LD_LIBRARY_PATH: /usr/mpi/intel/openmpi-1.4.3-qlc/lib64:/opt/intel/composer_xe_2011_sp1.6.233/compiler/lib/intel64/: ############################################################### ############################################################### ##### ##### ##### Welcome to ##### ##### ##### ##### The Advanced Regional Prediction System (ARPS) ##### ##### ##### ##### Version 5.3 ##### ##### ##### ##### Developed by ##### ##### Center for Analysis and Prediction of Storms ##### ##### University of Oklahoma ##### ##### ##### ############################################################### ############################################################### The model begins by reading a number of control parameters, which are specified in namelist format through the standard input stream (unit 5). See the ARPS Users Guide and the sample input file, arps.input, for guidance on specifying these parameters At the end of all parameter input, a log file is produced which can be directly used as the input file when you want to replicate the same job. This file is named runnam.log.nn where runnam is a standard prefix for all output files that are produced by this job and nn is a number appended to the file name when file runnam.log.nn-1 already exists. Waiting namelist from standard input ... ======================================== Namelist block grid_dims sucessfully read. nx = 363 ny = 323 nz = 53 Namelist block message_passing sucessfully read. Number of processors in the x-direction is: 12 Number of processors in the y-direction is: 16 Maximum number of files open: 192 Namelist block comment_lines sucessfully read. Namelist block jobname sucessfully read. The name of this run is: ar2013041107 Namelist block model_configuration sucessfully read. The run mode is: 1 Namelist block initialization sucessfully read. The initial local time for this run is year-mo-dy:hr:mn:ss = 2013-04-11.07:35:00 Perturbation option was 0 The magnitude of the initial perturbation 1 is 4.000 K. The input radii of the thermal bubble are 0.100E+05 0.100E+05 0.150E+04 (m) in x, y and z direction respectively, and the center is located at x= 0.480E+05 y= 0.160E+05 z= 0.150E+04 (m). tsfc option was 0 The two time level restart data to be read in is may20.rst003600 The history dump type restart data format was 3 The t-dependent history dump format restart data to be read is ../extdata/ei2013041107.hdf027300 The base state/grid history dump format restart data to be read is ../extdata/ei2013041107.hdfgrdbas Sounding file to be used is may20.snd Namelist block nudging sucessfully read. The nudging assimilation option was 2 Nudging assimilation start: 0.00 Nudging assimilation stop: 600.00 Nudging assimilation interval: 30.00 Nudging assimilation gain: 1.00 The nudging increment file is ../adasdata/incr201304110700 Namelist block terrain sucessfully read. The mountain type option was 1 The height of mountain is 0.000 (m). The input half-width of bell-shaped mountain are 0.100E+05 0.100E+05 (m) in x and y direction respectively, and the center is located at x= 0.100E+05 y= 0.100E+05 (m). The terrain option was 2 The terrain data file is casa2013_dfw.trnhdf The terrain data file format is 3 Namelist block grid sucessfully read. Input dx was 1000.000 meters Input dy was 1000.000 meters The stretch option was 1 Input dz was 400.000 meters Input ctrlat was 33.000 degrees North Input ctrlon was -96.500 degrees East domain origin option was 0 dzmin is 20.000 meters zrefsfc is 0.000 meters dlayer1 is 0.000 meters dlayer2 is 100000.000 meters zflat is 100000.000 meters Namelist block projection sucessfully read. Input mapproj was 2 Input trulat1 was 32.000 degrees North Input trulat2 was 34.000 degrees North The latitude of the center of the model domain was 33.000 The longitude of the center of the model domain was -96.500 Input trulon was -97.000 degrees East Input sclfct was 0.10000E+01 The option for map factor was 1 The option for map factor term in u and v advection was 1 Namelist block timestep sucessfully read. The big timestep was 3.000 seconds. The model startup time was 0.000 seconds. The termination time was 600.000 seconds. Namelist block acoustic_wave sucessfully read. The sound speed option was 1 The reduction factor for sound speed was 0.500 The constant sound speed was 150.000 m/s. The vertical implicit integration option for w and p equations was 1 The option for potential temperature equation integrationwas 0 The time average coefficient for vertically implicit solver was 0.750 The input small timestep was 1.500 seconds. The actual small time step size to be used is 1.500 seconds. Namelist block equation_formulation sucessfully read. The option for pressure equation formulation was 1 Namelist block numerics sucessfully read. The option for time integration was 1 The option for momentum advection was 2 The option for scalar advection was 2 Namelist block boundary_condition_options sucessfully read. The lateral boundary conditions were set to external forced. All lateral boundary conditions will be reset to 5 accordingly. The boundary options are: 5 for west boundary, 5 for east boundary, 5 for south boundary, 5 for north boundary. The boundary options are: 1 for top boundary, 1 for bottom boundary. The upper boundary fft transform option is: 2 The radiation boundary condition option was 4 The constant gravity phase speed used by radiation lateral boundary condition option 2 was 300.000000 The relaxation coefficient used at the inflow boundaries is 0.500000 rbc_plbc = 1 Option for pressure detrending was 0 Namelist block exbcpara sucessfully read. The initial external boundary time string was 2013-04-1 The time interval to update external boundary conditions was 3600 The number of boundary relaxation zone grids was 12 The real grid number where BC relaxation is half weighted was 0.48000002E+01 The magnitude of the boundary relaxation damping was 0.20000000E-01 The external boundary file format was 3 Namelist block coriolis_force sucessfully read. The Coriolis term option was 4 The earth curvature option was 0 The flag for Coriolis formulation was 1 Namelist block turbulence sucessfully read. The turbulence option was 4 The isotropic turbulence option was 0 The 1.5 order TKE option was 3 The implicit treatment of vertical mixing option was 1 The nondimensional turbulent prandtl number was 0.330 The constant mixing coeff was 0.000 The parameter used to limit km was 1.000 The PBL parameterization option was 4 Namelist block computational_mixing sucessfully read. The second order computational mixing option was 0 The coeff for second order horizontal mixing was 0.00000E+00 The coeff for second order vertical mixing was 0.40000E-03 The fourth order computational mixing option was 1 The coeff for fourth order horizontal mixing was 0.10000E-02 The coeff for fourth order vertical mixing was 0.10000E-02 The c-mixing reduction factor for scalars was 0.10000E+01 The c-mix monotonic option was 0 Namelist block divergence_damping sucessfully read. The acoustic wave damping option was 2 The non-dimensional divergence damping coeff was 0.050 for horizontal and 0.050 for vertical Namelist block rayleigh_damping sucessfully read. The rayleigh damping option was 2 The rayleigh damping coeff was 0.20000E-02 The altitude of base of rayleigh damping was 0.12000E+05 Namelist block asselin_time_filter sucessfully read. The non-dimensional coeff of asselin time filter was 0.50000E-01 Namelist block microphysics sucessfully read. The microphysics option was 2 And the microphysics will be called every 1 time steps. DSD preference was 0 Cloud number concentration was 0.10000E+09 Rain DSD intercept parameters was 0.80000E+07 Snow DSD intercept parameters was 0.30000E+07 Graupel DSD intercept parameters was 0.40000E+06 Hail DSD intercept parameters was 0.40000E+05 Ice density was 0.50000E+03 Snow density was 0.10000E+03 Graupel density was 0.40000E+03 Hail density was 0.91300E+03 Rain shape parameter was 0.00000E+00 Ice shape parameter was 0.00000E+00 Snow shape parameter was 0.00000E+00 Graupel shape parameter was 0.00000E+00 Hail shape parameter was 0.00000E+00 Graupel initiation option was 1 Hail initiation option was 1 Microphysics thermal diagnostic option was 0 The moist phyics option was 1 The convective cumulus option was 0 The sub-saturation option was 0 The K-F rainwater feedback option was 0.00000 The K-F sub-saturation trigger was kfsubsattrig= 0 The vertical motion was 0.00500 The frequency of conv. para. updated in seconds was 120.00000 The frequency of grid para. updated in seconds was 120.00000 The downdraft flag was 1 The vertically implicit fall velocity option was 0 The fall velocity option was 1 The threshold of RH for condensation to occur: rhsat = 0.80000 The threshold of RH for a grid size of dx_rhsatmin: rhsatmin = 0.80000 The grid size for condensation to occur (RH=rhsatmin): dx_rhsatmin = 50000.00000 The grid size for condensation to occur (RH=100%): dx_rhsat100 = 5000.00000 rhsat for model integration is re-adjusted to 1.00000 Namelist block concentration sucessfully read. The concentration option was 0 Number of release points was 1 Number of emission points 1 Release point Emitted Emitted time No. icc jcc kcc Concentrat. sta. end. ---- ---- ---- ---- ----------- ---- ---- 1 85 83 2********** 720010800 Namelist block radiation sucessfully read. The radiation phyics option was 2 The radiation staggering option was 1 The option for longwave schemes was 1 The option to compute the shade was 0 The Time interval to update the radiation forcing was 600.00000 The radiation diagnostic output option was 0 Radiation physics will be calculated every 200 time steps Namelist block surface_physics sucessfully read. The surface physics option was 4 The land/water option was 1 The constant water cdh option was 0 The user specified drag coeff for momentun over land was 0.003 The user specified drag coeff for momentun over water was 0.001 The user specified drag coeff for heat over land was 0.003 The user specified drag coeff for heat over water was 0.001 The user specified drag coeff for moisture over land was 0.002 The user specified drag coeff for moisture over water was 0.001 The option for determining PBL depth was 2 The user specified PBL depth was 1400.000 The PBL length scale 0.250 The flux distribution option was 0 The heat and moisture distribution option was 1 Namelist block soil_ebm sucessfully read. For non-stretched case, dzmin was reset to dz. The stretch option