
 ========================================================================
 Begin execution of tiegcm_trunk     at 12/22/15  142642
   Host    = kokanee
   System  = LINUX
   Logname = foster
 ========================================================================

 init_timer level=  1 rtc=F sys=T
 Current working directory (cwd) = /hao/aim/foster/tiegcm_test

 Reading namelist input data from /home/foster/tiegcm/tiegcm_trunk/scripts/tiegcm_res5.0_default.inp
 Completed successful read of namelist inputs.

 Input mkntask chose ntask_lon=  2 ntask_lat=  2 (ntask=  4)
 Input mkntask chose ntask_maglon=  2 ntask_maglat=  2 (ntask=  4)
 Input Using default joulefac =      1.50
 Input enforce_opfloor=  1
 Will use the Heelis potential model
 Note input Setting BY to 0 with HEELIS potential model.
 INPUT NOTE adding mandatory field ZMAG     to secondary history fields (field  25)

 ------------------------------------------------------------------------
 USER INPUT PARAMETERS
   label  = tiegcm res=5.0
     (optional text label for current run)
   High-lat electric potential model  potential_model = HEELIS
   gswm migrating diurnal file gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
   gswm migrating semi-diurnal file gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
   start_year = 2002 (starting calendar day)
   start_day  =   80 (starting calendar year)
   calendar_advance = 1 (model will be advanced in calendar time starting on this day)
   step    =  60 (model timestep (seconds))
   ntask_lon =  2 (number of mpi tasks in longitude dimension)
   ntask_lat =  2 (number of mpi tasks in latitude  dimension)
   total tasks = ntask_lon*ntask_lat =    4
   source  = /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
     (file or mss path containing source history)
   sour3 INPUT NOTE adding mandatory field ZMAG     to secondary history fields (field  25)

   output (primary history output files) =
     tiegcm.pcntr_mareqx_smin_001.nc,
   start (model start times) =
      80, 0, 0
   stop (model stop times) =
      81, 0, 0
   hist (primary history disk write frequencies) =
       1, 0, 0
   Maxmimum number of histories per primary file =  10
   secout (secondary history output files)=
     tiegcm.scntr_mareqx_smin_001.nc,
   secstart (secondary history start times) =
      80, 1, 0
   secstop (secondary history stop times) =
      81, 0, 0
   sechist (secondary history disk write frequencies) =
       0, 1, 0
   secflds (secondary history fields) =
     TN          UN          VN          O2          O1
     N2          NO          N4S         HE          NE
     TE          TI          TEC         O2P         OP
     OMEGA       POTEN       UI_ExB      VI_ExB      WI_ExB
     DEN         QJOULE      Z           ZG          ZMAG
   Maximum number of histories per secondary file =  24
   3
   dynamo =  1 (dynamo will be calculated)
   current_pg =  1 (Add current due to plasma pressure gradient and gravity to rhs)
   current_kq =  0 (Calculate height-integrated current density)
   eddy_dif =  0 (DOY-dependent eddy diffusion flag)
   tide (amplitudes and phases of semidiurnal tide) =
      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
   tide2 (amplitude and phase of diurnal tide) =
      0.0E+00  0.00
   aurora  =  1 (0/1 flag for aurora)
   colfac =     1.500 (collision factor)
   joulefac =     1.500 (joule heating factor)
   calc_helium =    1 (0/1 flag for helium)
 If any of the following are spval (  0.1000E+37), they will be calculated
 during the simulation on a per timestep basis
   power  =   0.1800E+02 (Hemispheric Power)
   ctpoten=   0.3000E+02 (Cross-cap potential)
   kp     =   0.1000E+37 (Kp index)
   bximf  =   0.1000E+37 (BX component of IMF)
   byimf  =   0.0000E+00 (BY component of IMF)
   bzi3 ------------------------------------------------------------------------
   swvel  =   0.1000E+37 (solar wind velocity)
   swden  =   0.1000E+37 (solar wind density)
   f107  =   0.7000E+02 (F10.7 solar flux)
   f107a =   0.7000E+02 (81-day ave F10.7 flux)
   al     =   0.1000E+37 (AL, lower auroral mag index)
 END USER INPUT PARAMETERS
 ------------------------------------------------------------------------

 tgcm dynamo= 1 -- calling apxparm start_year= 2002
 Time in apxparm =  0.270 (secs)

 ntask=  4 ntaski= 2 ntaskj= 2 Task Table
 j= -1 itask_table(,j)= -1 -1 -1 -1
 j=  0 itask_table(,j)= -1  0  1 -1
 j=  1 itask_table(,j)= -1  2  3 -1
 j=  2 itask_table(,j)= -1 -1 -1 -1

 mytid=  0 mytidi,j=  0  0 lat0,1=  1 18 (18) lon0,1=  1 38 (38) ncells= 684

 ntask=  4 ntask_maglon= 2 ntask_maglat= 2 Task Table
 j= -1 itask_table_mag(,j)= -1 -1 -1 -1 -1
 j=  0 itask_table_mag(,j)=  1  0  1  0 -1
 j=  1 itask_table_mag(,j)=  3  2  3  2 -1
 j=  2 itask_table_mag(,j)= -1 -1 -1 -1 -1

 mytid=  0 magtidi,j=  0  0 mlat0,1=  1 49 (49) mlon0,1=  1 41 (41) ncells=2009
 mp_distribute_geo nmagtaski=  2 tidcol=  0

 Task   0

 Subdomain on geographic grid
 tasks(  0)%mytid =  0
 tasks(  0)%mytidi=  0
 tasks(  0)%mytidj=  0
 tasks(  0)%nlats = 18
 tasks(  0)%nlons = 38
 tasks(  0)%lat0  =  1
 tasks(  0)%lat1  = 18
 tasks(  0)%lon0  =  1
 tasks(  0)%lon1  = 38
 Number of geo subdomain grid points =    684

 Subdomain on geomagnetic grid
 tasks(  0)%magtidi=  0
 tasks(  0)%magtidj=  0
 tasks(  0)%nmaglats = 49
 tasks(  0)%nmaglons = 41
 tasks(  0)%mlat0  =  1
 tasks(  0)%mlat1  = 49
 tasks(  0)%mlon0  =  1
 tasks(  0)%mlon1  = 41
 Number of mag subdomain grid points =   2009
 mp_exchange_tasks mxmaglat=  49 mxmaglon=  41
 Model version = tiegcm_trunk

