========================================================================
Time Management:
time_manager_nml namelist settings:
&TIME_MANAGER_NML
RUNID = bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2
,
DT_COUNT = 1.00000000000000 ,
DT_OPTION = steps_per_day ,
IYEAR0 = 13,
IMONTH0 = 1,
IDAY0 = 1,
IHOUR0 = 0,
IMINUTE0 = 0,
ISECOND0 = 0,
STOP_OPTION = never ,
STOP_COUNT = -1,
DATE_SEPARATOR = -,
ALLOW_LEAPYEAR = F
/
========================================================================
zero_gcm_fluxes: T
test_coupling: F
*******************************************************************************
Started logging at 2018-08-08 21:47:52.765
*******************************************************************************
========================================================================
GLC Override Frac:
glc_override_nml namelist settings:
&GLC_OVERRIDE_NML
ENABLE_FRAC_OVERRIDES = F,
DECREASE_OVERRIDE_DELAY = 0,
INCREASE_OVERRIDE_DELAY = 0,
REARRANGE_OVERRIDE_DELAY = 0,
DECREASE_FRAC = 0.000000000000000E+000,
INCREASE_FRAC = 0.000000000000000E+000,
REARRANGE_FREQ = 0
/
glc_io_read_restart_time: using dumpfile for restart =
bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-02-01-00000.nc
*******************************************************************************
Grid specification
------------------
ewn : 416
nsn : 704
upn : 11
EW grid spacing : 4000.00000000000
NS grid spacing : 4000.00000000000
Outflow global boundary conditions; scalars in global halo will be set to ze
ro
sigma file :
Time steps
----------
start time (yr) : 0.000000000000000E+000
end time (yr) : 1000.00000000000
time step (yr) : 0.100000000000000
thermal dt factor : 1.00000000000000
diagnostic interval (years): 0.100000000000000
Dycore options
-------------
I/O parameter file :
Dycore : 2glissade
temperature calculation : 1prognostic temperature
flow law : 2Paterson and Budd
basal_water : 0none
marine_margin : 1remove all floating ice
calving_init : 1ice calves at initialization
calving_domain : 1calving in all cells where criterion i
s met
Icebergs will be removed
The thickness of marine ice cliffs will be limited
calving_domain : 1calving in all cells where criterion i
s met
Calving-front cells will not be culled at initialization
evolution : 3incremental remapping
minthck for diagnostics : 1include cells with H > thklim in globa
l diagnostics
vertical_integration : 0standard
basal melt, floating ice: 0none
basal mass balance : 1in continuity eqn
smb input : 0SMB input in units of m/yr ice
overwrite_acab : 0do not overwrite acab anywhere
geothermal heat flux : 1read flux from file, if present
isostasy : 0no isostasy calculation
Restarting model from a previous run
Higher-order options:
----------
ho_whichefvs : 2nonlinear, from eff strain rate
ho_whichdisp : 1first-order model (Blatter-Pattyn)
ho_whichthermal_timestep: 2vertical thermal solve split into two
parts
ho_whichbabc : 3pseudo-plastic sliding law
ho_whichbwat : 2basal water depth computed from local
till model
ho_whicheffecpress : 4reduced effecpress with increasing bas
al water
which_ho_nonlinear : 0use standard Picard iteration
ho_whichresid : 4relative L2 norm, |Ax-b|/|b|
ho_whichsparse : 3Native PCG solver, Chronopoulos-Gear
ho_whichapprox : 4Depth-integrated viscosity (glissade_v
elo_higher)
ho_whichgradient : 0centered gradient (glissade)
ho_whichgradient_margin : 1compute edge gradient when ice lies ab
ove ice-free land
ho_whichvertical_remap : 0first-order accurate
ho_whichassemble_beta : 1use local beta at each vertex (glissad
e dycore)
ho_whichassemble_taud : 1use local driving stress at each verte
x (glissade dycore)
ho_whichassemble_bfric : 1use local basal friction at each verte
x (glissade dycore)
ho_whichcalving_front : 0no subgrid calving front parameterizat
