======================================================================== Time Management: time_manager_nml namelist settings: &TIME_MANAGER_NML RUNID = bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2 , DT_COUNT = 1.00000000000000 , DT_OPTION = steps_per_day , IYEAR0 = 15, 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 2019-01-23 14:33:44.123 ******************************************************************************* ======================================================================== 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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-08-01-00000.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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-08-01- 00000.nc for input ******************************************************************************* Restart: New tstart, tstep_count = 15.0000000000000 150 Reading time slice 1( 15.0000000000000 ) from file bwma1850 .f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-08-01-00000.nc at time 15. 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 = 14.9999999999999627 * 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) -0.2966290793956698 * 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 -11.7025731121156582 * 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.y15.los_chocoyos.qboE.ensoM.rev2 This simulation started from date(month-day-year): 01-01-0015 hour: 0 minute: 0 second: 0 This run started from date(month-day-year): 08-01-0016 hour: 0 minute: 0 second: 0 step: 577 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: 1.581 months: 19.000 days: 577.000 hours: 13848.000 seconds: 49852800.000 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 0016-aug-02, 0.000000E+00 sec (glc_run_mct) CESM Date 160802 0 (glc_run_mct) GLC Date 160802 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-03, 0.000000E+00 sec (glc_run_mct) CESM Date 160803 0 (glc_run_mct) GLC Date 160803 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-04, 0.000000E+00 sec (glc_run_mct) CESM Date 160804 0 (glc_run_mct) GLC Date 160804 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-05, 0.000000E+00 sec (glc_run_mct) CESM Date 160805 0 (glc_run_mct) GLC Date 160805 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-06, 0.000000E+00 sec (glc_run_mct) CESM Date 160806 0 (glc_run_mct) GLC Date 160806 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-07, 0.000000E+00 sec (glc_run_mct) CESM Date 160807 0 (glc_run_mct) GLC Date 160807 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-08, 0.000000E+00 sec (glc_run_mct) CESM Date 160808 0 (glc_run_mct) GLC Date 160808 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-09, 0.000000E+00 sec (glc_run_mct) CESM Date 160809 0 (glc_run_mct) GLC Date 160809 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-10, 0.000000E+00 sec (glc_run_mct) CESM Date 160810 0 (glc_run_mct) GLC Date 160810 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-11, 0.000000E+00 sec (glc_run_mct) CESM Date 160811 0 (glc_run_mct) GLC Date 160811 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-12, 0.000000E+00 sec (glc_run_mct) CESM Date 160812 0 (glc_run_mct) GLC Date 160812 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-13, 0.000000E+00 sec (glc_run_mct) CESM Date 160813 0 (glc_run_mct) GLC Date 160813 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-14, 0.000000E+00 sec (glc_run_mct) CESM Date 160814 0 (glc_run_mct) GLC Date 160814 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-15, 0.000000E+00 sec (glc_run_mct) CESM Date 160815 0 (glc_run_mct) GLC Date 160815 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-16, 0.000000E+00 sec (glc_run_mct) CESM Date 160816 0 (glc_run_mct) GLC Date 160816 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-17, 0.000000E+00 sec (glc_run_mct) CESM Date 160817 0 (glc_run_mct) GLC Date 160817 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-18, 0.000000E+00 sec (glc_run_mct) CESM Date 160818 0 (glc_run_mct) GLC Date 160818 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-19, 0.000000E+00 sec (glc_run_mct) CESM Date 160819 0 (glc_run_mct) GLC Date 160819 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-20, 0.000000E+00 sec (glc_run_mct) CESM Date 160820 0 (glc_run_mct) GLC Date 160820 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-21, 0.000000E+00 sec (glc_run_mct) CESM Date 160821 0 (glc_run_mct) GLC Date 160821 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-22, 0.000000E+00 sec (glc_run_mct) CESM Date 160822 0 (glc_run_mct) GLC Date 160822 