 Set constants
   nlat= 36 nlon= 72 nlev= 28
   dz=  0.50
   dlat=  5.00 dlon=  5.00
   zbound (cm) =   0.963723E+07
   zmbot, zmtop =   -6.750   7.250 (bottom,top midpoint levels)
   zibot, zitop =   -7.000   7.000 (bottom,top interface levels)
   dt =    60.00 secs
   grav =     870.00
   freq_3m3 =   0.3506E-04  freq_semidi=  0.1454E-03
   dipmin =    0.170
   check_exp = F
   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
 init iyear= 2002 iday=   80
   gswm_mi_di_ncfile = /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
   gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
 hist_init nstep= 1440
 alloc_ar allocated module data
 Allocated gswm t,u,v,z (lon0lon1,lat0lat1)
 Allocated private gwm t,u,v,z (lon0lon1,lat0lat1,nmonth,nhour)
 alloc_pdyn allocate fmeq_in with mlev0,1=  -2  29
 Allocated 3d data for all fields on root task
   nlevp1*nlonp4*nlat*nf4d =  29* 76* 36* 30 =    2380320 words *8 =     19042560 bytes.
 allocdata all tasks allocate fzg nlevp1=  29 nlonp4=  76 nlat=  36
 init_lbc allocated subdomains tlbc, ulbc, vlbc
 init_lbc_nm allocated subdomains tlbc_nm, ulbc_nm, vlbc_nm
 init_lbc allocated globals tlbc_glb, ulbc_glb, vlbc_glb nlonp4= 76 nlat= 36
 init_lbc allocated globals tlbc_nm_glb, ulbc_nm_glb, vlbc_nm_glb nlonp4= 76 nlat= 36

 Model run initialization
   nstep      =         1440    (Number of time steps this run)
   iter       =       115200    (Initial iteration number)
   iyear      =   2002    (Beginning calendar year)
   iday       =     80    (Beginning calendar day)
   igswm_mi_di =      1    (If > 0, GSWM diurnal tidal database will be used.)
   igswm_mi_sdi=      1    (If > 0, GSWM semidiurnal tidal database will be used.)
   igswm_nm_di=      0    (If > 0, GSWM nonmigrating diurnal tidal database will be used.)
   igswm_nm_sdi=      0    (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.)

 This is an initial run
   start_year =   2002     (Starting year of initial run)
   start_day  =     80     (Starting day of initial run)
   start_mtime=   803   iday       =     80    (Beginning calendar day)

 Primary Histories
   nsource       =     1  (If > 0, a primary source history was provided)
   nseries_prim  =     1  (Number of primary time series)
   nhist_total   =     2  (Number of primary histories to be written)
   nfiles_prim   =     1  (Number of primary output files to be written)
   mxhist_prim   =    10  (Maximum number of primary histories per file)

 Secondary Histories
   nseries_sech  =     1  (Number of secondary time series)
   nsech_total   =    24  (Number of secondary histories to be written)
   nfiles_sech   =     1  (Number of secondary output files to be written)
   mxhist_sech   =    24  (Maximum number of secondary histories per file)
   nfsech        =    25  (Number of requested secondary history fields)
   secondary history field   1 TN
   secondary history field   2 UN
   secondary history field   3 VN
   secondary history field   4 O2
   secondary history field   5 O1
   secondar3   igswm_mi_di =      1    (If > 0, GSWM diurnal tidal database will be used.)
   secondary history field   7 NO
   secondary history field   8 N4S
   secondary history field   9 HE
   secondary history field  10 NE
   secondary history field  11 TE
   secondary history field  12 TI
   secondary history field  13 TEC
   secondary history field  14 O2P
   secondary history field  15 OP
   secondary history field  16 OMEGA
   secondary history field  17 POTEN
   secondary history field  18 UI_ExB
   secondary history field  19 VI_ExB
   secondary history field  20 WI_ExB
   secondary history field  21 DEN
   secondary history field  22 QJOULE
   secondary history field  23 Z
   secondary history field  24 ZG
   secondary history field  25 ZMAG

 -------------------------------------------------------------------------3   igswm_mi_sdi=      1    (If > 0, GSWM semidiurnal tidal database will be used.)
 Table of Available Diagnostic Fields
 Shortnames may be added to namelist SECFLDS

 Field   Shortname       Units           Levels  Caller          Longname
 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
    1    CO2_COOL        erg/g/s         lev     newton.F        CO2 Cooling
    2    NO_COOL         erg/g/s         lev     newton.F        NO Cooling
    3    DEN             g/cm3           ilev    dt.F            Total Density
    4    HEATING         erg/g/s         lev     dt.F            Total Heating
    5    HMF2            km              none    elden.F         HMF2 Height of the F2 Layer
    6    NMF2            1/cm3           none    elden.F         NMF2 Peak Density of the F2 Layer
    7    FOF2            MHz             none    elden.F         FOF2 Critical Frequency of the F2 Layer
    8    JE13D           A/m2            mlev    current.F       JE13D Eastward current density (3d)
    9    JE23D           A/m2            ml3   igswm_nm_di=      0    (If > 0, GSWM nonmigrating diurnal tidal database will be used.)
   10    JQR             A/m2            none    current.F       JQR Upward current density (2d)
   11    KQLAM           A/m             none    current.F       KQLAM Height-integrated current density (+north)
   12    KQPHI           A/m             none    current.F       KQPHI Height-integrated current density (+east)
   13    LAMDA_HAL       1/s             lev     lamdas.F        LAMDA_HAL Hall Ion Drag Coefficient
   14    LAMDA_PED       1/s             lev     lamdas.F        LAMDA_PED Pedersen Ion Drag Coefficient
   15    MU_M            g/cm/s          lev     cpktkm.F        MU_M Molecular Viscosity Coefficient
   16    QJOULE          erg/g/s         lev     qjoule.F        QJOULE Joule Heating
   17    SCHT            km              lev     addiag.F        SCHT Pressure Scale Height
   18    SIGMA_HAL       S/m             lev     lamdas.F        SIGMA_HAL Hall Conductivity
   19    SIGMA_PED       S/m             lev     lamdas.F      3   igswm_nm_sdi=      0    (If > 0, GSWM nonmigrating semidiurnal tidal database will be used.)
   20    TEC             1/cm2           none    elden.F         TEC Total Electron Content
   21    UI_ExB          cm/s            ilev    ionvel.F        UI Zonal Ion Drift (ExB)
   22    VI_ExB          cm/s            ilev    ionvel.F        VI Meridional Ion Drift (ExB)
   23    WI_ExB          cm/s            ilev    ionvel.F        WI Vertical Ion Drift (ExB)
   24    WN              cm/s            ilev    swdot.F         WN Neutral Vertical Wind (plus up)
   25    O_N2            none            lev     comp.F          O/N2 RATIO
   26    QJOULE_INTEG    erg/cm2/s       none    qjoule.F        Height-integrated Joule Heating
   27    BX                              none    oplus.F         BX/BMAG Normalized eastward component of magnetic field
   28    BY                              none    oplus.F         BY/BMAG Normalized northward component of magnetic field
   29    BZ                              none    oplus.F         BZ/BMAG Normalized upward component of m3
   30    BMAG            Gauss           none    oplus.F         BMAG Magnetic field magnitude
   31    EX              V/m             ilev    pdynamo.F       EX Zonal component of electric field
   32    EY              V/m             ilev    pdynamo.F       EY Meridional component of electric field
   33    EZ              V/m             ilev    pdynamo.F       EZ Vertical component of electric field
   34    ED1             V/m             imlev   pdynamo.F       ED1 Magnetic eastward component of electric field
   35    ED2             V/m             imlev   pdynamo.F       ED2 Magnetic downward (equatorward) component of electric field
   36    PHIM2D          V               none    pdynamo.F       PHIM2D 2d Electric Potential on magnetic grid
   37    N2              mmr             lev     comp.F          N2 Molecular Nitrogen
   38    ZGMID           cm              lev     addiag.F        ZGMID Geometric Height at midpoints
   39    CUSP            erg/cm2/s       none    dynamics.F3 This is an initial run
   40    DRIZZLE         erg/cm2/s       none    dynamics.F      DRIZZLE (drzl2d*ed)
   41    ALFA            keV             none    dynamics.F      ALFA
   42    NFLUX           #/cm2/s         none    dynamics.F      NFLUX
   43    EFLUX           erg/cm2/s       none    dynamics.F      EFLUX
 ------------------------------------------------------------------------------------------------