ion
ho_whichground : 0f_ground = 0 or 1; no GLP (glissade d
ycore)
ho_whichground_bmlt : 0bmlt_float applied to partly grounded
cells
ho_whichice_age : 1ice age computation on
glissade_maxiter : 50
ho_whichprecond : 1Diagonal preconditioner (glissade PCG)
Parameters
----------
thickness limit for dynamically active ice (m) : 1.00000000000000
Advection will be subcycled when CFL > 0.500000000000000
thickness limit for temperature calculations (m) : 1.00000000000000
thickness scale for gradient ramp (m): 50.0000000000000
pmp threshold for temperature (K): 1.000000000000000E-003
taumax_cliff : 1000000.00000000
cliff time scale (yr) : 0.000000000000000E+000
ice density (kg/m^3) : 917.000000000000
ocean density (kg/m^3) : 1026.00000000000
gravitational accel (m/s^2) : 9.80616000000000
heat capacity of ice (J/kg/K) : 2117.27000000000
latent heat of ice (J/kg) : 333700.000000000
triple point of water (K) : 273.160000000000
geothermal flux (W/m^2) : -5.000000000000000E-002
flow factor (grounded ice) : 1.00000000000000
flow factor (floating ice) : 1.00000000000000
max surface slope : 0.100000000000000
pseudo-plastic q : 0.500000000000000
pseudo-plastic u0 : 100.000000000000
pseudo-plastic phi_min (deg) : 5.00000000000000
pseudo-plastic phi_max (deg) : 40.0000000000000
pseudo-plastic bed min (m) : -700.000000000000
pseudo-plastic bed max (m) : 700.000000000000
min beta, grounded ice (Pa yr/m) : 100.000000000000
effective pressure delta : 2.000000000000000E-002
maximum till water depth (m) : 2.00000000000000
till drainage rate (m/yr) : 1.000000000000000E-003
GLAD climate
-------------
evolve_ice (0=fixed, 1=evolve): 0
The ice sheet state will not evolve after initialization
Mass-balance accumulation time will be set to max(ice timestep, mbal timestep
)
ice_tstep_multiply: 1
CISM 2.0
Computing Glide sigma levels
Sigma levels:
------------------
0.000 0.231 0.407 0.544 0.653 0.741 0.812 0.872 0.922 0.964 1.000
*******************************************************************************
opening file bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-0
2-01-00000.nc for input
*******************************************************************************
Restart: New tstart, tstep_count = 12.0000000000000 120
Reading time slice 1( 12.0000000000000 ) from file bwma1850
.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-02-01-00000.nc at time
12.0000000000000
Loading x1
Loading y1
Loading acab
Loading artm
Loading beta
Loading bfricflx
Loading bheatflx
Loading btractx
Loading btracty
Loading bwat
Loading dissipstag
Loading efvs
Loading ice_age
Loading kinbcmask
Loading tempstag
Loading thk
Loading thkmask
Loading topg
Loading uvel
Loading uvel_2d
Loading vvel
Loading vvel_2d
Set area scale factor = 1 for polar stereographic projection
Projection
----------
Type: Stereographic
Longitude of central meridian: -45.0000000000000
Latitude of projection origin: 90.0000000000000
False easting: 0.000000000000000E+000
False northing: 0.000000000000000E+000
Standard parallel: 70.0000000000000
Scale factor: 0.000000000000000E+000
* Global idiag, jdiag: 134 280
* Local idiag, jdiag, task: 32 18 13
Initializing ice temperature from the restart file
Loading hflx_tavg
Loading lat
Loading lon
Loading rofi_tavg
Loading rofl_tavg
----------------------------------------------------------
* Diagnostic output, time = 11.9999999999999734
* Total ice area (km^2) 0.1667679999999865E+07
* Grounded ice area (km^2) 0.1663999999999865E+07
* Floating ice area (km^2) 0.3679999999999996E+04
* Total ice volume (km^3) 0.2952805440572578E+07
* Total ice mass (kg) 0.2707722589005053E+19
* Mass above flotation (kg) 0.2668477290954693E+19
* Total ice energy (J) -0.1142852668752733E+24
* Total SMB flux (Gt/y) 0.0000000000000000E+00
* Total BMB flux (Gt/y) 0.0000000000000000E+00
