Will use default swden = 4 #/cm3 3: Input: Will use default AL = -20. ALUSE=FALSE 3: Input: dynamo= 1 --> dynamo will be called. 3: INPUT NOTE: adding mandatory field O2 to secondary history fields (field 29) 3: 3: Input: The following input parameters will be used 3: to configure lower boundary conditions of T,U,V,Z: 3: ZATMOS_NCFILE = /hao/aim/tgcm/data/zatmos_bndry.nc 3: GSWM_MI_DI_NCFILE = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: GSWM_MI_SDI_NCFILE = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 3: TIDE = 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 0.0000E+00 3: TIDE2 = 0.0000E+00 0.0000E+00 3: TIDE3M3 = 3: 0.0000E+00 0.0000E+00 3: TIDEANN = 1 3: Planet = F 3: Kelvin = F 3: 3: ------------------------------------------------------------------------ 3: USER INPUT PARAMETERS: 3: label = timegcm res=5 3: (optional text label for current run) 3: high-lat electric potential model: potential_model = HEELIS 3: gswm migrating diurnal file: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: gswm migrating semi-diurnal file: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: Solgar bndry data: solgar_bndry_file = $TGCMDATA/solgar_bndry.nc 3: Solgar import data: solgar_import_file = $TGCMDATA/solgar_import_ubc7.nc 3: Zatmos data: zatmos_ncfile = /hao/aim/tgcm/data/zatmos_bndry.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) 3: step = 120 (model timestep (seconds)) 3: ntask_lon = 2 (number of mpi tasks in longitude dimension. 3: ntask_lat = 2 (number of mpi tasks in latitude dimension. 3: total tasks = ntask_lon*ntask_lat = 4 3: source = $TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.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: FOSTER.timegcm.ptest001.nc, 3: start (model start times) = 3: 80, 0, 0 3: stop (model stop times) = 3: 80, 1, 0 3: hist (primary history disk write frequencies) = 3: 0, 1, 0 3: save (primary history file save frequencies) = 3: 3: Maxmimum number of histories per primary file = 10 3: secout (secondary history output files)= 3: FOSTER.timegcm.stest001.nc, 3: secstart (secondary history start times) = 3: 80, 0, 0 3: secstop (secondary history stop times) = 3: 80, 1, 0 3: sechist (secondary history disk write frequencies) = 3: 0, 0,12 3: secflds (secondary history fields) = 3: TN UN VN OMEGA O3 3: O1 OX NO NO2 NOZ 3: H2O OH HO2 H HOX 3: OP CO2 CO CH4 NE 3: TE TI Z POTEN UI_VEL 3: VI_VEL WI_VEL ZG O2 3: Maximum number of histories per secondary file = 24 3: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 3: mag (lat,lon of south,north magnetic poles) = 3: ******************************** 3: difhor = ** (horizontal eddy diffusion flag) 3: dynamo = 1 (dynamo will be calculated) 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: tide3m3 (amplitude and phase of 2-day wave)= 3: 0.0E+00 0.00 3: tideann = 1 (0/1 flag for annual tides) 3: aurora = 1 (0/1 flag for aurora) 3: magphr = 0 (0/1 flag for magnetosphere) 3: solar_protons = 0 (0/1 flag for solar protons) 3: planetary = 0 (0/1 flag for planetary waves in lbc of Z) 3: kelvin = 0 (0/1 flag for kelvin waves in lbc of Z) 3: f107 = 150.000 (daily 10.7 cm solar flux) 3: f107a = 150.000 (81-day ave 10.7 cm solar flux) 3: power = 16.000 (hemispheric power (gw) 3: ctpoten = 45.000 (cross-cap potential (volts) 3: byimf = 0.000 (BY component of IMF) 3: bzimf = 0.000 (Bz component of IMF) 3: swvel = 400.000 (solar wind velocity) 3: swden = 4.000 (solar wind density) 3: AL = -20.000 (AL, lower auroral mag index) 3: colfac = 1.500 (collision factor) 3: END USER INPUT PARAMETERS 3: ------------------------------------------------------------------------ 3: 2: 3: 2: Task 2: 3: ntask= 4 ntaski= 2 ntaskj= 2 Task Table: 2: tasks( 2)%mytid = 2 3: j= -1 itask_table(:,j)= -1 -1 -1 -1 2: tasks( 2)%mytidi= 0 3: j= 0 itask_table(:,j)= -1 0 1 -1 2: tasks( 2)%mytidj= 1 3: j= 1 itask_table(:,j)= -1 2 3 -1 2: tasks( 2)%nlats = 18 3: j= 2 itask_table(:,j)= -1 -1 -1 -1 2: tasks( 2)%nlons = 38 3: 2: tasks( 2)%lat0 = 19 3: mytid= 3 mytidi,j= 1 1 lat0,1= 19 36 (18) lon0,1= 39 76 (38) ncells= 684 2: tasks( 2)%lat1 = 36 1: 2: tasks( 2)%lon0 = 1 1: Task 1: 2: tasks( 2)%lon1 = 38 1: tasks( 1)%mytid = 1 2: tasks( 2)%mylats= 1: tasks( 1)%mytidi= 1 2: 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 1: tasks( 1)%mytidj= 0 2: 34 35 36 1: tasks( 1)%nlats = 18 2: tasks( 2)%mylons= 1: tasks( 1)%nlons = 38 2: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1: tasks( 1)%lat0 = 1 2: 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 1: tasks( 1)%lat1 = 18 2: 31 32 33 34 35 36 37 38 1: tasks( 1)%lon0 = 39 2: mp_distribute: mxlat= 18 mxlon= 38 1: tasks( 1)%lon1 = 76 2: 1: tasks( 1)%mylats= 2: Model name = time-gcm 1: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 2: Model version = timegcm_trunk 1: 16 17 18 2: 1: tasks( 1)%mylons= 2: Set constants: 1: 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 2: nlat= 36 nlon= 72 nlev= 48 1: 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 2: dz = 0.50 1: 69 70 71 72 73 74 75 76 2: zmbot, zmtop = -16.750 7.250 (bottom,top midpoint levels) 1: mp_distribute: mxlat= 18 mxlon= 38 2: zibot, zitop = -17.000 7.000 (bottom,top interface levels) 1: 2: dt = 120.00 secs 1: Model name = time-gcm 2: grav = 945.00 1: Model version = timegcm_trunk 2: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 freq_ann= 0.1991E-06 1: 2: dipmin = 0.170 1: Set constants: 2: check_exp = F 1: nlat= 36 nlon= 72 nlev= 48 2: calc_gw = T 1: dz = 0.50 2: dlat= 5.00 dlon= 5.00 1: zmbot, zmtop = -16.750 7.250 (bottom,top midpoint levels) 2: kut(nlat)= 1: zibot, zitop = -17.000 7.000 (bottom,top interface levels) 2: 1 2 3 5 6 7 9 10 11 13 14 15 1: dt = 120.00 secs 2: 17 17 17 17 17 17 17 17 17 17 17 17 1: grav = 945.00 2: 15 14 13 11 10 9 7 6 5 3 2 1 1: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 freq_ann= 0.1991E-06 2: init: theta0= 0.1377E+01 sfeps= 0.1007E+01 1: dipmin = 0.170 2: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: check_exp = F 2: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: calc_gw = T 1: dlat= 5.00 dlon= 5.00 1: kut(nlat)= 1: 1 2 3 5 6 7 9 10 11 13 14 15 1: 17 17 17 17 17 17 17 17 17 17 17 17 1: 15 14 13 11 10 9 7 6 5 3 2 1 1: init: theta0= 0.1377E+01 sfeps= 0.1007E+01 1: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: 3: 0: Task 0: 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: tasks( 0)%mylats= 0: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0: 16 17 18 0: tasks( 0)%mylons= 0: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 0: 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 0: 31 32 33 34 35 36 37 38 0: mp_distribute: mxlat= 18 mxlon= 38 0: 0: Model name = time-gcm 0: Model version = timegcm_trunk 0: 0: Set constants: 0: nlat= 36 nlon= 72 nlev= 48 0: dz = 0.50 0: zmbot, zmtop = -16.750 7.250 (bottom,top midpoint levels) 0: zibot, zitop = -17.000 7.000 (bottom,top interface levels) 0: dt = 120.00 secs 0: grav = 945.00 0: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 freq_ann= 0.1991E-06 0: dipmin = 0.170 0: check_exp = F 0: calc_gw = T 0: dlat= 5.00 dlon= 5.00 0: kut(nlat)= 0: 1 2 3 5 6 7 9 10 11 13 14 15 0: 173: Task 3: 17 17 17 17 17 17 17 17 17 17 17 0: 15 14 13 11 10 9 7 6 5 3 2 1 0: init: theta0= 0.1377E+01 sfeps= 0.1007E+01 0: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 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: tasks( 3)%mylats= 3: 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 3: 34 35 36 3: tasks( 3)%mylons= 3: 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 3: 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 3: 69 70 71 72 73 74 75 76 3: mp_distribute: mxlat= 18 mxlon= 38 3: 3: Model name = time-gcm 3: Model version = timegcm_trunk 3: 3: Set constants: 3: nlat= 36 nlon= 72 nlev= 48 3: dz = 0.50 3: zmbot, zmtop = -16.750 7.250 (bottom,top midpoint levels) 3: zibot, zitop = -17.000 7.000 (bottom,top interface levels) 3: dt = 120.00 secs 3: grav = 945.00 3: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 freq_ann= 0.1991E-06 3: dipmin = 0.170 3: check_exp = F 3: calc_gw = T 3: dlat= 5.00 dlon= 5.00 3: kut(nlat)= 3: 1 2 3 5 6 7 9 10 11 13 14 15 3: 17 17 17 17 17 17 17 17 17 17 17 17 3: 15 14 13 11 10 9 7 6 5 3 2 1 3: init: theta0= 0.1377E+01 sfeps= 0.1007E+01 3: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: Completed allocations for hox. 2: allocdata: allocated zpotenm3d: nmlonp1,nmlat,nmlev= 81 97 49 1: Completed allocations for hox. 2: init_lbc: allocated subdomains tlbc, ulbc, vlbc 2: 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 2: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 2: 2: Model run initialization: 2: nlon= 72 nlat= 36 nlev= 48 2: dlon= 5.00 dlat= 5.00 dlev= 0.50 2: nstep = 30 (Number of time steps this run) 2: iter = 57600 (Initial iteration number) 2: iyear = 2002 (Beginning calendar year) 2: iday = 80 (Beginning calendar day) 2: 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.) 2: 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.) 2: sfeps= 0.1007E+01 2: 2: This is an initial run: 2: start_year = 2002 (Starting year of initial run) 2: start_day = 80 (Starting day of initial run) 2: start_mtime= 80 0 0 (Starting mtime of initial run) 2: 2: Primary Histories: 2: nsource = 1 (If > 0, a primary source history was provided) 2: nseries_prim = 1 (Number of primary time series) 2: nhist_total = 2 (Number of primary histories to be written) 2: nfiles_prim = 1 (Number of primary output files to be written) 2: mxhist_prim = 10 (Maximum number of primary histories per file) 2: 2: Secondary Histories: 2: nseries_sech = 1 (Number of secondary time series) 2: nsech_total = 6 (Number of secondary histories to be written) 2: nfiles_sech = 1 (Number of secondary output files to be written) 2: mxhist_sech = 24 (Maximum number of secondary histories per file) 2: nfsech = 29 (Number of requested secondary history fields) 2: secondary history field 1: TN 2: secondary history field 2: UN 2: secondary history field 3: VN 2: secondary history field 4: OMEGA 2: secondary history field 5: O3 2: secondary history field 6: O1 2: secondary history field 7: OX 2: secondary history field 8: NO 2: secondary history field 9: NO2 2: secondary history field 10: NOZ 2: secondary history field 11: H2O 2: secondary history field 12: OH 2: secondary history field 13: HO2 2: secondary history field 14: H 2: secondary history field 15: HOX 2: secondary history field 16: OP 2: secondary history field 17: CO2 2: secondary history field 18: CO 2: secondary history field 19: CH4 2: secondary history field 20: NE 2: secondary history field 21: TE 2: secondary history field 22: TI 2: secondary history field 23: Z 3: Completed allocations for hox. 2: secondary history field 24: POTEN 2: secondary history field 25: UI_VEL 1: allocdata: allocated zpotenm3d: nmlonp1,nmlat,nmlev= 81 97 49 0: Completed allocations for hox. 0: allocdata: allocated zpotenm3d: nmlonp1,nmlat,nmlev= 81 97 49 0: Allocated 3d data for all fields on root task: 0: nlevp1*nlonp4*nlat*nf4d = 49* 76* 36* 52 = 6971328 words *8 = 55770624 bytes. 