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-23, 0.000000E+00 sec (glc_run_mct) CESM Date 160823 0 (glc_run_mct) GLC Date 160823 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-24, 0.000000E+00 sec (glc_run_mct) CESM Date 160824 0 (glc_run_mct) GLC Date 160824 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-25, 0.000000E+00 sec (glc_run_mct) CESM Date 160825 0 (glc_run_mct) GLC Date 160825 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-26, 0.000000E+00 sec (glc_run_mct) CESM Date 160826 0 (glc_run_mct) GLC Date 160826 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-27, 0.000000E+00 sec (glc_run_mct) CESM Date 160827 0 (glc_run_mct) GLC Date 160827 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-28, 0.000000E+00 sec (glc_run_mct) CESM Date 160828 0 (glc_run_mct) GLC Date 160828 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-29, 0.000000E+00 sec (glc_run_mct) CESM Date 160829 0 (glc_run_mct) GLC Date 160829 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-30, 0.000000E+00 sec (glc_run_mct) CESM Date 160830 0 (glc_run_mct) GLC Date 160830 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-aug-31, 0.000000E+00 sec (glc_run_mct) CESM Date 160831 0 (glc_run_mct) GLC Date 160831 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-01, 0.000000E+00 sec (glc_run_mct) CESM Date 160901 0 (glc_run_mct) GLC Date 160901 0 (glc_run_mct) valid Inputs = F glc_io_write_restart: calling dumpfile for restart filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-09-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-09-01 -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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-09 -01-00000.nc at time 15.0000000000000 (time_manager) glc date 0016-sep-02, 0.000000E+00 sec (glc_run_mct) CESM Date 160902 0 (glc_run_mct) GLC Date 160902 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-03, 0.000000E+00 sec (glc_run_mct) CESM Date 160903 0 (glc_run_mct) GLC Date 160903 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-04, 0.000000E+00 sec (glc_run_mct) CESM Date 160904 0 (glc_run_mct) GLC Date 160904 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-05, 0.000000E+00 sec (glc_run_mct) CESM Date 160905 0 (glc_run_mct) GLC Date 160905 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-06, 0.000000E+00 sec (glc_run_mct) CESM Date 160906 0 (glc_run_mct) GLC Date 160906 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-07, 0.000000E+00 sec (glc_run_mct) CESM Date 160907 0 (glc_run_mct) GLC Date 160907 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-08, 0.000000E+00 sec (glc_run_mct) CESM Date 160908 0 (glc_run_mct) GLC Date 160908 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-09, 0.000000E+00 sec (glc_run_mct) CESM Date 160909 0 (glc_run_mct) GLC Date 160909 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-10, 0.000000E+00 sec (glc_run_mct) CESM Date 160910 0 (glc_run_mct) GLC Date 160910 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-11, 0.000000E+00 sec (glc_run_mct) CESM Date 160911 0 (glc_run_mct) GLC Date 160911 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-12, 0.000000E+00 sec (glc_run_mct) CESM Date 160912 0 (glc_run_mct) GLC Date 160912 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-13, 0.000000E+00 sec (glc_run_mct) CESM Date 160913 0 (glc_run_mct) GLC Date 160913 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-14, 0.000000E+00 sec (glc_run_mct) CESM Date 160914 0 (glc_run_mct) GLC Date 160914 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-15, 0.000000E+00 sec (glc_run_mct) CESM Date 160915 0 (glc_run_mct) GLC Date 160915 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-16, 0.000000E+00 sec (glc_run_mct) CESM Date 160916 0 (glc_run_mct) GLC Date 160916 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-17, 0.000000E+00 sec (glc_run_mct) CESM Date 160917 0 (glc_run_mct) GLC Date 160917 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-18, 0.000000E+00 sec (glc_run_mct) CESM Date 160918 0 (glc_run_mct) GLC Date 160918 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-19, 0.000000E+00 sec (glc_run_mct) CESM Date 160919 0 (glc_run_mct) GLC Date 160919 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-20, 0.000000E+00 sec (glc_run_mct) CESM Date 160920 0 (glc_run_mct) GLC Date 160920 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-21, 0.000000E+00 sec (glc_run_mct) CESM Date 160921 0 (glc_run_mct) GLC Date 160921 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-22, 0.000000E+00 sec (glc_run_mct) CESM Date 160922 0 (glc_run_mct) GLC