* Total calving flux (Gt/y) 0.0000000000000000E+00
* Total dmass/dt (Gt/y) 0.0000000000000000E+00
* dmass/dt error (Gt/y) 0.0000000000000000E+00
* Total gr line flux (Gt/y) -0.2897558656354176E+01
* Mean thickness (m) 1770.6067354485373926
* Mean temperature (C) -19.9347059892330165
* Max thickness (m), i, j 3402.6667480468750000 230 366
* Max temperature, i, j, k -2.5815498828887939 297 216 0
* Min temperature, i, j, k -30.3878574371337891 236 451 0
* Max sfc spd (m/yr), i, j 999.9088967434951201 198 100
* Max base spd (m/yr), i, j 354.5326263138903755 304 572
* Grid point diagnostics: (i,j) = 134 280
* Local (i,j,rank) = 32 18 13
* Upper surface (m) 343.5833129882813068
* Thickness (m) 732.3333129882812500
* Bedrock topo (m) -388.7500000000000000
* Sfc mass balance (m/yr) -4.2188050139379323
* Basal melt rate (m/yr) 0.0000000000000000
* Basal water depth (m) 0.0000000000000000
* Basal heat flux (W/m^2) -0.0548120401799679
* Sigma Ice speed (m/yr) Ice temperature (C)
* 0.000 456.2302955362317789 -9.5970080172634198
* 0.116 -9.2874932227323068
* 0.231 447.0976129890099742
* 0.319 -8.4476792256992592
* 0.407 424.7454107874802958
* 0.476 -7.8025271680867023
* 0.544 393.0939735132360511
* 0.599 -7.2961458155157546
* 0.653 353.1553870598486924
* 0.697 -6.8913726356655065
* 0.741 305.4235432701678974
* 0.777 -6.5627116616410932
* 0.812 251.0339606985370438
* 0.842 -6.2921959230560542
* 0.872 191.7189455173042063
* 0.897 -6.0668670412763541
* 0.922 129.3635312645271540
* 0.943 -5.8771875500593511
* 0.964 65.6766059235178972
* 0.982 -5.7160111263863413
* 1.000 2.0496454718998831 -5.6417792671673537
========================================================================
Time Information
------------------------------------------------------------------------
Run id: bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2
This simulation started from
date(month-day-year): 01-01-0013
hour: 0
minute: 0
second: 0
This run started from
date(month-day-year): 02-01-0013
hour: 0
minute: 0
second: 0
step: 31
This run will terminate
at 00:00:00 on
date(month-day-year): 01-01-9999
upon receipt of stop signal from external source (eg, cpl)
unless a stop signal is received from external source (eg, cpl)
Starting elapsed time in
years: 0.085
months: 1.000
days: 31.000
hours: 744.000
seconds: 2678400.000
Automatic time step option (auto_dt) disabled
dt_count = 1.000000E+00
GLC time step = 8.640000E+04 seconds
Leap years not allowed
========================================================================
cism_history namelist settings:
&CISM_HISTORY
CESM_HISTORY_VARS = smb artm thk usurf topg
,
HISTORY_OPTION = nyears
,
HISTORY_FREQUENCY = 1
/
End of GLC initialization
========================================================================
(glc_init_mct) -------------------------------------------------------------------------
(glc_init_mct) GLC: start of main integration loop
(glc_init_mct) -------------------------------------------------------------------------
(time_manager) glc date 0013-feb-02, 0.000000E+00 sec
(glc_run_mct) CESM Date 130202 0
(glc_run_mct) GLC Date 130202 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-03, 0.000000E+00 sec
(glc_run_mct) CESM Date 130203 0
(glc_run_mct) GLC Date 130203 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-04, 0.000000E+00 sec
(glc_run_mct) CESM Date 130204 0
(glc_run_mct) GLC Date 130204 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-05, 0.000000E+00 sec
(glc_run_mct) CESM Date 130205 0
(glc_run_mct) GLC Date 130205 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-06, 0.000000E+00 sec
(glc_run_mct) CESM Date 130206 0
(glc_run_mct) GLC Date 130206 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-07, 0.000000E+00 sec
(glc_run_mct) CESM Date 130207 0