was 0 Input nzsoil was 2 levels Input dzsoil was 1.000 meters Input zrefsoil was 0.000 meters soildzmin is 1.000 meters soildlayer1 is 0.000 meters soildlayer2 is 1.000 meters The surface data input option was 2 The soil model forced option was 0 The soil scheme input option was 1 The surface initial data input option was 2 Since soilmodel_option = 1, nzsoil is set to 2 and dzsoil is set to 1.0 The time step for surface energy budget model was 3.000 The surface soil type is 3 The surface vegtation type is 10 The leaf area index is 0.310 The user specified land surface roughness was 0.010 The user specified vegetation fraction was 0.300 The option for the soil scheme being forced is 0 The soil scheme is 1 The number of soil layers are 2 The average soil layer depth is 1.000 The reference height of the soil depth is 0.000 The initial ground level soil potential temperature over land is 293.000 The initial ground level soil potential temperature over water is 288.000 The canopy moisture is 0.000 The snow depth is 0.000 The offset of top soil layer from surface air temperature is 0.000 The offset of bottom soil layer from surface air temperature is 0.000 The saturation ratio of surface soil moisture is 0.700 The saturation ratio of deep soil moisture is 0.700 nstyps = 3 Option for including seasonal deep and skin layer temperature offset in the two-layer soil model Your choice is 0 The amplitude of the annual cycle of the difference (offset) in deep and skin layer soil seasonal-mean temperatures is 2.500 Namelist block grdtrans sucessfully read. Cell tracking option was 0 The grid translation option was 0 The domain translation speed in x was 0.000 The domain translation speed in y was 0.000 The depth of domain to check for grid translation was 2500.000 The time window for updating umove and vmove was 300.000 Cell tracking interval was 120.000 Cell-tracking routine will be called every 40 time steps. Cell restore time was 1800.000 Namelist block history_dump sucessfully read. The history dump option was 1 The history dump format was 3 Number of bits in packing GRIB dump data was 16 HDF4 compression option was 5 The history dump time interval was 300.000 seconds The history dump starting time was 0.000 seconds History data dumps will be produced every 100 time steps after the first 0 time steps where tttttt (if any) stands for the time of the data in seconds. Namelist block output sucessfully read. Grid and Base file output is ( 1 ). Formatted printout time interval was 0.000 seconds. Formatted printing is switched off. The flag to dump out ARPS array into EXBC fields was 0 The flag for HDF4 compression was 5 The flag to dump out ARPS surface data files was 0 The flag to dump out ARPS soil data files was 0 The flag to dump out an ARPS terrain data file was 0 The input grid coordinate dump option was 0 The input base state array dump option was 0 The input mass-velocity array dump option was 1 The input non-ice water array dump option was 1 The input rain array dump option was 1 The input precipitation rates array dump option was 1 The input ice array dump option was 1 The input TKE dump option was 1 The input eddy mixing coeff dump option was 1 The soil variable dump option was 1 The surface property array dump option was 1 The radiation arrays dump option was 1 The surface fluxes dump option was 1 The qc EXBC dump option was 0 The qr EXBC dump option was 0 The qi EXBC dump option was 0 The qs EXBC dump option was 0 The qh EXBC dump option was 0 The qg EXBC dump option was 0 Concentration number EXBC dump option was 0 Reflectivity EXBC dump option was 0 Specify the time interval between restart data dumps (s): Time interval between restart dumps was 600.000 seconds Restart data files ar2013041107.rsttttttt will be produced every 200 time steps where tttttt stands for the time of the data in seconds. Interval between max/min calculations was 300.000 seconds Max. min. statistics are calculated every 100 time steps. and the results are written into file ar2013041107.maxmin Interval between energy stats calculations was 0.000 Energy statistics calculations are switched off. Image dump option was 0 Image dump interval was 60.000 Data files for images will be written every 20 time steps. Plotting option was 0 Plotting interval was 600.000 Plotting routine will be called every 200 time steps. File compression option was 0 Namelist block debug sucessfully read. The debug printing level was 0 ======================================= Processor nx = 33 Processor ny = 23 Input dtsml = 1.50000, Adjusted dtsml = 1.50000 PRINT OUT OF MODEL PARAMETERS FOR GRID 1 &grid_dims nx = 363, ny = 323, nz = 53, / &message_passing nproc_x = 12, nproc_y = 16, max_fopen = 192, / &comment_lines nocmnt = 2, cmnt(01) = 'ARPS 5.3', cmnt(02) = ' nx = 363, ny = 323, nz = 53 ARPS 5.3', / &jobname runname = 'ar2013041107', / &model_configuration runmod = 1, / &initialization initime = '2013-04-11.07:35:00', timeopt = 0, initopt = 3, inibasopt = 1, viniopt = 1, soilinitopt = 0, tsfcopt = 0, soiltintv = 1800.0000, ubar0 = 0.0000, vbar0 = 0.0000, pt0opt = 0, ptpert0( 1) = 4.0000, pt0radx( 1) = 10000.0000, pt0rady( 1) = 10000.0000, pt0radz( 1) = 1500.0000, pt0ctrx( 1) = 48000.0000, pt0ctry( 1) = 16000.0000, pt0ctrz( 1) = 1500.0000, sndfile = 'may20.snd', rstinf = 'may20.rst003600', inifmt = 3, inisplited= 1001111, inifile = '../extdata/ei2013041107.hdf027300', inigbf = '../extdata/ei2013041107.hdfgrdbas', / &nudging nudgopt = 2, ndstart = 0.0000, ndstop = 600.0000, ndintvl = 30.0000, ndgain = 1.0000, incrfnam = '../adasdata/incr201304110700', incrfmt = 3, nudgu = 1, nudgv = 1, nudgw = 0, nudgp = 1, nudgpt = 1, nudgqv = 1, nudgqc = 1, nudgqr = 1, nudgqi = 1, nudgqs = 1, nudgqh = 1, / &terrain ternopt = 2, mntopt = 1, hmount = 0.0000, mntwidx = 10000.0000, mntwidy = 10000.0000, mntctrx = 10000.0000, mntctry = 10000.0000, ternfmt = 3, terndta = 'casa2013_dfw.trnhdf', / &grid dx = 1000.0000, dy = 1000.0000, dz = 400.0000, strhopt = 1, dzmin = 20.0000, zrefsfc = 0.0000, dlayer1 = 0.0000, dlayer2 = 100000.0000, strhtune = 0.2000, zflat = 100000.0000, ctrlat = 33.0000, ctrlon = -96.5000, crdorgnopt= 0, / &projection mapproj = 2, trulat1 = 32.0000, trulat2 = 34.0000, trulon = -97.0000, sclfct = 0.10000E+01, mpfctopt = 1, mptrmopt = 1, maptest = 0, / ×tep dtbig = 3.0000, tstart = 0.0000, tstop = 600.0000, / &acoustic_wave vimplct = 1, ptsmlstp = 0, csopt = 1, csfactr = 0.5000, csound = 150.0000, tacoef = 0.7500, dtsml = 1.5000, / &equation_formulation buoyopt = 1, buoy2nd = 1, rhofctopt = 1, bsnesq = 0, peqopt = 1, / &numerics tintegopt = 1, madvopt = 2, sadvopt = 2, fctorderopt= 2, fctadvptprt= 1, / &boundary_condition_options lbcopt = 2, wbc = 5, ebc = 5, sbc = 5, nbc = 5, tbc = 1, fftopt = 2, bbc = 1, rbcopt = 4, rbc_plcb = 1, c_phase = 300.0000, rlxlbc = 0.5000, pdetrnd = 0, / &exbcpara exbcname = '../extdata/em2013041107', tinitebd = '2013-04-11.07:00:00', tintvebd = 3600, ngbrz = 12, brlxhw = 0.48000E+01, cbcdmp = 0.20000E-01, exbcfmt = 3, / &coriolis_force coriopt = 4, earth_curvature = 0, coriotrm = 1, / &turbulence tmixopt = 4, trbisotp = 0, tkeopt = 3, trbvimp = 1, tmixvert = 0, prantl = 0.3300, tmixcst = 0.0000, kmlimit = 1.0000, / &computational_mixing cmix2nd = 0, cfcm2h = 0.00000E+00, cfcm2v = 0.40000E-03, cmix4th = 1, cfcm4h = 0.10000E-02, cfcm4v = 0.10000E-02, scmixfctr = 0.10000E+01, cmix_opt = 0, / &divergence_damping divdmp = 2, divdmpndh = 0.0500, divdmpndv = 0.0500, / &rayleigh_damping raydmp = 2, cfrdmp = 0.0020, zbrdmp = 12000.0000, / &asselin_time_filter flteps = 0.0500, / &concentration ccin = 0, cpoint = 1, icc = 85, jcc = 83, kcc = 2, ccstart = 7200, ccend = 10800, ccemit = 180000.0000, / µphysics moist = 1, mphyopt = 2, nmphystp = 1, dsdpref = 0, ntcloud = 0.10000E+09, n0rain = 0.80000E+07, n0snow = 0.30000E+07, n0grpl = 0.40000E+06, n0hail = 0.40000E+05, rhoice = 0.50000E+03, rhosnow = 0.10000E+03, rhogrpl = 0.40000E+03, rhohail = 0.91300E+03, alpharain = 0.00000E+00, alphaice = 0.00000E+00, alphasnow = 0.00000E+00, alphagrpl = 0.00000E+00, alphahail = 0.00000E+00, graupel_ON = 1, hail_ON = 1, mpthermdiag = 0, cnvctopt = 0, kffbfct = 0.00000E+00, kfsubsattrig = 0, wcldbs = 0.50000E-02, confrq = 0.1200E+03, qpfgfrq = 0.1200E+03, idownd = 1, impfallopt = 0, fallopt = 1, subsatopt = 0, rhsat = 0.10000E+01, rhsatmin = 0.80000E+00, dx_rhsatmin = 0.50000E+05, dx_rhsat100 = 0.50000E+04, / &radiation radopt = 2, radstgr = 1, rlwopt = 1, radshade = 0, dtrad = 600.0000, raddiag = 0, / &surface_physics sfcphy = 4, landwtr = 1, cdhwtropt = 0, cdmlnd = 0.30000E-02, cdmwtr = 0.10000E-02, cdhlnd = 0.30000E-02, cdhwtr = 0.10000E-02, cdqlnd = 0.21000E-02, cdqwtr = 0.70000E-03, pbldopt = 2, pbldpth0 = 1400.0000, lsclpbl0 = 0.2500, tqflxdis = 1, dtqflxdis = 200.0000, sfcdiag = 0, / &soil_ebm sfcdat = 2, styp = 3, vtyp = 10, lai0 = 0.3100, roufns0 = 0.0100, veg0 = 0.3000, sfcdtfl = '../casa2013_dfw_m04_d11_n3.sfchdf', sitemeso = '../../arpsdata.dir/mts.dir/Meso', siteflux = '../../arpsdata.dir/mts.dir/Flux', siternet = '../../arpsdata.dir/mts.dir/Radd', sitesoil = '../../arpsdata.dir/mts.dir/Soil', siteveg = '../../arpsdata.dir/mts.dir/Veg', sfcfmt = 3, soilmodel_forced = 0, soilmodel_option = 1, nzsoil = 2, dzsoil = 1.0000, zrefsoil = 0.0000, tsoilint(001) = 283.2000, qsoilint(001) = 0.2600, tsoilint(002) = 291.2000, qsoilint(002) = 0.2603, soilstrhopt = 0000, soildzmin = 1.0000, soildlayer1 = 0.0000, soildlayer2 = 1.0000, soilstrhtune = 1.0000, sfcdtfl = '../casa2013_dfw_m04_d11_n3.sfchdf', sfcfmt = 3, soilinit = 2, ptslnd0 = 293.0000, ptswtr0 = 288.0000, wetcanp0 = 0.00000E+00, snowdpth0 = 0.00000E+00, ttprt = 0.00000E+00, tbprt = 0.00000E+00, wgrat = 0.70000E+00, w2rat = 0.70000E+00, soilinfl = '../extdata/ei2013041107.soilvar.027300', soilfmt = 3, tsoil_offset = 0, tsoil_offset_amplitude = 2.5000, dtsfc = 3.0000, prtsoilflx = 0, / &grdtrans cltkopt = 0, tceltrk = 120.0000, tcrestr = 1800.0000, grdtrns = 0, umove = 0.0000, vmove = 0.0000, twindow = 300.0000, chkdpth = 2500.0000, / &history_dump hdmpopt = 1, hdmpfmt = 3, dmp_out_joined = 0000000, grbpkbit = 16, hdfcompr = 5, thisdmp = 300.0000, tstrtdmp = 0.0000, numhdmp = 3, hdmptim(001) = 0.0000, hdmptim(002) = 3600.0000, hdmptim(003) = 7200.0000, / &output dirname = '../arpsdata/', exbcdmp = 0, exbchdfcompr = 5, extdadmp = 0, filcmprs = 0, basout = 0, grdout = 0, varout = 1, mstout = 1, iceout = 1, tkeout = 1, trbout = 1, sfcout = 1, rainout = 1, prcout = 1, landout = 1, radout = 1, flxout = 1, qcexout = 0, qrexout = 0, qiexout = 0, qsexout = 0, qhexout = 0, qgexout = 0, nqexout = 0, zqexout = 0, sfcdmp = 0, soildmp = 0, terndmp = 0, tfmtprt = 0.0000, trstout = 600.0000, tmaxmin = 300.0000, tenergy = 0.0000, imgopt = 0, timgdmp = 60.0000, pltopt = 0, tplots = 600.0000, / &debug lvldbg = 0, / Output files for forecast time = 0.00 will be in directory <../arpsdata/>. Fortran I/O unit 39 picked from the free list. Fortran I/O unit 39 returned to the free list. Log file ../arpsdata/ar2013041107.log was produced for this job. Allocating arrays nxndg,nyndg,nzndg = 33 23 53 Done allocating arrays HDFREAD: Reading HDF file: ../extdata/ei2013041107.hdfgrdbas_001001 nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, Incoming data format, fmtverin=005.30 HDF4 Coded Data THE NAME OF THIS RUN IS: ei2013041107 Comments: ARPS 5.3 nx = 33, ny = 23, nz = 53 To read grid and base state data at time 27300.0 secs = 455.000 mins. HDFREAD: INFO - nstyp in data file ( 9) is greater than that specified in namelist ( 3) using only nstyp = 3. nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, INFO: read in "nstyp" from data file is 9. The ARPS model runtime requires nstyp = 3. The extra data for "soiltyp" and "stypfrct" in section (:,:, 4: 9) is discarded. Data at time= 455.0 (min) were successfully read. HDFREAD: Successfully read ../extdata/ei2013041107.hdfgrdbas_001001 HDFREAD: Reading HDF file: ../extdata/ei2013041107.hdf027300_001001 nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, Incoming data format, fmtverin=005.30 HDF4 Coded Data THE NAME OF THIS RUN IS: ei2013041107 Comments: ARPS 5.3 nx = 33, ny = 23, nz = 53 To read data for time: 27300.0 secs = 455.000 mins. nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, HDFREAD: INFO - nstyp in data file ( 9) is greater than that specified in namelist ( 3) using only nstyp = 3. Data at time= 455.0 (min) were successfully read. HDFREAD: Successfully read ../extdata/ei2013041107.hdf027300_001001 Use specified initial time: 2013-04-11.07:35:00 and model starting time: 0.000 seconds Min. and max. of the data arrays read in: xmin = -0.100000E+04, xmax = 0.361000E+06 ymin = -0.100000E+04, ymax = 0.321000E+06 zmin = -0.400000E+03, zmax = 0.204000E+05 zpmin = 0.415178E+02, zpmax = 0.207776E+05 j3min = 0.487650E-01, j3max = 0.194401E+01 ubarmin = 0.257109E+01, ubarmax = 0.466708E+02 vbarmin = -0.149574E+02, vbarmax = 0.473456E+02 ptbarmin= 0.277315E+03, ptbarmax= 0.487797E+03 pbarmin = 0.522298E+04, pbarmax = 0.100966E+06 rhostrmin= 0.588241E-01, rhostrmax= 0.802588E+00 qvbarmin= 0.970067E-06, qvbarmax= 0.426485E-02 umin = -0.145530E+01, umax = 0.497673E+02 vmin = -0.156456E+02, vmax = 0.481739E+02 wmin = -0.399188E+00, wmax = 0.419308E+00 ptprtmin= -0.753705E+01, ptprtmax= 0.103922E+02 pprtmin = -0.636650E+03, pprtmax = 0.465684E+03 qvmin = 0.557343E-06, qvmax = 0.106478E-01 qcmin = 0.000000E+00, qcmax = 0.000000E+00 qrmin = 0.000000E+00, qrmax = 0.000000E+00 qimin = 0.000000E+00, qimax = 0.000000E+00 qsmin = 0.000000E+00, qsmax = 0.000000E+00 qhmin = 0.000000E+00, qhmax = 0.000000E+00 tkemin = 0.000000E+00, tkemax = 0.000000E+00 ptcummin= 0.000000E+00, ptcummax= 0.000000E+00 qvcummin= 0.000000E+00, qvcummax= 0.000000E+00 qccummin= 0.000000E+00, qccummax= 0.000000E+00 qrcummin= 0.000000E+00, qrcummax= 0.000000E+00 qicummin= 0.000000E+00, qicummax= 0.000000E+00 qscummin= 0.000000E+00, qscummax= 0.000000E+00 Base state z-profiles at I= 32, J= 22 Fortran I/O unit 39 picked from the free list. Output files for forecast time = 0.00 will be in directory <../arpsdata/>. k z(m) pbar(Pascal) ptbar(K) rhobar(kg/m**3) Qvbar(kg/kg) U(m/s) V(m/s) 52 20383.547 5227.445 487.67596 0.09845020 0.00000097 4.59818 2.26404 51 19616.453 5922.940 470.23712 0.09845020 0.00000114 5.45606 4.01590 50 18871.316 6687.585 453.88361 0.11123645 0.00000124 6.28937 5.71761 49 18168.309 7499.862 438.97583 0.12482566 0.00000130 7.09001 7.32209 48 17503.924 8356.573 427.26392 0.13854630 0.00000200 12.26133 11.01455 47 16874.803 9254.153 416.55676 0.15284787 0.00000270 17.29015 14.57785 46 16277.744 10191.206 407.40140 0.16742700 0.00000336 21.22397 17.19116 45 15709.701 11160.852 401.91821 0.18109174 0.00000399 20.90866 15.95983 44 15167.775 12159.136 396.81757 0.19499137 0.00000462 20.60784 14.78510 43 14649.221 13186.137 391.49750 0.20942356 0.00000509 22.44280 14.29314 42 14151.447 14243.615 386.27188 0.22427818 0.00000547 25.46925 14.19270 41 13672.015 15333.021 380.54205 0.23995794 0.00000651 29.03512 15.40606 40 13208.637 16461.920 373.16409 0.25743675 0.00000928 33.87083 20.03235 39 12759.178 17635.445 365.94861 0.27574435 0.00001207 38.47749 24.80686 38 12321.656 18861.125 357.36893 0.29624355 0.00001434 42.82401 33.02870 37 11894.242 20146.572 349.43311 0.31757757 0.00001530 46.64058 40.64549 36 11475.260 21493.191 343.26276 0.33857471 0.00001513 46.40760 44.53717 35 11063.182 22904.010 337.87878 0.35994691 0.00001443 45.65804 47.28640 34 10656.637 24378.238 334.40384 0.38025501 0.00001406 43.78841 46.43350 33 10254.405 25918.100 331.19855 0.40110126 0.00001577 41.41426 45.28816 32 9855.422 27528.041 328.22168 0.42253718 0.00001954 38.70316 43.79911 31 9458.770 29212.820 325.55515 0.44445539 0.00003111 34.82485 42.82208 30 9063.686 30977.010 323.20605 0.46682516 0.00005183 30.63451 41.98526 29 8669.563 32823.781 321.21552 0.48954004 0.00008593 26.37693 41.19270 28 8275.940 34756.285 319.60138 0.51251304 0.00013878 22.93573 40.23767 27 7882.515 36776.707 318.46021 0.53550887 0.00020101 21.03992 38.85209 26 7489.134 38886.457 317.36331 0.55917293 0.00027494 19.59097 37.28006 25 7095.798 41088.699 316.30029 0.58353364 0.00036139 18.91807 35.47011 24 6702.659 43384.910 315.29065 0.60854363 0.00046773 18.90739 33.41165 23 6310.021 45775.637 314.30243 0.63424850 0.00058988 19.19974 31.16311 22 5918.342 48260.723 313.27237 0.66075945 0.00073450 19.24875 28.86624 21 5528.233 50838.855 312.17801 0.68810654 0.00091933 18.90453 26.54682 20 5140.456 53506.781 311.06860 0.71616507 0.00111703 18.60064 23.86729 19 4755.925 56259.750 309.83496 0.74514675 0.00133665 18.03881 20.75814 18 4375.708 59091.656 308.42395 0.77516794 0.00156444 17.11806 17.23339 17 4001.023 61994.473 306.87054 0.80616105 0.00171794 16.41883 13.17327 16 3633.245 64956.453 305.34451 0.83760750 0.00180005 15.37728 8.96966 15 3273.897 67961.305 303.94897 0.86904675 0.00184680 13.71795 5.52508 14 2924.657 70988.750 302.70410 0.90015996 0.00193453 11.75803 3.58418 13 2587.354 74014.695 301.54001 0.93069339 0.00244151 9.88855 2.90372 12 2263.971 77011.641 300.25595 0.96088356 0.00358915 8.54822 2.42807 11 1956.641 79951.313 298.75986 0.99150556 0.00421687 7.49826 0.90907 10 1667.653 82806.250 296.34811 1.02504981 0.00403276 6.38443 -1.33158 9 1399.445 85544.539 293.56714 1.05958581 0.00324234 5.43460 -4.05585 8 1154.610 88132.000 289.39099 1.09813249 0.00303440 4.59751 -7.57749 7 935.892 90527.094 284.99811 1.13665235 0.00298213 4.32850 -11.97443 6 746.188 92672.023 281.34940 1.17071831 0.00311281 3.93479 -14.94615 5 588.548 94498.555 279.61249 1.19407833 0.00373564 4.09662 -13.30382 4 466.173 95941.023 278.66034 1.21103001 0.00395715 4.04400 -11.23495 3 382.418 96939.469 278.29428 1.22156024 0.00404097 3.87495 -9.57757 2 340.790 97438.773 278.12933 1.22674704 0.00408223 3.77062 -8.78220 1 321.121 97675.555 278.07605 1.22674704 0.00410044 3.67550 -8.46504 Fortran I/O unit 39 returned to the free list. READSPLITSFCDT: reading in external supplied surface data from file - ../casa2013_dfw_m04_d11_n3.sfchdf The map projection and griding information for the surface data: Projection: 2 The 1st real true latitude: 0.32000000E+02 The 2nd real true latitude: 0.34000000E+02 The real true longitude: -0.97000000E+02 Map scale factor: 0.10000000E+01 Latitude at the origin: 0.33000000E+02 Longitude at the origin: -0.96500000E+02 Read in soiltyp Read in stypfrct Read in vegtyp Read in lai Read in roufns Read in veg Read in ndvi READSOIL: reading in external supplied soil data from file ../extdata/ei2013041107.soilvar.027300_001001 The map projection and griding information for the surface data: Projection: 2 The 1st real true latitude: 0.32000000E+02 The 2nd real true latitude: 0.34000000E+02 The real true longitude: -0.97000000E+02 Map scale factor: 0.10000000E+01 Latitude at the origin: 0.33000000E+02 Longitude at the origin: -0.96500000E+02 Read in the soil layer depth data Read in the soil temperature data Read in the soil moisture data Read in the canopy water amount data Read in the snow depth data Read soil type of soil data Boundary relaxation coefficients j\i 1 2 3 4 5 6 7 8 9 1 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 2 1.00000 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 3 1.00000 0.95840 0.85207 0.85207 0.85207 0.85207 0.85207 0.85207 0.85207 4 1.00000 0.95840 0.85207 0.71910 0.71910 0.71910 0.71910 0.71910 0.71910 5 1.00000 0.95840 0.85207 0.71910 0.59016 0.59016 0.59016 0.59016 0.59016 6 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.47960 0.47960 0.47960 7 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.39024 0.39024 8 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.31982 9 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 10 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 11 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 12 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 13 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 14 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 15 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 16 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 17 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 18 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 19 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 20 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 21 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 22 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 23 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 External BC data file ../extdata/em2013041107.20130411.080000_0101 could not be found. Try another time. External boundary data file has been found: ../extdata/em2013041107.20130411.090000_001001 READEXBC: reading in external boundary data from file ../extdata/em2013041107.20130411.090000_001001 HDFRDI: WARNING, variable clipxy not found in file. Value was reset to 0. HDFRDI: WARNING, variable clipz not found in file. Value was reset to 0. Max. and Min. of EXBC data variables: umin = -0.155556E+01, umax = 0.411513E+02 