6: 6: ======================================================================== 6: Begin execution of tiegcm1.94 at 04/07/13 11:00:19 6: Host = polar 6: System = LINUX 6: Logname = emery 6: ======================================================================== 6: 6: init_timer: level= 1 rtc=F sys=T 6: mp_init: ntask= 8 mytid= 6 6: Current working directory (cwd) = /hao/aim3/emery/tiegcm_1.94.2/tiegcm-linux 6: Process ID (pid) = 665 6: 6: Reading input data... 6: 6: Completed successful read of namelist inputs. 6: 6: mkntask: i= 1 j= 8 i*j= 8 ntask= 8 6: mkntask: i= 2 j= 4 i*j= 8 ntask= 8 6: mkntask: i= 4 j= 2 i*j= 8 ntask= 8 6: mkntask: i= 8 j= 1 i*j= 8 ntask= 8 6: Input: mkntask chose ntask_lon= 4 ntask_lat= 2 (ntask= 8) 6: ctmt_nlev= 1 if >1, zonal mean MSIS00 and TIDI file will be used with CTMT tides. 6: CTMT diurnal tidal database will be used. 6: CTMT semidiurnal tidal database will be used. 6: Will use the Heelis potential model 6: Note input: Setting BY to 0 with HEELIS potential model. 6: Input: Expanded secout file s887_12080_ofx_tefenp30_ctmt5.nc to 6: s887_12080_ofx_tefenp30_ctmt5.nc 6: INPUT NOTE: adding mandatory field ZMAG to secondary history fields (field 39) 6: 6: ------------------------------------------------------------------------ 6: USER INPUT PARAMETERS: 6: label = tiegcm_194_rev887_ofx_tefenp3_ctmt 6: (optional text label for current run) 6: High-lat electric potential model: potential_model = HEELIS 6: Zonal mean MSIS00/TIDI file for CTMT nudging: ctmt_zm_file = /home/emery/tidi/outzav_04080_120f107_95to120km 6: CTMT diurnal file: ctmt_di_ncfile = /hao/aim3/emery/ctmt/tira_diurnal_2002_2008.nc 6: CTMT semidiurnal file: ctmt_sdi_ncfile = /hao/aim3/emery/ctmt/tira_semidiurnal_2002_2008.nc 6: start_year = 2012 (starting calendar day) 6: start_day = 80 (starting calendar year) 6: calendar_advance = 1 (model will be advanced in calendar time starting on this day) 6: step = 120 (model timestep (seconds)) 6: ntask_lon = 4 (number of mpi tasks in longitude dimension) 6: ntask_lat = 2 (number of mpi tasks in latitude dimension) 6: total tasks = ntask_lon*ntask_lat = 8 6: source = p887_12080_ofx_tefenp30_ctmtzm4.nc 6: (file or mss path containing source history) 6: source_start = 81, 0, 0 (model time of source history) 6: output (primary history output files) = 6: p887_12080_ofx_tefenp30_ctmt5.nc, 6: start (model start times) = 6: 80, 0, 0 6: stop (model stop times) = 6: 81, 0, 0 6: hist (primary history disk write frequencies) = 6: 1, 0, 0 6: Maxmimum number of histories per primary file = 17 6: secout (secondary history output files)= 6: s887_12080_ofx_tefenp30_ctmt5.nc, 6: secstart (secondary history start times) = 6: 80, 0, 0 6: secstop (secondary history stop times) = 6: 81, 0, 0 6: sechist (secondary history disk write frequencies) = 6: 0, 1, 0 6: secflds (secondary history fields) = 6: TN UN VN WN O1 6: NO DEN NE TE TI 6: TEC O2 POTEN UI_ExB VI_ExB 6: WI_ExB SIGMA_PED SIGMA_HAL HMF2 NMF2 6: QJOULE QJOULE_INTEGZ ZG ALFA 6: EFLUX Z_LBC T_LBC U_LBC V_LBC 6: D_LBC CTMT_D CTMT_T CTMT_U CTMT_V 6: t_prenudge u_prenudge v_prenudge ZMAG 6: Maximum number of histories per secondary file = 25 6: Number of bytes for values of fields on secondary histories (sech_nbyte) = 4 6: eddy_dif = 0 (DOY-dependent eddy diffusion flag) 6: tide (amplitudes and phases of semidiurnal tide) = 6: 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 6: tide2 (amplitude and phase of diurnal tide) = 6: 0.0E+00 0.00 6: aurora = 1 (0/1 flag for aurora) 6: colfac = 1.500 (collision factor) 6: If any of the following are spval ( 0.1000E+37), they will be calculated 6: during the simulation on a per timestep basis: 6: power = 0.1600E+02 (Hemispheric Power) 6: ctpoten= 0.1000E+01 (Cross-cap potential) 6: kp = 0.1000E+37 (Kp index) 6: bximf = 0.1000E+37 (BX component of IMF) 6: byimf = 0.0000E+00 (BY component of IMF) 6: bzimf = 0.1000E+37 (Bz component of IMF) 6: swvel = 0.1000E+37 (solar wind velocity) 6: swden = 0.1000E+37 (solar wind density) 6: f107 = 0.1200E+03 (F10.7 solar flux) 6: f107a = 0.1200E+03 (81-day ave F10.7 flux) 6: al = 0.1000E+37 (AL, lower auroral mag index) 6: END USER INPUT PARAMETERS 6: ------------------------------------------------------------------------ 6: 6: 6: ntask= 8 