This is RegCM trunk SVN Revision: tag-4.7.0 compiled at: data : Dec 15 2020 time: 15:39:30 : this run start at : 2022-10-11 14:47:01+0200 : it is submitted by : new : it is running on : localhost.localdomain : it is using : 4 processors : in directory : /home/new/RegCM-4.7.0/run_fnl CPUS DIM1 = 2 CPUS DIM2 = 2 Reading model namelist file Using default dynamical parameters. Using default hydrostatc parameters. Using default subex parameter. Using default Holtslag parameter. Initial date of the global simulation: 2015-08-01 00:00:00 UTC Initial date of this run : 2015-08-01 00:00:00 UTC Final date of this run : 2015-08-31 00:00:00 UTC Total simulation lenght : 720 hours Timestep in seconds = 50.000000 Split explicit dtau = 12.500000 25.000000 Reading Domain file : ./input/EGYfnl_DOMAIN000.nc Setting IPCC scenario to RCP4.5 Create SAV files : T Create ATM files : F Create RAD files : F Create SRF files : T Create STS files : T Monthly SAV files are written Frequency in hours to create ATM : 6.0 Frequency in hours to create RAD : 6.0 Frequency in hours to create SRF : 1.0 Physical Parameterizations Lateral Boundary conditions : 5 Semi-Lagrangian Advection : 0 Land cumulus conv. scheme : 4 Ocean cumulus conv. scheme : 4 Moisture schem : 1 Ocean Flux scheme : 2 Zeng roughness formula : 1 Zeng roughness method : 1 Coupling with ocean : 0 Coupling with wave : 0 Pressure gradient force : 0 Prescribed LW emissivity : 0 Lake model in BATS : 0 Simulate diurnal sst cycle : 0 Simulate sea ice cover : 0 Simulate desert seasons : 0 Enable chem/aerosol model : 0 Large scale LWP as convect. : 1 Cloud fraction scheme : 1 Marine stratocumulus : 1 Climate O3 dataset : 0 Climate Aerosol dataset : 0 Boundary Pameterizations Num. of bndy points cross : 12 Num. of bndy points dot : 12 Nudge value high range : 3.000000 Nudge value medium range : 2.000000 Nudge value low range : 1.000000 Nm paramter : -1.000000 Dm paramter : -1.000000 Model Timestep Pameterizations time step for dynamical model in seconds : 50.000000 time step for surface model in seconds : 600.000000 time step for cumulus model in seconds : 300.000000 time step for radiation model in seconds : 1800.000000 time step for emission model in seconds : 64800.000000 Domain grid parameters: Map Projection : LAMCON Dot Grid Full Extent : 70x 70x 18 Model Top Pressure : 5.000000 cb Model Grid Spacing : 20.000000 km Grid Center Latitude : 27.000000 deg Grid Center longitude : 30.000000 deg True Latitude 1 : 17.000000 deg True Latitude 2 : 40.000000 deg PBL limit for Holtstag Index of highest allowed pbl : 10 Cloud fraction schemes parameters # of bottom no cloud model levels : 1 Maximum relative humidity : 1.010000 Minimum relative humidity : 0.010000 Maximum total cloud cover for rad : 0.750000 Conv. CF UMF factor deep cumulus : 0.140000 Conv. CF UMF factor shallow cumul : 0.070000 Conv. CF UMF factor K2 : 500.000000 Surface radiation hack : T Vavrus-Waliser Arctic cloud fix : T SUBEX large scale precipitation parameters Auto-conversion rate: Land = 0.000500 Ocean = 0.000500 Gultepe factors: Land = 0.650000 Ocean = 0.300000 Land Raindrop Evaporation Rate : 0.000010 Ocean Raindrop Evaporation Rate : 0.000010 Land Raindrop Accretion Rate : 6.000000 Ocean Raindrop Accretion Rate : 4.000000 Condensation efficiency : 1.000000 Emanuel (1991) Convection Scheme V4.3C used. Min Convection origin : 0.950000, (16) Autoconversion Threshold (ocean) : 0.000910 Autoconversion Threshold (land) : 0.000910 Autoconversion Threshold to zero : -55.000000 Entrainment Coefficient : 1.500000 Fractional area of uns. downdraft : 0.050000 Fractional area of uns. downdraft : 0.050000 Fall speed of rain : 50.000000 Fall speed of snow : 5.500000 Rain evaporation coefficient : 0.500000 Snow evaporation coefficient : 0.800000 Convective momentum transport coef: 0.700000 Downdraft velocity scale : 10.000000 Max negative perturbation blw LFC : 0.900000 Quasi-equilibrium approach rate 