Date 160922 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-23, 0.000000E+00 sec (glc_run_mct) CESM Date 160923 0 (glc_run_mct) GLC Date 160923 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-24, 0.000000E+00 sec (glc_run_mct) CESM Date 160924 0 (glc_run_mct) GLC Date 160924 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-25, 0.000000E+00 sec (glc_run_mct) CESM Date 160925 0 (glc_run_mct) GLC Date 160925 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-26, 0.000000E+00 sec (glc_run_mct) CESM Date 160926 0 (glc_run_mct) GLC Date 160926 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-27, 0.000000E+00 sec (glc_run_mct) CESM Date 160927 0 (glc_run_mct) GLC Date 160927 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-28, 0.000000E+00 sec (glc_run_mct) CESM Date 160928 0 (glc_run_mct) GLC Date 160928 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-29, 0.000000E+00 sec (glc_run_mct) CESM Date 160929 0 (glc_run_mct) GLC Date 160929 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-sep-30, 0.000000E+00 sec (glc_run_mct) CESM Date 160930 0 (glc_run_mct) GLC Date 160930 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-01, 0.000000E+00 sec (glc_run_mct) CESM Date 161001 0 (glc_run_mct) GLC Date 161001 0 (glc_run_mct) valid Inputs = F glc_io_write_restart: calling dumpfile for restart filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-10-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-10-01 -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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-10 -01-00000.nc at time 15.0000000000000 (time_manager) glc date 0016-oct-02, 0.000000E+00 sec (glc_run_mct) CESM Date 161002 0 (glc_run_mct) GLC Date 161002 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-03, 0.000000E+00 sec (glc_run_mct) CESM Date 161003 0 (glc_run_mct) GLC Date 161003 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-04, 0.000000E+00 sec (glc_run_mct) CESM Date 161004 0 (glc_run_mct) GLC Date 161004 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-05, 0.000000E+00 sec (glc_run_mct) CESM Date 161005 0 (glc_run_mct) GLC Date 161005 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-06, 0.000000E+00 sec (glc_run_mct) CESM Date 161006 0 (glc_run_mct) GLC Date 161006 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-07, 0.000000E+00 sec (glc_run_mct) CESM Date 161007 0 (glc_run_mct) GLC Date 161007 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-08, 0.000000E+00 sec (glc_run_mct) CESM Date 161008 0 (glc_run_mct) GLC Date 161008 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-09, 0.000000E+00 sec (glc_run_mct) CESM Date 161009 0 (glc_run_mct) GLC Date 161009 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-10, 0.000000E+00 sec (glc_run_mct) CESM Date 161010 0 (glc_run_mct) GLC Date 161010 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-11, 0.000000E+00 sec (glc_run_mct) CESM Date 161011 0 (glc_run_mct) GLC Date 161011 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-12, 0.000000E+00 sec (glc_run_mct) CESM Date 161012 0 (glc_run_mct) GLC Date 161012 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-13, 0.000000E+00 sec (glc_run_mct) CESM Date 161013 0 (glc_run_mct) GLC Date 161013 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-14, 0.000000E+00 sec (glc_run_mct) CESM Date 161014 0 (glc_run_mct) GLC Date 161014 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-15, 0.000000E+00 sec (glc_run_mct) CESM Date 161015 0 (glc_run_mct) GLC Date 161015 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-16, 0.000000E+00 sec (glc_run_mct) CESM Date 161016 0 (glc_run_mct) GLC Date 161016 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-17, 0.000000E+00 sec (glc_run_mct) CESM Date 161017 0 (glc_run_mct) GLC Date 161017 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-18, 0.000000E+00 sec (glc_run_mct) CESM Date 161018 0 (glc_run_mct) GLC Date 161018 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-19, 0.000000E+00 sec (glc_run_mct) CESM Date 161019 0 (glc_run_mct) GLC Date 161019 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-20, 0.000000E+00 sec (glc_run_mct) CESM Date 161020 0 (glc_run_mct) GLC Date 161020 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-21, 0.000000E+00 sec (glc_run_mct) CESM Date 161021 0 (glc_run_mct) GLC Date 161021 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-22, 0.000000E+00 sec (glc_run_mct) CESM Date 161022 0 (glc_run_mct) GLC Date 161022 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-23, 0.000000E+00 sec (glc_run_mct) CESM Date 161023 