ntaski= 4 ntaskj= 2 Task Table: 6: j= -1 itask_table(:,j)= -1 -1 -1 -1 -1 -1 6: j= 0 itask_table(:,j)= -1 0 1 2 3 -1 6: j= 1 itask_table(:,j)= -1 4 5 6 7 -1 6: j= 2 itask_table(:,j)= -1 -1 -1 -1 -1 -1 6: 6: mytid= 6 mytidi,j= 2 1 lat0,1= 19 36 (18) lon0,1= 39 57 (19) ncells= 342 6: Task 6: 6: tasks( 6)%mytid = 6 6: tasks( 6)%mytidi= 2 6: tasks( 6)%mytidj= 1 6: tasks( 6)%nlats = 18 6: tasks( 6)%nlons = 19 6: tasks( 6)%lat0 = 19 6: tasks( 6)%lat1 = 36 6: tasks( 6)%lon0 = 39 6: tasks( 6)%lon1 = 57 6: tasks( 6)%mylats= 6: 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 6: 34 35 36 6: tasks( 6)%mylons= 6: 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 6: 54 55 56 57 6: Model version = tiegcm1.94 6: 6: Set constants: 6: nlat= 36 nlon= 72 nlev= 28 6: dz= 0.50 6: dlat= 5.00 dlon= 5.00 6: zbound (cm) = 0.963723E+07 6: zmbot, zmtop = -6.750 7.250 (bottom,top midpoint levels) 6: zibot, zitop = -7.000 7.000 (bottom,top interface levels) 6: dt = 120.00 secs 6: grav = 870.00 6: freq_3m3 = 0.3506E-04 freq_semidi= 0.1454E-03 6: dipmin = 0.170 6: check_exp = F 6: kut (for filtering) = 1 2 3 5 6 7 9 10 11 13 14 15 17 17 17 17 17 17 17 17 17 17 17 17 15 14 13 11 10 9 7 6 5 3 2 1 6: init: iyear= 2012 iday= 80 6: hist_init: nstep=720 6: Allocated ctmt t,u,v,z (lon0:lon1,lat0:lat1,nalt5) 6: Allocated ctmt t,u,v (lon0:lon1,lat0:lat1, ctmt_nlev) 6: Allocated gswm t,u,v,z (lon0:lon1,lat0:lat1) 6: Allocated private gwm t,u,v,z (lon0:lon1,lat0:lat1,nmonth,nhour) 6: allocdata: all tasks allocate fzg: nlevp1= 29 nlonp4= 76 nlat= 36 6: init_lbc: allocated subdomains tlbc, ulbc, vlbc 6: init_lbc_nm: allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm 6: init_lbc: allocated globals tlbc_glb, ulbc_glb, vlbc_glb: nlonp4= 76 nlat= 36 6: init_lbc: allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb: nlonp4= 76 nlat= 36 6: 6: Model run initialization: 6: nstep = 720 (Number of time steps this run) 6: iter = 57600 (Initial iteration number) 6: iyear = 2012 (Beginning calendar year) 6: iday = 80 (Beginning calendar day) 6: igswm_mi_di = 0 (If > 0, GSWM diurnal tidal database will be used.) 6: igswm_mi_sdi= 0 (If > 0, GSWM semidiurnal tidal database will be used.) 6: igswm_nm_di= 0 (If > 0, GSWM nonmigrating diurnal tidal database will be used.) 6: igswm_nm_sdi= 0 (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.) 6: nlev = 28 (Number of levels (midpoints and interfaces)) 6: 6: zpmid (midpoint levels) = 6: -6.750 -6.250 -5.750 -5.250 -4.750 -4.250 -3.750 -3.250 -2.750 -2.250 6: -1.750 -1.250 -0.750 -0.250 0.250 0.750 1.250 1.750 2.250 2.750 6: 3.250 3.750 4.250 4.750 5.250 5.750 6.250 6.750 7.250 6: 6: zpint (interface levels) = 6: -7.000 -6.500 -6.000 -5.500 -5.000 -4.500 -4.000 -3.500 -3.000 -2.500 6: -2.000 -1.500 -1.000 -0.500 0.000 0.500 1.000 1.500 2.000 2.500 6: 3.000 3.500 4.000 4.500 5.000 5.500 6.000 6.500 7.000 6: 6: nmlevp1= 32 zpmag_mid (mag midpoint levels) = 6: -8.250 -7.750 -7.250 -6.750 -6.250 -5.750 -5.250 -4.750 -4.250 -3.750 6: -3.250 -2.750 -2.250 -1.750 -1.250 -0.750 -0.250 0.250 0.750 1.250 6: 1.750 2.250 2.750 3.250 3.750 4.250 4.750 5.250 5.750 6.250 6: 6.750 7.250 6: 6: nmlevp1= 32 zpmag_int (mag interface levels) = 6: -8.500 -8.000 -7.500 -7.000 -6.500 -6.000 -5.500 -5.000 -4.500 -4.000 6: -3.500 -3.000 -2.500 -2.000 -1.500 -1.000 -0.500 0.000 0.500 1.000 6: 1.500 2.000 2.500 3.000 3.500 4.000 4.500 5.000 5.500 6.000 6: 6.500 7.000 6: 6: This is an initial run: 6: start_year = 2012 (Starting year of initial run) 6: start_day = 80 (Starting day of initial run) 6: start_mtime= 80 0 0 (Starting mtime of initial run) 6: 6: Primary Histories: 6: nsource = 1 (If > 0, a primary source history was provided) 6: nseries_prim = 1 (Number of primary time series) 6: nhist_total = 2 (Number of primary histories to be written) 6: nfiles_prim = 1 (Number of primary output files to be written) 6: mxhist_prim = 17 (Maximum number of primary histories per file) 6: nfiles_sech = 1 (Number of secondary output files to be written) 6: mxhist_sech = 25 (Maximum number of secondary histories per file) 6: nfsech = 39 (Number of requested secondary history fields) 6: secondary history field 1: TN 6: secondary history field 2: UN 6: secondary history field 3: VN 6: secondary history field 4: WN 6: secondary history field 5: O1 6: secondary history field 6: NO 6: secondary history field 7: DEN 6: secondary history field 8: NE 6: secondary history field 9: TE 6: secondary history field 10: TI 6: secondary history field 11: TEC 6: secondary history field 12: O2 6: secondary history field 13: POTEN 6: secondary history field 14: UI_ExB 6: secondary history field 15: VI_ExB 6: secondary history field 16: WI_ExB 6: secondary history field 17: SIGMA_PED 6: secondary history field 18: SIGMA_HAL 6: secondary history field 19: HMF2 6: secondary history field 20: NMF2 6: secondary history field 21: QJOULE 6: secondary history field 22: QJOULE_INTEG 6: secondary history field 23: Z 6: secondary history field 24: ZG 6: secondary history field 25: ALFA 6: secondary history field 26: EFLUX 6: secondary history field 27: Z_LBC 6: secondary history field 28: T_LBC 6: secondary history field 29: U_LBC 6: secondary history field 30: V_LBC 6: secondary history field 31: D_LBC 6: secondary history field 32: CTMT_D 6: secondary history field 33: CTMT_T 6: secondary history field 34: CTMT_U 6: secondary history field 35: CTMT_V 6: secondary history field 36: t_prenudge 6: secondary history field 37: u_prenudge 6: secondary history field 38: v_prenudge 6: secondary history field 39: ZMAG 6: 6: ------------------------------------------------------------------------------------------------ 6: Table of Available Diagnostic Fields: 6: Shortnames may be added to namelist SECFLDS 6: 6: Field Shortname Units Levels Caller Longname 6: - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6: 1 CO2_COOL erg/g/s lev newton.F CO2 Cooling 6: 2 NO_COOL erg/g/s lev newton.F NO Cooling 6: 3 DEN g/cm3 ilev dt.F Total Density 6: 4 HEATING erg/g/s lev dt.F Total Heating 6: 5 HMF2 km none elden.F Height of the F2 Layer 6: 6 NMF2 1/cm3 none elden.F Peak Density of the F2 Layer 6: 7 FOF2 MHz none elden.F Critical Frequency of the F2 Layer 6: 8 JE13D A/m2 mlev current.F Eastward current density (3d) 6: 9 JE23D A/m2 mlev current.F Downward current density (3d) 6: 10 JQR A/m2 none current.F Upward current density (2d) 6: 11 KQLAM A/m none current.F Height-integrated current density (+north) 6: 12 KQPHI A/m none current.F Height-integrated current density (+east) 6: 13 LAMDA_HAL 1/s lev lamdas.F Hall Ion Drag Coefficient 6: 14 LAMDA_PED 1/s lev lamdas.F Pedersen Ion Drag Coefficient 6: 15 MU_M g/cm/s lev cpktkm.F Molecular Viscosity Coefficient 6: 16 QJOULE erg/g/s lev qjoule.F Joule Heating 6: 17 SCHT km lev addiag.F Pressure Scale Height 6: 18 SIGMA_HAL S/m lev lamdas.F Hall Conductivity 6: 19 SIGMA_PED S/m lev lamdas.F Pedersen Conductivity 6: 20 TEC 1/cm2 none elden.F Total Electron Content 6: 21 UI_ExB cm/s ilev ionvel.F Zonal Ion Drift (ExB) 6: 22 VI_ExB cm/s ilev ionvel.F Meridional Ion Drift (ExB) 6: 23 WI_ExB cm/s ilev ionvel.F Vertical Ion Drift (ExB) 6: 24 WN cm/s ilev swdot.F NEUTRAL VERTICAL WIND (plus up) 6: 25 O_N2 none lev comp.F O/N2 RATIO 6: 26 QJOULE_INTEG erg/cm2/s none qjoule.F Height-integrated Joule Heating 6: ------------------------------------------------------------------------------------------------ 6: 6: 6: ------------------------------------------------------------------------ 6: Getfile: remote=p887_12080_ofx_tefenp30_ctmtzm4.nc 6: Getfile: Found file p887_12080_ofx_tefenp30_ctmtzm4.nc 6: ------------------------------------------------------------------------ 6: 6: Acquired source history file p887_12080_ofx_tefenp30_ctmtzm4.nc 6: (disk file is p887_12080_ofx_tefenp30_ctmtzm4.nc) 6: Reading source history from diskfile p887_12080_ofx_tefenp30_ctmtzm4.nc: 6: nc_rdhist: seeking 81 0 0 found 80 0 0 n= 1 6: nc_rdhist: seeking 81 0 0 found 81 0 0 n= 2 6: Note nc_rdhist: unused variable: calendar_advance 6: Note nc_rdhist: unused variable: write_date 6: Note nc_rdhist: unused variable: crit1 6: Note nc_rdhist: unused variable: crit2 6: Note nc_rdhist: unused variable: mag 6: Read field TN 3d subdomain min,max= 0.1313E+03 0.8833E+03 6: Read field UN 3d subdomain min,max= -0.1885E+05 0.7239E+04 6: Read field VN 3d subdomain min,max= -0.1751E+05 0.9539E+04 6: Read field O2 3d subdomain min,max= 0.6346E-04 0.2305E+00 6: Read field O1 3d subdomain min,max= 0.3747E-02 0.9947E+00 6: Read field N4S 3d subdomain