1: init_lbc: allocated subdomains tlbc, ulbc, vlbc 1: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 1: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 1: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 1: 1: Model run initialization: 1: nlon= 72 nlat= 36 nlev= 48 1: dlon= 5.00 dlat= 5.00 dlev= 0.50 1: nstep = 30 (Number of time steps this run) 1: iter = 57600 (Initial iteration number) 1: iyear = 2002 (Beginning calendar year) 2: secondary history field 26: VI_VEL 1: iday = 80 (Beginning calendar day) 2: secondary history field 27: WI_VEL 1: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 2: secondary history field 28: ZG 1: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 2: secondary history field 29: O2 1: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 2: gw_inti: pgwv = 6 3: allocdata: allocated zpotenm3d: nmlonp1,nmlat,nmlev= 81 97 49 2: 1: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 2: ------------------------------------------------------------------------ 1: sfeps= 0.1007E+01 2: Getfile: remote=$TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: 2: expand_path returning path = '/hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc' 1: This is an initial run: 2: Getfile: Found file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: start_year = 2002 (Starting year of initial run) 2: ------------------------------------------------------------------------ 1: start_day = 80 (Starting day of initial run) 2: 1: start_mtime= 80 0 0 (Starting mtime of initial run) 2: Acquired source history file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: 2: (disk file is /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc) 1: Primary Histories: 2: rdsource calling nc_rdhist.. 1: nsource = 1 (If > 0, a primary source history was provided) 2: Reading source history from diskfile /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc: 1: nseries_prim = 1 (Number of primary time series) 2: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 1: nhist_total = 2 (Number of primary histories to be written) 2: Note nc_rdhist: unused variable: calendar_advance 1: nfiles_prim = 1 (Number of primary output files to be written) 2: Note nc_rdhist: unused variable: write_date 1: mxhist_prim = 10 (Maximum number of primary histories per file) 2: Note nc_rdhist: unused variable: grav 1: 2: Read field TN 3d min,max= 0.1845E+03 0.8145E+03 1: Secondary Histories: 2: Read field UN 3d min,max= -0.8704E+04 0.2825E+05 1: nseries_sech = 1 (Number of secondary time series) 2: Read field VN 3d min,max= -0.2286E+05 0.2407E+05 1: nsech_total = 6 (Number of secondary histories to be written) 2: Read field O2 3d min,max= 0.4805E-04 0.2400E+00 1: nfiles_sech = 1 (Number of secondary output files to be written) 2: Read field OX 3d min,max= 0.1265E-05 0.9956E+00 1: mxhist_sech = 24 (Maximum number of secondary histories per file) 2: Read field N4S 3d min,max= 0.0000E+00 0.1686E-01 1: nfsech = 29 (Number of requested secondary history fields) 2: Read field NOZ 3d min,max= 0.1548E-08 0.2073E-03 1: secondary history field 1: TN 2: Read field CO 3d min,max= 0.2608E-07 0.4516E-04 1: secondary history field 2: UN 2: Read field CO2 3d min,max= 0.1663E-11 0.5489E-03 1: secondary history field 3: VN 2: Read field H2O 3d min,max= 0.3941E-09 0.3192E-05 1: secondary history field 4: OMEGA 2: Read field H2 3d min,max= 0.3692E-07 0.3405E-04 1: secondary history field 5: O3 2: Read field HOX 3d min,max= 0.3228E-12 0.3113E-01 1: secondary history field 6: O1 2: Read field OP 3d min,max= 0.1000E-04 0.1019E+07 1: secondary history field 7: OX 2: Read field CH4 3d min,max= 0.2600E-11 0.7567E-06 1: secondary history field 8: NO 2: Read field AR 3d min,max= 0.0000E+00 0.0000E+00 1: secondary history field 9: NO2 1: secondary history field 10: NOZ 1: secondary history field 11: H2O 1: secondary history field 12: OH 1: secondary history field 13: HO2 1: secondary history field 14: H 1: secondary history field 15: HOX 1: secondary history field 16: OP 1: secondary history field 17: CO2 1: secondary history field 18: CO 1: secondary history field 19: CH4 1: secondary history field 20: NE 1: secondary history field 21: TE 1: secondary history field 22: TI 1: secondary history field 23: Z 1: secondary history field 24: POTEN 1: secondary history field 25: UI_VEL 1: secondary history field 26: VI_VEL 1: secondary history field 27: WI_VEL 1: secondary history field 28: ZG 1: secondary history field 29: O2 3: init_lbc: allocated subdomains tlbc, ulbc, vlbc 3: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 3: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 3: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 3: 3: Model run initialization: 3: nlon= 72 nlat= 36 nlev= 48 3: dlon= 5.00 dlat= 5.00 dlev= 0.50 3: nstep = 30 (Number of time steps this run) 3: iter = 57600 (Initial iteration number) 3: iyear = 2002 (Beginning calendar year) 3: iday = 80 (Beginning calendar day) 3: igswm_mi_di = 1 (If > 0, GSWM diurnal tidal database will be used.) 3: igswm_mi_sdi= 1 (If > 0, GSWM semidiurnal tidal database will be used.) 3: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 3: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 3: sfeps= 0.1007E+01 3: 3: This is an initial run: 3: start_year = 2002 (Starting year of initial run) 3: start_day = 80 (Starting day of initial run) 3: start_mtime= 80 0 0 (Starting mtime of initial run) 3: 3: Primary Histories: 3: nsource = 1 (If > 0, a primary source history was provided) 3: nseries_prim = 1 (Number of primary time series) 3: nhist_total = 2 (Number of primary histories to be written) 3: nfiles_prim = 1 (Number of primary output files to be written) 3: mxhist_prim = 10 (Maximum number of primary histories per file) 3: 3: Secondary Histories: 3: nseries_sech = 1 (Number of secondary time series) 3: nsech_total = 6 (Number of secondary histories to be written) 3: nfiles_sech = 1 (Number of secondary output files to be written) 3: mxhist_sech = 24 (Maximum number of secondary histories per file) 3: nfsech = 29 (Number of requested secondary history fields) 3: secondary history field 1: TN 3: secondary history field 2: UN 3: secondary history field 3: VN 3: secondary history field 4: OMEGA 3: secondary history field 5: O3 3: secondary history field 6: O1 3: secondary history field 7: OX 3: secondary history field 8: NO 3: secondary history field 9: NO2 3: secondary history field 10: NOZ 3: secondary history field 11: H2O 3: secondary history field 12: OH 3: secondary history field 13: HO2 3: secondary history field 14: H 3: secondary history field 15: HOX 3: secondary history field 16: OP 3: secondary history field 17: CO2 3: secondary history field 18: CO 3: secondary history field 19: CH4 3: secondary history field 20: NE 3: secondary history field 21: TE 3: secondary history field 22: TI 3: secondary history field 23: Z 3: secondary history field 24: POTEN 3: secondary history field 25: UI_VEL 3: secondary history field 26: VI_VEL 3: secondary history field 27: WI_VEL 3: secondary history field 28: ZG 3: secondary history field 29: O2 3: gw_inti: pgwv = 6 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=$TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 3: expand_path returning path = '/hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc' 3: Getfile: Found file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 3: ------------------------------------------------------------------------ 3: 3: Acquired source history file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 3: (disk file is /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc) 3: rdsource calling nc_rdhist.. 3: Reading source history from diskfile /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc: 3: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 3: Note nc_rdhist: unused variable: calendar_advance 3: Note nc_rdhist: unused variable: write_date 3: Note nc_rdhist: unused variable: grav 3: Read field TN 3d min,max= 0.1883E+03 0.7607E+03 1: gw_inti: pgwv = 6 1: 3: Read field UN 3d min,max= -0.1875E+05 0.1385E+05 1: ------------------------------------------------------------------------ 1: Getfile: remote=$TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: expand_path returning path = '/hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc' 1: Getfile: Found file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: ------------------------------------------------------------------------ 1: 1: Acquired source history file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: (disk file is /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc) 3: Read field VN 3d min,max= -0.2415E+05 0.2277E+05 3: Read field O2 3d min,max= 0.4224E-04 0.2400E+00 3: Read field OX 3d min,max= 0.1261E-05 0.9963E+00 3: Read field N4S 3d min,max= 0.0000E+00 0.1443E-01 3: Read field NOZ 3d min,max= 0.1558E-08 0.2000E-03 3: Read field CO 3d min,max= 0.2596E-07 0.4373E-04 3: Read field CO2 3d min,max= 0.1730E-11 0.5489E-03 3: Read field H2O 3d min,max= 0.5879E-09 0.3192E-05 3: Read field H2 3d min,max= 0.3806E-07 0.5807E-04 3: Read field HOX 3d min,max= 0.2794E-12 0.4106E-01 3: Read field OP 3d min,max= 0.1000E-04 0.7241E+06 1: rdsource calling nc_rdhist.. 2: Read field HE 3d min,max= 0.0000E+00 0.0000E+00 1: Reading source history from diskfile /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc: 2: Read field NAT 3d min,max= -0.6931E-07 0.1376E-05 1: nc_rdhist: seeking 80 0 0 found 80 0 0 n= 1 2: Read field O21D 3d min,max= 0.1271E-18 0.1851E-04 3: Read field CH4 3d min,max= 0.3992E-11 0.7575E-06 2: Read field NO2 3d min,max= 0.2483E-13 0.1677E-07 1: Note nc_rdhist: unused variable: calendar_advance 2: Read field NO 3d min,max= 0.2066E-09 0.2073E-03 1: Note nc_rdhist: unused variable: write_date 2: Read field O3 3d min,max= 0.1000E-09 0.1617E-04 1: Note nc_rdhist: unused variable: grav 2: Read field O1 3d min,max= 0.1000E-09 0.9965E+00 3: Read field AR 3d min,max= 0.0000E+00 0.0000E+00 2: Read field OH 3d min,max= 0.9870E-13 0.3279E-06 3: Read field HE 3d min,max= 0.0000E+00 0.0000E+00 2: Read field HO2 3d min,max= 0.1695E-11 0.6365E-06 3: Read field NAT 3d min,max= -0.3884E-06 0.1424E-05 2: Read field H 3d min,max= 0.1012E-19 0.1929E-01 3: Read field O21D 3d min,max= 0.1291E-18 0.1851E-04 2: Read field N2D 3d min,max= 0.6783E-22 0.5106E-03 3: Read field NO2 3d min,max= 0.3686E-13 0.1677E-07 2: Read field TI 3d min,max= 0.1845E+03 0.1600E+04 3: Read field NO 3d min,max= 0.2168E-09 0.2000E-03 2: Read field TE 3d min,max= 0.1845E+03 0.2969E+04 3: Read field O3 3d min,max= 0.1000E-09 0.1555E-04 2: Read field NE 3d min,max= 0.2036E+03 0.1016E+07 3: Read field O1 3d min,max= 0.1000E-09 0.9971E+00 2: Read field O2P 3d min,max= 0.4198E-01 0.7134E+05 1: Read field TN 3d min,max= 0.1821E+03 0.7657E+03 2: Read field OMEGA 3d min,max= -0.7724E-04 0.5995E-04 3: Read field OH 3d min,max= 0.8556E-13 0.4326E-06 2: Read field Z 3d min,max= 0.2904E+07 0.4984E+08 3: Read field HO2 3d min,max= 0.8486E-12 0.8397E-06 2: Read field POTEN 3d min,max= -0.1297E+05 0.1092E+05 3: Read field H 3d min,max= 0.8763E-20 0.2545E-01 2: Read field TN_NM 3d min,max= 0.1845E+03 0.8144E+03 3: Read field N2D 3d min,max= 0.6788E-22 0.8329E-03 2: Read field UN_NM 3d min,max= -0.8713E+04 0.2827E+05 3: Read field TI 3d min,max= 0.1883E+03 0.1593E+04 2: Read field VN_NM 3d min,max= -0.2282E+05 0.2408E+05 2: Read field O2_NM 3d min,max= 0.4804E-04 0.2400E+00 3: Read field TE 3d min,max= 0.1883E+03 0.4007E+04 2: Read field OX_NM 3d min,max= 0.1265E-05 0.9956E+00 2: Read field N4S_NM 3d min,max= 0.0000E+00 0.1686E-01 2: Read field NOZ_NM 3d min,max= 0.1548E-08 0.2073E-03 1: Read field UN 3d min,max= -0.2858E+05 0.9941E+04 3: Read field NE 3d min,max= 0.2117E+03 0.7217E+06 2: Read field CO_NM 3d min,max= 0.2608E-07 0.4516E-04 3: Read field O2P 3d min,max= 0.3482E-01 0.7226E+05 2: Read field CO2_NM 3d min,max= 0.1663E-11 0.5489E-03 1: Read field VN 3d min,max= -0.1442E+05 0.1406E+05 3: Read field OMEGA 3d min,max= -0.7923E-04 0.4344E-04 2: Read field H2O_NM 3d min,max= 0.3943E-09 0.3192E-05 3: Read field Z 3d min,max= 0.2903E+07 0.4832E+08 