 ------------------------------------------------------------------------
 Getfile remote=/hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
 Getfile Found file /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
 ------------------------------------------------------------------------

 Acquired source history file /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
   (disk file is /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc)
 Reading source history from diskfile /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
 nc_rdhist seeking   80   0   0 found   80   0   0  n=  1
 Note nc_rdhist unused variable calendar_advance
 Note nc_rdhist unused variable write_date
 Note nc_rdhist unused variable crit1
 Note nc_rdhist unused variable crit2
 Note nc_rdhist unused variable mag
 Read field TN               3d subdomain min,max=  0.1517E+03  0.7856E+03
 Read field UN               3d subdomain min,max= -0.8738E+04  0.1170E+05
 Read field VN               3d subdomain min,max= -0.7674E+04  0.1133E+05
 Read field O2               3d subdomain min,max=  0.9179E-04  0.2299E+00
 Read field O1               3d subdomain min,max=  0.3728E-02  0.9923E+00
 Read field N4S              3d subdomain min,max=  0.1000E-11  0.1567E-01
 Read field NO               3d subdomain min,max=  0.1675E-06  0.2971E-03
 Read field OP               3d subdomain min,max=  0.0000E+00  0.1024E+07
 Read field N2D              3d subdomain min,max=  0.0000E+00  0.4532E-03
 Read field TI               3d subdomain min,max=  0.1517E+03  0.1535E+04
 Read field TE               3d subdomain min,max=  0.1517E+03  0.3281E+04
 Read field NE               3d subdomain min,max=  0.1177E+04  0.1018E+07
 Read field O2P              3d subdomain min,max=  0.0000E+00  0.7850E+05
 Read field OMEGA            3d subdomain min,max= -0.4661E-04  0.4114E-04
 Read field Z                3d subdomain min,max=  0.9620E+07  0.5084E+08
 Read field POTEN            3d subdomain min,max= -0.1469E+05  0.5943E+03
 Read field TN_NM            3d subdomain min,max=  0.1517E+03  0.7856E+03
 Read field UN_NM            3d subdomain min,max= -0.8739E+04  0.1172E+05
 Read field VN_NM            3d subdomain min,max= -0.7709E+04  0.1131E+05
 Read field O2_NM            3d subdomain min,max=  0.9172E-04  0.2299E+00
 Read field O1_NM            3d subdomain min,max=  0.3728E-02  0.9923E+00
 Read field N4S_NM           3d subdomain min,max=  0.1000E-11  0.1567E-01
 Read field NO_NM            3d subdomain min,max=  0.1675E-06  0.2970E-03
 Read field OP_NM            3d subdomain min,max=  0.0000E+00  0.1023E+07
 Read LBC from source history i= 89 sh%lbc=   -7.00

 ------------------------------------------------------------------------
 Read TGCM PRIMARY HISTORY (source history)
 Diskfile /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
   label         = tiegcm mareqx smin control run
   model_name    = tiegcm
   model_version = tiegcm1.95
   create_date= 07/14/14 130928
   write_date =
   logname    = foster
   host       = ys6353
   system     = LINUX
   run_type   =
   source_file  =
   output_file  =
   source_mtime =   80   0   0
   initial_year = 2002
   initial_day  =   80
   initial_mtime=   80   0   0
   type       = primary
   ihist      =   1 (nth history on history file)
   delhmins=    0 (delta minutes between histories)
   calendar year,day = 2002, 60
     (model IS being advanced in calendar time)
   modeltime =  80, 0, 0, 0 (model time day,hour,minute,seconds)
   time    =
   ut      =  0.00 (ut hours)
   step    =  120 (time step in seconds)
   iter    =    57600 (number of steps from 0,0,0)
   nlat    =   36 (number of latitudes)
   nlon    =   72 (number of longitudes)
   nlev    =   29 (number of levels)
   zmtop   =   7.2502 Read LBC from source history i= 89 sh%lbc=   -7.00
   zmbot   =  -6.750 (bottom midpoint level)
   zitop   =   7.000 (top interface level)
   zibot   =  -7.000 (bottom interface level)
   dtide   =  0.0E+00   0.0 (amp/phase of diurnal tide)
   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
     (amp/phase of semi-diurnal tide)
   f107d   =   0.7000E+02 (daily solar flux)
   f107a   =   0.7000E+02 (average solar flux)
   hpower  =   0.1800E+02 (Gw)
   ctpoten =   0.3000E+02 (Volts)
   kp      =   0.1000E+37 ()
   byimf   =   0.0000E+00
   bzimf   =   0.1000E+37
   swvel   =   0.1000E+37
   swden   =   0.1000E+37
   al      =   0.1000E+37
   e1,e2   =   0.1595E+01  0.2980E+01 (ergs/cm2/s)
   alfac,alfad  =   0.1000E+00  0.5000E+00 (keV)
   ec,ed =   0.7212E-01  0.1200E-01 (ergs/cm2/s)
   colfac    =   0.15E+01
   joulefac  =   0.15E+01
   p0        =   0.50E-06
   p0_model=   0.50E-03
   grav    =   0.87E+03
   nflds   =  24 (number of model fields)
   gswm_mi_di_ncfile  = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc
   gswm_mi_sdi_nc1 Read LBC from source history i= 89 sh%lbc=   -7.00
   gswm_nm_di_ncfile  = [none]
   gswm_nm_sdi_ncfile = [none]
   see_ncfile   = [none]
   gpi_ncfile   = [none]
   ncep_ncfile  = [none]
   imf_ncfile   = [none]
   saber_ncfile = [none]
   tidi_ncfile  = [none]
   tuv_lbc_intop=  0 (if 1, then lbc of t,u,v are stored in top k slot (old histories))
   LBC =    -7.00 (lower boundary interface level)
   ntask_mpi    =  16 (number of MPI tasks)
   coupled_cmit =   0 (1 if coupled with CISM/CMIT, 0 otherwise)
   There are  24 fields on this history, as follows
   TN        UN        VN        O2        O1        N4S       NO        OP
   N2D       TI        TE        NE        O2P       OMEGA     Z         POTEN
   TN_NM     UN_NM     VN_NM     O2_NM     O1_NM     N4S_NM    NO_NM     OP_NM
 ------------------------------------------------------------------------

 readsource Argon apparently not read from source history. Will init AR and AR_NM to ar_glb
 readsource Helium apparently not read from source history. Will init HE and HE_NM to pshelb=  0.1154E-05