min,max= 0.1000E-11 0.9332E-02 6: Read field NO 3d subdomain min,max= 0.1000E-11 0.1886E-03 6: Read field OP 3d subdomain min,max= 0.0000E+00 0.5732E+06 6: Read field N2D 3d subdomain min,max= 0.0000E+00 0.2692E-03 6: Read field TI 3d subdomain min,max= 0.1314E+03 0.1782E+04 6: Read field TE 3d subdomain min,max= 0.1316E+03 0.3261E+04 6: Read field NE 3d subdomain min,max= 0.9821E+03 0.5677E+06 6: Read field O2P 3d subdomain min,max= 0.0000E+00 0.7159E+05 6: Read field OMEGA 3d subdomain min,max= -0.6692E-04 0.5841E-04 6: Read field Z 3d subdomain min,max= 0.9557E+07 0.5559E+08 6: Read field POTEN 3d subdomain min,max= -0.1245E+04 0.4131E+04 6: Read field TN_NM 3d subdomain min,max= 0.1314E+03 0.8830E+03 6: Read field UN_NM 3d subdomain min,max= -0.1882E+05 0.7204E+04 6: Read field VN_NM 3d subdomain min,max= -0.1751E+05 0.9527E+04 6: Read field O2_NM 3d subdomain min,max= 0.6352E-04 0.2305E+00 6: Read field O1_NM 3d subdomain min,max= 0.3745E-02 0.9947E+00 6: Read field N4S_NM 3d subdomain min,max= 0.1000E-11 0.9320E-02 6: Read field NO_NM 3d subdomain min,max= 0.1000E-11 0.1888E-03 6: Read field OP_NM 3d subdomain min,max= 0.0000E+00 0.5777E+06 6: Read LBC from source history: i= 89 sh%lbc= -7.00 6: 6: ------------------------------------------------------------------------ 6: Read TGCM PRIMARY HISTORY (source history) 6: Diskfile: p887_12080_ofx_tefenp30_ctmtzm4.nc 6: label = tiegcm1.93 6: model_name = tiegcm 6: model_version = tiegcm1.94 6: create_date= 04/05/13 16:59:51 6: write_date = 6: logname = foster 6: host = be0901en.ucar.ed 6: system = AIX 6: run_type = 6: source_file = 6: output_file = 6: source_mtime = 81 0 0 6: initial_year = 2012 6: initial_day = 80 6: initial_mtime= 80 0 0 6: type = primary 6: ihist = 2 (nth history on history file) 6: delhmins= 0 (delta minutes between histories) 6: calendar year,day = 2012, 81 6: (model IS being advanced in calendar time) 6: modeltime = 81, 0, 0, 0 (model time day,hour,minute,seconds) 6: time = 1440.00 (minutes in current day) 6: ut = 0.00 (ut hours) 6: step = 120 (time step in seconds) 6: iter = 58320 (number of steps from 0,0,0) 6: nlat = 36 (number of latitudes) 6: nlon = 72 (number of longitudes) 6: nlev = 29 (number of levels) 6: zmtop = 7.250 (top midpoint level) 6: zmbot = -6.750 (bottom midpoint level) 6: zitop = 7.000 (top interface level) 6: zibot = -7.000 (bottom interface level) 6: dtide = 0.0E+00 0.0 (amp/phase of diurnal tide) 6: 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 6: (amp/phase of semi-diurnal tide) 6: f107d = 0.1200E+03 (daily solar flux) 6: f107a = 0.1200E+03 (average solar flux) 6: hpower = 0.1600E+02 (Gw) 6: ctpoten = 0.1000E+01 (Volts) 6: kp = 0.1000E+37 () 6: byimf = 0.0000E+00 6: bzimf = 0.1000E+37 6: swvel = 0.1000E+37 6: swden = 0.1000E+37 6: al = 0.1000E+37 6: e1,e2 = 0.1443E+01 0.2760E+01 (ergs/cm2/s) 6: alfac,alfad = 0.1000E+00 0.5000E+00 (keV) 6: ec,ed = 0.6944E-01 0.1080E-01 (ergs/cm2/s) 6: colfac = 0.15E+01 6: joulefac = 0.15E+01 6: p0 = 0.50E-06 6: p0_model= 0.50E-03 6: grav = 0.87E+03 6: nflds = 24 (number of model fields) 6: gswm_mi_di_ncfile = [none] 6: gswm_mi_sdi_ncfile = [none] 6: gswm_nm_di_ncfile = [none] 6: gswm_nm_sdi_ncfile = [none] 6: see_ncfile = [none] 6: gpi_ncfile = [none] 6: ncep_ncfile = [none] 6: imf_ncfile = [none] 6: saber_ncfile = [none] 6: tidi_ncfile = [none] 6: tuv_lbc_intop= 0 (if 1, then lbc of t,u,v are stored in top k slot (old histories)) 6: LBC = -7.00 (lower boundary interface level) 6: ntask_mpi = 8 (number of MPI tasks) 6: coupled_cmit = 0 (1 if coupled with CISM/CMIT, 0 otherwise) 6: There are 24 fields on this history, as follows: 6: TN UN VN O2 O1 N4S NO OP 6: N2D TI TE NE O2P OMEGA Z POTEN 6: TN_NM UN_NM VN_NM O2_NM O1_NM N4S_NM NO_NM OP_NM 6: ------------------------------------------------------------------------ 6: 6: 6: Enter advance: iter= 57600 nstep= 720 6: lu_zm, ctmt_zm_file = 7 /home/emery/tidi/outzav_04080_120f107_95to120km 6: nalt= 1 6: alt= 95.0 6: globtn,den = 184.60 0.1596700E-08 6: jl glat72 zm_t =36 -1.25 181.4 6: zm_ctmt min,max den 0.1389E-08 0.1738E-08 un= -0.2170E+02 0.2290E+02 vn= -0.8600E+01 0.7300E+01 tn= 0.1805E+03 0.1943E+03 6: nalt= 2 6: alt= 97.5 6: globtn,den = 180.90 0.1038700E-08 6: jl glat72 zm_t =36 -1.25 176.2 6: zm_ctmt min,max den 0.9043E-09 0.1128E-08 un= -0.2130E+02 0.1560E+02 vn= -0.1400E+02 0.9800E+01 tn= 0.1755E+03 0.1924E+03 6: nalt= 3 6: alt=100.0 6: globtn,den = 180.60 0.6611200E-09 6: jl glat72 zm_t =36 -1.25 174.9 6: zm_ctmt min,max den 0.5857E-09 0.7134E-09 un= -0.1540E+02 0.1550E+02 vn= -0.1950E+02 0.1400E+02 tn= 0.1744E+03 0.1937E+03 6: nalt= 4 6: alt=102.5 6: globtn,den = 185.00 0.4133800E-09 6: jl glat72 zm_t =36 -1.25 179.2 6: zm_ctmt min,max den 0.3777E-09 0.4415E-09 un= -0.1310E+02 0.2160E+02 vn= -0.1670E+02 0.2150E+02 tn= 0.1789E+03 0.1971E+03 6: nalt= 5 6: alt=105.0 6: globtn,den = 194.30 0.2571800E-09 6: jl glat72 zm_t =36 -1.25 189.3 6: zm_ctmt min,max den 0.2428E-09 0.2714E-09 un= -0.9000E+01 0.2120E+02 vn= -0.1860E+02 0.1780E+02 tn= 0.1892E+03 0.2033E+03 6: nalt= 6 6: alt=107.5 6: globtn,den = 208.40 0.1609300E-09 6: jl glat72 zm_t =36 -1.25 205.2 6: zm_ctmt min,max den 0.1557E-09 0.1677E-09 un= -0.1180E+02 0.2540E+02 vn= -0.3670E+02 0.1700E+02 tn= 0.2050E+03 0.2134E+03 6: nalt= 7 6: alt=110.0 6: globtn,den = 227.50 0.1021000E-09 6: jl glat72 zm_t =36 -1.25 226.6 6: zm_ctmt min,max den 0.9939E-10 0.1053E-09 un= -0.2060E+02 0.2990E+02 vn= -0.5470E+02 0.1770E+02 tn= 0.2202E+03 0.2297E+03 6: nalt= 8 6: alt=112.5 6: globtn,den = 251.10 0.6613300E-10 6: jl glat72 zm_t =36 -1.25 252.3 6: zm_ctmt min,max den 0.6459E-10 0.6865E-10 un= -0.2940E+02 0.4060E+02 vn= -0.7270E+02 0.2210E+02 tn= 0.2408E+03 0.2533E+03 6: nalt= 9 6: alt=115.0 6: globtn,den = 279.10 0.4391700E-10 6: jl glat72 zm_t =36 -1.25 281.8 6: zm_ctmt min,max den 0.4312E-10 0.4536E-10 un= -0.3810E+02 0.5210E+02 vn= -0.9070E+02 0.3100E+02 tn= 0.2676E+03 0.2821E+03 6: nalt=10 6: alt=117.5 6: globtn,den = 311.40 0.2998900E-10 6: jl glat72 zm_t =36 -1.25 314.7 6: zm_ctmt min,max den 0.2963E-10 0.3057E-10 un= -0.4690E+02 0.6360E+02 vn= -0.1087E+03 0.4000E+02 tn= 0.3008E+03 0.3147E+03 6: nalt=11 6: alt=120.0 6: globtn,den = 347.30 0.2111600E-10 6: jl glat72 zm_t =36 -1.25 350.4 6: zm_ctmt min,max den 0.2056E-10 0.2128E-10 un= -0.5570E+02 0.7510E+02 vn= -0.1267E+03 0.4890E+02 tn= 0.3395E+03 0.3504E+03 6: getctmt: ctmt_nlev= 1 ctmt_nudge= 6: 0.00000 6: 6: ------------------------------------------------------------------------ 6: Getfile: remote=/hao/aim3/emery/ctmt/tira_diurnal_2002_2008.nc 6: Getfile: Found file /hao/aim3/emery/ctmt/tira_diurnal_2002_2008.nc 6: ------------------------------------------------------------------------ 6: 6: 6: ------------------------------------------------------------------------ 6: Reading CTMT data file /hao/aim3/emery/ctmt/tira_diurnal_2002_2008.nc 6: Completed read from CTMT data file /hao/aim3/emery/ctmt/tira_diurnal_2002_2008.nc 6: 6: ------------------------------------------------------------------------ 6: 6: ------------------------------------------------------------------------ 6: Getfile: remote=/hao/aim3/emery/ctmt/tira_semidiurnal_2002_2008.nc 6: Getfile: Found file /hao/aim3/emery/ctmt/tira_semidiurnal_2002_2008.nc 6: ------------------------------------------------------------------------ 6: 6: 6: ------------------------------------------------------------------------ 6: Reading CTMT data file /hao/aim3/emery/ctmt/tira_semidiurnal_2002_2008.nc 6: Completed read from CTMT data file /hao/aim3/emery/ctmt/tira_semidiurnal_2002_2008.nc 6: 6: ------------------------------------------------------------------------ 6: zm at nalt min t,u,v = 1 0.00000E+00-0.24412E+04 0.00000E+00 6: zm at nalt min t,u,v = 2 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 3 0.00000E+00-0.21689E+04 0.00000E+00 6: zm at nalt min t,u,v = 4 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 5 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 6 0.00000E+00-0.21534E+04 0.00000E+00 6: zm at nalt min t,u,v = 7 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 8 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 9 0.00000E+00-0.21039E+04 0.00000E+00 6: zm at nalt min t,u,v =10 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v =11 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v =12 0.00000E+00-0.21649E+04 0.00000E+00 6: tuvz_lbc 97.5km: ctmt_rho,un,vn,tn pert = -0.1498E+00 0.1194E+00 -0.1983E+04 0.4268E+04 -6313. 3032. -23. 21. 