(glc_run_mct) GLC Date 130207 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-08, 0.000000E+00 sec
(glc_run_mct) CESM Date 130208 0
(glc_run_mct) GLC Date 130208 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-09, 0.000000E+00 sec
(glc_run_mct) CESM Date 130209 0
(glc_run_mct) GLC Date 130209 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-10, 0.000000E+00 sec
(glc_run_mct) CESM Date 130210 0
(glc_run_mct) GLC Date 130210 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-11, 0.000000E+00 sec
(glc_run_mct) CESM Date 130211 0
(glc_run_mct) GLC Date 130211 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-12, 0.000000E+00 sec
(glc_run_mct) CESM Date 130212 0
(glc_run_mct) GLC Date 130212 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-13, 0.000000E+00 sec
(glc_run_mct) CESM Date 130213 0
(glc_run_mct) GLC Date 130213 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-14, 0.000000E+00 sec
(glc_run_mct) CESM Date 130214 0
(glc_run_mct) GLC Date 130214 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-15, 0.000000E+00 sec
(glc_run_mct) CESM Date 130215 0
(glc_run_mct) GLC Date 130215 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-16, 0.000000E+00 sec
(glc_run_mct) CESM Date 130216 0
(glc_run_mct) GLC Date 130216 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-17, 0.000000E+00 sec
(glc_run_mct) CESM Date 130217 0
(glc_run_mct) GLC Date 130217 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-18, 0.000000E+00 sec
(glc_run_mct) CESM Date 130218 0
(glc_run_mct) GLC Date 130218 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-19, 0.000000E+00 sec
(glc_run_mct) CESM Date 130219 0
(glc_run_mct) GLC Date 130219 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-20, 0.000000E+00 sec
(glc_run_mct) CESM Date 130220 0
(glc_run_mct) GLC Date 130220 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-21, 0.000000E+00 sec
(glc_run_mct) CESM Date 130221 0
(glc_run_mct) GLC Date 130221 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-22, 0.000000E+00 sec
(glc_run_mct) CESM Date 130222 0
(glc_run_mct) GLC Date 130222 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-23, 0.000000E+00 sec
(glc_run_mct) CESM Date 130223 0
(glc_run_mct) GLC Date 130223 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-24, 0.000000E+00 sec
(glc_run_mct) CESM Date 130224 0
(glc_run_mct) GLC Date 130224 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-25, 0.000000E+00 sec
(glc_run_mct) CESM Date 130225 0
(glc_run_mct) GLC Date 130225 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-26, 0.000000E+00 sec
(glc_run_mct) CESM Date 130226 0
(glc_run_mct) GLC Date 130226 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-27, 0.000000E+00 sec
(glc_run_mct) CESM Date 130227 0
(glc_run_mct) GLC Date 130227 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-feb-28, 0.000000E+00 sec
(glc_run_mct) CESM Date 130228 0
(glc_run_mct) GLC Date 130228 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-01, 0.000000E+00 sec
(glc_run_mct) CESM Date 130301 0
(glc_run_mct) GLC Date 130301 0
(glc_run_mct) valid Inputs = F
glc_io_write_restart: calling dumpfile for restart filename=
bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-03-01-00000.nc
*******************************************************************************
Opening file bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-
03-01-00000.nc for output;
Write output at start of run and every 1.00000000000000 years
Creating variables internal_time, time, and tstep_count
Temperature remapping option uses temperature on a staggered vertical grid.
The netCDF output variable "temp" has been changed to "tempstag".
Temperature remapping option uses dissip on a staggered vertical grid. The n
etCDF output variable "dissip" has been changed to "dissipstag".