vmin = -0.127843E+02, vmax = 0.426601E+02 wmin = -0.217999E+00, wmax = 0.186442E+00 ptmin= 0.279476E+03, ptmax= 0.486269E+03 pmin = 0.519694E+04, pmax = 0.977493E+05 qvmin= 0.114117E-05, qvmax= 0.336505E-02 Application of nudging adjustment lasts 600.00 secs HDFRDI: WARNING, variable iyr not found in file. Value was reset to 0. HDFRDI: WARNING, variable imon not found in file. Value was reset to 0. HDFRDI: WARNING, variable idy not found in file. Value was reset to 0. HDFRDI: WARNING, variable ihr not found in file. Value was reset to 0. HDFRDI: WARNING, variable imin not found in file. Value was reset to 0. HDFRDI: WARNING, variable isec not found in file. Value was reset to 0. Nudging applied in 20 steps ndintvl adjusted for dtbig = 30.00 The initial model time is at 0.000 seconds. Min. and max. of data arrays at initial time on grid 1 xmin = -0.100000E+04, xmax = 0.361000E+06 ymin = -0.100000E+04, ymax = 0.321000E+06 zmin = -0.400000E+03, zmax = 0.204000E+05 zpmin = 0.415178E+02, zpmax = 0.207776E+05 hmin = 0.614563E+02, hmax = 0.494020E+03 ubarmin = 0.257109E+01, ubarmax = 0.466708E+02 vbarmin = -0.149574E+02, vbarmax = 0.473456E+02 ptbarmin= 0.277315E+03, ptbarmax= 0.487797E+03 pbarmin = 0.522298E+04, pbarmax = 0.100966E+06 qvbarmin= 0.970067E-06, qvbarmax= 0.426485E-02 Min/max of fields at tpresent: umin = -0.145530E+01, umax = 0.497673E+02 vmin = -0.156456E+02, vmax = 0.481739E+02 wmin = -0.399188E+00, wmax = 0.419308E+00 ptprtmin= -0.753705E+01, ptprtmax= 0.103922E+02 pprtmin = -0.636650E+03, pprtmax = 0.465684E+03 qvmin = 0.557343E-06, qvmax = 0.106478E-01 qcmin = 0.000000E+00, qcmax = 0.000000E+00 qrmin = 0.000000E+00, qrmax = 0.000000E+00 qimin = 0.000000E+00, qimax = 0.000000E+00 qsmin = 0.000000E+00, qsmax = 0.000000E+00 qhmin = 0.000000E+00, qhmax = 0.000000E+00 Min/max of fields at tpast: umin = -0.145530E+01, umax = 0.497673E+02 vmin = -0.156456E+02, vmax = 0.481739E+02 wmin = -0.399188E+00, wmax = 0.419308E+00 ptprtmin= -0.753705E+01, ptprtmax= 0.103922E+02 pprtmin = -0.636650E+03, pprtmax = 0.465684E+03 qvmin = 0.557343E-06, qvmax = 0.106478E-01 qcmin = 0.000000E+00, qcmax = 0.000000E+00 qrmin = 0.000000E+00, qrmax = 0.000000E+00 qimin = 0.000000E+00, qimax = 0.000000E+00 qsmin = 0.000000E+00, qsmax = 0.000000E+00 qhmin = 0.000000E+00, qhmax = 0.000000E+00 ucourant = 0.1493 at i= 270, j= 2, k= 37 vcourant = 0.1445 at i= 282, j= 265, k= 34 wcourant = 0.0000 at i= 2, j= 2, k= 2 uvcourant= 0.1006 at i= 224, j= 111, k= 35 refmax= 0.00000000000 at i= 1, j= 1, k= 1 vorlx= 0.442066695541E-03 at i= 127, j= 316, k= 4 vorux= 0.301870342810E-03 at i= 89, j= 286, k= 25 uvmax= 15.6499109268 at i= 69, j= 1, k= 6 uvmaxdr= 0.00000000000 at i= 69, j= 1, k= 6 umin = -1.45529866219 at i= 1, j= 1, k= 5 umax = 49.7673377991 at i= 270, j= 1, k= 37 vmin = -15.6456012726 at i= 69, j= 1, k= 6 vmax = 48.1738548279 at i= 282, j= 265, k= 34 wmin = -0.399188488722 at i= 345, j= 322, k= 38 wmax = 0.419307678938 at i= 352, j= 298, k= 38 ptprtmin= -7.53704833984 at i= 362, j= 1, k= 48 ptprtmax= 10.3922424316 at i= 1, j= 322, k= 36 pprtmin = -636.6503906 at i= 1, j= 322, k= 30 pprtmax = 465.6835938 at i= 362, j= 1, k= 30 qvmin= 0.557342957563E-06 at i= 316, j= 47, k= 51 qvmax= 0.106478091329E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.00000000000 at i= 1, j= 1, k= 1 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.00000000000 at i= 1, j= 1, k= 1 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.00000000000 at i= 1, j= 1, k= 1 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.00000000000 at i= 1, j= 1, k= 1 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.00000000000 at i= 1, j= 1, k= 1 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 0.00000000000 at i= 1, j= 1, k= 1 kmhmin= 0.00000000000 at i= 1, j= 1, k= 1 kmhmax= 0.00000000000 at i= 1, j= 1, k= 1 kmvmin= 0.00000000000 at i= 1, j= 1, k= 1 kmvmax= 0.00000000000 at i= 1, j= 1, k= 1 tsoilmin= 282.107604980 at i= 94, j= 322, k= 1 tsoilmax= 291.348052979 at i= 291, j= 84, k= 2 qsoilmin= 0.121246226132 at i= 232, j= 1, k= 1 qsoilmax= 0.364592850208 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.499993388075E-03 at i= 328, j= 11 Output files for forecast time = 0.00 will be in directory <../arpsdata/>. Check to see if file ../arpsdata/ar2013041107.maxmin already exists. If so, append a version number to the filename. Fortran I/O unit 39 picked from the free list. Output files for forecast time = 0.00 will be in directory <../arpsdata/>. Data dump of grid and base state arrays into file ../arpsdata//ar2013041107.hdfgrdbas_001001 Writing HDF4 grid and base file to ../arpsdata//ar2013041107.hdfgrdbas_001001 HDFWRT1D : Writing variable HDFWRT1D : Writing variable HDFWRT1D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3DI: Writing variable HDFWRT3D : Writing variable HDFWRT2DI: Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Output files for forecast time = 0.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf000000_001001 Writing HDF4 data at time= 0.000 into file ../arpsdata/ar2013041107.hdf000000_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. now the nstep,curtim are 0 0.0 Compute radiation at time step, 1, model time= 0.00 (s) End of integration time step 1, Model time= 3.00 s ( 0.001 h) End of integration time step 2, Model time= 6.00 s ( 0.002 h) End of integration time step 3, Model time= 9.00 s ( 0.002 h) End of integration time step 4, Model time= 12.00 s ( 0.003 h) End of integration time step 5, Model time= 15.00 s ( 0.004 h) End of integration time step 6, Model time= 18.00 s ( 0.005 h) End of integration time step 7, Model time= 21.00 s ( 0.006 h) End of integration time step 8, Model time= 24.00 s ( 0.007 h) End of integration time step 9, Model time= 27.00 s ( 0.008 h) Nudging forecast at 30.0 Timeweight: 0.0090 Accum wgt: 0.0045 Accum Target: 1.0000 Timeweight: 0.0090 Accum wgt: 0.0090 Accum Target: 1.0000 End of integration time step 10, Model time= 30.00 s ( 0.008 h) End of integration time step 11, Model time= 33.00 s ( 0.009 h) End of integration time step 12, Model time= 36.00 s ( 0.010 h) End of integration time step 13, Model time= 39.00 s ( 0.011 h) End of integration time step 14, Model time= 42.00 s ( 0.012 h) End of integration time step 15, Model time= 45.00 s ( 0.013 h) End of integration time step 16, Model time= 48.00 s ( 0.013 h) End of integration time step 17, Model time= 51.00 s ( 0.014 h) End of integration time step 18, Model time= 54.00 s ( 0.015 h) End of integration time step 19, Model time= 57.00 s ( 0.016 h) Nudging forecast at 60.0 Timeweight: 0.0190 Accum wgt: 0.0185 Accum Target: 1.0000 Timeweight: 0.0190 Accum wgt: 0.0280 Accum Target: 1.0000 End of integration time step 20, Model time= 60.00 s ( 0.017 h) End of integration time step 21, Model time= 63.00 s ( 0.018 h) End of integration time step 22, Model time= 66.00 s ( 0.018 h) End of integration time step 23, Model time= 69.00 s ( 0.019 h) End of integration time step 24, Model time= 72.00 s ( 0.020 h) End of integration time step 25, Model time= 75.00 s ( 0.021 h) End of integration time step 26, Model time= 78.00 s ( 0.022 h) End of integration time step 27, Model time= 81.00 s ( 0.023 h) End of integration time step 28, Model time= 84.00 s ( 0.023 h) End of integration time step 29, Model time= 87.00 s ( 0.024 h) Nudging forecast at 90.0 Timeweight: 0.0290 Accum wgt: 0.0425 Accum Target: 1.0000 Timeweight: 0.0290 Accum wgt: 0.0570 Accum Target: 1.0000 End of integration time step 30, Model time= 90.00 s ( 0.025 h) End of integration time step 31, Model time= 93.00 s ( 0.026 h) End of integration time step 32, Model time= 96.00 s ( 0.027 h) End of integration time step 33, Model time= 99.00 s ( 0.027 h) End of integration time step 34, Model time= 102.00 s ( 0.028 h) End of integration time step 35, Model time= 105.00 s ( 0.029 h) End of integration time step 36, Model time= 108.00 s ( 0.030 h) End of integration time step 37, Model time= 111.00 s ( 0.031 h) End of integration time step 38, Model time= 114.00 s ( 0.032 h) End of integration time step 39, Model time= 117.00 s ( 0.033 h) Nudging forecast at 120.0 Timeweight: 0.0390 Accum wgt: 0.0765 Accum Target: 1.0000 Timeweight: 0.0390 Accum wgt: 0.0960 Accum Target: 1.0000 End of integration time step 40, Model time= 120.00 s ( 0.033 h) End of integration time step 41, Model time= 123.00 s ( 0.034 h) End of integration time step 42, Model time= 126.00 s ( 0.035 h) End of integration time step 43, Model time= 129.00 s ( 0.036 h) End of integration time step 44, Model time= 132.00 s ( 0.037 h) End of integration time step 45, Model time= 135.00 s ( 0.038 h) End of integration time step 46, Model time= 138.00 s ( 0.038 h) End of integration time step 47, Model time= 141.00 s ( 0.039 h) End of integration time step 48, Model time= 144.00 s ( 0.040 h) End of integration time step 49, Model time= 147.00 s ( 0.041 h) Nudging forecast at 150.0 Timeweight: 0.0490 Accum wgt: 0.1205 Accum Target: 1.0000 Timeweight: 0.0490 Accum wgt: 0.1450 Accum Target: 1.0000 End of integration time step 50, Model time= 150.00 s ( 0.042 h) End of integration time step 51, Model time= 153.00 s ( 0.043 h) End of integration time step 52, Model time= 156.00 s ( 0.043 h) End of integration time step 53, Model time= 159.00 s ( 0.044 h) End of integration time step 54, Model time= 162.00 s ( 0.045 h) End of integration time step 55, Model time= 165.00 s ( 0.046 h) End of integration time step 56, Model time= 168.00 s ( 0.047 h) End of integration time step 57, Model time= 171.00 s ( 0.047 h) End of integration time step 58, Model time= 174.00 s ( 0.048 h) End of integration time step 59, Model time= 177.00 s ( 0.049 h) Nudging forecast at 180.0 Timeweight: 0.0590 Accum wgt: 0.1745 Accum Target: 1.0000 Timeweight: 0.0590 Accum wgt: 0.2040 Accum Target: 1.0000 End of integration time step 60, Model time= 180.00 s ( 0.050 h) End of integration time step 61, Model time= 183.00 s ( 0.051 h) End of integration time step 62, Model time= 186.00 s ( 0.052 h) End of integration time step 63, Model time= 189.00 s ( 0.053 h) End of integration time step 64, Model time= 192.00 s ( 0.053 h) End of integration time step 65, Model time= 195.00 s ( 0.054 h) End of integration time step 66, Model time= 198.00 s ( 0.055 h) End of integration time step 67, Model time= 201.00 s ( 0.056 h) End of integration time step 68, Model time= 204.00 s ( 0.057 h) End of integration time step 69, Model time= 207.00 s ( 0.058 h) Nudging forecast at 