 Enter advance iter=    115200 nstep=      1440

 Starting primary history time series  1 at model time   80   0   0   0
 Created netcdf file tiegcm.pcntr_mareqx_smin_001.nc ncid=       7
 Copied history structure at modeltime   80   0   0
 output_hist copied source history structure sh to history structure h (nhist=  1)

 ------------------------------------------------------------------------
 Write TGCM PRIMARY HISTORY
 Diskfile tiegcm.pcntr_mareqx_smin_001.nc
   label         = tiegcm mareqx smin control run
   model_name    = tiegcm
   model_version = tiegcm1.95
   create_date= 12/22/15 142647
   write_date =
   logname    = foster
   host       = ys6353
   system     = LINUX
   run_type   =
   source_file  =
   output_file  =
   source_mtime =   80   0   0
   initial_year = 2002
   initial_day  =   80
   initial_mtime=   80   0   0
   type       = primary
   ihist      =   1 (nth history on history file)
   delhmins=    0 (delta minutes between histories)
   calendar year,day = 2002, 80
     (model IS being advanced in calendar time)
   modeltime =  80, 0, 0, 0 (model time day,hour,minute,seconds)
   time    =
   ut      =  0.00 (ut hours)
   step    =  120 (time step in seconds)
   iter    =    57600 (number of steps from 0,0,0)
   nlat    =   36 (number of latitudes)
   nlon    =   72 (number of longitudes)
   nlev    =   29 (number of levels)
   zmtop   =   7.250 (top midpoint level)
   zmbot   =  -6.750 (bottom midpoint level)
   zitop   =   7.000 (top interface level)
   zibot   =  -7.000 (bottom interface level)
   dtide   =  0.0E+00   0.0 (amp/phase of diurnal tide)
   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
     (amp/phase of semi-diurnal tide)
   f107d   =   0.7000E+02 (daily solar flux)
   f107a   =   0.7000E+02 (average solar flux)
   hpower  =   0.1800E+02 (Gw)
   ctpoten =   0.3000E+02 (Volts)
   kp      =   0.1000E+37 ()
   byimf   =   0.0000E+00
   bzimf   =   0.1000E+37
   swvel   =   0.1000E+37
   swden   =   0.1000E+37
   al      =   0.1000E+37
   e1,e2   =   0.1595E+01  0.2980E+01 (ergs/cm2/s)
   alfac,alfad  =   0.1000E+00  0.5000E+00 (keV)
   ec,ed =   0.7212E-01  0.1200E-01 (ergs/cm2/s)
   colfac    =   0.15E+01
   joulefac  =   0.15E+01
   p0        =   0.50E-06
   p0_model=   0.50E-03
   grav    =   0.87E+03
   nflds   =  24 (number of model fields)
   gswm_mi_di_ncfile  = /glade/p/hao/tgcm/data/gswm_diurn_5.0d_99km.nc
   gswm_mi_sdi_ncfile = /glade/p/hao/tgcm/data/gswm_semi_5.0d_99km.nc
   gswm_nm_di_ncfile  = [none]
   gswm_nm_sdi_ncfile = [none]
   see_ncfile   = [none]
   gpi_ncfile   = [none]
   ncep_ncfile  = [none]
   imf_ncfile   = [none]
   saber_ncfile = [none]
   tidi_ncfile  = [none]
   tuv_lbc_intop=  0 (if 1, then lbc of t,u,v are stored in top k slot (old histories))
   LBC =    -7.00 (lower boundary interface level)
   ntask_mpi    =  16 (number of MPI tasks)
   coupled_cmit =   0 (1 if coupled with CISM/CMIT, 0 otherwise)
   There are  24 fields on this history, as follows
   TN        UN        VN        O2        O1        N4S       NO        OP
   N2D       TI        TE        NE        O2P       OMEGA     Z         POTEN
   TN_NM     UN_NM     VN_NM     O2_NM     O1_NM     N4S_NM    NO_NM     OP_NM
 ------------------------------------------------------------------------

 Wrote primary   history  80, 0, 0 to tiegcm.pcntr_mareqx_smin_001.nc (   1 of    2)

 ------------------------------------------------------------------------
 Getfile remote=/hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
 Getfile Found file /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
 ------------------------------------------------------------------------


 ------------------------------------------------------------------------
 Reading GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
 Completed read from GSWM data file /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc

 ------------------------------------------------------------------------

 ------------------------------------------------------------------------
 Getfile remote=/hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
 Getfile Found file /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
 ------------------------------------------------------------------------


 ------------------------------------------------------------------------
 Reading GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
 Completed read from GSWM data file /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc

 ------------------------------------------------------------------------

 aurora_cons
   cusp    alfac=   0.100 ec=   0.072 fc=  0.2251E+09
   drizzle alfad=   0.500 ed=   0.012 fd=  0.7491E+07
   auroral radius = max of rhp,rcp=    19.999    17.905
   roth, rote (MLT) =     0.448    -0.072
   1/e-widths = h1,h2=     2.350     3.505
   energy flux = e1,e2=     1.595     2.980
   add_sproton = F

 mpitime_init Completed initialization of mpi timing
 Step     10 of   1440 mtime= 80  0 10  0 secs/step (sys) =  0.15
 Step     20 of   1440 mtime= 80  0 20  0 secs/step (sys) =  0.15
 Step     30 of   1440 mtime= 80  0 30  0 secs/step (sys) =  0.15
 Step     40 of   1440 mtime= 80  0 40  0 secs/step (sys) =  0.15
 Step     50 of   1440 mtime= 80  0 50  0 secs/step (sys) =  0.15
 Step     60 of   1440 mtime= 80  1  0  0 secs/step (sys) =  0.15

 Allocated 3d sech field ZG(lon= 76,lat= 36,ilev= 29)

