This is RegCM trunk SVN Revision: tag 4.3-rc14 compiled at: data : Jun 04 2012 time: 09:59:56 : this run start at : Tue Jun 5 14:29:07 2012 : it is submitted by : mozart : it is running on : localhost.localdomain : it is using : 4 processors : in directory : /home/mozart/RegCM-4.3-rc14/run RESTARTPARAM namelist READ IN TIMEPARAM namelist READ IN OUTPARAM namelist READ IN PHYSICSPARAM namelist READ IN SUBEXPARAM namelist READ IN EMANPARAM namelist READ IN CHEMPARAM namelist READ IN CBMZ gas-phase + sulfate simulation starting first checks dtau = 37.50000000000000 75.00000000000000 open_domain: READING HEADER FILE:input/test_001_DOMAIN000.nc initial date of the global simulation: idate = 2001-08-01 00:00:00 UTC Setting IPCC scenario to RCP2.6 initial date of this simulation: 2001-08-01 00:00:00 UTC final date of this simulation: 2001-08-06 00:00:00 UTC total simulation lenght 120 hours dtsec (timestep in seconds) 150.0000 input/output parameters if true(T) create SAV files for restart: ifsave = T Frequency in hours to create SAV: savfrq = 7200.000000000000 if true (T) Output ATM files: ifatm = T Frequency in hours to write ATM: atmfrq = 6.000000000000000 Frequency in hours to write RAD: radfrq = 6.000000000000000 Frequency in hours to write SRF: srffrq = 3.000000000000000 if true (T) output CHEM files: ifchem = T Frequency in hours to write CHEM: chemfrq = 6.000000000000000 Frequency in hours to write CLM: clmfrq = 12.00000000000000 physical parameterizations Lateral Boundary conditions scheme: iboudy = 5 Cumulus convection scheme: icup = 4 Grell Scheme Cumulus closure scheme: igcc = 1 Moisture scheme: ipptls = 1 Ocean Flux scheme: iocnflx = 2 Zeng roughness formula: iocnrough = 1 Coupling with ROMS ocean model: iocncpl = 0 Pressure gradient force scheme: ipgf = 0 Prescribed a surface LW emissivity: iemiss = 0 Use lake model lakemod = 0 Use Chemical/aerosol model (0=no,1=yes): ichem = 1 Use diurnal sst cycle effect (0=no,1=yes): idcsst = 0 Use sea ice effect (0=no,1=yes): iseaice = 0 Use desert seasonal effect (0=no,1=yes): idesseas = 1 Use convective LWP parameterization for large-scale clouds (0=no,1=yes): iconvlwp = 1 Nudge value high range = 3.000000 Nudge value medium range = 2.000000 Nudge value low range = 1.000000 model parameters time step for radiation model in minutes: dtrad = 30.000000 time step for land surface model in seconds : dtsrf = 600.000000 time step for LW absorption/emissivity in hours: dtabem = 18.000000 time step for atmosphere model in seconds: dt = 150.000000 # of bottom model levels with no clouds: ncld = 1 Reading in DOMAIN data *************************************************** *************************************************** **** RegCM IS BEING RUN ON THE FOLLOWING GRID: **** **** Map Projection: LAMCON **** **** IY= 50 JX= 80 KX= 18 **** **** PTOP= 5.000000000000000 DX= 60.00000000000000 **** **** CLAT= 45.39000000000000 CLON= 5.480000000000000 **** *************************************************** Index of highest allowed pbl: kmxpbl = 10 Auto-conversion rate: Land = 0.000250 Ocean = 0.000250 Relative humidity thresholds: Land = 0.8000000000000000 Ocean = 0.9000000000000000 Gultepe factors: Land= 0.4000000000000000 Ocean= 0.4000000000000000 Maximum cloud cover for radiation: 0.8000000000000000 Maximum relative humidity: 