210.0 Timeweight: 0.0690 Accum wgt: 0.2385 Accum Target: 1.0000 Timeweight: 0.0690 Accum wgt: 0.2730 Accum Target: 1.0000 End of integration time step 70, Model time= 210.00 s ( 0.058 h) End of integration time step 71, Model time= 213.00 s ( 0.059 h) End of integration time step 72, Model time= 216.00 s ( 0.060 h) End of integration time step 73, Model time= 219.00 s ( 0.061 h) End of integration time step 74, Model time= 222.00 s ( 0.062 h) End of integration time step 75, Model time= 225.00 s ( 0.063 h) End of integration time step 76, Model time= 228.00 s ( 0.063 h) End of integration time step 77, Model time= 231.00 s ( 0.064 h) End of integration time step 78, Model time= 234.00 s ( 0.065 h) End of integration time step 79, Model time= 237.00 s ( 0.066 h) Nudging forecast at 240.0 Timeweight: 0.0790 Accum wgt: 0.3125 Accum Target: 1.0000 Timeweight: 0.0790 Accum wgt: 0.3520 Accum Target: 1.0000 End of integration time step 80, Model time= 240.00 s ( 0.067 h) End of integration time step 81, Model time= 243.00 s ( 0.068 h) End of integration time step 82, Model time= 246.00 s ( 0.068 h) End of integration time step 83, Model time= 249.00 s ( 0.069 h) End of integration time step 84, Model time= 252.00 s ( 0.070 h) End of integration time step 85, Model time= 255.00 s ( 0.071 h) End of integration time step 86, Model time= 258.00 s ( 0.072 h) End of integration time step 87, Model time= 261.00 s ( 0.073 h) End of integration time step 88, Model time= 264.00 s ( 0.073 h) End of integration time step 89, Model time= 267.00 s ( 0.074 h) Nudging forecast at 270.0 Timeweight: 0.0890 Accum wgt: 0.3965 Accum Target: 1.0000 Timeweight: 0.0890 Accum wgt: 0.4410 Accum Target: 1.0000 End of integration time step 90, Model time= 270.00 s ( 0.075 h) End of integration time step 91, Model time= 273.00 s ( 0.076 h) End of integration time step 92, Model time= 276.00 s ( 0.077 h) End of integration time step 93, Model time= 279.00 s ( 0.078 h) End of integration time step 94, Model time= 282.00 s ( 0.078 h) End of integration time step 95, Model time= 285.00 s ( 0.079 h) End of integration time step 96, Model time= 288.00 s ( 0.080 h) End of integration time step 97, Model time= 291.00 s ( 0.081 h) End of integration time step 98, Model time= 294.00 s ( 0.082 h) End of integration time step 99, Model time= 297.00 s ( 0.083 h) Nudging forecast at 300.0 Timeweight: 0.0990 Accum wgt: 0.4905 Accum Target: 1.0000 Timeweight: 0.0990 Accum wgt: 0.5400 Accum Target: 1.0000 End of integration time step 100, Model time= 300.00 s ( 0.083 h) ucourant = 0.1505 at i= 345, j= 22, k= 37 vcourant = 0.1459 at i= 155, j= 142, k= 34 wcourant = 0.0181 at i= 2, j= 2, k= 35 uvcourant= 0.1007 at i= 231, j= 124, k= 35 refmax= 37.4218139648 at i= 345, j= 12, k= 9 vorlx= 0.150052749086E-02 at i= 2, j= 3, k= 2 vorux= 0.167396734469E-02 at i= 64, j= 160, k= 18 uvmax= 16.8632717133 at i= 131, j= 188, k= 7 uvmaxdr= 0.00000000000 at i= 131, j= 188, k= 7 umin = -1.41111743450 at i= 1, j= 1, k= 5 umax = 50.1621818542 at i= 345, j= 22, k= 37 vmin = -16.0305042267 at i= 131, j= 188, k= 7 vmax = 48.7281684875 at i= 155, j= 143, k= 34 wmin = -1.16660988331 at i= 73, j= 197, k= 23 wmax = 2.29703474045 at i= 1, j= 1, k= 35 ptprtmin= -8.56384277344 at i= 361, j= 4, k= 40 ptprtmax= 10.4392766953 at i= 1, j= 322, k= 36 pprtmin = -637.3995361 at i= 1, j= 322, k= 30 pprtmax = 461.2478333 at i= 362, j= 1, k= 30 qvmin= 0.815172825241E-06 at i= 362, j= 77, k= 51 qvmax= 0.106199793518E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.535612518433E-03 at i= 351, j= 1, k= 11 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.477647176012E-03 at i= 345, j= 12, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.361943355529E-03 at i= 350, j= 20, k= 24 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.226815987844E-03 at i= 345, j= 13, k= 18 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.287385191768E-04 at i= 304, j= 19, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 5 tkemax= 2.34267973900 at i= 224, j= 276, k= 3 kmhmin= 0.00000000000 at i= 1, j= 1, k= 5 kmhmax= 152.874099731 at i= 224, j= 276, k= 3 kmvmin= 0.00000000000 at i= 1, j= 1, k= 5 kmvmax= 16.2423572540 at i= 348, j= 35, k= 17 tsoilmin= 279.547698975 at i= 141, j= 322, k= 1 tsoilmax= 291.322113037 at i= 291, j= 84, k= 2 qsoilmin= 0.121326930821 at i= 232, j= 1, k= 1 qsoilmax= 0.364582508802 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.497481436469E-03 at i= 341, j= 11 Output files for forecast time = 300.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf000300_001001 Writing HDF4 data at time= 300.000 into file ../arpsdata/ar2013041107.hdf000300_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 101, Model time= 303.00 s ( 0.084 h) End of integration time step 102, Model time= 306.00 s ( 0.085 h) End of integration time step 103, Model time= 309.00 s ( 0.086 h) End of integration time step 104, Model time= 312.00 s ( 0.087 h) End of integration time step 105, Model time= 315.00 s ( 0.087 h) End of integration time step 106, Model time= 318.00 s ( 0.088 h) End of integration time step 107, Model time= 321.00 s ( 0.089 h) End of integration time step 108, Model time= 324.00 s ( 0.090 h) End of integration time step 109, Model time= 327.00 s ( 0.091 h) Nudging forecast at 330.0 Timeweight: 0.0910 Accum wgt: 0.5855 Accum Target: 1.0000 Timeweight: 0.0910 Accum wgt: 0.6310 Accum Target: 1.0000 End of integration time step 110, Model time= 330.00 s ( 0.092 h) End of integration time step 111, Model time= 333.00 s ( 0.093 h) End of integration time step 112, Model time= 336.00 s ( 0.093 h) End of integration time step 113, Model time= 339.00 s ( 0.094 h) End of integration time step 114, Model time= 342.00 s ( 0.095 h) End of integration time step 115, Model time= 345.00 s ( 0.096 h) End of integration time step 116, Model time= 348.00 s ( 0.097 h) End of integration time step 117, Model time= 351.00 s ( 0.098 h) End of integration time step 118, Model time= 354.00 s ( 0.098 h) End of integration time step 119, Model time= 357.00 s ( 0.099 h) Nudging forecast at 360.0 Timeweight: 0.0810 Accum wgt: 0.6715 Accum Target: 1.0000 Timeweight: 0.0810 Accum wgt: 0.7120 Accum Target: 1.0000 End of integration time step 120, Model time= 360.00 s ( 0.100 h) End of integration time step 121, Model time= 363.00 s ( 0.101 h) End of integration time step 122, Model time= 366.00 s ( 0.102 h) End of integration time step 123, Model time= 369.00 s ( 0.102 h) End of integration time step 124, Model time= 372.00 s ( 0.103 h) End of integration time step 125, Model time= 375.00 s ( 0.104 h) End of integration time step 126, Model time= 378.00 s ( 0.105 h) End of integration time step 127, Model time= 381.00 s ( 0.106 h) End of integration time step 128, Model time= 384.00 s ( 0.107 h) End of integration time step 129, Model time= 387.00 s ( 0.108 h) Nudging forecast at 390.0 Timeweight: 0.0710 Accum wgt: 0.7475 Accum Target: 1.0000 Timeweight: 0.0710 Accum wgt: 0.7830 Accum Target: 1.0000 End of integration time step 130, Model time= 390.00 s ( 0.108 h) End of integration time step 131, Model time= 393.00 s ( 0.109 h) End of integration time step 132, Model time= 396.00 s ( 0.110 h) End of integration time step 133, Model time= 399.00 s ( 0.111 h) End of integration time step 134, Model time= 402.00 s ( 0.112 h) End of integration time step 135, Model time= 405.00 s ( 0.113 h) End of integration time step 136, Model time= 408.00 s ( 0.113 h) End of integration time step 137, Model time= 411.00 s ( 0.114 h) End of integration time step 138, Model time= 414.00 s ( 0.115 h) End of integration time step 139, Model time= 417.00 s ( 0.116 h) Nudging forecast at 420.0 Timeweight: 0.0610 Accum wgt: 0.8135 Accum Target: 1.0000 Timeweight: 0.0610 Accum wgt: 0.8440 Accum Target: 1.0000 End of integration time step 140, Model time= 420.00 s ( 0.117 h) End of integration time step 141, Model time= 423.00 s ( 0.117 h) End of integration time step 142, Model time= 426.00 s ( 0.118 h) End of integration time step 143, Model time= 429.00 s ( 0.119 h) End of integration time step 144, Model time= 432.00 s ( 0.120 h) End of integration time step 145, Model time= 435.00 s ( 0.121 h) End of integration time step 146, Model time= 438.00 s ( 0.122 h) End of integration time step 147, Model time= 441.00 s ( 0.123 h) End of integration time step 148, Model time= 444.00 s ( 0.123 h) End of integration time step 149, Model time= 447.00 s ( 0.124 h) Nudging forecast at 450.0 Timeweight: 0.0510 Accum wgt: 0.8695 Accum Target: 1.0000 Timeweight: 0.0510 Accum wgt: 0.8950 Accum Target: 1.0000 End of integration time step 150, Model time= 450.00 s ( 0.125 h) End of integration time step 151, Model time= 453.00 s ( 0.126 h) End of integration time step 152, Model time= 456.00 s ( 0.127 h) End of integration time step 153, Model time= 459.00 s ( 0.127 h) End of integration time step 154, Model time= 462.00 s ( 0.128 h) End of integration time step 155, Model time= 465.00 s ( 0.129 h) End of integration time step 156, Model time= 468.00 s ( 0.130 h) End of integration time step 157, Model time= 471.00 s ( 0.131 h) End of integration time step 158, Model time= 474.00 s ( 0.132 h) End of integration time step 159, Model time= 477.00 s ( 0.133 h) Nudging forecast at 480.0 Timeweight: 0.0410 Accum wgt: 0.9155 Accum Target: 1.0000 Timeweight: 0.0410 Accum wgt: 0.9360 Accum Target: 1.0000 End of integration time step 160, Model time= 480.00 s ( 0.133 h) End of integration time step 161, Model time= 483.00 s ( 0.134 h) End of integration time step 162, Model time= 486.00 s ( 0.135 h) End of integration time step 163, Model time= 489.00 s ( 0.136 h) End of integration time step 164, Model time= 492.00 s ( 0.137 h) End of integration time step 165, Model time= 495.00 s ( 0.138 h) End of integration time step 166, Model time= 498.00 s ( 0.138 h) End of integration time step 167, Model time= 501.00 s ( 0.139 h) End of integration time step 168, Model time= 504.00 s ( 0.140 h) End of integration time step 169, Model time= 507.00 s ( 0.141 h) Nudging forecast at 510.0 Timeweight: 0.0310 Accum wgt: 0.9515 Accum Target: 1.0000 Timeweight: 0.0310 Accum wgt: 0.9670 Accum Target: 1.0000 End of integration time step 170, Model time= 510.00 s ( 0.142 h) End of integration time step 171, Model time= 513.00 s ( 0.142 h) End of integration time step 172, Model time= 516.00 s ( 0.143 h) End of integration time step 173, Model time= 519.00 s ( 0.144 h) End of integration time