 Initialized diagnostic secondary history field ZG (ix= 24)
   short_name = ZG
   long_name  = Geometric Height ZG
   units      = cm
   geo        = T
   mag        = F
   dimnames   = lon     lat     ilev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field UI_ExB(lon= 76,lat= 36,ilev= 29)

 Initialized diagnostic secondary history field UI_ExB (ix= 18)
   short_name = UI_ExB
   long_name  = UI Zonal Ion Drift (ExB)
   units      = cm/s
   geo        = T
   mag        = F
   dimnames   = lon     lat     ilev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field VI_ExB(lon= 76,lat= 36,ilev= 29)

 Initialized diagnostic secondary history field VI_ExB (ix= 19)
   short_name = VI_ExB
   long_name  = VI Meridional Ion Drift (ExB)
   units      = cm/s
   geo        = T
   mag        = F
   dimnames   = lon     lat     ilev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field WI_ExB(lon= 76,lat= 36,ilev= 29)

 Initialized diagnostic secondary history field WI_ExB (ix= 20)
   short_name = WI_ExB
   long_name  = WI Vertical Ion Drift (ExB)
   units      = cm/s
   geo        = T
   mag        = F
   dimnames   = lon     lat     ilev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 2d sech field TEC(lon= 76,lat= 36)

 Initialized diagnostic secondary history field TEC (ix= 13)
   short_name = TEC
   long_name  = TEC Total Electron Content
   units      = 1/cm2
   geo        = T
   mag        = F
   dimnames   = lon     lat
   dimsizes   =   76  36   0
   ndims      =  2
   task0_only =     F

 Allocated 3d sech field QJOULE(lon= 76,lat= 36,lev= 29)

 Initialized diagnostic secondary history field QJOULE (ix= 22)
   short_name = QJOULE
   long_name  = QJOULE Joule Heating
   units      = erg/g/s
   geo        = T
   mag        = F
   dimnames   = lon     lat     lev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field DEN(lon= 76,lat= 36,ilev= 29)

 Initialized diagnostic secondary history field DEN (ix= 21)
   short_name = DEN
   long_name  = Total Density
   units      = g/cm3
   geo        = T
   mag        = F
   dimnames   = lon     lat     ilev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field N2(lon= 76,lat= 36,lev= 29)

 Initialized diagnostic secondary history field N2 (ix=  6)
   short_name = N2
   long_name  = N2 Molecular Nitrogen
   units      = mmr
   geo        = T
   mag        = F
   dimnames   = lon     lat     lev
   dimsizes   =   76  36  29
   ndims      =  3
   task0_only =     F

 Allocated 3d sech field ZMAG(mlon= 81,mlat= 97,imlev= 32)

 Initialized diagnostic secondary history field ZMAG (ix= 25)
   short_name = ZMAG
   long_name  = ZMAG from pdynamo
   units      = km
   geo        = F
   mag        = T
   dimnames   = mlon    mlat    imlev
   dimsizes   =   81  97  32
   ndims      =  3
   task0_only =     F

 Starting secondary history time series  1 at model time   80   1   0   0
 Created netcdf file tiegcm.scntr_mareqx_smin_001.nc ncid=       7

 ------------------------------------------------------------------------
 Write TGCM SECONDARY HISTORY
 Diskfile tiegcm.scntr_mareqx_smin_001.nc
   label         = tiegcm res=5.0
   model_name    = tiegcm
   model_version = tiegcm_trunk
   create_date= 12/22/15 142657
   write_date = 12/22/15 142657
   logname    = foster
   host       = kokanee
   system     = LINUX
   run_type   = initial
   source_file  = /hao/aim/tgcm/data/tiegcm1.95/TGCM.tiegcm1.95.pcntr_mareqx_smin.nc
   output_file  = tiegcm.scntr_mareqx_smin_001.nc
   source_mtime =   80   0   0
   initial_year = 2002
   initial_day  =   80
   initial_mtime=   80   0   0
   type       = secondary
   ihist      =   1 (nth history on history file)
   delhmins=   60 (delta minutes between histories)
   calendar year,day = 2002, 80
     (model IS being advanced in calendar time)
   modeltime =  80, 1, 0, 0 (model time day,hour,minute,seconds)
   time    =      60.00 (minutes in current day)
   ut      =  1.00 (ut hours)
   step    =   60 (time step in seconds)
   iter    =   115260 (number of steps from 0,0,0)
   nlat    =   36 (number of latitudes)
   nlon    =   72 (number of longitudes)
   nlev    =   29 (number of levels)
   zmtop   =   7.250 (top midpoint level)
   zmbot   =  -6.750 (bottom midpoint level)
   zitop   =   7.000 (top interface level)
   zibot   =  -7.000 (bottom interface level)
   dtide   =  0.0E+00   0.0 (amp/phase of diurnal tide)
   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
     (amp/phase of semi-diurnal tide)
   f107d   =   0.7000E+02 (daily solar flux)
   f107a   =   0.7000E+02 (average solar flux)
   hpower  =   0.1800E+02 (Gw)
   ctpoten =   0.3000E+02 (Volts)
   kp      =   0.1000E+37 ()
   byimf   =   0.0000E+00
   bzimf   =   0.1000E+37
   swvel   =   0.1000E+37
   swden   =   0.1000E+37
   al      =   0.1000E+37
   e1,e2   =   0.1595E+01  0.2980E+01 (ergs/cm2/s)
   alfac,alfad  =   0.1000E+00  0.5000E+00 (keV)
   ec,ed =   0.7212E-01  0.1200E-01 (ergs/cm2/s)
   colfac    =   0.15E+01
   joulefac  =   0.15E+01
   p0        =   0.50E-06
   p0_model=   0.50E-03
   grav    =   0.87E+03
   nflds   =   0 (number of model fields)
   gswm_mi_di_ncfile  = /hao/aim/tgcm/data/gswm_diurn_5.0d_99km.nc
   gswm_mi_sdi_ncfile = /hao/aim/tgcm/data/gswm_semi_5.0d_99km.nc
   gswm_nm_di_ncfile  = [none]
   gswm_nm_sdi_ncfile = [none]
   see_ncfile   = [none]
   gpi_ncfile   = [none]
   ncep_ncfile  = [none]
   imf_ncfile   = [none]
   saber_ncfile = [none]
   tidi_ncfile  = [none]
   tuv_lbc_intop=  0 (if 1, then lbc of t,u,v are stored in top k slot (old histories))
   LBC =    -7.00 (lower boundary interface level)
   ntask_mpi    =   4 (number of MPI tasks)
   coupled_cmit =   0 (1 if coupled with CISM/CMIT, 0 otherwise)
 ------------------------------------------------------------------------