2: Read field H2_NM 3d min,max= 0.3693E-07 0.3402E-04 1: Read field O2 3d min,max= 0.6132E-04 0.2400E+00 3: Read field POTEN 3d min,max= -0.7065E+04 0.1351E+05 2: Read field HOX_NM 3d min,max= 0.3234E-12 0.3115E-01 3: Read field TN_NM 3d min,max= 0.1883E+03 0.7606E+03 1: Read field OX 3d min,max= 0.1260E-05 0.9948E+00 2: Read field OP_NM 3d min,max= 0.1000E-04 0.1297E+07 3: Read field UN_NM 3d min,max= -0.1876E+05 0.1396E+05 2: Read field CH4_NM 3d min,max= 0.2601E-11 0.7567E-06 1: Read field N4S 3d min,max= 0.0000E+00 0.1449E-01 3: Read field VN_NM 3d min,max= -0.2416E+05 0.2274E+05 2: Read field AR_NM 3d min,max= 0.0000E+00 0.0000E+00 2: Read field HE_NM 3d min,max= 0.0000E+00 0.0000E+00 3: Read field O2_NM 3d min,max= 0.4223E-04 0.2400E+00 1: Read field NOZ 3d min,max= 0.1568E-08 0.2020E-03 2: Read field NAT_NM 3d min,max= -0.6960E-07 0.1376E-05 2: Note nc_rdhist: unused variable: BARM 3: Read field OX_NM 3d min,max= 0.1261E-05 0.9963E+00 2: Note nc_rdhist: unused variable: VC 2: Read TLBC subdomain from source history: min,max= 0.00 229.73 2: Read ULBC subdomain from source history: min,max= 0.00 1209.89 2: Read VLBC subdomain from source history: min,max= -299.35 167.32 2: Read TLBC_NM subdomain from source history: min,max= 0.00 229.73 2: Read ULBC_NM subdomain from source history: min,max= 0.00 1208.61 2: Read VLBC_NM subdomain from source history: min,max= -298.51 159.59 3: Read field N4S_NM 3d min,max= 0.0000E+00 0.1441E-01 2: Read LBC from source history: i=100 sh%lbc= -17.00 2: 2: ------------------------------------------------------------------------ 2: Read TGCM PRIMARY HISTORY (source history) 2: Diskfile: /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 2: model_name = time-gcm 2: model_version = timegcm1.42 2: create_date= 10/06/10 18:02:42 2: write_date = 2: logname = foster 3: Read field NOZ_NM 3d min,max= 0.1558E-08 0.1999E-03 2: host = be0510en.ucar.ed 2: system = AIX 2: source_file = 2: output_file = 2: source_mtime = 70 0 0 2: initial_year = 2002 2: initial_day = 80 2: initial_mtime= 80 0 0 2: type = primary 2: ihist = 1 (nth history on history file) 2: delhmins= 0 (delta minutes between histories) 2: calendar year,day = 2002, 80 2: (model IS being advanced in calendar time) 2: modeltime = 80, 0, 0, 0 (model time day,hour,minute,seconds) 3: Read field CO_NM 3d min,max= 0.2596E-07 0.4372E-04 2: time = 80.00 (minutes in current day) 2: ut = 0.00 (ut hours) 2: step = 60 (time step in seconds) 2: iter = 115200 (number of steps from 0,0,0) 2: nlat = 36 (number of latitudes) 2: nlon = 72 (number of longitudes) 2: nlev = 49 (number of levels) 2: zmtop = 7.250 (top midpoint level) 2: zmbot = -16.750 (bottom midpoint level) 2: zitop = 7.000 (top interface level) 3: Read field CO2_NM 3d min,max= 0.1731E-11 0.5489E-03 2: zibot = -17.000 (bottom interface level) 2: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 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 2: (amp/phase of semi-diurnal tide) 2: f107d = 70.00 (daily solar flux) 2: f107a = 70.00 (average solar flux) 2: hpower = 8.00 (Gw) 2: ctpoten = 30.00 (Volts) 2: byimf = 0.00 2: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 2: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 3: Read field H2O_NM 3d min,max= 0.5884E-09 0.3192E-05 2: alfad2 = 0.10E+02 (KeV) 2: ed2 = 0.10E-19 (ergs/cm2/s) 2: colfac = 1.50 2: p0 = 0.50E-03 2: gswm_mi_di_ncfile = /hao/tgcm/data/gswm_diurn_5.0d_32km.nc 2: gswm_mi_sdi_ncfile = /hao/tgcm/data/gswm_semi_5.0d_32km.nc 2: gswm_nm_di_ncfile = [none] 2: gswm_nm_sdi_ncfile = [none] 2: gpi_ncfile = [none] 2: ncep_ncfile = [none] 2: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 3: Read field H2_NM 3d min,max= 0.3806E-07 0.5809E-04 2: LBC = -17.00 (lower boundary interface level) 2: nflds = 999 (number of model fields) 2: ------------------------------------------------------------------------ 2: 2: Completed reading SOURCE history. 3: Read field HOX_NM 3d min,max= 0.2794E-12 0.4106E-01 3: Read field OP_NM 3d min,max= 0.1000E-04 0.1246E+07 1: Read field CO 3d min,max= 0.1956E-07 0.4403E-04 3: Read field CH4_NM 3d min,max= 0.4000E-11 0.7575E-06 1: Read field CO2 3d min,max= 0.4300E-11 0.5489E-03 3: Read field AR_NM 3d min,max= 0.0000E+00 0.0000E+00 3: Read field HE_NM 3d min,max= 0.0000E+00 0.0000E+00 1: Read field H2O 3d min,max= 0.5727E-09 0.3534E-05 3: Read field NAT_NM 3d min,max= -0.4040E-06 0.1409E-05 3: Note nc_rdhist: unused variable: BARM 3: Note nc_rdhist: unused variable: VC 3: Read TLBC subdomain from source history: min,max= 0.00 229.24 3: Read ULBC subdomain from source history: min,max= 0.00 1199.24 3: Read VLBC subdomain from source history: min,max= -153.61 247.24 3: Read TLBC_NM subdomain from source history: min,max= 0.00 229.09 3: Read ULBC_NM subdomain from source history: min,max= 0.00 1208.97 3: Read VLBC_NM subdomain from source history: min,max= -139.95 246.93 3: Read LBC from source history: i=100 sh%lbc= -17.00 3: 3: ------------------------------------------------------------------------ 3: Read TGCM PRIMARY HISTORY (source history) 3: Diskfile: /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 3: model_name = time-gcm 3: model_version = timegcm1.42 3: create_date= 10/06/10 18:02:42 3: write_date = 3: logname = foster 3: host = be0510en.ucar.ed 3: system = AIX 3: source_file = 3: output_file = 3: source_mtime = 70 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 = 80.00 (minutes in current day) 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 = 49 (number of levels) 3: zmtop = 7.250 (top midpoint level) 3: zmbot = -16.750 (bottom midpoint level) 3: zitop = 7.000 (top interface level) 3: zibot = -17.000 (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 = 70.00 (daily solar flux) 3: f107a = 70.00 (average solar flux) 3: hpower = 8.00 (Gw) 3: ctpoten = 30.00 (Volts) 3: byimf = 0.00 3: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 3: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 3: alfad2 = 0.10E+02 (KeV) 3: ed2 = 0.10E-19 (ergs/cm2/s) 3: colfac = 1.50 3: p0 = 0.50E-03 3: gswm_mi_di_ncfile = /hao/tgcm/data/gswm_diurn_5.0d_32km.nc 3: gswm_mi_sdi_ncfile = /hao/tgcm/data/gswm_semi_5.0d_32km.nc 3: gswm_nm_di_ncfile = [none] 3: gswm_nm_sdi_ncfile = [none] 3: gpi_ncfile = [none] 3: ncep_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 = -17.00 (lower boundary interface level) 3: nflds = 999 (number of model fields) 3: ------------------------------------------------------------------------ 3: 3: Completed reading SOURCE history. 1: Read field H2 3d min,max= 0.3817E-07 0.7624E-04 1: Read field HOX 3d min,max= 0.2801E-12 0.3327E-01 1: Read field OP 3d min,max= 0.1000E-04 0.7259E+06 1: Read field CH4 3d min,max= 0.2040E-11 0.7567E-06 1: Read field AR 3d min,max= 0.0000E+00 0.0000E+00 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 1: Read field HE 3d min,max= 0.0000E+00 0.0000E+00 0: 0: Model run initialization: 0: nlon= 72 nlat= 36 nlev= 48 0: dlon= 5.00 dlat= 5.00 dlev= 0.50 0: nstep = 30 (Number of time steps this run) 0: iter = 57600 (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: sfeps= 0.1007E+01 0: 0: This is an initial run: 0: 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 = 6 (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 = 29 (Number of requested secondary history fields) 0: secondary history field 1: TN 0: secondary history field 2: UN 0: secondary history field 3: VN 0: secondary history field 4: OMEGA 0: secondary history field 5: O3 0: secondary history field 6: O1 0: secondary history field 7: OX 0: secondary history field 8: NO 0: secondary history field 9: NO2 0: secondary history field 10: NOZ 0: secondary history field 11: H2O 0: secondary history field 12: OH 0: secondary history field 13: HO2 0: secondary history field 14: H 0: secondary history field 15: HOX 0: secondary history field 16: OP 0: secondary history field 17: CO2 0: secondary history field 18: CO 0: secondary history field 19: CH4 0: secondary history field 20: NE 0: secondary history field 21: TE 0: secondary history field 22: TI 0: secondary history field 23: Z 0: secondary history field 24: POTEN 0: secondary history field 25: UI_VEL 0: secondary history field 26: VI_VEL 0: secondary history field 27: WI_VEL 0: secondary history field 28: ZG 0: secondary history field 29: O2 0: gw_inti: pgwv = 6 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=$TGCMDATA/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: expand_path returning path = '/hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc' 0: Getfile: Found file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: ------------------------------------------------------------------------ 0: 0: Acquired source history file /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: (disk file is /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc) 1: Read field NAT 3d min,max= 0.1307E-07 0.7371E-06 1: Read field O21D 3d min,max= 0.1749E-18 0.1584E-04 1: Read field NO2 3d min,max= 0.4258E-13 0.1599E-07 1: Read field NO 3d min,max= 0.2130E-09 0.2020E-03 0: rdsource calling nc_rdhist.. 0: Reading source history from diskfile /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.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 0: Note nc_rdhist: unused variable: grav 1: Read field O3 3d min,max= 0.1000E-09 0.1559E-04 1: Read field O1 3d min,max= 0.1000E-09 0.9959E+00 1: Read field OH 3d min,max= 0.8563E-13 0.3504E-06 0: Read field TN 3d min,max= 0.1822E+03 0.8150E+03 0: Read field UN 3d min,max= -0.8829E+04 0.1559E+05 1: Read field HO2 3d min,max= 0.8462E-12 0.6802E-06 0: Read field VN 3d min,max= -0.1020E+05 0.9650E+04 0: Read field O2 3d min,max= 0.7423E-04 0.2400E+00 1: Read field H 3d min,max= 0.8784E-20 0.2061E-01 0: Read field OX 3d min,max= 0.1265E-05 0.9936E+00 0: Read field N4S 3d min,max= 0.0000E+00 0.1695E-01 0: Read field NOZ 3d min,max= 0.1561E-08 0.2088E-03 0: Read field CO 3d min,max= 0.1956E-07 0.4540E-04 0: Read field CO2 3d min,max= 0.3925E-11 0.5489E-03 0: Read field H2O 3d min,max= 0.3743E-09 0.3534E-05 0: Read field H2 3d min,max= 0.3645E-07 0.4700E-04 0: Read field HOX 3d min,max= 0.3231E-12 0.2369E-01 0: Read field OP 3d min,max= 0.1000E-04 0.9762E+06 1: Read field N2D 3d min,max= 0.6791E-22 0.6396E-03 1: Read field TI 3d min,max= 0.1822E+03 0.1631E+04 0: Read field CH4 3d min,max= 0.2022E-11 0.7559E-06 1: Read field TE 3d min,max= 0.1821E+03 0.3311E+04 0: Read field AR 3d min,max= 0.0000E+00 0.0000E+00 1: Read field NE 3d min,max= 0.2127E+03 0.7254E+06 0: Read field HE 3d min,max= 0.0000E+00 0.0000E+00 1: Read field O2P 3d min,max= 0.3945E-01 0.6723E+05 0: Read field NAT 3d min,max= 0.1233E-07 0.5817E-06 1: Read field OMEGA 3d min,max= -0.8102E-04 0.4462E-04 1: Read field Z 3d min,max= 0.2905E+07 0.4840E+08 0: Read field O21D 3d min,max= 0.1863E-18 0.1590E-04 1: Read field POTEN 3d min,max= -0.1485E+05 0.1291E+05 0: Read field NO2 3d min,max= 0.3284E-13 0.1603E-07 1: Read field TN_NM 3d min,max= 0.1821E+03 0.7655E+03 0: Read field NO 3d min,max= 0.2030E-09 0.2088E-03 1: Read field UN_NM 3d min,max= -0.2858E+05 0.9947E+04 0: Read field O3 3d min,max= 0.1000E-09 0.1621E-04 1: Read field VN_NM 3d min,max= -0.1439E+05 0.1408E+05 1: Read field O2_NM 3d min,max= 0.6133E-04 0.2400E+00 0: Read field O1 3d min,max= 0.1000E-09 0.9949E+00 1: Read field OX_NM 3d min,max= 0.1260E-05 0.9948E+00 0: Read field OH 3d min,max= 0.9859E-13 0.2494E-06 1: Read field N4S_NM 3d min,max= 0.0000E+00 0.1447E-01 0: Read field HO2 3d min,max= 0.1581E-11 0.4841E-06 1: Read field NOZ_NM 3d min,max= 0.1568E-08 0.2020E-03 1: Read field CO_NM 3d