Creating variable level
Creating variable lithoz
Creating variable staglevel
Creating variable stagwbndlevel
Creating variable x0
Creating variable x1
Creating variable y0
Creating variable y1
Creating variable acab
Creating variable artm
Creating variable beta
Creating variable bfricflx
Creating variable bheatflx
Creating variable btractx
Creating variable btracty
Creating variable bwat
Creating variable dissipstag
Creating variable efvs
Creating variable ice_age
Creating variable kinbcmask
Creating variable tempstag
Creating variable thk
Creating variable thkmask
Creating variable topg
Creating variable uvel
Creating variable uvel_2d
Creating variable vvel
Creating variable vvel_2d
Creating variable hflx_tavg
Creating variable lat
Creating variable lon
Creating variable rofi_tavg
Creating variable rofl_tavg
*******************************************************************************
Writing to file bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.00
13-03-01-00000.nc at time 12.0000000000000
(time_manager) glc date 0013-mar-02, 0.000000E+00 sec
(glc_run_mct) CESM Date 130302 0
(glc_run_mct) GLC Date 130302 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-03, 0.000000E+00 sec
(glc_run_mct) CESM Date 130303 0
(glc_run_mct) GLC Date 130303 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-04, 0.000000E+00 sec
(glc_run_mct) CESM Date 130304 0
(glc_run_mct) GLC Date 130304 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-05, 0.000000E+00 sec
(glc_run_mct) CESM Date 130305 0
(glc_run_mct) GLC Date 130305 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-06, 0.000000E+00 sec
(glc_run_mct) CESM Date 130306 0
(glc_run_mct) GLC Date 130306 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-07, 0.000000E+00 sec
(glc_run_mct) CESM Date 130307 0
(glc_run_mct) GLC Date 130307 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-08, 0.000000E+00 sec
(glc_run_mct) CESM Date 130308 0
(glc_run_mct) GLC Date 130308 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-09, 0.000000E+00 sec
(glc_run_mct) CESM Date 130309 0
(glc_run_mct) GLC Date 130309 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-10, 0.000000E+00 sec
(glc_run_mct) CESM Date 130310 0
(glc_run_mct) GLC Date 130310 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-11, 0.000000E+00 sec
(glc_run_mct) CESM Date 130311 0
(glc_run_mct) GLC Date 130311 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-12, 0.000000E+00 sec
(glc_run_mct) CESM Date 130312 0
(glc_run_mct) GLC Date 130312 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-13, 0.000000E+00 sec
(glc_run_mct) CESM Date 130313 0
(glc_run_mct) GLC Date 130313 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-14, 0.000000E+00 sec
(glc_run_mct) CESM Date 130314 0
(glc_run_mct) GLC Date 130314 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-15, 0.000000E+00 sec
(glc_run_mct) CESM Date 130315 0
(glc_run_mct) GLC Date 130315 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-16, 0.000000E+00 sec
(glc_run_mct) CESM Date 130316 0
(glc_run_mct) GLC Date 130316 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-17, 0.000000E+00 sec
(glc_run_mct) CESM Date 130317 0
(glc_run_mct) GLC Date 130317 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-18, 0.000000E+00 sec
(glc_run_mct) CESM Date 130318 0
(glc_run_mct) GLC Date 130318 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-19, 0.000000E+00 sec
(glc_run_mct) CESM Date 130319 0
(glc_run_mct) GLC Date 130319 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-20, 0.000000E+00 sec
(glc_run_mct) CESM Date 130320 0
(glc_run_mct) GLC Date 130320 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-21, 0.000000E+00 sec
(glc_run_mct) CESM Date 130321 0
(glc_run_mct) GLC Date 130321 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-22, 0.000000E+00 sec
(glc_run_mct) CESM Date 130322 0
(glc_run_mct) GLC Date 130322 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-23, 0.000000E+00 sec
(glc_run_mct) CESM Date 130323 0
(glc_run_mct) GLC Date 130323 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-24, 0.000000E+00 sec
(glc_run_mct) CESM Date 130324 0
(glc_run_mct) GLC Date 130324 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-25, 0.000000E+00 sec
(glc_run_mct) CESM Date 130325 0
(glc_run_mct) GLC Date 130325 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-26, 0.000000E+00 sec
(glc_run_mct) CESM Date 130326 0
(glc_run_mct) GLC Date 130326 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-27, 0.000000E+00 sec
(glc_run_mct) CESM Date 130327 0
(glc_run_mct) GLC Date 130327 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-28, 0.000000E+00 sec
(glc_run_mct) CESM Date 130328 0
(glc_run_mct) GLC Date 130328 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-29, 0.000000E+00 sec
(glc_run_mct) CESM Date 130329 0
(glc_run_mct) GLC Date 130329 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-30, 0.000000E+00 sec
(glc_run_mct) CESM Date 130330 0
(glc_run_mct) GLC Date 130330 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-mar-31, 0.000000E+00 sec
(glc_run_mct) CESM Date 130331 0
(glc_run_mct) GLC Date 130331 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-01, 0.000000E+00 sec
(glc_run_mct) CESM Date 130401 0
(glc_run_mct) GLC Date 130401 0
(glc_run_mct) valid Inputs = F
glc_io_write_restart: calling dumpfile for restart filename=
bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-04-01-00000.nc
*******************************************************************************
Opening file bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.0013-
04-01-00000.nc for output;
Write output at start of run and every 1.00000000000000 years
Creating variables internal_time, time, and tstep_count
Temperature remapping option uses temperature on a staggered vertical grid.