6: nalt,s,fac1,tuv_lbc(zm),_pert,ctmt min,x= 1 2 0.51 0.0000E+00 0.1955E+03 -0.1977E+04 0.4471E+04 -0.5132E+04 0.3486E+04 6: -0.2183E+02 0.1447E+02 -0.1977E+04 0.4471E+04 -0.5132E+04 0.3486E+04 6: -0.2280E+02 0.2115E+02 -0.1983E+04 0.4268E+04 -0.6313E+04 0.3032E+04 6: dz_lbc(zm),_pert,ctmt min,x= 0.0000E+00 0.9762E+07 -0.8008E+05 0.1268E+06 -0.1353E+00 0.1142E+00 -0.1498E+00 0.1194E+00 6: tuvz_lbc: t_lbc min,max= 0.0000E+00 0.1955E+03 u_lbc= -0.1977E+04 0.4471E+04 v_lbc= -0.5132E+04 0.3486E+04 z_lbc= 0.0000E+00 0.9762E+07 6: 6: aurora_cons: 6: cusp: alfac= 0.100 ec= 0.069 fc= 0.2167E+09 6: drizzle: alfad= 0.500 ed= 0.011 fd= 0.6742E+07 6: auroral radius = max of rhp,rcp= 19.763 9.260 6: roth, rote (MLT) = 0.462 -0.062 6: 1/e-widths = h1,h2= 2.350 3.485 6: energy flux = e1,e2= 1.443 2.760 6: add_sproton = F 6: 6: zm at nalt min t,u,v = 1 0.00000E+00-0.24434E+04 0.00000E+00 6: zm at nalt min t,u,v = 2 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 3 0.00000E+00-0.21611E+04 0.00000E+00 6: zm at nalt min t,u,v = 4 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 5 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 6 0.00000E+00-0.21476E+04 0.00000E+00 6: zm at nalt min t,u,v = 7 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 8 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v = 9 0.00000E+00-0.21020E+04 0.00000E+00 6: zm at nalt min t,u,v =10 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v =11 0.00000E+00 0.00000E+00 0.00000E+00 6: zm at nalt min t,u,v =12 0.00000E+00-0.21587E+04 0.00000E+00 6: nalt,s,fac1,tuv_lbc(zm),_pert,ctmt min,x= 1 2 0.51 0.0000E+00 0.1954E+03 -0.1966E+04 0.4460E+04 -0.5143E+04 0.3479E+04 6: -0.2182E+02 0.1442E+02 -0.1966E+04 0.4460E+04 -0.5143E+04 0.3479E+04 6: -0.2262E+02 0.2130E+02 -0.1969E+04 0.4237E+04 -0.6332E+04 0.3011E+04 6: dz_lbc(zm),_pert,ctmt min,x= 0.0000E+00 0.9761E+07 -0.8035E+05 0.1268E+06 -0.1344E+00 0.1124E+00 -0.1499E+00 0.1181E+00 6: tuvz_lbc: t_lbc min,max= 0.0000E+00 0.1954E+03 u_lbc= -0.1966E+04 0.4460E+04 v_lbc= -0.5143E+04 0.3479E+04 z_lbc= 0.0000E+00 0.9761E+07 6: Step 10 of 720 mtime= 80 0 20 0 secs/step (sys) = 0.53 6: Step 20 of 720 mtime= 80 0 40 0 secs/step (sys) = 0.56 6: 6: Allocated 3d sech field CTMT_D(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field CTMT_D (ix= 32): 6: short_name = CTMT_D 6: long_name = CTMT D 6: units = percent 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field CTMT_T(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field CTMT_T (ix= 33): 6: short_name = CTMT_T 6: long_name = CTMT TN 6: units = K 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field CTMT_U(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field CTMT_U (ix= 34): 6: short_name = CTMT_U 6: long_name = CTMT UN 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field CTMT_V(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field CTMT_V (ix= 35): 6: short_name = CTMT_V 6: long_name = CTMT VN 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 2d sech field D_LBC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field D_LBC (ix= 31): 6: short_name = D_LBC 6: long_name = D_LBC 6: units = 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field T_LBC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field T_LBC (ix= 28): 6: short_name = T_LBC 6: long_name = T_LBC 6: units = 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field U_LBC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field U_LBC (ix= 29): 6: short_name = U_LBC 6: long_name = U_LBC 6: units = 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field V_LBC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field V_LBC (ix= 30): 6: short_name = V_LBC 6: long_name = V_LBC 6: units = 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field Z_LBC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field Z_LBC (ix= 27): 6: short_name = Z_LBC 6: long_name = Z_LBC 6: units = 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: Step 30 of 720 mtime= 80 1 0 0 secs/step (sys) = 0.53 6: 6: Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field ZG (ix= 24): 6: short_name = ZG 6: long_name = Geometric Height ZG 6: units = cm 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field WN(lon= 76,lat= 36,lev= 29) 6: 6: Initialized diagnostic secondary history field WN (ix= 