step 174, Model time= 522.00 s ( 0.145 h) End of integration time step 175, Model time= 525.00 s ( 0.146 h) End of integration time step 176, Model time= 528.00 s ( 0.147 h) End of integration time step 177, Model time= 531.00 s ( 0.148 h) End of integration time step 178, Model time= 534.00 s ( 0.148 h) End of integration time step 179, Model time= 537.00 s ( 0.149 h) Nudging forecast at 540.0 Timeweight: 0.0210 Accum wgt: 0.9775 Accum Target: 1.0000 Timeweight: 0.0210 Accum wgt: 0.9880 Accum Target: 1.0000 End of integration time step 180, Model time= 540.00 s ( 0.150 h) End of integration time step 181, Model time= 543.00 s ( 0.151 h) End of integration time step 182, Model time= 546.00 s ( 0.152 h) End of integration time step 183, Model time= 549.00 s ( 0.153 h) End of integration time step 184, Model time= 552.00 s ( 0.153 h) End of integration time step 185, Model time= 555.00 s ( 0.154 h) End of integration time step 186, Model time= 558.00 s ( 0.155 h) End of integration time step 187, Model time= 561.00 s ( 0.156 h) End of integration time step 188, Model time= 564.00 s ( 0.157 h) End of integration time step 189, Model time= 567.00 s ( 0.157 h) Nudging forecast at 570.0 Timeweight: 0.0110 Accum wgt: 0.9935 Accum Target: 1.0000 Timeweight: 0.0110 Accum wgt: 0.9990 Accum Target: 1.0000 End of integration time step 190, Model time= 570.00 s ( 0.158 h) End of integration time step 191, Model time= 573.00 s ( 0.159 h) End of integration time step 192, Model time= 576.00 s ( 0.160 h) End of integration time step 193, Model time= 579.00 s ( 0.161 h) End of integration time step 194, Model time= 582.00 s ( 0.162 h) End of integration time step 195, Model time= 585.00 s ( 0.163 h) End of integration time step 196, Model time= 588.00 s ( 0.163 h) End of integration time step 197, Model time= 591.00 s ( 0.164 h) End of integration time step 198, Model time= 594.00 s ( 0.165 h) End of integration time step 199, Model time= 597.00 s ( 0.166 h) End of integration time step 200, Model time= 600.00 s ( 0.167 h) Output files for forecast time = 600.00 will be in directory <../arpsdata/>. Fortran I/O unit 38 picked from the free list. DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004015 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003001 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012008 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006001 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001015 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006010 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002008 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005012 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009002 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005001 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009006 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002009 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003012 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009007 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006014 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007001 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010009 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005009 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006006 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009008 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002003 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011015 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003008 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010008 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009011 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004008 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004009 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007008 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009012 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010015 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002015 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005015 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007013 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007005 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008011 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007009 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004014 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003015 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003013 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002013 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005007 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006007 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007006 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012001 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012006 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008004 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002002 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001001 using fortran channel no 38 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004001 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011001 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006016 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001008 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010001 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008001 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009001 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002001 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009016 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012015 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004016 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008015 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001003 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006015 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008008 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006005 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001013 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011003 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002011 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009015 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011010 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009010 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008007 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012012 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003016 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010007 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005013 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010002 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007015 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004010 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008009 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008013 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003010 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004005 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001010 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011005 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005003 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010003 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_010011 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_008014 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003006 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002012 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009014 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_002007 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012011 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011012 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_009013 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_001011 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_011008 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005008 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005006 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_006008 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003011 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_004003 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007007 using fortran channel no 39 write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_005004 using fortran channel no 39 DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_012004 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: Fortran I/O unit 38 returned to the free list. Fortran I/O unit 38 picked from the free list. write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007002 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_003003 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: DUMPING OUT RESTART FILE AT TIME 600.00(s) in FILE ../arpsdata//ar2013041107.rst000600_007014 using fortran channel no 39 write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: write out sfc/soil variables: Fortran I/O unit 38 returned to the free list. write out sfc/soil variables: write out sfc/soil variables: ucourant = 0.1513 at i= 348, j= 28, k= 37 vcourant = 0.1453 at i= 294, j= 322, k= 33 wcourant = 0.0213 at i= 2, j= 2, k= 35 uvcourant= 0.1006 at i= 232, j= 127, k= 35 refmax= 38.7270278931 at i= 346, j= 12, k= 6 vorlx= 0.240368000232E-02 at i= 121, j= 155, k= 10 vorux= 0.267367763445E-02 at i= 121, j= 156, k= 12 uvmax= 17.0383319855 at i= 151, j= 189, k= 7 uvmaxdr= 0.00000000000 at i= 151, j= 189, k= 7 umin = -1.46709442139 at i= 1, j= 1, k= 5 umax = 50.4181251526 at i= 348, j= 28, k= 37 vmin = -16.5108947754 at i= 151, j= 189, k= 7 vmax = 48.4155235291 at i= 294, j= 322, k= 33 wmin = -1.85360264778 at i= 302, j= 31, k= 20 wmax = 2.71626877785 at i= 1, j= 1, k= 35 ptprtmin= -8.70904445648 at i= 361, j= 4, k= 40 ptprtmax= 10.4924011230 at i= 1, j= 322, k= 36 pprtmin = -638.0731812 at i= 1, j= 322, k= 30 pprtmax = 456.6783142 at i= 362, j= 1, k= 30 qvmin= 0.597457244567E-06 at i= 362, j= 78, k= 51 qvmax= 0.105998124927E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.738371396437E-03 at i= 360, j= 1, k= 11 qrmin= 0.00000000000 at i= 5, j= 1, k= 1 qrmax= 0.529725686647E-03 at i= 346, j= 13, k= 8 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.389881141018E-03 at i= 73, j= 172, k= 23 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.588510301895E-03 at i= 353, j= 25, k= 21 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.106524930743E-03 at i= 351, j= 20, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 2.21612048149 at i= 206, j= 306, k= 3 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 148.830688477 at i= 206, j= 306, k= 3 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 40.7623062134 at i= 350, j= 37, k= 13 tsoilmin= 277.652587891 at i= 141, j= 322, k= 1 tsoilmax= 291.291534424 at i= 291, j= 84, k= 2 qsoilmin= 0.121361166239 at i= 242, j= 1, k= 1 qsoilmax= 0.364575058222 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.847125193104E-03 at i= 346, j= 11 Output files for forecast time = 600.