 Wrote secondary history  80, 1, 0 to tiegcm.scntr_mareqx_smin_001.nc (   1 of   24)
 Step     70 of   1440 mtime= 80  1 10  0 secs/step (sys) =  0.15
 Step     80 of   1440 mtime= 80  1 20  0 secs/step (sys) =  0.15
 Step     90 of   1440 mtime= 80  1 30  0 secs/step (sys) =  0.15
 Step    100 of   1440 mtime= 80  1 40  0 secs/step (sys) =  0.15
 Step    110 of   1440 mtime= 80  1 50  0 secs/step (sys) =  0.15
 Step    120 of   1440 mtime= 80  2  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 2, 0 to tiegcm.scntr_mareqx_smin_001.nc (   2 of   24)
 Step    130 of   1440 mtime= 80  2 10  0 secs/step (sys) =  0.15
 Step    140 of   1440 mtime= 80  2 20  0 secs/step (sys) =  0.15
 Step    150 of   1440 mtime= 80  2 30  0 secs/step (sys) =  0.15
 Step    160 of   1440 mtime= 80  2 40  0 secs/step (sys) =  0.15
 Step    170 of   1440 mtime= 80  2 50  0 secs/step (sys) =  0.15
 Step    180 of   1440 mtime= 80  3  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 3, 0 to tiegcm.scntr_mareqx_smin_001.nc (   3 of   24)
 Step    190 of   1440 mtime= 80  3 10  0 secs/step (sys) =  0.15
 Step    200 of   1440 mtime= 80  3 20  0 secs/step (sys) =  0.15
 Step    210 of   1440 mtime= 80  3 30  0 secs/step (sys) =  0.15
 Step    220 of   1440 mtime= 80  3 40  0 secs/step (sys) =  0.15
 Step    230 of   1440 mtime= 80  3 50  0 secs/step (sys) =  0.15
 Step    240 of   1440 mtime= 80  4  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 4, 0 to tiegcm.scntr_mareqx_smin_001.nc (   4 of   24)
 Step    250 of   1440 mtime= 80  4 10  0 secs/step (sys) =  0.15
 Step    260 of   1440 mtime= 80  4 20  0 secs/step (sys) =  0.15
 Step    270 of   1440 mtime= 80  4 30  0 secs/step (sys) =  0.15
 Step    280 of   1440 mtime= 80  4 40  0 secs/step (sys) =  0.15
 Step    290 of   1440 mtime= 80  4 50  0 secs/step (sys) =  0.15
 Step    300 of   1440 mtime= 80  5  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 5, 0 to tiegcm.scntr_mareqx_smin_001.nc (   5 of   24)
 Step    310 of   1440 mtime= 80  5 10  0 secs/step (sys) =  0.15
 Step    320 of   1440 mtime= 80  5 20  0 secs/step (sys) =  0.15
 Step    330 of   1440 mtime= 80  5 30  0 secs/step (sys) =  0.15
 Step    340 of   1440 mtime= 80  5 40  0 secs/step (sys) =  0.15
 Step    350 of   1440 mtime= 80  5 50  0 secs/step (sys) =  0.15
 Step    360 of   1440 mtime= 80  6  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 6, 0 to tiegcm.scntr_mareqx_smin_001.nc (   6 of   24)
 Step    370 of   1440 mtime= 80  6 10  0 secs/step (sys) =  0.15
 Step    380 of   1440 mtime= 80  6 20  0 secs/step (sys) =  0.15
 Step    390 of   1440 mtime= 80  6 30  0 secs/step (sys) =  0.15
 Step    400 of   1440 mtime= 80  6 40  0 secs/step (sys) =  0.15
 Step    410 of   1440 mtime= 80  6 50  0 secs/step (sys) =  0.15
 Step    420 of   1440 mtime= 80  7  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 7, 0 to tiegcm.scntr_mareqx_smin_001.nc (   7 of   24)
 Step    430 of   1440 mtime= 80  7 10  0 secs/step (sys) =  0.15
 Step    440 of   1440 mtime= 80  7 20  0 secs/step (sys) =  0.15
 Step    450 of   1440 mtime= 80  7 30  0 secs/step (sys) =  0.15
 Step    460 of   1440 mtime= 80  7 40  0 secs/step (sys) =  0.15
 Step    470 of   1440 mtime= 80  7 50  0 secs/step (sys) =  0.15
 Step    480 of   1440 mtime= 80  8  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 8, 0 to tiegcm.scntr_mareqx_smin_001.nc (   8 of   24)
 Step    490 of   1440 mtime= 80  8 10  0 secs/step (sys) =  0.15
 Step    500 of   1440 mtime= 80  8 20  0 secs/step (sys) =  0.15
 Step    510 of   1440 mtime= 80  8 30  0 secs/step (sys) =  0.15
 Step    520 of   1440 mtime= 80  8 40  0 secs/step (sys) =  0.15
 Step    530 of   1440 mtime= 80  8 50  0 secs/step (sys) =  0.15
 Step    540 of   1440 mtime= 80  9  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80, 9, 0 to tiegcm.scntr_mareqx_smin_001.nc (   9 of   24)
 Step    550 of   1440 mtime= 80  9 10  0 secs/step (sys) =  0.15
 Step    560 of   1440 mtime= 80  9 20  0 secs/step (sys) =  0.15
 Step    570 of   1440 mtime= 80  9 30  0 secs/step (sys) =  0.15
 Step    580 of   1440 mtime= 80  9 40  0 secs/step (sys) =  0.15
 Step    590 of   1440 mtime= 80  9 50  0 secs/step (sys) =  0.15
 Step    600 of   1440 mtime= 80 10  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,10, 0 to tiegcm.scntr_mareqx_smin_001.nc (  10 of   24)
 Step    610 of   1440 mtime= 80 10 10  0 secs/step (sys) =  0.15
 Step    620 of   1440 mtime= 80 10 20  0 secs/step (sys) =  0.15
 Step    630 of   1440 mtime= 80 10 30  0 secs/step (sys) =  0.15
 Step    640 of   1440 mtime= 80 10 40  0 secs/step (sys) =  0.15
 Step    650 of   1440 mtime= 80 10 50  0 secs/step (sys) =  0.15
 Step    660 of   1440 mtime= 80 11  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,11, 0 to tiegcm.scntr_mareqx_smin_001.nc (  11 of   24)
 Step    670 of   1440 mtime= 80 11 10  0 secs/step (sys) =  0.15
 Step    680 of   1440 mtime= 80 11 20  0 secs/step (sys) =  0.15
 Step    690 of   1440 mtime= 80 11 30  0 secs/step (sys) =  0.15
 Step    700 of   1440 mtime= 80 11 40  0 secs/step (sys) =  0.15
 Step    710 of   1440 mtime= 80 11 50  0 secs/step (sys) =  0.15
 Step    720 of   1440 mtime= 80 12  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,12, 0 to tiegcm.scntr_mareqx_smin_001.nc (  12 of   24)
 Step    730 of   1440 mtime= 80 12 10  0 secs/step (sys) =  0.15
 Step    740 of   1440 mtime= 80 12 20  0 secs/step (sys) =  0.15
 Step    750 of   1440 mtime= 80 12 30  0 secs/step (sys) =  0.15
 Step    760 of   1440 mtime= 80 12 40  0 secs/step (sys) =  0.15