1 : 0.200000 Quasi-equilibrium approach rate 2 : 0.100000 Precipitation efficienct (land) : 0.999000 Precipitation efficienct (ocean) : 0.999000 Convective Cloud Cover parameters after resolution scaling Maximum Convective Cloud Cover : 0.645062 Convective Cloud Water : 0.000300 The surface energy budget is used to calculate the ground temperature. The radiation is computed every 30. minutes. Relaxation boundary conditions (exponential method) # k sigma a dsigma twt(1) twt(2) qcon 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 READY IC DATA for 2015-08-01 00:00:00 UTC SEARCH BC data for 2015080106 , step = 0 READY BC from 2015080100 to 2015080106 At 2015-08-01 00:00:00 UTC JDay 212.00000 solar declination angle = 18.42973142 degrees solar TSI irradiance = 1360.9414 W/m^2 Constant hor. diff. coef. = 0.120000E+05 m^2 s-1 Maximum hor. diff. coef. = 0.125000E+06 m^2 s-1 Computed background diff. coeff. = 0.490703E+01 - 0.120000E+05 m^2 s-1 Calculating Vertical Modes Linearization about standard atmosphere # sigma # 0.00 0.500E-01 0.100 0.160 0.230 0.310 0.390 0.470 0.550 0.630 0.710 0.780 0.840 0.890 0.890 0.930 0.960 0.980 0.990 1.00 # t mean # 218. 218. 218. 218. 230. 239. 248. 255. 262. 268. 273. 277. 280. 283. 283. 285. 286. 287. 287. # ps mean # 100. Vertical mode problem for kz = 18 Number of errors (should be 0) = 0 Split : 1 => aam : 4.0000, fac : 11.1111 Split : 2 => aam : 2.0000, fac : 20.0000 Opening new output file ./output//EGYfnl_SRF.2015080100.nc Opening new output file ./output//EGYfnl_STS.2015080100.nc At 2015-08-01 00:00:00 UTC JDay 212.00000 solar declination angle = 18.42973142 degrees solar TSI irradiance = 1360.9414 W/m^2 # Ozone profile at (3,3) # 0.502E-05 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 0.496E-07 WHUUUUBBBASAAAGASDDWD!!!!!!!!!!!!!!!! No more atmosphere here.... CFL violation detected, so model STOP ##################################### # DECREASE DT !!!! # ##################################### -------------- FATAL CALLED --------------- WHUUUUBBBASAAAGASDDWD!!!!!!!!!!!!!!!! No more atmosphere here.... CFL violation detected, so model STOP ##################################### # DECREASE DT !!!! # ##################################### -------------- FATAL CALLED --------------- Fatal in file: mod_tendency.F90 at line: 695 CFL VIOLATION ------------------------------------------- WHUUUUBBBASAAAGASDDWD!!!!!!!!!!!!!!!! No more atmosphere here.... CFL violation detected, so model STOP ##################################### # DECREASE DT !!!! # ##################################### -------------- FATAL CALLED --------------- Fatal in file: mod_tendency.F90 at line: 695 CFL VIOLATION ------------------------------------------- WHUUUUBBBASAAAGASDDWD!!!!!!!!!!!!!!!! No more atmosphere here.... CFL violation detected, so model STOP ##################################### # DECREASE DT !!!! # ##################################### -------------- FATAL CALLED --------------- Fatal in file: mod_tendency.F90 at line: 695 CFL VIOLATION ------------------------------------------- Fatal in file: mod_tendency.F90 at line: 695 CFL VIOLATION ------------------------------------------- mod_tendency.F90 : 695: 1 Abort called by computing node 0 at 2022-10-11 14:47:03.494 +0200 Execution terminated because of runtime error application called MPI_Abort(comm=0x84000004, 1) - process 0 Abort called by computing node 1 at 2022-10-11 14:47:03.494 +0200 Execution terminated because of runtime error Abort called by computing node 2 at 2022-10-11 14:47:03.494 +0200 Execution terminated because of runtime error Abort called by computing node 3 at 2022-10-11 14:47:03.494 +0200 Execution terminated because of runtime error application called MPI_Abort(comm=0x84000002, 1) - process 3 application called MPI_Abort(comm=0x84000002, 1) - process 1 application called MPI_Abort(comm=0x84000002, 1) - process 2 APPLICATION TERMINATED WITH THE EXIT STRING: Terminated (signal 15)