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf000600_001001 Writing HDF4 data at time= 600.000 into file ../arpsdata/ar2013041107.hdf000600_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. ARPS CPU Summary: Process CPU time WALL CLOCK time (mean) ----------------- ---------------------- ---------------------- Initialization : 2.194899E+02s 3.73% 1.143180E+00s 3.73% Data output : 1.070492E+03s 18.18% 5.575544E+00s 18.18% Wind advection : 7.043350E+01s 1.20% 3.670373E-01s 1.20% Scalar advection: 1.780570E+02s 3.02% 9.281548E-01s 3.03% Coriolis force : 2.043453E+01s 0.35% 1.064172E-01s 0.35% Buoyancy term : 9.237514E+01s 1.57% 4.812453E-01s 1.57% Misc Large tstep: 1.303316E+02s 2.21% 6.789802E-01s 2.21% Small time steps: 6.585704E+02s 11.19% 3.432372E+00s 11.19% Radiation : 3.864761E+01s 0.66% 2.012583E-01s 0.66% Soil model : 1.139436E+02s 1.94% 5.934699E-01s 1.94% Surface physics : 2.114393E+01s 0.36% 1.101259E-01s 0.36% Turbulence : 8.396701E+02s 14.26% 4.374820E+00s 14.27% Comput. mixing : 1.887901E+02s 3.21% 9.830727E-01s 3.21% Rayleigh damping: 4.500130E+01s 0.76% 2.344622E-01s 0.76% TKE src terms : 1.410788E+02s 2.40% 7.349042E-01s 2.40% Gridscale precp.: 1.086378E-02s 0.00% 4.740625E-05s 0.00% Cumulus (NO ): 0.000000E+00s 0.00% 0.000000E+00s 0.00% Microph (linice): 1.230580E+03s 20.90% 6.409415E+00s 20.90% Hydrometero fall: 1.183437E+02s 2.01% 6.163290E-01s 2.01% Bound.conditions: 5.629099E+01s 0.96% 2.898626E-01s 0.95% Message passing : 4.489918E+02s 7.63% 2.336441E+00s 7.62% Miscellaneous : 2.041604E+02s 3.47% 1.063475E+00s 3.47% Entire model : 5.886838E+03s 98.11 min 3.066062E+01s 0.51 min Without Init/IO : 4.596857E+03s 2.394190E+01s ARPS stopped normally in the main program. The ending time was 600.000 seconds. Thanks for using ARPS. Maxumum memory allocation (in words): 0.000000 Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Job /lsf/7.0/linux2.6-glibc2.3-x86_64/bin/openmpi_wrapper -np 192 /home/kwthomas/rt2013/user/software/casa2013/openmpi/arps/abin/arps_mpi TID HOST_NAME COMMAND_LINE STATUS TERMINATION_TIME ===== ========== ================ ======================= =================== 00000 c016 /home/kwthomas/r 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/home/kwthomas/r Done 04/11/2013 02:52:31 00170 c008 /home/kwthomas/r Done 04/11/2013 02:52:30 00171 c008 /home/kwthomas/r Done 04/11/2013 02:52:31 00172 c008 /home/kwthomas/r Done 04/11/2013 02:52:31 00173 c008 /home/kwthomas/r Done 04/11/2013 02:52:31 00174 c008 /home/kwthomas/r Done 04/11/2013 02:52:30 00175 c008 /home/kwthomas/r Done 04/11/2013 02:52:31 00176 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00177 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00178 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00179 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00180 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00181 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00182 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00183 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00184 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00185 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00186 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00187 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00188 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00189 c020 /home/kwthomas/r Done 04/11/2013 02:52:30 00190 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 00191 c020 /home/kwthomas/r Done 04/11/2013 02:52:31 LD_LIBRARY_PATH: /usr/mpi/intel/openmpi-1.4.3-qlc/lib64:/opt/intel/composer_xe_2011_sp1.6.233/compiler/lib/intel64/: ############################################################### ############################################################### ##### ##### ##### Welcome to ##### ##### ##### ##### The Advanced Regional Prediction System (ARPS) ##### ##### ##### ##### Version 5.3 ##### ##### ##### ##### Developed by ##### ##### Center for Analysis and Prediction of Storms ##### ##### University of Oklahoma ##### ##### ##### ############################################################### ############################################################### The model begins by reading a number of control parameters, which are specified in namelist format through the standard input stream (unit 5). See the ARPS Users Guide and the sample input file, arps.input, for guidance on specifying these parameters At the end of all parameter input, a log file is produced which can be directly used as the input file when you want to replicate the same job. This file is named runnam.log.nn where runnam is a standard prefix for all output files that are produced by this job and nn is a number appended to the file name when file runnam.log.nn-1 already exists. Waiting namelist from standard input ... ======================================== Namelist block grid_dims sucessfully read. nx = 363 ny = 323 nz = 53 Namelist block message_passing sucessfully read. Number of processors in the x-direction is: 12 Number of processors in the y-direction is: 16 Maximum number of files open: 192 Namelist block comment_lines sucessfully read. Namelist block jobname sucessfully read. The name of this run is: ar2013041107 Namelist block model_configuration sucessfully read. The run mode is: 1 Namelist block initialization sucessfully read. The initial local time for this run is year-mo-dy:hr:mn:ss = 2013-04-11.07:35:00 Perturbation option was 0 The magnitude of the initial perturbation 1 is 4.000 K. The input radii of the thermal bubble are 0.100E+05 0.100E+05 0.150E+04 (m) in x, y and z direction respectively, and the center is located at x= 0.480E+05 y= 0.160E+05 z= 0.150E+04 (m). tsfc option was 0 The two time level restart data to be read in is ../arpsdata/ar2013041107.rst000600 The history dump type restart data format was 3 The t-dependent history dump format restart data to be read is ../extdata/ei2013041107.hdf027300 The base state/grid history dump format restart data to be read is ../extdata/ei2013041107.hdfgrdbas Sounding file to be used is may20.snd Namelist block nudging sucessfully read. The nudging assimilation option was 2 Nudging assimilation start: 600.00 Nudging assimilation stop: 1200.00 Nudging assimilation interval: 30.00 Nudging assimilation gain: 1.00 The nudging increment file is ../adasdata/incr201304110710 Namelist block terrain sucessfully read. The mountain type option was 1 The height of mountain is 0.000 (m). The input half-width of bell-shaped mountain are 0.100E+05 0.100E+05 (m) in x and y direction respectively, and the center is located at x= 0.100E+05 y= 0.100E+05 (m). The terrain option was 2 The terrain data file is casa2013_dfw.trnhdf The terrain data file format is 3 Namelist block grid sucessfully read. Input dx was 1000.000 meters Input dy was 1000.000 meters The stretch option was 1 Input dz was 400.000 meters Input ctrlat was 33.000 degrees North Input ctrlon was -96.500 degrees East domain origin option was 0 dzmin is 20.000 meters zrefsfc is 0.000 meters dlayer1 is 0.000 meters dlayer2 is 100000.000 meters zflat is 100000.000 meters Namelist block projection sucessfully read. Input mapproj was 2 Input trulat1 was 32.000 degrees North Input trulat2 was 34.000 degrees North The latitude of the center of the model domain was 33.000 The longitude of the center of the model domain was -96.500 Input trulon was -97.000 degrees East Input sclfct was 0.10000E+01 The option for map factor was 1 The option for map factor term in u and v advection was 1 Namelist block timestep sucessfully read. The big timestep was 3.000 seconds. The model startup time was 600.000 seconds. The termination time was 7800.000 seconds. Namelist block acoustic_wave sucessfully read. The sound speed option was 1 The reduction factor for sound speed was 0.500 The constant sound speed was 150.000 m/s. The vertical implicit integration option for w and p equations was 1 The option for potential temperature equation integrationwas 0 The time average coefficient for vertically implicit solver was 0.750 The input small timestep was 1.500 seconds. The actual small time step size to be used is 1.500 seconds. Namelist block equation_formulation sucessfully read. The option for pressure equation formulation was 1 Namelist block numerics sucessfully read. The option for time integration was 1 The option for momentum advection was 2 The option for scalar advection was 2 Namelist block boundary_condition_options sucessfully read. The lateral boundary conditions were set to external forced. All lateral boundary conditions will be reset to 5 accordingly. The boundary options are: 5 for west boundary, 5 for east boundary, 5 for south boundary, 5 for north boundary. The boundary options are: 1 for top boundary, 1 for bottom boundary. The upper boundary fft transform option is: 2 The radiation boundary condition option was 4 The constant gravity phase speed used by radiation lateral boundary condition option 2 was 300.000000 The relaxation coefficient used at the inflow boundaries is 0.500000 rbc_plbc = 1 Option for pressure detrending was 0 Namelist block exbcpara sucessfully read. The initial external boundary time string was 2013-04-1 The time interval to update external boundary conditions was 3600 The number of boundary relaxation zone grids was 12 The real grid number where BC relaxation is half weighted was 0.48000002E+01 The magnitude of the boundary relaxation damping was 0.20000000E-01 The external boundary file format was 3 Namelist block coriolis_force sucessfully read. The Coriolis term option was 4 The earth curvature option was 0 The flag for Coriolis formulation was 1 Namelist block turbulence sucessfully read. The turbulence option was 4 The isotropic turbulence option was 0 The 1.5 order TKE option was 3 The implicit treatment of vertical mixing option