0 (glc_run_mct) GLC Date 161023 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-24, 0.000000E+00 sec (glc_run_mct) CESM Date 161024 0 (glc_run_mct) GLC Date 161024 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-25, 0.000000E+00 sec (glc_run_mct) CESM Date 161025 0 (glc_run_mct) GLC Date 161025 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-26, 0.000000E+00 sec (glc_run_mct) CESM Date 161026 0 (glc_run_mct) GLC Date 161026 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-27, 0.000000E+00 sec (glc_run_mct) CESM Date 161027 0 (glc_run_mct) GLC Date 161027 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-28, 0.000000E+00 sec (glc_run_mct) CESM Date 161028 0 (glc_run_mct) GLC Date 161028 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-29, 0.000000E+00 sec (glc_run_mct) CESM Date 161029 0 (glc_run_mct) GLC Date 161029 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-30, 0.000000E+00 sec (glc_run_mct) CESM Date 161030 0 (glc_run_mct) GLC Date 161030 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-oct-31, 0.000000E+00 sec (glc_run_mct) CESM Date 161031 0 (glc_run_mct) GLC Date 161031 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-01, 0.000000E+00 sec (glc_run_mct) CESM Date 161101 0 (glc_run_mct) GLC Date 161101 0 (glc_run_mct) valid Inputs = F glc_io_write_restart: calling dumpfile for restart filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-11-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-11-01 -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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-11 -01-00000.nc at time 15.0000000000000 (time_manager) glc date 0016-nov-02, 0.000000E+00 sec (glc_run_mct) CESM Date 161102 0 (glc_run_mct) GLC Date 161102 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-03, 0.000000E+00 sec (glc_run_mct) CESM Date 161103 0 (glc_run_mct) GLC Date 161103 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-04, 0.000000E+00 sec (glc_run_mct) CESM Date 161104 0 (glc_run_mct) GLC Date 161104 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-05, 0.000000E+00 sec (glc_run_mct) CESM Date 161105 0 (glc_run_mct) GLC Date 161105 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-06, 0.000000E+00 sec (glc_run_mct) CESM Date 161106 0 (glc_run_mct) GLC Date 161106 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-07, 0.000000E+00 sec (glc_run_mct) CESM Date 161107 0 (glc_run_mct) GLC Date 161107 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-08, 0.000000E+00 sec (glc_run_mct) CESM Date 161108 0 (glc_run_mct) GLC Date 161108 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-09, 0.000000E+00 sec (glc_run_mct) CESM Date 161109 0 (glc_run_mct) GLC Date 161109 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-10, 0.000000E+00 sec (glc_run_mct) CESM Date 161110 0 (glc_run_mct) GLC Date 161110 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-11, 0.000000E+00 sec (glc_run_mct) CESM Date 161111 0 (glc_run_mct) GLC Date 161111 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-12, 0.000000E+00 sec (glc_run_mct) CESM Date 161112 0 (glc_run_mct) GLC Date 161112 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-13, 0.000000E+00 sec (glc_run_mct) CESM Date 161113 0 (glc_run_mct) GLC Date 161113 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-14, 0.000000E+00 sec (glc_run_mct) CESM Date 161114 0 (glc_run_mct) GLC Date 161114 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-15, 0.000000E+00 sec (glc_run_mct) CESM Date 161115 0 (glc_run_mct) GLC Date 161115 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-16, 0.000000E+00 sec (glc_run_mct) CESM Date 161116 0 (glc_run_mct) GLC Date 161116 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-17, 0.000000E+00 sec (glc_run_mct) CESM Date 161117 0 (glc_run_mct) GLC Date 161117 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-18, 0.000000E+00 sec (glc_run_mct) CESM Date 161118 0 (glc_run_mct) GLC Date 161118 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-19, 0.000000E+00 sec (glc_run_mct) CESM Date 161119 0 (glc_run_mct) GLC Date 161119 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-20, 0.000000E+00 sec (glc_run_mct) CESM Date 161120 0 (glc_run_mct) GLC Date 161120 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-21, 0.000000E+00 sec (glc_run_mct) CESM Date 161121 0 (glc_run_mct) GLC Date 161121 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-22, 0.000000E+00 sec (glc_run_mct) CESM Date 161122 0 (glc_run_mct) GLC Date 161122 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-23, 0.000000E+00 sec (glc_run_mct) CESM Date 161123 0 (glc_run_mct) GLC Date 161123 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-24, 0.000000E+00 sec (glc_run_mct) CESM Date 161124 0 (glc_run_mct) GLC Date 161124 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-25, 0.000000E+00 sec (glc_run_mct) CESM Date 161125 0 (glc_run_mct) GLC Date 161125 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-26, 0.000000E+00 sec (glc_run_mct) CESM Date 161126 0 (glc_run_mct) GLC Date 161126 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-27, 0.000000E+00 sec (glc_run_mct) CESM Date 161127 0 (glc_run_mct) GLC Date 161127 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-28, 0.000000E+00 sec (glc_run_mct) CESM Date 161128 0 (glc_run_mct) GLC Date 161128 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-29, 0.000000E+00 sec (glc_run_mct) CESM Date 161129 0 (glc_run_mct) GLC Date 161129 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-nov-30, 0.000000E+00 sec (glc_run_mct) CESM Date 161130 0 (glc_run_mct) GLC Date 161130 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-01, 0.000000E+00 sec (glc_run_mct) CESM Date 161201 0 (glc_run_mct) GLC Date 161201 0 (glc_run_mct) valid Inputs = F glc_io_write_restart: calling dumpfile for restart filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-12-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-12-01 -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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0016-12 -01-00000.nc at time 15.0000000000000 (time_manager) glc date 0016-dec-02, 0.000000E+00 sec (glc_run_mct) CESM Date 161202 0 (glc_run_mct) GLC Date 161202 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-03, 0.000000E+00 sec (glc_run_mct) CESM Date 161203 0 (glc_run_mct) GLC Date 161203 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-04, 0.000000E+00 sec (glc_run_mct) CESM Date 161204 0 (glc_run_mct) GLC Date 161204 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-05, 0.000000E+00 sec (glc_run_mct) CESM Date 161205 0 (glc_run_mct) GLC Date 161205 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-06, 0.000000E+00 sec (glc_run_mct) CESM Date 161206 0 (glc_run_mct) GLC Date 161206 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-07, 0.000000E+00 sec (glc_run_mct) CESM Date 161207 0 (glc_run_mct) GLC Date 161207 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-08, 0.000000E+00 sec (glc_run_mct) CESM Date 161208 0 (glc_run_mct) GLC Date 161208 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-09, 0.000000E+00 sec (glc_run_mct) CESM Date 161209 0 (glc_run_mct) GLC Date 161209 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-10, 0.000000E+00 sec (glc_run_mct) CESM Date 161210 0 (glc_run_mct) GLC Date 161210 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-11, 0.000000E+00 sec (glc_run_mct) CESM Date 161211 0 (glc_run_mct) GLC Date 161211 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-12, 0.000000E+00 sec (glc_run_mct) CESM Date 161212 0 (glc_run_mct) GLC Date 161212 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-13, 0.000000E+00 sec (glc_run_mct) CESM Date 161213 0 (glc_run_mct) GLC Date 161213 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-14, 0.000000E+00 sec (glc_run_mct) CESM Date 161214 0 (glc_run_mct) GLC Date 161214 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-15, 0.000000E+00 sec (glc_run_mct) CESM Date 161215 0 (glc_run_mct) GLC Date 161215 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-16, 0.000000E+00 sec (glc_run_mct) CESM Date 161216 0 (glc_run_mct) GLC Date 161216 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-17, 0.000000E+00 sec (glc_run_mct) CESM Date 161217 0 (glc_run_mct) GLC Date 161217 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-18, 0.000000E+00 sec (glc_run_mct) CESM Date 161218 0 (glc_run_mct) GLC Date 161218 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-19, 0.000000E+00 sec (glc_run_mct) CESM Date 161219 0 (glc_run_mct) GLC Date 161219 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-20, 0.000000E+00 sec (glc_run_mct) CESM Date 161220 0 (glc_run_mct) GLC Date 161220 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-21, 0.000000E+00 sec (glc_run_mct) CESM Date 161221 0 (glc_run_mct) GLC Date 161221 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-22, 0.000000E+00 sec (glc_run_mct) CESM Date 161222 0 (glc_run_mct) GLC Date 161222 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-23, 0.000000E+00 sec (glc_run_mct) CESM Date 161223 0 (glc_run_mct) GLC Date 161223 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-24, 