4): 6: short_name = WN 6: long_name = NEUTRAL VERTICAL WIND (plus up) 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat lev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field UI_ExB (ix= 14): 6: short_name = UI_ExB 6: long_name = Zonal Ion Drift (ExB) 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field VI_ExB (ix= 15): 6: short_name = VI_ExB 6: long_name = Meridional Ion Drift (ExB) 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field WI_ExB (ix= 16): 6: short_name = WI_ExB 6: long_name = Vertical Ion Drift (ExB) 6: units = cm/s 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 2d sech field TEC(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field TEC (ix= 11): 6: short_name = TEC 6: long_name = Total Electron Content 6: units = 1/cm2 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field HMF2(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field HMF2 (ix= 19): 6: short_name = HMF2 6: long_name = Height of the F2 Layer 6: units = km 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field NMF2(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field NMF2 (ix= 20): 6: short_name = NMF2 6: long_name = Peak Density of the F2 Layer 6: units = 1/cm3 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 3d sech field SIGMA_PED(lon= 76,lat= 36,lev= 29) 6: 6: Initialized diagnostic secondary history field SIGMA_PED (ix= 17): 6: short_name = SIGMA_PED 6: long_name = Pedersen Conductivity 6: units = S/m 6: geo = T 6: mag = F 6: dimnames = lon lat lev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field SIGMA_HAL(lon= 76,lat= 36,lev= 29) 6: 6: Initialized diagnostic secondary history field SIGMA_HAL (ix= 18): 6: short_name = SIGMA_HAL 6: long_name = Hall Conductivity 6: units = S/m 6: geo = T 6: mag = F 6: dimnames = lon lat lev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29) 6: 6: Initialized diagnostic secondary history field QJOULE (ix= 21): 6: short_name = QJOULE 6: long_name = Joule Heating 6: units = erg/g/s 6: geo = T 6: mag = F 6: dimnames = lon lat lev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 2d sech field QJOULE_INTEG(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field QJOULE_INTEG (ix= 22): 6: short_name = QJOULE_INTEG 6: long_name = Height-integrated Joule Heating 6: units = erg/cm2/s 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29) 6: 6: Initialized diagnostic secondary history field DEN (ix= 7): 6: short_name = DEN 6: long_name = Total Density 6: units = g/cm3 6: geo = T 6: mag = F 6: dimnames = lon lat ilev 6: dimsizes = 76 36 29 6: ndims = 3 6: task0_only = F 6: 6: Allocated 2d sech field ALFA(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field ALFA (ix= 25): 6: short_name = ALFA 6: long_name = 2D ALFA 6: units = keV 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: 6: Allocated 2d sech field EFLUX(lon= 76,lat= 36) 6: 6: Initialized diagnostic secondary history field EFLUX (ix= 26): 6: short_name = EFLUX 6: long_name = 2D EFLUX 6: units = mW/m^2 6: geo = T 6: mag = F 6: dimnames = lon lat 6: dimsizes = 76 36 0 6: ndims = 2 6: task0_only = F 6: Step 40 of 720 mtime= 80 1 20 0 secs/step (sys) = 0.59 6: Step 50 of 720 mtime= 80 1 40 0 secs/step (sys) = 0.71 6: Step 60 of 720 mtime= 80 2 0 0 secs/step (sys) = 0.65 6: Step 70 of 720 mtime= 80 2 20 0 secs/step (sys) = 1.03 6: Step 80 of 720 mtime= 80 2 40 0 secs/step (sys) = 0.53 6: Step 90 of 720 mtime= 80 3 0 0 secs/step (sys) = 0.55 6: Step 100 of 720 mtime= 80 3 20 0 secs/step (sys) = 0.57 6: Step 110 of 720 mtime= 80 3 40 0 secs/step (sys) = 0.91 6: Step 120 of 720 mtime= 80 4 0 0 secs/step (sys) = 0.71 6: Step 130 of 720 mtime= 80 4 20 0 secs/step (sys) = 0.57 6: Step 140 of 720 mtime= 80 4 40 0 secs/step (sys) = 0.58 6: Step 150 of 720 mtime= 80 5 0 0 secs/step (sys) = 0.54 6: Step 160 of 720 mtime= 80 5 20 0 secs/step (sys) = 0.53 6: Step 170 of 720 mtime= 80 5 40 0 secs/step (sys) = 0.53 6: Step 180 of 720 mtime= 80 6 0 0 secs/step (sys) = 0.54 6: Step 190 of 720 mtime= 80 6 20 0 secs/step (sys) = 0.53 6: Step 200 of 720 mtime= 80 6 40 0 secs/step (sys) = 0.53 6: Step 210 of 720 mtime= 80 7 0 0 secs/step (sys) = 0.53 6: Step 220 of 720 mtime= 80 7 20 0 secs/step (sys) = 0.54 6: Step 230 of 720 mtime= 80 7 40 0 secs/step (sys) = 