The netCDF output variable "temp" has been changed to "tempstag".
Temperature remapping option uses dissip on a staggered vertical grid. The n
etCDF output variable "dissip" has been changed to "dissipstag".
Creating variable level
Creating variable lithoz
Creating variable staglevel
Creating variable stagwbndlevel
Creating variable x0
Creating variable x1
Creating variable y0
Creating variable y1
Creating variable acab
Creating variable artm
Creating variable beta
Creating variable bfricflx
Creating variable bheatflx
Creating variable btractx
Creating variable btracty
Creating variable bwat
Creating variable dissipstag
Creating variable efvs
Creating variable ice_age
Creating variable kinbcmask
Creating variable tempstag
Creating variable thk
Creating variable thkmask
Creating variable topg
Creating variable uvel
Creating variable uvel_2d
Creating variable vvel
Creating variable vvel_2d
Creating variable hflx_tavg
Creating variable lat
Creating variable lon
Creating variable rofi_tavg
Creating variable rofl_tavg
*******************************************************************************
Writing to file bwma1850.f09.y13.los_chocoyos.qboE.ensoN.clone.SO2.cism.r.00
13-04-01-00000.nc at time 12.0000000000000
(time_manager) glc date 0013-apr-02, 0.000000E+00 sec
(glc_run_mct) CESM Date 130402 0
(glc_run_mct) GLC Date 130402 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-03, 0.000000E+00 sec
(glc_run_mct) CESM Date 130403 0
(glc_run_mct) GLC Date 130403 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-04, 0.000000E+00 sec
(glc_run_mct) CESM Date 130404 0
(glc_run_mct) GLC Date 130404 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-05, 0.000000E+00 sec
(glc_run_mct) CESM Date 130405 0
(glc_run_mct) GLC Date 130405 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-06, 0.000000E+00 sec
(glc_run_mct) CESM Date 130406 0
(glc_run_mct) GLC Date 130406 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-07, 0.000000E+00 sec
(glc_run_mct) CESM Date 130407 0
(glc_run_mct) GLC Date 130407 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-08, 0.000000E+00 sec
(glc_run_mct) CESM Date 130408 0
(glc_run_mct) GLC Date 130408 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-09, 0.000000E+00 sec
(glc_run_mct) CESM Date 130409 0
(glc_run_mct) GLC Date 130409 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-10, 0.000000E+00 sec
(glc_run_mct) CESM Date 130410 0
(glc_run_mct) GLC Date 130410 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-11, 0.000000E+00 sec
(glc_run_mct) CESM Date 130411 0
(glc_run_mct) GLC Date 130411 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-12, 0.000000E+00 sec
(glc_run_mct) CESM Date 130412 0
(glc_run_mct) GLC Date 130412 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-13, 0.000000E+00 sec
(glc_run_mct) CESM Date 130413 0
(glc_run_mct) GLC Date 130413 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-14, 0.000000E+00 sec
(glc_run_mct) CESM Date 130414 0
(glc_run_mct) GLC Date 130414 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-15, 0.000000E+00 sec
(glc_run_mct) CESM Date 130415 0
(glc_run_mct) GLC Date 130415 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-16, 0.000000E+00 sec
(glc_run_mct) CESM Date 130416 0
(glc_run_mct) GLC Date 130416 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-17, 0.000000E+00 sec
(glc_run_mct) CESM Date 130417 0
(glc_run_mct) GLC Date 130417 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-18, 0.000000E+00 sec
(glc_run_mct) CESM Date 130418 0
(glc_run_mct) GLC Date 130418 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-19, 0.000000E+00 sec
(glc_run_mct) CESM Date 130419 0
(glc_run_mct) GLC Date 130419 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-20, 0.000000E+00 sec
(glc_run_mct) CESM Date 130420 0
(glc_run_mct) GLC Date 130420 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-21, 0.000000E+00 sec
(glc_run_mct) CESM Date 130421 0
(glc_run_mct) GLC Date 130421 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-22, 0.000000E+00 sec
(glc_run_mct) CESM Date 130422 0
(glc_run_mct) GLC Date 130422 0
(glc_run_mct) valid Inputs = F
(time_manager) glc date 0013-apr-23, 0.000000E+00 sec
(glc_run_mct) CESM Date 130423 0
(glc_run_mct) GLC Date 130423 0
(glc_run_mct) valid Inputs = F