1.010000000000000 rh0 temperature threshold: 238.0000000000000 Raindrop Evaporation Rate 1.0000000000000000E-003 Raindrop Accretion Rate 3.000000000000000 Maximum total cloud cover for radiation: 0.7500000000000000 EMANUEL (1991) CONVECTION V4.3C (20 May, 2002) MIN CONVECTION ORIGIN (minsig/orig): 0.9500000000000000 3 AUTOCONVERSION THERSHOLD (elcrit): 1.1000000000000001E-003 AUTOCONVERSION THRESHOLD TO ZERO (tlcrit): -55.00000000000000 ENTRAINMENT COEFFICIENT (entp): 1.500000000000000 FRACTIONAL AREA OF UNSATURATED DNDRAFT (sigd): 5.0000000000000003E-002 PRECIP FRACTION OUTSIDE OF CLOUD (sigs): 0.1200000000000000 FALL SPEED OF RAIN (omtrain): 50.00000000000000 FALL SPEED OF SNOW (omtsnow): 5.500000000000000 RAIN EVAPORATION COEFFICIENT (coeffr): 1.000000000000000 SNOW EVAPORATION COEFFICIENT (coeffs): 0.8000000000000000 CONVECTIVE MOMENTUM TRANSPORT COEFFICIENT (cu): 0.7000000000000000 DOWNDRAFT VELOCITY SCALE (betae): 10.00000000000000 MAX NEGATIVE PERTURBATION BELOW LFC (dtmax): 0.9000000000000000 QUASI-EQUILIBRIUM APPROACH RATE (alphae): 0.2000000000000000 QUASI-EQUILIBRIUM APPROACH RATE (damp): 0.1000000000000000 CONVECTIVE CLOUD FRACTION/WATER Maximum Convective Cloud Cover before resolution scaling: 0.2500000000000000 Maximum Convective Cloud Cover after resolution scaling: 0.2500000000000000 Convective Cloud Water: 5.0000000000000002E-005 the surface energy budget is used to calculate the ground temperature. the radiation is computed every 12 time steps. relaxation boudnary conditions (exponential method) are used. fnudge = 0.33333E-03 gnudge = 0.48000E+06 0 k sigma(k) a(k) dsigma(k) twt(k,1) twt(k,2) qcon(k) 1 0.0000 0.0250 0.0500 0.0000 0.0000 0.0000 2 0.0500 0.0750 0.0500 0.5000 0.5000 0.5000 3 0.1000 0.1300 0.0600 0.4545 0.5455 0.5455 4 0.1600 0.1950 0.0700 0.4615 0.5385 0.5385 5 0.2300 0.2700 0.0800 0.4667 0.5333 0.5333 6 0.3100 0.3500 0.0800 0.5000 0.5000 0.5000 7 0.3900 0.4300 0.0800 0.5000 0.5000 0.5000 8 0.4700 0.5100 0.0800 0.5000 0.5000 0.5000 9 0.5500 0.5900 0.0800 0.5000 0.5000 0.5000 10 0.6300 0.6700 0.0800 0.5000 0.5000 0.5000 11 0.7100 0.7450 0.0700 0.5333 0.4667 0.4667 12 0.7800 0.8100 0.0600 0.5385 0.4615 0.4615 13 0.8400 0.8650 0.0500 0.5455 0.4545 0.4545 14 0.8900 0.9100 0.0400 0.5556 0.4444 0.4444 15 0.9300 0.9450 0.0300 0.5714 0.4286 0.4286 16 0.9600 0.9700 0.0200 0.6000 0.4000 0.4000 17 0.9800 0.9850 0.0100 0.6667 0.3333 0.3333 18 0.9900 0.9950 0.0100 0.5000 0.5000 0.5000 19 1.0000 time step = 150.00 seconds dx = 60000. meters grid points (x,y) = ( 80, 50) Number of levels = 18 constant hor. diff. coef. = 0.36000E+05 m*m/s maximum hor. diff. coef. = 0.37500E+06 m*m/s Calculate solar declination angle at 2001080100 *** Day 213.0000 solar declination angle = 18.00836594 degrees. READY IC DATA for 2001-08-01 00:00:00 UTC SEARCH BC data for 2001080106 READY BC from 2001080100 to 2001080106 ozone profiles 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.5203E-07 0.5267E-07 0.5743E-07 0.6241E-07 0.7116E-07 0.8473E-07 0.1058E-06 0.1480E-06 0.2240E-06 0.4106E-06 0.7942E-06 0.1411E-05 0.3175E-05 0.0000E+00 HVREAD TUVGRID HVREAD TUVGRID HVREAD TUVGRID HVREAD TUVGRID READY ICCH DATA for 2001-08-01 00:00:00 UTC SEARCH CHBC data for 2001080106 READY CHBC from 2001080100 to 2001080106 READ CHEM EMISSION for 2001080100 Opening