0.000000E+00 sec (glc_run_mct) CESM Date 161224 0 (glc_run_mct) GLC Date 161224 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-25, 0.000000E+00 sec (glc_run_mct) CESM Date 161225 0 (glc_run_mct) GLC Date 161225 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-26, 0.000000E+00 sec (glc_run_mct) CESM Date 161226 0 (glc_run_mct) GLC Date 161226 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-27, 0.000000E+00 sec (glc_run_mct) CESM Date 161227 0 (glc_run_mct) GLC Date 161227 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-28, 0.000000E+00 sec (glc_run_mct) CESM Date 161228 0 (glc_run_mct) GLC Date 161228 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-29, 0.000000E+00 sec (glc_run_mct) CESM Date 161229 0 (glc_run_mct) GLC Date 161229 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-30, 0.000000E+00 sec (glc_run_mct) CESM Date 161230 0 (glc_run_mct) GLC Date 161230 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0016-dec-31, 0.000000E+00 sec (glc_run_mct) CESM Date 161231 0 (glc_run_mct) GLC Date 161231 0 (glc_run_mct) valid Inputs = F ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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 ---------------------------------------------------------- * Diagnostic output, time = 14.9999999999999627 * 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) 0.0000000000000000 * 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 -12.7225547224679190 * 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_manager) glc date 0017-jan-01, 0.000000E+00 sec glc_io_write_history: calling dumpfile for history filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.h.0017-01-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.h.0017-01-01 -00000.nc for output; Write output at start of run and every 1.00000000000000 years Creating variables internal_time, time, and tstep_count 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 artm Creating variable smb Creating variable thk Creating variable topg Creating variable usurf ******************************************************************************* Writing to file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.h.0017-01 -01-00000.nc at time 16.0000000000000 (glc_run_mct) CESM Date 170101 0 (glc_run_mct) GLC Date 170101 0 (glc_run_mct) valid Inputs = T glc_io_write_restart: calling dumpfile for restart filename= bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0017-01-01-00000.nc ******************************************************************************* Opening file bwma1850.f09.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0017-01-01 -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.y15.los_chocoyos.qboE.ensoM.rev2.cism.r.0017-01 -01-00000.nc at time 16.0000000000000 (time_manager) glc date 0017-jan-02, 0.000000E+00 sec (glc_run_mct) CESM Date 170102 0 (glc_run_mct) GLC Date 170102 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-03, 0.000000E+00 sec (glc_run_mct) CESM Date 170103 0 (glc_run_mct) GLC Date 170103 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-04, 0.000000E+00 sec (glc_run_mct) CESM Date 170104 0 (glc_run_mct) GLC Date 170104 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-05, 0.000000E+00 sec (glc_run_mct) CESM Date 170105 0 (glc_run_mct) GLC Date 170105 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-06, 0.000000E+00 sec (glc_run_mct) CESM Date 170106 0 (glc_run_mct) GLC Date 170106 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-07, 0.000000E+00 sec (glc_run_mct) CESM Date 170107 0 (glc_run_mct) GLC Date 170107 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-08, 0.000000E+00 sec (glc_run_mct) CESM Date 170108 0 (glc_run_mct) GLC Date 170108 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-09, 0.000000E+00 sec (glc_run_mct) CESM Date 170109 0 (glc_run_mct) GLC Date 170109 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-10, 0.000000E+00 sec (glc_run_mct) CESM Date 170110 0 (glc_run_mct) GLC Date 170110 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-11, 0.000000E+00 sec (glc_run_mct) CESM Date 170111 0 (glc_run_mct) GLC Date 170111 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-12, 0.000000E+00 sec (glc_run_mct) CESM Date 170112 0 (glc_run_mct) GLC Date 170112 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-13, 0.000000E+00 sec (glc_run_mct) CESM Date 170113 0 (glc_run_mct) GLC Date 170113 0 (glc_run_mct) valid Inputs = F (time_manager) glc date 0017-jan-14, 0.000000E+00 sec (glc_run_mct) CESM Date 170114 0 (glc_run_mct) GLC Date 170114 0 (glc_run_mct) valid Inputs = F