 Step    770 of   1440 mtime= 80 12 50  0 secs/step (sys) =  0.15
 Step    780 of   1440 mtime= 80 13  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,13, 0 to tiegcm.scntr_mareqx_smin_001.nc (  13 of   24)
 Step    790 of   1440 mtime= 80 13 10  0 secs/step (sys) =  0.15
 Step    800 of   1440 mtime= 80 13 20  0 secs/step (sys) =  0.15
 Step    810 of   1440 mtime= 80 13 30  0 secs/step (sys) =  0.15
 Step    820 of   1440 mtime= 80 13 40  0 secs/step (sys) =  0.15
 Step    830 of   1440 mtime= 80 13 50  0 secs/step (sys) =  0.15
 Step    840 of   1440 mtime= 80 14  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,14, 0 to tiegcm.scntr_mareqx_smin_001.nc (  14 of   24)
 Step    850 of   1440 mtime= 80 14 10  0 secs/step (sys) =  0.15
 Step    860 of   1440 mtime= 80 14 20  0 secs/step (sys) =  0.15
 Step    870 of   1440 mtime= 80 14 30  0 secs/step (sys) =  0.15
 Step    880 of   1440 mtime= 80 14 40  0 secs/step (sys) =  0.15
 Step    890 of   1440 mtime= 80 14 50  0 secs/step (sys) =  0.15
 Step    900 of   1440 mtime= 80 15  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,15, 0 to tiegcm.scntr_mareqx_smin_001.nc (  15 of   24)
 Step    910 of   1440 mtime= 80 15 10  0 secs/step (sys) =  0.15
 Step    920 of   1440 mtime= 80 15 20  0 secs/step (sys) =  0.15
 Step    930 of   1440 mtime= 80 15 30  0 secs/step (sys) =  0.15
 Step    940 of   1440 mtime= 80 15 40  0 secs/step (sys) =  0.15
 Step    950 of   1440 mtime= 80 15 50  0 secs/step (sys) =  0.15
 Step    960 of   1440 mtime= 80 16  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,16, 0 to tiegcm.scntr_mareqx_smin_001.nc (  16 of   24)
 Step    970 of   1440 mtime= 80 16 10  0 secs/step (sys) =  0.15
 Step    980 of   1440 mtime= 80 16 20  0 secs/step (sys) =  0.15
 Step    990 of   1440 mtime= 80 16 30  0 secs/step (sys) =  0.15
 Step   1000 of   1440 mtime= 80 16 40  0 secs/step (sys) =  0.15
 Step   1010 of   1440 mtime= 80 16 50  0 secs/step (sys) =  0.15
 Step   1020 of   1440 mtime= 80 17  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,17, 0 to tiegcm.scntr_mareqx_smin_001.nc (  17 of   24)
 Step   1030 of   1440 mtime= 80 17 10  0 secs/step (sys) =  0.15
 Step   1040 of   1440 mtime= 80 17 20  0 secs/step (sys) =  0.15
 Step   1050 of   1440 mtime= 80 17 30  0 secs/step (sys) =  0.15
 Step   1060 of   1440 mtime= 80 17 40  0 secs/step (sys) =  0.15
 Step   1070 of   1440 mtime= 80 17 50  0 secs/step (sys) =  0.15
 Step   1080 of   1440 mtime= 80 18  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,18, 0 to tiegcm.scntr_mareqx_smin_001.nc (  18 of   24)
 Step   1090 of   1440 mtime= 80 18 10  0 secs/step (sys) =  0.15
 Step   1100 of   1440 mtime= 80 18 20  0 secs/step (sys) =  0.15
 Step   1110 of   1440 mtime= 80 18 30  0 secs/step (sys) =  0.15
 Step   1120 of   1440 mtime= 80 18 40  0 secs/step (sys) =  0.15
 Step   1130 of   1440 mtime= 80 18 50  0 secs/step (sys) =  0.15
 Step   1140 of   1440 mtime= 80 19  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,19, 0 to tiegcm.scntr_mareqx_smin_001.nc (  19 of   24)
 Step   1150 of   1440 mtime= 80 19 10  0 secs/step (sys) =  0.15
 Step   1160 of   1440 mtime= 80 19 20  0 secs/step (sys) =  0.15
 Step   1170 of   1440 mtime= 80 19 30  0 secs/step (sys) =  0.15
 Step   1180 of   1440 mtime= 80 19 40  0 secs/step (sys) =  0.15
 Step   1190 of   1440 mtime= 80 19 50  0 secs/step (sys) =  0.16
 Step   1200 of   1440 mtime= 80 20  0  0 secs/step (sys) =  0.16
 Wrote secondary history  80,20, 0 to tiegcm.scntr_mareqx_smin_001.nc (  20 of   24)
 Step   1210 of   1440 mtime= 80 20 10  0 secs/step (sys) =  0.15
 Step   1220 of   1440 mtime= 80 20 20  0 secs/step (sys) =  0.15
 Step   1230 of   1440 mtime= 80 20 30  0 secs/step (sys) =  0.15
 Step   1240 of   1440 mtime= 80 20 40  0 secs/step (sys) =  0.15
 Step   1250 of   1440 mtime= 80 20 50  0 secs/step (sys) =  0.15
 Step   1260 of   1440 mtime= 80 21  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,21, 0 to tiegcm.scntr_mareqx_smin_001.nc (  21 of   24)
 Step   1270 of   1440 mtime= 80 21 10  0 secs/step (sys) =  0.15
 Step   1280 of   1440 mtime= 80 21 20  0 secs/step (sys) =  0.15
 Step   1290 of   1440 mtime= 80 21 30  0 secs/step (sys) =  0.15
 Step   1300 of   1440 mtime= 80 21 40  0 secs/step (sys) =  0.15
 Step   1310 of   1440 mtime= 80 21 50  0 secs/step (sys) =  0.15
 Step   1320 of   1440 mtime= 80 22  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,22, 0 to tiegcm.scntr_mareqx_smin_001.nc (  22 of   24)
 Step   1330 of   1440 mtime= 80 22 10  0 secs/step (sys) =  0.15
 Step   1340 of   1440 mtime= 80 22 20  0 secs/step (sys) =  0.15
 Step   1350 of   1440 mtime= 80 22 30  0 secs/step (sys) =  0.15
 Step   1360 of   1440 mtime= 80 22 40  0 secs/step (sys) =  0.15
 Step   1370 of   1440 mtime= 80 22 50  0 secs/step (sys) =  0.15
 Step   1380 of   1440 mtime= 80 23  0  0 secs/step (sys) =  0.15
 Wrote secondary history  80,23, 0 to tiegcm.scntr_mareqx_smin_001.nc (  23 of   24)
 Step   1390 of   1440 mtime= 80 23 10  0 secs/step (sys) =  0.15
 Step   1400 of   1440 mtime= 80 23 20  0 secs/step (sys) =  0.15
 Step   1410 of   1440 mtime= 80 23 30  0 secs/step (sys) =  0.15
 Step   1420 of   1440 mtime= 80 23 40  0 secs/step (sys) =  0.15
 Step   1430 of   1440 mtime= 80 23 50  0 secs/step (sys) =  0.15
 Advancing day (previous,present)=   80 2002   81 2002 sfeps=  0.1007E+01
 Step   1440 of   1440 mtime= 81  0  0  0 secs/step (sys) =  0.15
 Wrote primary   history  81, 0, 0 to tiegcm.pcntr_mareqx_smin_001.nc (   2 of    2)
 Wrote secondary history  81, 0, 0 to tiegcm.scntr_mareqx_smin_001.nc (  24 of   24)