0.65 6: Step 240 of 720 mtime= 80 8 0 0 secs/step (sys) = 0.52 6: Step 250 of 720 mtime= 80 8 20 0 secs/step (sys) = 0.53 6: Step 260 of 720 mtime= 80 8 40 0 secs/step (sys) = 0.53 6: Step 270 of 720 mtime= 80 9 0 0 secs/step (sys) = 0.53 6: Step 280 of 720 mtime= 80 9 20 0 secs/step (sys) = 0.53 6: Step 290 of 720 mtime= 80 9 40 0 secs/step (sys) = 0.54 6: Step 300 of 720 mtime= 80 10 0 0 secs/step (sys) = 0.53 6: Step 310 of 720 mtime= 80 10 20 0 secs/step (sys) = 0.53 6: Step 320 of 720 mtime= 80 10 40 0 secs/step (sys) = 0.64 6: Step 330 of 720 mtime= 80 11 0 0 secs/step (sys) = 0.60 6: Step 340 of 720 mtime= 80 11 20 0 secs/step (sys) = 0.60 6: Step 350 of 720 mtime= 80 11 40 0 secs/step (sys) = 0.72 6: Step 360 of 720 mtime= 80 12 0 0 secs/step (sys) = 0.64 6: Step 370 of 720 mtime= 80 12 20 0 secs/step (sys) = 0.64 6: Step 380 of 720 mtime= 80 12 40 0 secs/step (sys) = 1.08 6: Step 390 of 720 mtime= 80 13 0 0 secs/step (sys) = 0.64 6: Step 400 of 720 mtime= 80 13 20 0 secs/step (sys) = 0.84 6: Step 410 of 720 mtime= 80 13 40 0 secs/step (sys) = 0.59 6: Step 420 of 720 mtime= 80 14 0 0 secs/step (sys) = 0.53 6: Step 430 of 720 mtime= 80 14 20 0 secs/step (sys) = 0.53 6: Step 440 of 720 mtime= 80 14 40 0 secs/step (sys) = 0.58 6: Step 450 of 720 mtime= 80 15 0 0 secs/step (sys) = 0.88 6: Step 460 of 720 mtime= 80 15 20 0 secs/step (sys) = 0.54 6: Step 470 of 720 mtime= 80 15 40 0 secs/step (sys) = 0.53 6: Step 480 of 720 mtime= 80 16 0 0 secs/step (sys) = 0.64 6: Step 490 of 720 mtime= 80 16 20 0 secs/step (sys) = 0.63 6: Step 500 of 720 mtime= 80 16 40 0 secs/step (sys) = 0.60 6: Step 510 of 720 mtime= 80 17 0 0 secs/step (sys) = 0.54 6: Step 520 of 720 mtime= 80 17 20 0 secs/step (sys) = 0.64 6: Step 530 of 720 mtime= 80 17 40 0 secs/step (sys) = 0.80 6: Step 540 of 720 mtime= 80 18 0 0 secs/step (sys) = 0.53 6: Step 550 of 720 mtime= 80 18 20 0 secs/step (sys) = 0.60 6: Step 560 of 720 mtime= 80 18 40 0 secs/step (sys) = 0.54 6: Step 570 of 720 mtime= 80 19 0 0 secs/step (sys) = 0.53 6: Step 580 of 720 mtime= 80 19 20 0 secs/step (sys) = 0.57 6: Step 590 of 720 mtime= 80 19 40 0 secs/step (sys) = 0.65 6: Step 600 of 720 mtime= 80 20 0 0 secs/step (sys) = 0.68 6: Step 610 of 720 mtime= 80 20 20 0 secs/step (sys) = 0.53 6: Step 620 of 720 mtime= 80 20 40 0 secs/step (sys) = 0.52 6: Step 630 of 720 mtime= 80 21 0 0 secs/step (sys) = 0.54 6: Step 640 of 720 mtime= 80 21 20 0 secs/step (sys) = 0.53 6: Step 650 of 720 mtime= 80 21 40 0 secs/step (sys) = 0.52 6: Step 660 of 720 mtime= 80 22 0 0 secs/step (sys) = 0.57 6: Step 670 of 720 mtime= 80 22 20 0 secs/step (sys) = 0.53 6: Step 680 of 720 mtime= 80 22 40 0 secs/step (sys) = 0.53 6: Step 690 of 720 mtime= 80 23 0 0 secs/step (sys) = 0.53 6: Step 700 of 720 mtime= 80 23 20 0 secs/step (sys) = 0.58 6: Step 710 of 720 mtime= 80 23 40 0 secs/step (sys) = 0.58 6: Advancing day (previous,present)= 80 2012 81 2012 sfeps= 0.1007E+01 6: Step 720 of 720 mtime= 81 0 0 0 secs/step (sys) = 0.72 6: 6: MPI run with ntask = 8 6: nstep= 720 step= 120 6: Model simulation time = 86400 secs 6: (minutes= 1440.00, hours= 24.00, days= 1.000000) 6: Cpu time for run = 90.04 6: 6: ------------------------------------------------------------------------ 6: TIMER (system_clock): 6: Elapsed run time = 485.23 (secs) 8.09 (mins) 0.13 (hrs) 6: 6: Elapsed init time = 2.05 secs, 0.001 hrs, 0.4% (includes source i/o) 6: Elapsed step time = 473.78 secs, 0.132 hrs, 97.6% 6: Elapsed prep time = 600.73 secs, 0.167 hrs, 123.8% 6: Elapsed dynamics = 245.33 secs, 0.068 hrs, 50.6% 6: Elapsed qrj = 7.72 secs, 0.002 hrs, 1.6% 6: Elapsed oplus = 57.01 secs, 0.016 hrs, 11.7% 6: Elapsed cmpminor = 48.51 secs, 0.013 hrs, 10.0% (n4s,n2d,no) 6: Elapsed cmpmajor = 17.92 secs, 0.005 hrs, 3.7% (o2, o) 6: Elapsed dt = 11.35 secs, 0.003 hrs, 2.3% 6: Elapsed duv = 30.20 secs, 0.008 hrs, 6.2% 6: Elapsed dynamo = 21.19 secs, 0.006 hrs, 4.4% 6: Elapsed i/o = 2.59 secs, 0.001 hrs, 0.5% 6: Elapsed Primary io = 0.57 secs, 0.000 hrs, 0.1% 6: Elapsed Secondary = 2.02 secs, 0.001 hrs, 0.4% 6: 6: Average secs/step = 0.66 6: Average mins/simulated day = 8.09 6: ------------------------------------------------------------------------ 6: 6: End execution of tiegcm1.94 at 04/07/13 11:08:25 6: NORMAL EXIT