min,max= 0.1956E-07 0.4401E-04 0: Read field H 3d min,max= 0.1013E-19 0.1467E-01 1: Read field CO2_NM 3d min,max= 0.4307E-11 0.5489E-03 0: Read field N2D 3d min,max= 0.6779E-22 0.6085E-03 1: Read field H2O_NM 3d min,max= 0.5751E-09 0.3534E-05 0: Read field TI 3d min,max= 0.1822E+03 0.1671E+04 1: Read field H2_NM 3d min,max= 0.3817E-07 0.7621E-04 1: Read field HOX_NM 3d min,max= 0.2801E-12 0.3326E-01 0: Read field TE 3d min,max= 0.1822E+03 0.2889E+04 1: Read field OP_NM 3d min,max= 0.1000E-04 0.1196E+07 0: Read field NE 3d min,max= 0.2045E+03 0.9747E+06 1: Read field CH4_NM 3d min,max= 0.2040E-11 0.7567E-06 0: Read field O2P 3d min,max= 0.3809E-01 0.6240E+05 1: Read field AR_NM 3d min,max= 0.0000E+00 0.0000E+00 1: Read field HE_NM 3d min,max= 0.0000E+00 0.0000E+00 0: Read field OMEGA 3d min,max= -0.7739E-04 0.6018E-04 1: Read field NAT_NM 3d min,max= 0.1277E-07 0.7389E-06 1: Note nc_rdhist: unused variable: BARM 1: Note nc_rdhist: unused variable: VC 1: Read TLBC subdomain from source history: min,max= 0.00 229.57 1: Read ULBC subdomain from source history: min,max=-1032.42 2236.31 1: Read VLBC subdomain from source history: min,max= -332.15 215.52 1: Read TLBC_NM subdomain from source history: min,max= 0.00 229.44 1: Read ULBC_NM subdomain from source history: min,max=-1027.98 2237.74 1: Read VLBC_NM subdomain from source history: min,max= -330.91 183.81 1: Read LBC from source history: i=100 sh%lbc= -17.00 1: 1: ------------------------------------------------------------------------ 1: Read TGCM PRIMARY HISTORY (source history) 1: Diskfile: /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 1: model_name = time-gcm 1: model_version = timegcm1.42 1: create_date= 10/06/10 18:02:42 1: write_date = 1: logname = foster 1: host = be0510en.ucar.ed 1: system = AIX 1: source_file = 1: output_file = 1: source_mtime = 70 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 = 80.00 (minutes in current day) 1: ut = 0.00 (ut hours) 1: step = 60 (time step in seconds) 1: iter = 115200 (number of steps from 0,0,0) 1: nlat = 36 (number of latitudes) 1: nlon = 72 (number of longitudes) 1: nlev = 49 (number of levels) 1: zmtop = 7.250 (top midpoint level) 1: zmbot = -16.750 (bottom midpoint level) 1: zitop = 7.000 (top interface level) 1: zibot = -17.000 (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 = 70.00 (daily solar flux) 1: f107a = 70.00 (average solar flux) 1: hpower = 8.00 (Gw) 1: ctpoten = 30.00 (Volts) 1: byimf = 0.00 1: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 1: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 1: alfad2 = 0.10E+02 (KeV) 1: ed2 = 0.10E-19 (ergs/cm2/s) 1: colfac = 1.50 1: p0 = 0.50E-03 1: gswm_mi_di_ncfile = /hao/tgcm/data/gswm_diurn_5.0d_32km.nc 1: gswm_mi_sdi_ncfile = /hao/tgcm/data/gswm_semi_5.0d_32km.nc 1: gswm_nm_di_ncfile = [none] 1: gswm_nm_sdi_ncfile = [none] 1: gpi_ncfile = [none] 1: ncep_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 = -17.00 (lower boundary interface level) 1: nflds = 999 (number of model fields) 1: ------------------------------------------------------------------------ 1: 1: Completed reading SOURCE history. 0: Read field Z 3d min,max= 0.2906E+07 0.4989E+08 0: Read field POTEN 3d min,max= -0.1327E+05 -0.2386E+04 0: Read field TN_NM 3d min,max= 0.1822E+03 0.8149E+03 0: Read field UN_NM 3d min,max= -0.8824E+04 0.1559E+05 0: Read field VN_NM 3d min,max= -0.1021E+05 0.9635E+04 0: Read field O2_NM 3d min,max= 0.7421E-04 0.2400E+00 0: Read field OX_NM 3d min,max= 0.1265E-05 0.9936E+00 0: Read field N4S_NM 3d min,max= 0.0000E+00 0.1695E-01 0: Read field NOZ_NM 3d min,max= 0.1561E-08 0.2088E-03 0: Read field CO_NM 3d min,max= 0.1956E-07 0.4540E-04 0: Read field CO2_NM 3d min,max= 0.3925E-11 0.5489E-03 0: Read field H2O_NM 3d min,max= 0.3743E-09 0.3534E-05 0: Read field H2_NM 3d min,max= 0.3646E-07 0.4695E-04 0: Read field HOX_NM 3d min,max= 0.3237E-12 0.2370E-01 0: Read field OP_NM 3d min,max= 0.1000E-04 0.1277E+07 0: Read field CH4_NM 3d min,max= 0.2021E-11 0.7559E-06 0: Read field AR_NM 3d min,max= 0.0000E+00 0.0000E+00 0: Read field HE_NM 3d min,max= 0.0000E+00 0.0000E+00 0: Read field NAT_NM 3d min,max= 0.1182E-07 0.6062E-06 0: Note nc_rdhist: unused variable: BARM 0: Note nc_rdhist: unused variable: VC 0: Read TLBC subdomain from source history: min,max= 0.00 230.01 0: Read ULBC subdomain from source history: min,max=-1028.88 2237.29 0: Read VLBC subdomain from source history: min,max= -219.43 341.19 0: Read TLBC_NM subdomain from source history: min,max= 0.00 230.01 0: Read ULBC_NM subdomain from source history: min,max=-1028.44 2233.23 0: Read VLBC_NM subdomain from source history: min,max= -208.19 347.49 0: Read LBC from source history: i=100 sh%lbc= -17.00 0: 0: ------------------------------------------------------------------------ 0: Read TGCM PRIMARY HISTORY (source history) 0: Diskfile: /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: model_name = time-gcm 0: model_version = timegcm1.42 0: create_date= 10/06/10 18:02:42 0: write_date = 0: logname = foster 0: host = be0510en.ucar.ed 0: system = AIX 0: source_file = 0: output_file = 0: source_mtime = 70 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 = 80.00 (minutes in current day) 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 = 49 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -16.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -17.000 (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 = 70.00 (daily solar flux) 0: f107a = 70.00 (average solar flux) 0: hpower = 8.00 (Gw) 0: ctpoten = 30.00 (Volts) 0: byimf = 0.00 0: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 0: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 0: alfad2 = 0.10E+02 (KeV) 0: ed2 = 0.10E-19 (ergs/cm2/s) 0: colfac = 1.50 0: p0 = 0.50E-03 0: gswm_mi_di_ncfile = /hao/tgcm/data/gswm_diurn_5.0d_32km.nc 0: gswm_mi_sdi_ncfile = /hao/tgcm/data/gswm_semi_5.0d_32km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_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 = -17.00 (lower boundary interface level) 0: nflds = 999 (number of model fields) 0: ------------------------------------------------------------------------ 0: 0: Completed reading SOURCE history. 2: tgcm: dynamo= 1 -- calling apxparm: iyear= 2002 0: tgcm: dynamo= 1 -- calling apxparm: iyear= 2002 3: tgcm: dynamo= 1 -- calling apxparm: iyear= 2002 1: tgcm: dynamo= 1 -- calling apxparm: iyear= 2002 1: Time in apxparm = 0.528 (secs) 3: Time in apxparm = 0.528 (secs) 2: Time in apxparm = 0.533 (secs) 0: Time in apxparm = 0.535 (secs) 3: 3: Enter advance: iter= 57600 nstep= 30 1: 1: Enter advance: iter= 57600 nstep= 30 2: 2: Enter advance: iter= 57600 nstep= 30 0: 0: Enter advance: iter= 57600 nstep= 30 1: Step 1 of 30 mtime= 80 0 2 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/aim/tgcm/data/zatmos_bndry.nc 1: Getfile: Found file /hao/aim/tgcm/data/zatmos_bndry.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: ZATMOS_BNDRY initial read (iday= 80 isec= 120) 1: Opened netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 1: Data for 365 days, with nlat= 36 for each day. 1: These data will be interpolated to model time at every timestep. 1: See source file zatmos.F 1: HT min,max= 0.2586E+02 0.3097E+02 1: TN min,max= 0.1832E+03 0.2555E+03 1: UN min,max= -0.2706E+02 0.7203E+02 1: Closed netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: ZATMOS_BNDRY first call: iday= 80 isec= 120 (hours= 0.03) Interpolated data: 1: zatmos_tn(1:nlat)= 1: 222.5846 222.0637 221.6966 221.4831 221.4821 221.6936 1: 222.1526 222.8591 223.7384 224.7906 225.8329 226.8653 1: 227.7230 228.4061 228.8634 229.0951 229.1405 228.9997 1: 228.7402 228.3621 227.9280 227.4379 226.9389 226.4309 1: 225.9126 225.3840 224.8267 224.2409 223.6237 222.9750 1: 222.3497 221.7478 221.2846 220.9602 220.9082 221.1288 1: ------------------------------------------------------------------------ 1: 1: tuvz_lbc: added zatmos_tn to t_lbc 1: tuvz_lbc: added zba to z_lbc 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: Getfile: Found file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: Step 1 of 30 mtime= 80 0 2 2: 2: ------------------------------------------------------------------------ 2: Getfile: remote=/hao/aim/tgcm/data/zatmos_bndry.nc 2: Getfile: Found file /hao/aim/tgcm/data/zatmos_bndry.nc 2: ------------------------------------------------------------------------ 2: 2: 2: ------------------------------------------------------------------------ 2: ZATMOS_BNDRY initial read (iday= 80 isec= 120) 2: Opened netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 2: Data for 365 days, with nlat= 36 for each day. 2: These data will be interpolated to model time at every timestep. 2: See source file zatmos.F 2: HT min,max= 0.2586E+02 0.3097E+02 2: TN min,max= 0.1832E+03 0.2555E+03 2: UN min,max= -0.2706E+02 0.7203E+02 2: Closed netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 2: ------------------------------------------------------------------------ 2: 2: 2: ------------------------------------------------------------------------ 2: ZATMOS_BNDRY first call: iday= 80 isec= 120 (hours= 0.03) Interpolated data: 2: zatmos_tn(1:nlat)= 2: 222.5846 222.0637 221.6966 221.4831 221.4821 221.6936 2: 222.1526 222.8591 223.7384 224.7906 225.8329 226.8653 2: 227.7230 228.4061 228.8634 229.0951 229.1405 228.9997 2: 228.7402 228.3621 227.9280 227.4379 226.9389 226.4309 2: 225.9126 225.3840 224.8267 224.2409 223.6237 222.9750 2: 222.3497 221.7478 221.2846 220.9602 220.9082 221.1288 2: ------------------------------------------------------------------------ 2: 2: tuvz_lbc: added zatmos_tn to t_lbc 2: tuvz_lbc: added zba to z_lbc 2: 2: ------------------------------------------------------------------------ 2: Getfile: remote=/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: Getfile: Found file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: ------------------------------------------------------------------------ 2: 2: 2: ------------------------------------------------------------------------ 2: Reading GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: Step 1 of 30 mtime= 80 0 2 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/aim/tgcm/data/zatmos_bndry.nc 3: Getfile: Found file /hao/aim/tgcm/data/zatmos_bndry.nc 3: ------------------------------------------------------------------------ 3: 3: 3: ------------------------------------------------------------------------ 3: ZATMOS_BNDRY initial read (iday= 80 isec= 120) 3: Opened netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 3: Data for 365 days, with nlat= 36 for each day. 3: These data will be interpolated to model time at every timestep. 