[root@cc1 exp_blhnew]# ./regcm<./regcm.in RESTARTPARAM READ IN TIMEPARAM READ IN OUTPARAM READ IN PHYSICSPARAM READ IN SUBEXPARAM READ IN GRELLPARAM READ IN EMANPARAM READ IN CHEMPARAM READ IN dtau = 37.50000000000000 75.00000000000000 NREC = 289276 IDATE1, IDATE2, dtmin, ktaur = 2000052400 2000080100 2.500000000000000 0 READING HEADER FILE DIMS 111 120 18 DOMAIN 50000.00 21.00000 80.00000 21.00000 80.00000 0.0000000E+00 PROJROTMER SIGMA 0.0000000E+00 5.0000001E-02 0.1000000 0.1600000 0.2300000 0.3100000 0.3900000 0.4700000 0.5500000 0.6300000 0.7100000 0.7800000 0.8400000 0.8900000 0.9300000 0.9600000 0.9800000 0.9900000 1.000000 PTOP 1.000000 OUTPUT 1 1 ***** mdate = 2000052400 input/output parameters ifsave = T savfrq = 48.00000000000000 iftape = F tapfrq = 6.000000000000000 ifprt = F prtfrq = 12.00000000000000 kxout = 6 jxsex = 40 radisp = 6.000000000000000 batfrq = 3.000000000000000 nslice = 120 ifchem = F chemfrq = 6.000000000000000 physical parameterizations iboudy = 5 icup = 4 igcc = 2 ipptls = 1 iocnflx = 2 ipgf = 0 lakemod = 0 ichem = 0 model parameters radfrq = 30.00000000000000 abatm = 450.0000000000000 abemh = 18.00000000000000 dt = 150.0000000000000 ncld = 1 HT HTSD SATBRT XLAT XLONG MSFX MSFD F SNOWC *************************************************** *************************************************** **** RegCM IS BEING RUN ON THE FOLLOWING GRID: **** **** Map Projection: ROTMER **** **** IX= 111 JX= 120 KX= 18 **** **** PTOP= 1.000000 DX= 50000.00 **** **** CLAT= 21.00000 CLON= 80.00000 **** *************************************************** Index of highest allowed pbl: kt = 10 AUTO-CONVERSION RATE: LAND= 5.0000000000000000E-004 OCEAN= 5.0000000000000000E-004 RELATIVE HUMIDITY THRESHOLDS: LAND= 0.9900000000000000 OCEAN= 0.9900000000000000 GULTEPE FACTORS: LAND= 1.000000000000000 OCEAN= 1.000000000000000 MAXIMUM CLOUD COVER FOR RADIATION: 0.8000000000000000 MAXIMUM RELATIVE HUMIDITY: 1.010000000000000 rh0 temperature threshold: 238.0000000000000 Raindrop Evaporation Rate 2.0000000000000000E-005 Raindrop Accretion Rate 6.000000000000000 EMANUEL (1991) CONVECTION V4.3C (20 May, 2002) MIN CONVECTION ORIGIN (minsig/orig): 0.9500000000000000 3 AUTOCONVERSION THERSHOLD (elcrit): 1.0000000000000000E-003 AUTOCONVERSION THRESHOLD TO ZERO (tlcrit): -55.00000000000000 ENTRAINMENT COEFFICIENT (entp): 1.500000000000000 FRACTIONAL AREA OF UNSATURATED DNDRAFT (sigd): 5.0000000000000000E-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): 1.0000000000000000E-002 QUASI-EQUILIBRIUM APPROACH RATE (damp): 5.0000000000000000E-002 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: 4.9999998736893758E-005 the surface energy budget is used to calculate the ground temperature. julday = 145 gmt = 0.0 the radiation is computed every 12 time steps. relaxation boudnary conditions (exponential method) are used. fnudge = 0.33333E-03 gnudge = 0.33333E+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 maximum time = 69.000 days. time step = 150.00 seconds dx = 50000. meters grid points (x,y) = (120,111) number of levels = 18 constant hor. diff. coef. = 0.25000E+05 m*m/s maximum hor. diff. coef. = 0.26042E+06 m*m/s READING INITAL CONDITIONS 2000052400 U V TA QV PS TS *** initial total air = 0.30585E+18 kg, total water = 0.10863E+16 kg in large domain. *** solar declination angle = 20.99 degrees. ozone profiles 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4963E-07 0.4981E-07 0.4985E-07 0.4985E-07 0.5267E-07 0.5267E-07 0.5267E-07 0.5367E-07 0.5370E-07 0.5371E-07 0.5775E-07 0.5775E-07 0.5775E-07 0.6413E-07 0.6417E-07 0.6417E-07 0.7402E-07 0.7406E-07 0.7407E-07 0.9089E-07 0.9101E-07 0.9104E-07 0.1196E-06 0.1197E-06 0.1197E-06 0.1658E-06 0.1661E-06 0.1661E-06 0.2862E-06 0.2866E-06 0.2867E-06 0.5890E-06 0.5896E-06 0.5897E-06 0.1156E-05 0.1157E-05 0.1157E-05 0.2574E-05 0.2576E-05 0.2576E-05 0.7294E-05 0.7296E-05 0.7297E-05 0.0000E+00 0.0000E+00 0.0000E+00 dectim = 1440.000000000000 BCs are ready from 2000052400 to 2000052406 dt, dtau = 150.0000000000000 37.50000000000000 75.00000000000000 0 linearization about standard atmosphere (lstand=.t.) 0sigmaf 0.000E+00 5.000E-02 0.100 0.160 0.230 0.310 0.390 0.470 0.550 0.630 0.710 0.780 0.840 0.890 0.930 0.960 0.980 0.990 1.00 0t mean 218. 218. 218. 218. 225. 236. 245. 253. 260. 267. 272. 276. 280. 282. 284. 286. 287. 287. 0ps mean 100. 0 vertical mode problem completed for kx= 18 0 errors detected (should be 0) m, fac = 4 33.33333333333334 m, fac = 2 60.00000000000000 Writing output files in direct access format ******* OPENING NEW OUTPUT FILES: 2000052400 Note that rotated Mercartor (ROTMER) projections are not supported by GrADS. Although not exact, the eta.u projection in GrADS is somewhat similar. FERRET, however, does support this projection. OPENING NEW BAT FILE: output/SRF.2000052400 Note that rotated Mercartor (ROTMER) projections are not supported by GrADS. Although not exact, the eta.u projection in GrADS is somewhat similar. FERRET, however, does support this projection. BATS variables written at 2000052400 2.500000000000000 at day = 0.0851, ktau = 50 : 1st, 2nd time deriv of ps = 0.21323E-03 0.24245E-06, no. of points w/convection = 3816 BATS variables written at 2000052403 180.0000000000000 at day = 0.1719, ktau = 100 : 1st, 2nd time deriv of ps = 0.30562E-03 0.91678E-06, no. of points w/convection = 3388 Floating point exception [root@cc1 exp_blhnew]#