ch. emission file input/test_001_CHEMISS.nc FAB emis testcoico 4.3644821090538244E-009 dt, dtau = 150.0000000000000 37.50000000000000 75.00000000000000 Calculating Vertical Modes - Linearization about standard atmosphere sigma 0.000000000000000 5.0000000745058060E-002 0.1000000014901161 0.1599999964237213 0.2300000041723251 0.3100000023841858 0.3899999856948853 0.4699999988079071 0.5500000119209290 0.6299999952316284 0.7099999785423279 0.7799999713897705 0.8399999737739563 0.8899999856948853 0.9300000071525574 0.9599999785423279 0.9800000190734863 0.9900000095367432 1.000000000000000 t mean 218.1500000000000 218.1500000000000 218.1500000000000 218.3542409442711 229.6073633740222 239.4738777814628 247.8608104488738 255.1875078141716 261.7134932029802 267.6112965336919 272.6779761489402 276.7657642164265 280.0340919827662 282.5921398189133 284.5155786004976 285.8562622428105 286.6479789475436 287.1706533859724 ps mean 100.0000000000000 0 vertical mode problem completed for kx= 18 0 errors detected (should be 0) aam, fac = 4.000000000000000 33.33333333333334 aam, fac = 2.000000000000000 60.00000000000000 ******* OPENING NEW OUTPUT FILES : 2001-08-01 00:00:00 UTC Opening new output file output//test_001_ATM.2001080100.nc Opening new output file output//test_001_SRF.2001080100.nc Opening new output file output//test_001_STS.2001080100.nc Opening new output file output//test_001_RAD.2001080100.nc Opening new output file output//test_001_SO2.2001080100.nc Opening new output file output//test_001_SO4.2001080100.nc Opening new output file output//test_001_DMS.2001080100.nc Opening new output file output//test_001_O3.2001080100.nc Opening new output file output//test_001_NO2.2001080100.nc Opening new output file output//test_001_NO.2001080100.nc Opening new output file output//test_001_CO.2001080100.nc Opening new output file output//test_001_H2O2.2001080100.nc Opening new output file output//test_001_HNO3.2001080100.nc Opening new output file output//test_001_N2O5.2001080100.nc Opening new output file output//test_001_HCHO.2001080100.nc Opening new output file output//test_001_ALD2.2001080100.nc Opening new output file output//test_001_ISOP.2001080100.nc Opening new output file output//test_001_C2H6.2001080100.nc Opening new output file output//test_001_PAR.2001080100.nc Opening new output file output//test_001_ACET.2001080100.nc Opening new output file output//test_001_MOH.2001080100.nc Opening new output file output//test_001_OLT.2001080100.nc Opening new output file output//test_001_OLI.2001080100.nc Opening new output file output//test_001_TOLUE.2001080100.nc Opening new output file output//test_001_XYL.2001080100.nc Opening new output file output//test_001_ETHE.2001080100.nc Opening new output file output//test_001_PAN.2001080100.nc Opening new output file output//test_001_CH4.2001080100.nc Opening new output file output//test_001_OPT.2001080100.nc Doing emission/absorbtion calculation... rank 3 in job 21 localhost.localdomain_49870 caused collective abort of all ranks exit status of rank 3: killed by signal 11 rank 2 in job 21 localhost.localdomain_49870 caused collective abort of all ranks exit status of rank 2: killed by signal 11 rank 0 in job 21 localhost.localdomain_49870 caused collective abort of all ranks exit status of rank 0: killed by signal 11