3: See source file zatmos.F 3: HT min,max= 0.2586E+02 0.3097E+02 3: TN min,max= 0.1832E+03 0.2555E+03 3: UN min,max= -0.2706E+02 0.7203E+02 0: 0: Starting primary history time series 1 at model time 80 0 0 0 3: Closed netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 3: ------------------------------------------------------------------------ 3: 3: 3: ------------------------------------------------------------------------ 3: ZATMOS_BNDRY first call: iday= 80 isec= 120 (hours= 0.03) Interpolated data: 3: zatmos_tn(1:nlat)= 3: 222.5846 222.0637 221.6966 221.4831 221.4821 221.6936 3: 222.1526 222.8591 223.7384 224.7906 225.8329 226.8653 3: 227.7230 228.4061 228.8634 229.0951 229.1405 228.9997 3: 228.7402 228.3621 227.9280 227.4379 226.9389 226.4309 3: 225.9126 225.3840 224.8267 224.2409 223.6237 222.9750 3: 222.3497 221.7478 221.2846 220.9602 220.9082 221.1288 3: ------------------------------------------------------------------------ 3: 3: tuvz_lbc: added zatmos_tn to t_lbc 3: tuvz_lbc: added zba to z_lbc 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: Getfile: Found file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: ------------------------------------------------------------------------ 3: 3: 3: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: rdgswm mi_di: z min,max= -0.2346E+04 0.2346E+04 2: rdgswm mi_di: z min,max= -0.2346E+04 0.2346E+04 1: rdgswm mi_di: tn min,max= -0.1205E+01 0.1205E+01 3: rdgswm mi_di: z min,max= -0.2346E+04 0.2346E+04 1: rdgswm mi_di: un min,max= -0.2407E+03 0.2407E+03 2: rdgswm mi_di: tn min,max= -0.1205E+01 0.1205E+01 3: rdgswm mi_di: tn min,max= -0.1205E+01 0.1205E+01 1: rdgswm mi_di: vn min,max= -0.3216E+03 0.3216E+03 2: rdgswm mi_di: un min,max= -0.2407E+03 0.2407E+03 3: rdgswm mi_di: un min,max= -0.2407E+03 0.2407E+03 1: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 1: 1: ------------------------------------------------------------------------ 0: Created netcdf file FOSTER.timegcm.ptest001.nc 0: output_hist: copied source history structure sh to history structure h (nhist= 1) 3: rdgswm mi_di: vn min,max= -0.3216E+03 0.3216E+03 2: rdgswm mi_di: vn min,max= -0.3216E+03 0.3216E+03 2: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 2: 2: ------------------------------------------------------------------------ 3: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 3: 3: ------------------------------------------------------------------------ 2: 3: 2: ------------------------------------------------------------------------ 2: Getfile: remote=/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: Getfile: Found file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: ------------------------------------------------------------------------ 2: 2: 2: ------------------------------------------------------------------------ 2: Reading GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: ------------------------------------------------------------------------ 3: Getfile: remote=/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: Getfile: Found file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: ------------------------------------------------------------------------ 3: 3: 3: ------------------------------------------------------------------------ 3: Reading GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: rdgswm mi_sdi: z min,max= -0.7997E+03 0.7997E+03 3: rdgswm mi_sdi: z min,max= -0.7997E+03 0.7997E+03 2: rdgswm mi_sdi: tn min,max= -0.2319E+00 0.2319E+00 3: rdgswm mi_sdi: tn min,max= -0.2319E+00 0.2319E+00 3: rdgswm mi_sdi: un min,max= -0.5779E+02 0.5779E+02 2: rdgswm mi_sdi: un min,max= -0.5779E+02 0.5779E+02 2: rdgswm mi_sdi: vn min,max= -0.6022E+02 0.6022E+02 3: rdgswm mi_sdi: vn min,max= -0.6022E+02 0.6022E+02 3: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 3: 3: ------------------------------------------------------------------------ 2: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 2: 2: ------------------------------------------------------------------------ 2: tuvz_lbc: added gswm_mi_di to t_lbc,z_lbc 3: tuvz_lbc: added gswm_mi_di to t_lbc,z_lbc 3: tuvz_lbc: added gswm_mi_sdi to t_lbc,z_lbc 2: tuvz_lbc: added gswm_mi_sdi to t_lbc,z_lbc 0: 0: ------------------------------------------------------------------------ 0: Write TGCM PRIMARY HISTORY 0: Diskfile: FOSTER.timegcm.ptest001.nc 0: model_name = time-gcm 0: model_version = timegcm1.42 0: create_date= 12/03/12 10:06:03 0: write_date = [unknown] 0: logname = foster 0: host = be0510en.ucar.ed 0: system = AIX 0: source_file = 0: output_file = 0: source_mtime = 70 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 = 80.00 (minutes in current day) 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 = 49 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -16.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -17.000 (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 = 70.00 (daily solar flux) 0: f107a = 70.00 (average solar flux) 0: hpower = 8.00 (Gw) 0: ctpoten = 30.00 (Volts) 0: byimf = 0.00 0: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 0: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 0: alfad2 = 0.10E+02 (KeV) 0: ed2 = 0.10E-19 (ergs/cm2/s) 0: colfac = 1.50 0: p0 = 0.50E-03 0: gswm_mi_di_ncfile = /hao/tgcm/data/gswm_diurn_5.0d_32km.nc 0: gswm_mi_sdi_ncfile = /hao/tgcm/data/gswm_semi_5.0d_32km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_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 = -17.00 (lower boundary interface level) 0: nflds = 999 (number of model fields) 0: ------------------------------------------------------------------------ 0: 0: Wrote primary history 80, 0, 0 to FOSTER.timegcm.ptest001.nc ( 1 of 2) 0: 0: Starting secondary history time series 1 at model time 80 0 0 0 0: Created netcdf file FOSTER.timegcm.stest001.nc 0: 0: ------------------------------------------------------------------------ 0: Write TGCM SECONDARY HISTORY 0: Diskfile: FOSTER.timegcm.stest001.nc 0: model_name = time-gcm 0: model_version = timegcm_trunk 0: create_date= 12/03/12 10:06:05 0: write_date = 12/03/12 10:06:05 0: logname = foster 0: host = iris 0: system = LINUX 0: source_file = /hao/aim/tgcm/data/timegcm1.42/TGCM.timegcm1.42.pcntr_eqnx_smin.nc 0: output_file = FOSTER.timegcm.stest001.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= 12 (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 = 0.00 (minutes in current day) 0: ut = 0.00 (ut hours) 0: step = 120 (time step in seconds) 0: iter = 57600 (number of steps from 0,0,0) 0: nlat = 36 (number of latitudes) 0: nlon = 72 (number of longitudes) 0: nlev = 49 (number of levels) 0: zmtop = 7.250 (top midpoint level) 0: zmbot = -16.750 (bottom midpoint level) 0: zitop = 7.000 (top interface level) 0: zibot = -17.000 (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 = 70.00 (daily solar flux) 0: f107a = 70.00 (average solar flux) 0: hpower = 8.00 (Gw) 0: ctpoten = 30.00 (Volts) 0: byimf = 0.00 0: alfa30 = 0.40E+02 (KeV) (same as alfa_sp) 0: e30 = 0.50E-01 (ergs/cm2/s) (same as e_sp) 0: alfad2 = 0.00E+00 (KeV) 0: ed2 = 0.00E+00 (ergs/cm2/s) 0: colfac = 1.50 0: p0 = 0.50E-03 0: gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: gswm_nm_di_ncfile = [none] 0: gswm_nm_sdi_ncfile = [none] 0: gpi_ncfile = [none] 0: ncep_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 = -17.00 (lower boundary interface level) 0: nflds = 29 (number of model fields) 0: There are 29 fields on this history, as follows: 0: TN UN VN OMEGA O3 O1 OX NO 0: NO2 NOZ H2O OH HO2 H HOX OP 0: CO2 CO CH4 NE TE TI Z POTEN 0: UI_VEL VI_VEL WI_VEL ZG O2 0: ------------------------------------------------------------------------ 0: 0: Wrote secondary history 80, 0, 0 to FOSTER.timegcm.stest001.nc ( 1 of 6) 0: Step 1 of 30 mtime= 80 0 2 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/aim/tgcm/data/zatmos_bndry.nc 0: Getfile: Found file /hao/aim/tgcm/data/zatmos_bndry.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: ZATMOS_BNDRY initial read (iday= 80 isec= 120) 0: Opened netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 0: Data for 365 days, with nlat= 36 for each day. 0: These data will be interpolated to model time at every timestep. 0: See source file zatmos.F 0: HT min,max= 0.2586E+02 0.3097E+02 0: TN min,max= 0.1832E+03 0.2555E+03 0: UN min,max= -0.2706E+02 0.7203E+02 0: Closed netcdf file /hao/aim/tgcm/data/zatmos_bndry.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: ZATMOS_BNDRY first call: iday= 80 isec= 120 (hours= 0.03) Interpolated data: 0: zatmos_tn(1:nlat)= 0: 222.5846 222.0637 221.6966 221.4831 221.4821 221.6936 0: 222.1526 222.8591 223.7384 224.7906 225.8329 226.8653 0: 227.7230 228.4061 228.8634 229.0951 229.1405 228.9997 0: 228.7402 228.3621 227.9280 227.4379 226.9389 226.4309 0: 225.9126 225.3840 224.8267 224.2409 223.6237 222.9750 0: 222.3497 221.7478 221.2846 220.9602 220.9082 221.1288 0: ------------------------------------------------------------------------ 0: 0: tuvz_lbc: added zatmos_tn to t_lbc 0: tuvz_lbc: added zba to z_lbc 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: Getfile: Found file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: rdgswm mi_di: z min,max= -0.2346E+04 0.2346E+04 0: rdgswm mi_di: tn min,max= -0.1205E+01 0.1205E+01 0: rdgswm mi_di: un min,max= -0.2407E+03 0.2407E+03 0: rdgswm mi_di: vn min,max= -0.3216E+03 0.3216E+03 0: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_32km.nc 0: 0: ------------------------------------------------------------------------ 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: 0: Getfile: Found file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: ------------------------------------------------------------------------ 0: 0: 0: ------------------------------------------------------------------------ 0: Reading GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: ------------------------------------------------------------------------ 1: Getfile: remote=/hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: Getfile: Found file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: ------------------------------------------------------------------------ 1: 1: 1: ------------------------------------------------------------------------ 1: Reading GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: rdgswm mi_sdi: z min,max= -0.7997E+03 0.7997E+03 1: rdgswm mi_sdi: z min,max= -0.7997E+03 0.7997E+03 1: rdgswm mi_sdi: tn min,max= -0.2319E+00 0.2319E+00 0: rdgswm mi_sdi: tn min,max= -0.2319E+00 0.2319E+00 1: rdgswm mi_sdi: un min,max= -0.5779E+02 0.5779E+02 0: rdgswm mi_sdi: un min,max= -0.5779E+02 0.5779E+02 1: rdgswm mi_sdi: vn min,max= -0.6022E+02 0.6022E+02 0: rdgswm mi_sdi: vn min,max= -0.6022E+02 0.6022E+02 1: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 1: 1: ------------------------------------------------------------------------ 0: Completed read from GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_32km.nc 0: 0: ------------------------------------------------------------------------ 0: tuvz_lbc: added gswm_mi_di to t_lbc,z_lbc 0: tuvz_lbc: added gswm_mi_sdi to t_lbc,z_lbc 1: tuvz_lbc: added gswm_mi_di to t_lbc,z_lbc 1: tuvz_lbc: added gswm_mi_sdi to t_lbc,z_lbc 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=$TGCMDATA/solgar_bndry.nc 0: expand_path returning path = '/hao/aim/tgcm/data/solgar_bndry.nc' 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=$TGCMDATA/solgar_bndry.nc 1: expand_path returning path = '/hao/aim/tgcm/data/solgar_bndry.nc' 1: Getfile: Found file /hao/aim/tgcm/data/solgar_bndry.nc 0: Getfile: Found file /hao/aim/tgcm/data/solgar_bndry.nc 0: ------------------------------------------------------------------------ 0: 1: ------------------------------------------------------------------------ 1: 0: H2O min,max= 0.3282E-05 0.6421E-05 0: H2 min,max= 0.5249E-06 0.1181E-05 1: H2O min,max= 0.3282E-05 0.6421E-05 0: CO min,max= 0.1101E-07 0.5438E-06 0: CO2 min,max= 0.3301E-03 0.3312E-03 0: OX min,max= 0.1374E-05 0.8513E-05 0: NOZ min,max= 0.1911E-08 0.3681E-07 0: CH4 min,max= 0.2476E-06 0.1564E-05 0: NOX min,max= 0.1237E-18 0.7165E-10 1: H2 min,max= 0.5249E-06 0.1181E-05 1: CO min,max= 0.1101E-07 0.5438E-06 0: TN min,max= 0.1786E+03 0.3067E+03 0: Completed read from solgar data file /hao/aim/tgcm/data/solgar_bndry.nc 0: ------------------------------------------------------------------------ 0: 1: CO2 min,max= 0.3301E-03 0.3312E-03 1: OX min,max= 0.1374E-05 0.8513E-05 1: NOZ min,max= 0.1911E-08 0.3681E-07 