 MPI run with ntask =   4
 nstep=    1440 step=      60
 Model simulation time hours=     24.00 days=      1.00
 Cpu time for run =     221.09

 ------------------------------------------------------------------------
 Total wallclock time mins=      4.04 hours=      0.07
 Total MPI timing mins=  0.2880E+00 hours=  0.4801E-02 %Total runtime=     7.12
 Subroutine          Time (mins)  %Total mpi  %Total run
 mp_gather2root_prim  0.6965E-02        2.42        0.17
 mp_gather2root_sech  0.5550E-02        1.93        0.14
 mp_gather2root_lbc   0.8515E-04        0.03        0.00
 mp_bndlats           0.2675E-01        9.29        0.66
 mp_bndlats_f2d       0.2000E-02        0.69        0.05
 mp_bndlons           0.2378E-01        8.26        0.59
 mp_bndlons_f3d       0.3626E-01       12.59        0.90
 mp_polelats          0.4027E-01       13.98        1.00
 mp_polelat_f3d       0.9236E-02        3.21        0.23
 mp_gatherlons_f3d    0.2835E-01        9.84        0.70
 mp_scatterlons_f3d   0.1474E-01        5.12        0.36
 mp_periodic_f4d      0.1473E-01        5.11        0.36
 mp_periodic_f3d      0.1156E-01        4.01        0.29
 mp_periodic_f2d      0.5169E-03        0.18        0.01
 mp_bndlats_kmh       0.5201E-03        0.18        0.01
 mp_bndlons_kmh       0.6021E-03        0.21        0.01
 mp_mageq             0.2385E-02        0.83        0.06
 mp_mageq_jpm1        0.3030E-01       10.52        0.75
 mp_mageq_jpm3        0.2628E-02        0.91        0.06
 mp_magpole_2d        0.4535E-02        1.57        0.11
 mp_magpole_3d        0.2903E-04        0.01        0.00
 mp_magpoles          0.1092E-02        0.38        0.03
 mp_conjugate_points  0.2464E-06        0.00        0.00
 mp_foldhem           0.6090E-02        2.11        0.15
 mp_mag_periodic_f2d  0.3398E-02        1.18        0.08
 mp_gather_pdyn       0.9455E-02        3.28        0.23
 mp_mag_halos         0.1496E-02        0.52        0.04
 mp_geo_halos         0.0000E+00        0.00        0.00
 mp_geo_halos_f3d     0.4010E-02        1.39        0.10
 mp_scatter_coeff1
 mp_scatter_phim      0.2837E-03        0.10        0.01
 mp_gather_f2d       0.1055E-02        0.37        0.03
 mp_scatter_f2d       0.1701E-03        0.06        0.00

 ------------------------------------------------------------------------

 ------------------------------------------------------------------------
 Report MPI wall-clock timing (mpi_wtime)  mytid=   0  istep=    1440  nstep=    1440
 Total Time (mins) in 'pefield                       ' =   0.1437E+00 (  3.55% of total run time)
 Total Time (mins) in 'dynamo_inputs                 ' =   0.5095E+00 ( 12.60% of total run time)
 Total Time (mins) in 'pdynamo_fieldline_integrals   ' =   0.6748E-01 (  1.67% of total run time)
 Total Time (mins) in 'pdynamo_complete_integrals    ' =   0.3988E-01 (  0.99% of total run time)
 Total Time (mins) in 'pdynamo_rhspde                ' =   0.2649E-03 (  0.01% of total run time)
 Total Time (mins) in 'stencils                      ' =   0.1488E-01 (  0.37% of total run time)
 T1 MPI run with ntask =   4
 Total Time (mins) in 'highlat_poten                 ' =   0.3768E-03 (  0.01% of total run time)
 Total Time (mins) in 'pthreed                       ' =   0.4948E+00 ( 12.24% of total run time)
 ------------------------------------------------------------------------


 ------------------------------------------------------------------------
 TIMER (system_clock)
 Elapsed run time      =     242.63 (secs)    4.04 (mins)   0.07 (hrs)

 Elapsed init time     =     5.78 secs,  0.002 hrs,   2.4% (includes source i/o)
 Elapsed step time     =   215.26 secs,  0.060 hrs,  88.7%
   Elapsed prep time   =   257.07 secs,  0.071 hrs, 106.0%
   Elapsed apxparm time=     0.27 secs,  0.000 hrs, 100.0%
   Elapsed dynamics    =   117.22 secs,  0.033 hrs,  48.3%
     Elapsed qrj       =    15.92 secs,  0.004 hrs,   6.6%
     Elapsed oplus     =    12.91 secs,  0.004 hrs,   5.3%
     Elapsed cmpminor  =    19.31 secs,  0.005 hrs,   8.0% (n4s,n2d,no)
     Elapsed cmpmajor  =    12.70 secs,  0.004 hrs,   5.2% (o2, o, he)
     Elapsed dt        =     2.80 secs,  0.001 hrs,   1.2%
     Elapsed duv       =     6.77 secs,  0.002 hrs,   2.8%
   Elapsed pdynamo     =    42.06 secs,  0.012 hrs,  17.3%
   Elapsed magpres_grav=     3.72 secs,  0.001 hrs,   1.5%
 Elapsed i/o           =    23.59 secs,  0.007 hrs,   9.7%
   Elapsed Primary io  =     2.01 secs,  0.001 hrs,   0.8%
   Elapsed Secondary   =    21.58 secs,  0.006 hrs,   8.9%

 Average secs/step =     0.15
 Average mins/simulated day  =     4.04
 ------------------------------------------------------------------------

 End execution of tiegcm_trunk at 12/22/15  143045
 NORMAL EXIT