1: CH4 min,max= 0.2476E-06 0.1564E-05 1: NOX min,max= 0.1237E-18 0.7165E-10 1: TN min,max= 0.1786E+03 0.3067E+03 1: Completed read from solgar data file /hao/aim/tgcm/data/solgar_bndry.nc 1: ------------------------------------------------------------------------ 1: 0: 0: ------------------------------------------------------------------------ 0: SOLGAR_BNDRY: 0: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 0: Lower boundaries for the following species are defined from the 0: Garcia-Solomon model at 30 km: 0: OX, HOX, NOX, CH4, H2O, H2, CO, CO2 0: Lower boundary for TN (TNDOWN) is from ZATMOS (Forbes/msis90) 0: at ZP -21.5 to -17.25 by .25 0: Monthly data read from /hao/aim/tgcm/data/solgar_bndry.nc 0: These data will be interpolated to the current time at each iteration, 0: using cubic spline interpolation 0: ------------------------------------------------------------------------ 0: 1: 0: Multipliers for Solomon-Garcia lower boundaries: 0: mult_h2olb = 1.00 0: mult_h2lb = 1.00 0: mult_colb = 1.00 0: mult_co2lb = 1.00 0: mult_oxlb = 1.00 0: mult_nozlb = 1.00 0: mult_ch4lb = 1.00 0: mult_hoxlb = 1.00 0: 0: ------------------------------------------------------------------------ 0: Getfile: remote=$TGCMDATA/solgar_import_ubc7.nc 0: expand_path returning path = '/hao/aim/tgcm/data/solgar_import_ubc7.nc' 1: ------------------------------------------------------------------------ 1: SOLGAR_BNDRY: 1: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 0: Getfile: Found file /hao/aim/tgcm/data/solgar_import_ubc7.nc 0: ------------------------------------------------------------------------ 0: 1: Lower boundaries for the following species are defined from the 1: Garcia-Solomon model at 30 km: 1: OX, HOX, NOX, CH4, H2O, H2, CO, CO2 1: Lower boundary for TN (TNDOWN) is from ZATMOS (Forbes/msis90) 1: at ZP -21.5 to -17.25 by .25 1: Monthly data read from /hao/aim/tgcm/data/solgar_bndry.nc 1: These data will be interpolated to the current time at each iteration, 0: Opened existing netcdf file /hao/aim/tgcm/data/solgar_import_ubc7.nc ncid= 4 1: using cubic spline interpolation 1: ------------------------------------------------------------------------ 1: 1: Multipliers for Solomon-Garcia lower boundaries: 1: mult_h2olb = 1.00 0: CLO min,max= 0.1000E-19 0.1009E-08 1: mult_h2lb = 1.00 1: mult_colb = 1.00 1: mult_co2lb = 1.00 1: mult_oxlb = 1.00 1: mult_nozlb = 1.00 1: mult_ch4lb = 1.00 1: mult_hoxlb = 1.00 0: CL min,max= 0.9996E-20 0.3147E-08 1: 1: ------------------------------------------------------------------------ 1: Getfile: remote=$TGCMDATA/solgar_import_ubc7.nc 1: expand_path returning path = '/hao/aim/tgcm/data/solgar_import_ubc7.nc' 1: Getfile: Found file /hao/aim/tgcm/data/solgar_import_ubc7.nc 0: N2O min,max= 0.1000E-19 0.2670E-06 1: ------------------------------------------------------------------------ 1: 1: Opened existing netcdf file /hao/aim/tgcm/data/solgar_import_ubc7.nc ncid= 4 1: CLO min,max= 0.1000E-19 0.1009E-08 1: CL min,max= 0.9996E-20 0.3147E-08 3: 2: 2: ------------------------------------------------------------------------ 3: ------------------------------------------------------------------------ 1: N2O min,max= 0.1000E-19 0.2670E-06 3: Getfile: remote=$TGCMDATA/solgar_bndry.nc 3: expand_path returning path = '/hao/aim/tgcm/data/solgar_bndry.nc' 3: Getfile: Found file /hao/aim/tgcm/data/solgar_bndry.nc 2: Getfile: remote=$TGCMDATA/solgar_bndry.nc 3: ------------------------------------------------------------------------ 3: 2: expand_path returning path = '/hao/aim/tgcm/data/solgar_bndry.nc' 2: Getfile: Found file /hao/aim/tgcm/data/solgar_bndry.nc 2: ------------------------------------------------------------------------ 3: H2O min,max= 0.3282E-05 0.6421E-05 2: 3: H2 min,max= 0.5249E-06 0.1181E-05 3: CO min,max= 0.1101E-07 0.5438E-06 3: CO2 min,max= 0.3301E-03 0.3312E-03 0: 0: ------------------------------------------------------------------------ 0: SOLGAR_IMPORT: 0: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 0: Fields (13,ZJMX,ZKMXP,NF) imported from the Solomon-Garcia 2d model (NF= 3): 0: N2O CL CLO 0: Monthly data read from /hao/aim/tgcm/data/solgar_import_ubc7.nc 0: These data will be interpolated to the current time at each iteration, 0: using cubic spline interpolation 0: ------------------------------------------------------------------------ 0: 3: OX min,max= 0.1374E-05 0.8513E-05 3: NOZ min,max= 0.1911E-08 0.3681E-07 2: H2O min,max= 0.3282E-05 0.6421E-05 3: CH4 min,max= 0.2476E-06 0.1564E-05 0: Multipliers for Solomon-Garcia import fields: 0: mult_n2o = 1.00 0: mult_cl = 1.00 0: mult_clo = 1.00 0: 0: aurora_cons: 0: cusp: alfac= 0.100 ec= 0.069 fc= 0.2167E+09 0: drizzle: alfad= 0.500 ed= 0.011 fd= 0.6742E+07 0: half-widths = h1,h2= 2.350 3.485 0: energy flux = e1,e2= 1.443 2.760 0: Constant solar proton flux: alfa_sp= 10.000 e_sp = 0.1000E-19 flx_sp = 0.6242E-14 0: high-energy electrons: alfa30 = 40.000 e30 = 0.050 0: 3: NOX min,max= 0.1237E-18 0.7165E-10 2: H2 min,max= 0.5249E-06 0.1181E-05 3: TN min,max= 0.1786E+03 0.3067E+03 2: CO min,max= 0.1101E-07 0.5438E-06 3: Completed read from solgar data file /hao/aim/tgcm/data/solgar_bndry.nc 3: ------------------------------------------------------------------------ 3: 2: CO2 min,max= 0.3301E-03 0.3312E-03 2: OX min,max= 0.1374E-05 0.8513E-05 2: NOZ min,max= 0.1911E-08 0.3681E-07 2: CH4 min,max= 0.2476E-06 0.1564E-05 3: 2: NOX min,max= 0.1237E-18 0.7165E-10 3: ------------------------------------------------------------------------ 3: SOLGAR_BNDRY: 3: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 3: Lower boundaries for the following species are defined from the 2: TN min,max= 0.1786E+03 0.3067E+03 3: Garcia-Solomon model at 30 km: 3: OX, HOX, NOX, CH4, H2O, H2, CO, CO2 3: Lower boundary for TN (TNDOWN) is from ZATMOS (Forbes/msis90) 2: Completed read from solgar data file /hao/aim/tgcm/data/solgar_bndry.nc 1: 1: ------------------------------------------------------------------------ 1: SOLGAR_IMPORT: 1: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 1: Fields (13,ZJMX,ZKMXP,NF) imported from the Solomon-Garcia 2d model (NF= 3): 1: N2O CL CLO 1: Monthly data read from /hao/aim/tgcm/data/solgar_import_ubc7.nc 1: These data will be interpolated to the current time at each iteration, 1: using cubic spline interpolation 1: ------------------------------------------------------------------------ 1: 3: at ZP -21.5 to -17.25 by .25 3: Monthly data read from /hao/aim/tgcm/data/solgar_bndry.nc 3: These data will be interpolated to the current time at each iteration, 3: using cubic spline interpolation 3: ------------------------------------------------------------------------ 3: 1: Multipliers for Solomon-Garcia import fields: 1: mult_n2o = 1.00 1: mult_cl = 1.00 1: mult_clo = 1.00 1: 1: aurora_cons: 1: cusp: alfac= 0.100 ec= 0.069 fc= 0.2167E+09 1: drizzle: alfad= 0.500 ed= 0.011 fd= 0.6742E+07 1: half-widths = h1,h2= 2.350 3.485 1: energy flux = e1,e2= 1.443 2.760 1: Constant solar proton flux: alfa_sp= 10.000 e_sp = 0.1000E-19 flx_sp = 0.6242E-14 1: high-energy electrons: alfa30 = 40.000 e30 = 0.050 1: 3: Multipliers for Solomon-Garcia lower boundaries: 3: mult_h2olb = 1.00 3: mult_h2lb = 1.00 3: mult_colb = 1.00 3: mult_co2lb = 1.00 3: mult_oxlb = 1.00 3: mult_nozlb = 1.00 3: mult_ch4lb = 1.00 3: mult_hoxlb = 1.00 3: 3: ------------------------------------------------------------------------ 3: Getfile: remote=$TGCMDATA/solgar_import_ubc7.nc 3: expand_path returning path = '/hao/aim/tgcm/data/solgar_import_ubc7.nc' 3: Getfile: Found file /hao/aim/tgcm/data/solgar_import_ubc7.nc 3: ------------------------------------------------------------------------ 3: 3: Opened existing netcdf file /hao/aim/tgcm/data/solgar_import_ubc7.nc ncid= 4 2: ------------------------------------------------------------------------ 3: CLO min,max= 0.1000E-19 0.1009E-08 2: 3: CL min,max= 0.9996E-20 0.3147E-08 3: N2O min,max= 0.1000E-19 0.2670E-06 2: 2: ------------------------------------------------------------------------ 2: SOLGAR_BNDRY: 2: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 2: Lower boundaries for the following species are defined from the 2: Garcia-Solomon model at 30 km: 2: OX, HOX, NOX, CH4, H2O, H2, CO, CO2 2: Lower boundary for TN (TNDOWN) is from ZATMOS (Forbes/msis90) 2: at ZP -21.5 to -17.25 by .25 2: Monthly data read from /hao/aim/tgcm/data/solgar_bndry.nc 2: These data will be interpolated to the current time at each iteration, 2: using cubic spline interpolation 2: ------------------------------------------------------------------------ 2: 2: Multipliers for Solomon-Garcia lower boundaries: 2: mult_h2olb = 1.00 3: 2: mult_h2lb = 1.00 3: ------------------------------------------------------------------------ 3: SOLGAR_IMPORT: 2: mult_colb = 1.00 3: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 3: Fields (13,ZJMX,ZKMXP,NF) imported from the Solomon-Garcia 2d model (NF= 3): 2: mult_co2lb = 1.00 2: mult_oxlb = 1.00 3: N2O CL CLO 2: mult_nozlb = 1.00 3: Monthly data read from /hao/aim/tgcm/data/solgar_import_ubc7.nc 3: These data will be interpolated to the current time at each iteration, 3: using cubic spline interpolation 2: mult_ch4lb = 1.00 3: ------------------------------------------------------------------------ 3: 2: mult_hoxlb = 1.00 2: 2: ------------------------------------------------------------------------ 3: Multipliers for Solomon-Garcia import fields: 2: Getfile: remote=$TGCMDATA/solgar_import_ubc7.nc 3: mult_n2o = 1.00 3: mult_cl = 1.00 3: mult_clo = 1.00 2: expand_path returning path = '/hao/aim/tgcm/data/solgar_import_ubc7.nc' 3: 3: aurora_cons: 3: cusp: alfac= 0.100 ec= 0.069 fc= 0.2167E+09 2: Getfile: Found file /hao/aim/tgcm/data/solgar_import_ubc7.nc 3: drizzle: alfad= 0.500 ed= 0.011 fd= 0.6742E+07 3: half-widths = h1,h2= 2.350 3.485 3: energy flux = e1,e2= 1.443 2.760 2: ------------------------------------------------------------------------ 3: Constant solar proton flux: alfa_sp= 10.000 e_sp = 0.1000E-19 flx_sp = 0.6242E-14 3: high-energy electrons: alfa30 = 40.000 e30 = 0.050 3: 2: 2: Opened existing netcdf file /hao/aim/tgcm/data/solgar_import_ubc7.nc ncid= 4 2: CLO min,max= 0.1000E-19 0.1009E-08 2: CL min,max= 0.9996E-20 0.3147E-08 2: N2O min,max= 0.1000E-19 0.2670E-06 2: 2: ------------------------------------------------------------------------ 2: SOLGAR_IMPORT: 2: Starting at yyddd = 2080 (mon/day/yr = 3/21/ 2), ut= 0.00278 2: Fields (13,ZJMX,ZKMXP,NF) imported from the Solomon-Garcia 2d model (NF= 3): 2: N2O CL CLO 2: Monthly data read from /hao/aim/tgcm/data/solgar_import_ubc7.nc 2: These data will be interpolated to the current time at each iteration, 2: using cubic spline interpolation 2: ------------------------------------------------------------------------ 0: 0: -------------------------------- efield -------------------------------- 0: ex geog subdomain min,max= -0.1275E+05 0.3293E+05 0: ey geog subdomain min,max= -0.8374E+05 0.1309E+05 0: ez geog subdomain min,max= -0.4354E+02 0.7576E+02 2: 1: 1: -------------------------------- efield -------------------------------- 1: ex geog subdomain min,max= -0.9230E+05 0.9546E+05 1: ey geog subdomain min,max= -0.9215E+05 0.8948E+05 1: ez geog subdomain min,max= -0.6423E+02 0.6668E+02 0: emx full mag domain min,max= -0.1057E+06 0.1023E+06 0: emy full mag domain min,max= -0.1022E+06 0.1022E+06 1: emx full mag domain min,max= -0.1057E+06 0.1023E+06 0: emz full mag domain min,max= -0.7253E+02 0.7780E+02 0: ------------------------------ end efield ------------------------------ 0: 2: Multipliers for Solomon-Garcia import fields: 2: mult_n2o = 1.00 2: mult_cl = 1.00 1: emy full mag domain min,max= -0.1022E+06 0.1022E+06 2: mult_clo = 1.00 2: 2: aurora_cons: 2: cusp: alfac= 0.100 ec= 0.069 fc= 0.2167E+09 1: emz full mag domain min,max= -0.7253E+02 0.7780E+02 1: ------------------------------ end efield ------------------------------ 1: 2: drizzle: alfad= 0.500 ed= 0.011 fd= 0.6742E+07 2: half-widths = h1,h2= 2.350 3.485 2: energy flux = e1,e2= 1.443 2.760 2: Constant solar proton flux: alfa_sp= 10.000 e_sp = 0.1000E-19 flx_sp = 0.6242E-14 2: high-energy electrons: alfa30 = 40.000 e30 = 0.050 2: 2: 3: 2: -------------------------------- efield -------------------------------- 3: -------------------------------- efield -------------------------------- 3: ex geog subdomain min,max= -0.5971E+05 0.5694E+05 3: ey geog subdomain min,max= -0.5417E+05 0.5996E+05 2: ex geog subdomain min,max= -0.9325E+05 0.9489E+05 3: ez geog subdomain min,max= -0.7236E+02 0.5011E+02 2: ey geog subdomain min,max= -0.8851E+05 0.8503E+05 2: ez geog subdomain min,max= -0.5741E+02 0.6922E+02 3: emx full mag domain min,max= -0.1057E+06 0.1023E+06 2: emx full mag domain min,max= -0.1057E+06 0.1023E+06 3: emy full mag domain min,max= -0.1022E+06 0.1022E+06 2: emy full mag domain min,max= -0.1022E+06 0.1022E+06 3: emz full mag domain min,max= -0.7253E+02 0.7780E+02 3: ------------------------------ end efield ------------------------------ 3: 2: emz full mag domain min,max= -0.7253E+02 0.7780E+02 2: ------------------------------ end efield ------------------------------ 2: 2: lbc: added ubgrd,vbgrd to u_lbc,v_lbc 3: lbc: added ubgrd,vbgrd to u_lbc,v_lbc 0: lbc: added ubgrd,vbgrd to u_lbc,v_lbc 1: lbc: added ubgrd,vbgrd to u_lbc,v_lbc 2: Step 2 of 30 mtime= 80 0 4 secs/step (sys) = 3.89 3: Step 2 of 30 mtime= 80 0 4 secs/step (sys) = 3.88 0: Step 2 of 30 mtime= 80 0 4 secs/step (sys) = 1.46 1: Step 2 of 30 mtime= 80 0 4 secs/step (sys) = 3.90 0: Step 3 of 30 mtime= 80 0 6 secs/step (sys) = 1.06 2: Step 3 of 30 mtime= 80 0 6 secs/step (sys) = 1.06 1: Step 3 of 30 mtime= 80 0 6 secs/step (sys) = 1.06 3: Step 3 of 30 mtime= 80 0 6 secs/step (sys) = 1.06 2: Step 4 of 30 mtime= 80 0 8 secs/step (sys) = 1.10 3: Step 4 of 30 mtime= 80 0 8 secs/step (sys) = 1.10 0: Step 4 of 30 mtime= 80 0 8 secs/step (sys) = 1.10 1: Step 4 of 30 mtime= 80 0 8 secs/step (sys) = 1.10 2: Step 5 of 30 mtime= 80 0 10 secs/step (sys) = 1.11 3: Step 5 of 30 mtime= 80 0 10 secs/step (sys) = 1.11 0: Step 5 of 30 mtime= 80 0 10 secs/step (sys) = 1.11 1: Step 5 of 30 mtime= 80 0 10 secs/step (sys) = 1.11 2: Step 6 of 30 mtime= 80 0 12 secs/step (sys) = 1.10 3: Step 6 of 30 mtime= 80 0 12 secs/step (sys) = 1.11 0: Step 6 of 30 mtime= 80 0 12 secs/step (sys) = 1.11 1: Step 6 of 30 mtime= 80 0 12 secs/step (sys) = 1.10 0: 0: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 49) 1: 3: 0: 0: Initialized diagnostic secondary history field ZG (ix= 28): 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 49 0: ndims = 3 0: task0_only = F 3: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 49) 1: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 49) 3: 3: Initialized diagnostic secondary history field ZG (ix= 28): 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 49 3: ndims = 3 3: task0_only = F 2: 2: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 49) 1: 1: Initialized diagnostic secondary history field ZG (ix= 28): 1: short_name = ZG 1: long_name = Geometric Height ZG 2: 1: units = cm 1: geo = T 2: Initialized diagnostic secondary history field ZG (ix= 28): 1: mag = F 1: dimnames = lon lat ilev 1: dimsizes = 76 36 49 1: ndims = 3 1: task0_only = F 2: short_name = ZG 2: long_name = Geometric Height ZG 2: units = cm 2: geo = T 2: mag = F 2: dimnames = lon lat ilev 2: dimsizes = 76 36 49 2: ndims = 3 2: task0_only = F 2: 3: 3: Allocated 3d sech field UI_VEL(lon= 76,lat= 36,lev= 49) 2: Allocated 3d sech field UI_VEL(lon= 76,lat= 36,lev= 49) 3: 3: Initialized diagnostic secondary history field UI_VEL (ix= 25): 3: short_name = UI_VEL 3: long_name = UI 3: units = cm/s 3: geo = T 3: mag = F 3: dimnames = lon lat lev 3: dimsizes = 76 36 49 3: ndims = 3 3: task0_only = F 3: 3: Allocated 3d sech field VI_VEL(lon= 76,lat= 36,lev= 49) 3: 3: Initialized diagnostic secondary history field VI_VEL (ix= 26): 3: short_name = VI_VEL 3: long_name = VI 3: units = cm/s 3: geo = T 3: mag = F 3: dimnames = lon lat lev 3: dimsizes = 76 36 49 3: ndims = 3 3: task0_only = F 3: 3: Allocated 3d sech field WI_VEL(lon= 76,lat= 36,lev= 49) 3: 3: Initialized diagnostic secondary history field WI_VEL (ix= 27): 3: short_name = WI_VEL 3: long_name = WI 3: units = cm/s 3: geo = T 3: mag = F 3: dimnames = lon lat lev 3: dimsizes = 76 36 49 3: ndims = 3 3: task0_only = F 2: 2: Initialized diagnostic secondary history field UI_VEL (ix= 25): 2: short_name = UI_VEL 2: long_name = UI 2: units = cm/s 2: geo = T 2: mag = F 2: dimnames = lon lat lev 2: dimsizes = 76 36 49 2: ndims = 3 2: task0_only = F 2: 2: Allocated 3d sech field VI_VEL(lon= 76,lat= 36,lev= 49) 2: 2: Initialized diagnostic secondary history field VI_VEL (ix= 26): 2: short_name = VI_VEL 2: long_name = VI 2: units = cm/s 2: geo = T 2: mag = F 2: dimnames = lon lat lev 2: dimsizes = 76 36 49 2: ndims = 3 2: task0_only = F 2: 2: Allocated 3d sech field WI_VEL(lon= 76,lat= 36,lev= 49) 2: 2: Initialized diagnostic secondary history field WI_VEL (ix= 27): 2: short_name = WI_VEL 2: long_name = WI 2: units = cm/s 2: geo = T 2: mag = F 2: dimnames = lon lat lev 2: dimsizes = 76 36 49 2: ndims = 3 2: task0_only = F 0: 0: Allocated 3d sech field UI_VEL(lon= 76,lat= 36,lev= 49) 1: 0: 0: Initialized diagnostic secondary history field UI_VEL (ix= 25): 0: short_name = UI_VEL 0: long_name = UI 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat lev 0: dimsizes = 76 36 49 0: ndims = 3 0: task0_only = F 0: 0: Allocated 3d sech field VI_VEL(lon= 76,lat= 36,lev= 49) 1: Allocated 3d sech field UI_VEL(lon= 76,lat= 36,lev= 49) 0: 0: Initialized diagnostic secondary history field VI_VEL (ix= 26): 0: short_name = VI_VEL 0: long_name = VI 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat lev 0: dimsizes = 76 36 49 0: ndims = 3 0: task0_only = F 0: 0: Allocated 3d sech field WI_VEL(lon= 76,lat= 36,lev= 49) 0: 0: Initialized diagnostic secondary history field WI_VEL (ix= 27): 0: short_name = WI_VEL 0: long_name = WI 0: units = cm/s 0: geo = T 0: mag = F 0: dimnames = lon lat lev 0: dimsizes = 76 36 49 0: ndims = 3 0: task0_only = F 1: 1: Initialized diagnostic secondary history field UI_VEL (ix= 25): 1: short_name = UI_VEL 1: long_name = UI 1: units = cm/s 1: geo = T 1: mag = F 1: dimnames = lon lat lev 1: dimsizes = 76 36 49 1: ndims = 3 1: task0_only = F 1: 1: Allocated 3d sech field VI_VEL(lon= 76,lat= 36,lev= 49) 1: 1: Initialized diagnostic secondary history field VI_VEL (ix= 26): 1: short_name = VI_VEL 1: long_name = VI 1: units = cm/s 1: geo = T 1: mag = F 1: dimnames = lon lat lev 1: dimsizes = 76 36 49 1: ndims = 3 1: task0_only = F 1: 1: Allocated 3d sech field WI_VEL(lon= 76,lat= 36,lev= 49) 1: 1: Initialized diagnostic secondary history field WI_VEL (ix= 27): 1: short_name = WI_VEL 1: long_name = WI 1: units = cm/s 1: geo = T 1: mag = F 1: dimnames = lon lat lev 1: dimsizes = 76 36 49 1: ndims = 3 1: task0_only = F 0: Wrote secondary history 80, 0,12 to FOSTER.timegcm.stest001.nc ( 2 of 6) 1: Step 7 of 30 mtime= 80 0 14 secs/step (sys) = 1.86 0: Step 7 of 30 mtime= 80 0 14 secs/step (sys) = 1.11 2: Step 7 of 30 mtime= 80 0 14 secs/step (sys) = 1.86 3: Step 7 of 30 mtime= 80 0 14 secs/step (sys) = 1.85 2: Step 8 of 30 mtime= 80 0 16 secs/step (sys) = 1.07 3: Step 8 of 30 mtime= 80 0 16 secs/step (sys) = 1.07 0: Step 8 of 30 mtime= 80 0 16 secs/step (sys) = 1.07 1: Step 8 of 30 mtime= 80 0 16 secs/step (sys) = 1.07 2: Step 9 of 30 mtime= 80 0 18 secs/step (sys) = 1.11 3: Step 9 of 30 mtime= 80 0 18 secs/step (sys) = 1.11 0: Step 9 of 30 mtime= 80 0 18 secs/step (sys) = 1.11 1: Step 9 of 30 mtime= 80 0 18 secs/step (sys) = 1.11 2: Step 10 of 30 mtime= 80 0 20 secs/step (sys) = 1.02 3: Step 10 of 30 mtime= 80 0 20 secs/step (sys) = 1.02 0: Step 10 of 30 mtime= 80 0 20 secs/step (sys) = 1.02 1: Step 10 of 30 mtime= 80 0 20 secs/step (sys) = 1.02 0: Step 11 of 30 mtime= 80 0 22 secs/step (sys) = 1.13 1: Step 11 of 30 mtime= 80 0 22 secs/step (sys) = 1.13 3: Step 11 of 30 mtime= 80 0 22 secs/step (sys) = 1.13 2: Step 11 of 30 mtime= 80 0 22 secs/step (sys) = 1.14 2: Step 12 of 30 mtime= 80 0 24 secs/step (sys) = 1.09 3: Step 12 of 30 mtime= 80 0 24 secs/step (sys) = 1.09 0: Step 12 of 30 mtime= 80 0 24 secs/step (sys) = 1.09 1: Step 12 of 30 mtime= 80 0 24 secs/step (sys) = 1.09 0: Wrote secondary history 80, 0,24 to FOSTER.timegcm.stest001.nc ( 3 of 6) 2: Step 13 of 30 mtime= 80 0 26 secs/step (sys) = 1.58 3: Step 13 of 30 mtime= 80 0 26 secs/step (sys) = 1.58 0: Step 13 of 30 mtime= 80 0 26 secs/step (sys) = 1.10 1: Step 13 of 30 mtime= 80 0 26 secs/step (sys) = 1.58 0: Step 14 of 30 mtime= 80 0 28 secs/step (sys) = 1.30 1: Step 14 of 30 mtime= 80 0 28 secs/step (sys) = 1.30 3: Step 14 of 30 mtime= 80 0 28 secs/step (sys) = 1.30 2: Step 14 of 30 mtime= 80 0 28 secs/step (sys) = 1.30 2: Step 15 of 30 mtime= 80 0 30 secs/step (sys) = 1.14 3: Step 15 of 30 mtime= 80 0 30 secs/step (sys) = 1.14 1: Step 15 of 30 mtime= 80 0 30 secs/step (sys) = 1.14 0: Step 15 of 30 mtime= 80 0 30 secs/step (sys) = 1.14 1: Step 16 of 30 mtime= 80 0 32 secs/step (sys) = 1.15 2: Step 16 of 30 mtime= 80 0 32 secs/step (sys) = 1.15 3: Step 16 of 30 mtime= 80 0 32 secs/step (sys) = 1.15 0: Step 16 of 30 mtime= 80 0 32 secs/step (sys) = 1.15 2: Step 17 of 30 mtime= 80 0 34 secs/step (sys) = 2.24 3: Step 17 of 30 mtime= 80 0 34 secs/step (sys) = 2.24 1: Step 17 of 30 mtime= 80 0 34 secs/step (sys) = 2.24 0: Step 17 of 30 mtime= 80 0 34 secs/step (sys) = 2.24 2: Step 18 of 30 mtime= 80 0 36 secs/step (sys) = 1.07 3: Step 18 of 30 mtime= 80 0 36 secs/step (sys) = 1.07 1: Step 18 of 30 mtime= 80 0 36 secs/step (sys) = 1.07 0: Step 18 of 30 mtime= 80 0 36 secs/step (sys) = 1.07 0: Wrote secondary history 80, 0,36 to FOSTER.timegcm.stest001.nc ( 4 of 6) 2: Step 19 of 30 mtime= 80 0 38 secs/step (sys) = 2.32 3: Step 19 of 30 mtime= 80 0 38 secs/step (sys) = 2.32 1: Step 19 of 30 mtime= 80 0 38 secs/step (sys) = 2.33 0: Step 19 of 30 mtime= 80 0 38 secs/step (sys) = 1.14 2: Step 20 of 30 mtime= 80 0 40 secs/step (sys) = 1.08 3: Step 20 of 30 mtime= 80 0 40 secs/step (sys) = 1.08 1: Step 20 of 30 mtime= 80 0 40 secs/step (sys) = 1.08 0: Step 20 of 30 mtime= 80 0 40 secs/step (sys) = 1.08 2: Step 21 of 30 mtime= 80 0 42 secs/step (sys) = 1.02 3: Step 21 of 30 mtime= 80 0 42 secs/step (sys) = 1.02 1: Step 21 of 30 mtime= 80 0 42 secs/step (sys) = 1.02 0: Step 21 of 30 mtime= 80 0 42 secs/step (sys) = 1.02 2: Step 22 of 30 mtime= 80 0 44 secs/step (sys) = 1.00 3: Step 22 of 30 mtime= 80 0 44 secs/step (sys) = 1.00 1: Step 22 of 30 mtime= 80 0 44 secs/step (sys) = 1.00 0: Step 22 of 30 mtime= 80 0 44 secs/step (sys) = 1.00 1: Step 23 of 30 mtime= 80 0 46 secs/step (sys) = 0.99 2: Step 23 of 30 mtime= 80 0 46 secs/step (sys) = 0.99 3: Step 23 of 30 mtime= 80 0 46 secs/step (sys) = 0.99 0: Step 23 of 30 mtime= 80 0 46 secs/step (sys) = 0.99 2: Step 24 of 30 mtime= 80 0 48 secs/step (sys) = 1.01 3: Step 24 of 30 mtime= 80 0 48 secs/step (sys) = 1.01 1: Step 24 of 30 mtime= 80 0 48 secs/step (sys) = 1.01 0: Step 24 of 30 mtime= 80 0 48 secs/step (sys) = 1.01 0: Wrote secondary history 80, 0,48 to FOSTER.timegcm.stest001.nc ( 5 of 6) 1: Step 25 of 30 mtime= 80 0 50 secs/step (sys) = 1.56 3: Step 25 of 30 mtime= 80 0 50 secs/step (sys) = 1.55 2: Step 25 of 30 mtime= 80 0 50 secs/step (sys) = 1.56 0: Step 25 of 30 mtime= 80 0 50 secs/step (sys) = 1.09 2: Step 26 of 30 mtime= 80 0 52 secs/step (sys) = 1.05 3: Step 26 of 30 mtime= 80 0 52 secs/step (sys) = 1.05 1: Step 26 of 30 mtime= 80 0 52 secs/step (sys) = 1.05 0: Step 26 of 30 mtime= 80 0 52 secs/step (sys) = 1.03 1: Step 27 of 30 mtime= 80 0 54 secs/step (sys) = 1.00 2: Step 27 of 30 mtime= 80 0 54 secs/step (sys) = 1.00 3: Step 27 of 30 mtime= 80 0 54 secs/step (sys) = 1.00 0: Step 27 of 30 mtime= 80 0 54 secs/step (sys) = 1.00 1: Step 28 of 30 mtime= 80 0 56 secs/step (sys) = 1.02 2: Step 28 of 30 mtime= 80 0 56 secs/step (sys) = 1.02 3: Step 28 of 30 mtime= 80 0 56 secs/step (sys) = 1.02 0: Step 28 of 30 mtime= 80 0 56 secs/step (sys) = 1.02 1: Step 29 of 30 mtime= 80 0 58 secs/step (sys) = 1.06 3: Step 29 of 30 mtime= 80 0 58 secs/step (sys) = 1.06 2: Step 29 of 30 mtime= 80 0 58 secs/step (sys) = 1.06 0: Step 29 of 30 mtime= 80 0 58 secs/step (sys) = 1.06 1: Step 30 of 30 mtime= 80 1 0 secs/step (sys) = 1.09 2: Step 30 of 30 mtime= 80 1 0 secs/step (sys) = 1.09 3: Step 30 of 30 mtime= 80 1 0 secs/step (sys) = 1.09 0: Step 30 of 30 mtime= 80 1 0 secs/step (sys) = 1.09 0: Wrote primary history 80, 1, 0 to FOSTER.timegcm.ptest001.nc ( 2 of 2) 0: Wrote secondary history 80, 1, 0 to FOSTER.timegcm.stest001.nc ( 6 of 6) 2: 3: 3: MPI run with ntask = 4 1: 1: MPI run with ntask = 4 1: nstep= 30 step= 120 1: Model simulation time = 3600 secs 1: (minutes= 60.00, hours= 1.00, days= 0.041667) 1: Cpu time for run = 41.00 3: nstep= 30 step= 120 3: Model simulation time = 3600 secs 3: (minutes= 60.00, hours= 1.00, days= 0.041667) 0: 0: MPI run with ntask = 4 0: nstep= 30 step= 120 0: Model simulation time = 3600 secs 0: (minutes= 60.00, hours= 1.00, days= 0.041667) 0: Cpu time for run = 34.86 3: Cpu time for run = 40.26 2: MPI run with ntask = 4 2: nstep= 30 step= 120 2: Model simulation time = 3600 secs 2: (minutes= 60.00, hours= 1.00, days= 0.041667) 2: Cpu time for run = 41.53 1: 1: ------------------------------------------------------------------------ 1: Total time (secs) in mp routines = 0.1884E+02 ( 42.77% of total run time) 1: Time (secs) in mp_gather2root_prim = 0.2724E+00 ( 1.4%) 1: Time (secs) in mp_gather2root_sech = 0.1843E+00 ( 1.0%) 1: Time (secs) in mp_gather2root_f3d = 0.0000E+00 ( 0.0%) 1: Time (secs) in mp_gather2root_lbc = 0.6000E-03 ( 0.0%) 1: Time (secs) in mp_bndlats = 0.7053E+00 ( 3.7%) 1: Time (secs) in mp_bndlats_f2d = 0.2021E+01 (10.7%) 1: Time (secs) in mp_bndlats_kmh = 0.1000E-02 ( 0.0%) 1: Time (secs) in mp_bndlons = 0.6011E+01 (31.9%) 1: Time (secs) in mp_bndlons_f3d = 0.1206E+01 ( 6.4%) 1: Time (secs) in mp_bndlons_f2d = 0.1191E+00 ( 0.6%) 1: Time (secs) in mp_polelat = 0.3484E+00 ( 1.8%) 1: Time (secs) in mp_gatherlons_f3d = 0.2061E+01 (10.9%) 1: Time (secs) in mp_scatterlons_f3d = 0.2866E+01 (15.2%) 1: Time (secs) in mp_periodic_f4d = 0.1453E+00 ( 0.8%) 1: Time (secs) in mp_periodic_f3d = 0.4432E+00 ( 2.4%) 1: Time (secs) in mp_periodic_f2d = 0.2440E+01 (13.0%) 1: Time (secs) in mp_dynpot = 0.1130E-01 ( 0.1%) 1: 1: ------------------------------------------------------------------------ 1: TIMER (system_clock): 1: 1: Elapsed run time = 44.04 (secs) ( 0.012 hrs) (init+step+i/o = 44.19) 1: Elapsed init time = 1.68 secs, 0.000 hrs, 3.8% (includes source i/o) 1: Elapsed step time = 41.98 secs, 0.012 hrs, 95.3% 1: Elapsed prep time = 11.00 secs, 0.003 hrs, 25.0% 1: Elapsed dynamics = 27.58 secs, 0.008 hrs, 62.6% 1: Elapsed mgw = 3.74 secs, 0.001 hrs, 8.5% (gwsource and mgw) 1: Elapsed qrj = 5.67 secs, 0.002 hrs, 12.9% 1: Elapsed oplus = 1.89 secs, 0.001 hrs, 4.3% 1: Elapsed cmpminor = 4.64 secs, 0.001 hrs, 10.5% (hox,n4s,noz,ch4,co2,co,h2o,h2) 1: Elapsed cmpmajor = 1.00 secs, 0.000 hrs, 2.3% (o2, ox, and ox partitioning) 1: Elapsed dt = 0.87 secs, 0.000 hrs, 2.0% 1: Elapsed duv = 0.78 secs, 0.000 hrs, 1.8% 1: Elapsed dynamo = 0.57 secs, 0.000 hrs, 1.3% (prep_dynamo and dynamo) 1: Elapsed i/o = 0.53 secs, 0.000 hrs, 1.2% 1: Elapsed Primary io = 0.15 secs, 0.000 hrs, 0.3% 1: Elapsed Secondary = 0.38 secs, 0.000 hrs, 0.9% 1: Elapsed MPI = 18.83 secs, 0.005 hrs, 42.8% 1: 1: Average secs/step = 1.40 1: Average mins/simulated day = 17.62 1: ------------------------------------------------------------------------ 1: 1: End execution of timegcm_trunk at 12/03/12 10:06:45 1: NORMAL EXIT 3: 3: ------------------------------------------------------------------------ 3: Total time (secs) in mp routines = 0.1742E+02 ( 39.56% of total run time) 3: Time (secs) in mp_gather2root_prim = 0.4037E+00 ( 2.3%) 3: Time (secs) in mp_gather2root_sech = 0.1364E+00 ( 0.8%) 0: 0: ------------------------------------------------------------------------ 0: Total time (secs) in mp routines = 0.8462E+01 ( 19.21% of total run time) 0: Time (secs) in mp_gather2root_prim = 0.4373E+00 ( 5.2%) 0: Time (secs) in mp_gather2root_sech = 0.1025E+00 ( 1.2%) 0: Time (secs) in mp_gather2root_f3d = 0.0000E+00 ( 0.0%) 0: Time (secs) in mp_gather2root_lbc = 0.1500E-02 ( 0.0%) 0: Time (secs) in mp_bndlats = 0.6774E+00 ( 8.0%) 0: Time (secs) in mp_bndlats_f2d = 0.2023E+01 (23.9%) 0: Time (secs) in mp_bndlats_kmh = 0.1300E-02 ( 0.0%) 0: Time (secs) in mp_bndlons = 0.4863E+00 ( 5.7%) 0: Time (secs) in mp_bndlons_f3d = 0.8980E+00 (10.6%) 0: Time (secs) in mp_bndlons_f2d = 0.1333E+00 ( 1.6%) 0: Time (secs) in mp_polelat = 0.3254E+00 ( 3.8%) 0: Time (secs) in mp_gatherlons_f3d = 0.2047E+01 (24.2%) 0: Time (secs) in mp_scatterlons_f3d = 0.8457E+00 (10.0%) 0: Time (secs) in mp_periodic_f4d = 0.1433E+00 ( 1.7%) 0: Time (secs) in mp_periodic_f3d = 0.3167E+00 ( 3.7%) 0: Time3: Time (secs) in mp_gather2root_f3d = 0.0000E+00 ( 0.0%) (secs) in mp_periodic_f2d = 0.1200E-01 ( 0.1%) 0: Time (secs) in mp_dynpot = 0.1110E-01 ( 0.1%) 0: 0: ------------------------------------------------------------------------ 0: TIMER (system_clock): 0: 0: Elapsed run time = 44.04 (secs) ( 0.012 hrs) (init+step+i/o = 49.26) 0: Elapsed init time = 4.13 secs, 0.001 hrs, 9.4% (includes source i/o) 0: Elapsed step time = 33.98 secs, 0.009 hrs, 77.1% 0: Elapsed prep time = 3.02 secs, 0.001 hrs, 6.8% 0: Elapsed dynamics = 27.57 secs, 0.008 hrs, 62.6% 0: Elapsed mgw = 3.72 secs, 0.001 hrs, 8.5% (gwsource and mgw) 0: Elapsed qrj = 5.91 secs, 0.002 hrs, 13.4% 0: Elapsed oplus = 1.56 secs, 0.000 hrs, 3.5% 0: Elapsed cmpminor = 4.64 secs, 0.001 hrs, 10.5% (hox,n4s,noz,ch4,co2,co,h2o,h2) 0: Elapsed cmpmajor = 1.01 secs, 0.000 hrs, 2.3% (o2, ox, and ox partitioning) 0: Elapsed dt = 0.87 secs, 0.000 hrs, 2.0% 0: Elapsed duv = 0.78 secs, 0.000 hrs, 3: Time (secs) in mp_gather2root_lbc = 0.5000E-03 ( 0.0%) 1.8% 0: Elapsed dynamo = 2.79 secs, 0.001 hrs, 6.3% (prep_dynamo and dynamo) 0: Elapsed i/o = 11.16 secs, 0.003 hrs, 25.3% 0: Elapsed Primary io = 5.22 secs, 0.001 hrs, 11.9% 0: Elapsed Secondary = 5.94 secs, 0.002 hrs, 13.5% 0: Elapsed MPI = 8.46 secs, 0.002 hrs, 19.2% 0: 0: Average secs/step = 1.13 0: Average mins/simulated day = 17.62 0: ------------------------------------------------------------------------ 0: 0: End execution of timegcm_trunk at 12/03/12 10:06:45 0: NORMAL EXIT 3: Time (secs) in mp_bndlats = 0.6751E+00 ( 3.9%) 3: Time (secs) in mp_bndlats_f2d = 0.4510E+01 (25.9%) 3: Time (secs) in mp_bndlats_kmh = 0.1060E+00 ( 0.6%) 3: Time (secs) in mp_bndlons = 0.5982E+01 (34.3%) 3: Time (secs) in mp_bndlons_f3d = 0.1593E+01 ( 9.1%) 3: Time (secs) in mp_bndlons_f2d = 0.2230E-01 ( 0.1%) 3: Time (secs) in mp_polelat = 0.3016E+00 ( 1.7%) 3: Time (secs) in mp_gatherlons_f3d = 0.7460E+00 ( 4.3%) 3: Time (secs) in mp_scatterlons_f3d = 0.2658E+01 (15.3%) 3: Time (secs) in mp_periodic_f4d = 0.1118E+00 ( 0.6%) 3: Time (secs) in mp_periodic_f3d = 0.1397E+00 ( 0.8%) 3: Time (secs) in mp_periodic_f2d = 0.2310E-01 ( 0.1%) 3: Time (secs) in mp_dynpot = 0.1110E-01 ( 0.1%) 3: 3: ------------------------------------------------------------------------ 3: TIMER (system_clock): 3: 3: Elapsed run time = 44.04 (secs) ( 0.012 hrs) (init+step+i/o = 44.24) 3: Elapsed init time = 1.71 secs, 0.000 hrs, 3.9% (includes source i/o) 3: Elapsed step time = 41.90 secs, 0.012 hrs, 95.1% 3: Elapsed prep time = 11.00 secs, 0.003 hrs, 25.0% 3: Elapsed dynamics = 27.35 secs, 0.008 hrs, 62.1% 3: Elapsed mgw = 3.10 secs, 0.001 hrs, 7.1% (gwsource and mgw) 3: Elapsed qrj = 5.80 secs, 0.002 hrs, 13.2% 3: Elapsed oplus = 2.29 secs, 0.001 hrs, 5.2% 3: Elapsed cmpminor = 4.26 secs, 0.001 hrs, 9.7% (hox,n4s,noz,ch4,co2,co,h2o,h2) 3: Elapsed cmpmajor = 0.84 secs, 0.000 hrs, 1.9% (o2, ox, and ox partitioning) 3: Elapsed dt = 0.89 secs, 0.000 hrs, 2.0% 3: Elapsed duv = 1.09 secs, 0.000 hrs, 2.5% 3: Elapsed dynamo = 0.76 secs, 0.000 hrs, 1.7% (prep_dynamo and dynamo) 3: Elapsed i/o = 0.64 secs, 0.000 hrs, 1.4% 3: Elapsed Primary io = 0.20 secs, 0.000 hrs, 0.5% 3: Elapsed Secondary = 0.43 secs, 0.000 hrs, 1.0% 3: Elapsed MPI = 17.31 secs, 0.005 hrs, 39.3% 3: 3: Average secs/step = 1.40 3: Average mins/simulated day = 17.62 3: ------------------------------------------------------------------------ 3: 3: End execution of timegcm_trunk at 12/03/12 10:06:45 3: NORMAL EXIT 2: 2: ------------------------------------------------------------------------ 2: Total time (secs) in mp routines = 0.1508E+02 ( 34.23% of total run time) 2: Time (secs) in mp_gather2root_prim = 0.3329E+00 ( 2.2%) 2: Time (secs) in mp_gather2root_sech = 0.1489E+00 ( 1.0%) 2: Time (secs) in mp_gather2root_f3d = 0.0000E+00 ( 0.0%) 2: Time (secs) in mp_gather2root_lbc = 0.3000E-03 ( 0.0%) 2: Time (secs) in mp_bndlats = 0.6232E+01 (41.3%) 2: Time (secs) in mp_bndlats_f2d = 0.4489E+01 (29.8%) 2: Time (secs) in mp_bndlats_kmh = 0.8530E-01 ( 0.6%) 2: Time (secs) in mp_bndlons = 0.4456E+00 ( 3.0%) 2: Time (secs) in mp_bndlons_f3d = 0.8714E+00 ( 5.8%) 2: Time (secs) in mp_bndlons_f2d = 0.3474E+00 ( 2.3%) 2: Time (secs) in mp_polelat = 0.2909E+00 ( 1.9%) 2: Time (secs) in mp_gatherlons_f3d = 0.8240E+00 ( 5.5%) 2: Time (secs) in mp_scatterlons_f3d = 0.7086E+00 ( 4.7%) 2: Time (secs) in mp_periodic_f4d = 0.1332E+00 ( 0.9%) 2: Time (secs) in mp_periodic_f3d = 0.1313E+00 ( 0.9%) 2: Time (secs) in mp_periodic_f2d = 0.2380E-01 ( 0.2%) 2: Time (secs) in mp_dynpot = 0.1040E-01 ( 0.1%) 2: 2: ------------------------------------------------------------------------ 2: TIMER (system_clock): 2: 2: Elapsed run time = 44.04 (secs) ( 0.012 hrs) (init+step+i/o = 44.20) 2: Elapsed init time = 1.70 secs, 0.000 hrs, 3.9% (includes source i/o) 2: Elapsed step time = 41.95 secs, 0.012 hrs, 95.2% 2: Elapsed prep time = 11.04 secs, 0.003 hrs, 25.1% 2: Elapsed dynamics = 27.35 secs, 0.008 hrs, 62.1% 2: Elapsed mgw = 3.08 secs, 0.001 hrs, 7.0% (gwsource and mgw) 2: Elapsed qrj = 6.49 secs, 0.002 hrs, 14.7% 2: Elapsed oplus = 1.68 secs, 0.000 hrs, 3.8% 2: Elapsed cmpminor = 4.27 secs, 0.001 hrs, 9.7% (hox,n4s,noz,ch4,co2,co,h2o,h2) 2: Elapsed cmpmajor = 0.84 secs, 0.000 hrs, 1.9% (o2, ox, and ox partitioning) 2: Elapsed dt = 0.89 secs, 0.000 hrs, 2.0% 2: Elapsed duv = 1.09 secs, 0.000 hrs, 2.5% 2: Elapsed dynamo = 0.74 secs, 0.000 hrs, 1.7% (prep_dynamo and dynamo) 2: Elapsed i/o = 0.55 secs, 0.000 hrs, 1.3% 2: Elapsed Primary io = 0.16 secs, 0.000 hrs, 0.4% 2: Elapsed Secondary = 0.39 secs, 0.000 hrs, 0.9% 2: Elapsed MPI = 14.99 secs, 0.004 hrs, 34.0% 2: 2: Average secs/step = 1.40 2: Average mins/simulated day = 17.62 2: ------------------------------------------------------------------------ 2: 2: End execution of timegcm_trunk at 12/03/12 10:06:45 2: NORMAL EXIT