was 1 The nondimensional turbulent prandtl number was 0.330 The constant mixing coeff was 0.000 The parameter used to limit km was 1.000 The PBL parameterization option was 4 Namelist block computational_mixing sucessfully read. The second order computational mixing option was 0 The coeff for second order horizontal mixing was 0.00000E+00 The coeff for second order vertical mixing was 0.40000E-03 The fourth order computational mixing option was 1 The coeff for fourth order horizontal mixing was 0.10000E-02 The coeff for fourth order vertical mixing was 0.10000E-02 The c-mixing reduction factor for scalars was 0.10000E+01 The c-mix monotonic option was 0 Namelist block divergence_damping sucessfully read. The acoustic wave damping option was 2 The non-dimensional divergence damping coeff was 0.050 for horizontal and 0.050 for vertical Namelist block rayleigh_damping sucessfully read. The rayleigh damping option was 2 The rayleigh damping coeff was 0.20000E-02 The altitude of base of rayleigh damping was 0.12000E+05 Namelist block asselin_time_filter sucessfully read. The non-dimensional coeff of asselin time filter was 0.50000E-01 Namelist block microphysics sucessfully read. The microphysics option was 2 And the microphysics will be called every 1 time steps. DSD preference was 0 Cloud number concentration was 0.10000E+09 Rain DSD intercept parameters was 0.80000E+07 Snow DSD intercept parameters was 0.30000E+07 Graupel DSD intercept parameters was 0.40000E+06 Hail DSD intercept parameters was 0.40000E+05 Ice density was 0.50000E+03 Snow density was 0.10000E+03 Graupel density was 0.40000E+03 Hail density was 0.91300E+03 Rain shape parameter was 0.00000E+00 Ice shape parameter was 0.00000E+00 Snow shape parameter was 0.00000E+00 Graupel shape parameter was 0.00000E+00 Hail shape parameter was 0.00000E+00 Graupel initiation option was 1 Hail initiation option was 1 Microphysics thermal diagnostic option was 0 The moist phyics option was 1 The convective cumulus option was 0 The sub-saturation option was 0 The K-F rainwater feedback option was 0.00000 The K-F sub-saturation trigger was kfsubsattrig= 0 The vertical motion was 0.00500 The frequency of conv. para. updated in seconds was 120.00000 The frequency of grid para. updated in seconds was 120.00000 The downdraft flag was 1 The vertically implicit fall velocity option was 0 The fall velocity option was 1 The threshold of RH for condensation to occur: rhsat = 0.80000 The threshold of RH for a grid size of dx_rhsatmin: rhsatmin = 0.80000 The grid size for condensation to occur (RH=rhsatmin): dx_rhsatmin = 50000.00000 The grid size for condensation to occur (RH=100%): dx_rhsat100 = 5000.00000 rhsat for model integration is re-adjusted to 1.00000 Namelist block concentration sucessfully read. The concentration option was 0 Number of release points was 1 Number of emission points 1 Release point Emitted Emitted time No. icc jcc kcc Concentrat. sta. end. ---- ---- ---- ---- ----------- ---- ---- 1 85 83 2********** 720010800 Namelist block radiation sucessfully read. The radiation phyics option was 2 The radiation staggering option was 1 The option for longwave schemes was 1 The option to compute the shade was 0 The Time interval to update the radiation forcing was 600.00000 The radiation diagnostic output option was 0 Radiation physics will be calculated every 200 time steps Namelist block surface_physics sucessfully read. The surface physics option was 4 The land/water option was 1 The constant water cdh option was 0 The user specified drag coeff for momentun over land was 0.003 The user specified drag coeff for momentun over water was 0.001 The user specified drag coeff for heat over land was 0.003 The user specified drag coeff for heat over water was 0.001 The user specified drag coeff for moisture over land was 0.002 The user specified drag coeff for moisture over water was 0.001 The option for determining PBL depth was 2 The user specified PBL depth was 1400.000 The PBL length scale 0.250 The flux distribution option was 0 The heat and moisture distribution option was 1 Namelist block soil_ebm sucessfully read. For non-stretched case, dzmin was reset to dz. The stretch option was 0 Input nzsoil was 2 levels Input dzsoil was 1.000 meters Input zrefsoil was 0.000 meters soildzmin is 1.000 meters soildlayer1 is 0.000 meters soildlayer2 is 1.000 meters The surface data input option was 2 The soil model forced option was 0 The soil scheme input option was 1 The surface initial data input option was 2 Since soilmodel_option = 1, nzsoil is set to 2 and dzsoil is set to 1.0 The time step for surface energy budget model was 3.000 The surface soil type is 3 The surface vegtation type is 10 The leaf area index is 0.310 The user specified land surface roughness was 0.010 The user specified vegetation fraction was 0.300 The option for the soil scheme being forced is 0 The soil scheme is 1 The number of soil layers are 2 The average soil layer depth is 1.000 The reference height of the soil depth is 0.000 The initial ground level soil potential temperature over land is 293.000 The initial ground level soil potential temperature over water is 288.000 The canopy moisture is 0.000 The snow depth is 0.000 The offset of top soil layer from surface air temperature is 0.000 The offset of bottom soil layer from surface air temperature is 0.000 The saturation ratio of surface soil moisture is 0.700 The saturation ratio of deep soil moisture is 0.700 nstyps = 3 Option for including seasonal deep and skin layer temperature offset in the two-layer soil model Your choice is 0 The amplitude of the annual cycle of the difference (offset) in deep and skin layer soil seasonal-mean temperatures is 2.500 Namelist block grdtrans sucessfully read. Cell tracking option was 0 The grid translation option was 0 The domain translation speed in x was 0.000 The domain translation speed in y was 0.000 The depth of domain to check for grid translation was 2500.000 The time window for updating umove and vmove was 300.000 Cell tracking interval was 120.000 Cell-tracking routine will be called every 40 time steps. Cell restore time was 1800.000 Namelist block history_dump sucessfully read. The history dump option was 1 The history dump format was 3 Number of bits in packing GRIB dump data was 16 HDF4 compression option was 5 The history dump time interval was 300.000 seconds The history dump starting time was 0.000 seconds History data dumps will be produced every 100 time steps after the first 0 time steps where tttttt (if any) stands for the time of the data in seconds. Namelist block output sucessfully read. Grid and Base file output is ( 1 ). Formatted printout time interval was 0.000 seconds. Formatted printing is switched off. The flag to dump out ARPS array into EXBC fields was 0 The flag for HDF4 compression was 5 The flag to dump out ARPS surface data files was 0 The flag to dump out ARPS soil data files was 0 The flag to dump out an ARPS terrain data file was 0 The input grid coordinate dump option was 0 The input base state array dump option was 0 The input mass-velocity array dump option was 1 The input non-ice water array dump option was 1 The input rain array dump option was 1 The input precipitation rates array dump option was 1 The input ice array dump option was 1 The input TKE dump option was 1 The input eddy mixing coeff dump option was 1 The soil variable dump option was 1 The surface property array dump option was 1 The radiation arrays dump option was 1 The surface fluxes dump option was 1 The qc EXBC dump option was 0 The qr EXBC dump option was 0 The qi EXBC dump option was 0 The qs EXBC dump option was 0 The qh EXBC dump option was 0 The qg EXBC dump option was 0 Concentration number EXBC dump option was 0 Reflectivity EXBC dump option was 0 Specify the time interval between restart data dumps (s): Time interval between restart dumps was 0.000 seconds Restart data dump is switched off. Interval between max/min calculations was 300.000 seconds Max. min. statistics are calculated every 100 time steps. and the results are written into file ar2013041107.maxmin Interval between energy stats calculations was 0.000 Energy statistics calculations are switched off. Image dump option was 0 Image dump interval was 60.000 Data files for images will be written every 20 time steps. Plotting option was 0 Plotting interval was 600.000 Plotting routine will be called every 200 time steps. File compression option was 0 Namelist block debug sucessfully read. The debug printing level was 0 ======================================= Processor nx = 33 Processor ny = 23 Input dtsml = 1.50000, Adjusted dtsml = 1.50000 PRINT OUT OF MODEL PARAMETERS FOR GRID 1 &grid_dims nx = 363, ny = 323, nz = 53, / &message_passing nproc_x = 12, nproc_y = 16, max_fopen = 192, / &comment_lines nocmnt = 2, cmnt(01) = 'ARPS 5.3', cmnt(02) = ' nx = 363, ny = 323, nz = 53 ARPS 5.3', / &jobname runname = 'ar2013041107', / &model_configuration runmod = 1, / &initialization initime = '2013-04-11.07:35:00', timeopt = 0, initopt = 2, inibasopt = 1, viniopt = 1, soilinitopt = 0, tsfcopt = 0, soiltintv = 1800.0000, ubar0 = 0.0000, vbar0 = 0.0000, pt0opt = 0, ptpert0( 1) = 4.0000, pt0radx( 1) = 10000.0000, pt0rady( 1) = 10000.0000, pt0radz( 1) = 1500.0000, pt0ctrx( 1) = 48000.0000, pt0ctry( 1) = 16000.0000, pt0ctrz( 1) = 1500.0000, sndfile = 'may20.snd', rstinf = '../arpsdata/ar2013041107.rst000600', inifmt = 3, inisplited= 1001111, inifile = '../extdata/ei2013041107.hdf027300', inigbf = '../extdata/ei2013041107.hdfgrdbas', / &nudging nudgopt = 2, ndstart = 600.0000, ndstop = 1200.0000, ndintvl = 30.0000, ndgain = 1.0000, incrfnam = '../adasdata/incr201304110710', incrfmt = 3, nudgu = 1, nudgv = 1, nudgw = 0, nudgp = 0, nudgpt = 1, nudgqv = 1, nudgqc = 1, nudgqr = 1, nudgqi = 1, nudgqs = 1, nudgqh = 1, / &terrain ternopt = 2, mntopt = 1, hmount = 0.0000, mntwidx = 10000.0000, mntwidy = 10000.0000, mntctrx = 10000.0000, mntctry = 10000.0000, ternfmt = 3, terndta = 'casa2013_dfw.trnhdf', / &grid dx = 1000.0000, dy = 1000.0000, dz = 400.0000, strhopt = 1, dzmin = 20.0000, zrefsfc = 0.0000, dlayer1 = 0.0000, dlayer2 = 100000.0000, strhtune = 0.2000, zflat = 100000.0000, ctrlat = 33.0000, ctrlon = -96.5000, crdorgnopt= 0, / &projection mapproj = 2, trulat1 = 32.0000, trulat2 = 34.0000, trulon = -97.0000, sclfct = 0.10000E+01, mpfctopt = 1, mptrmopt = 1, maptest = 0, / ×tep dtbig = 3.0000, tstart = 600.0000, tstop = 7800.0000, / &acoustic_wave vimplct = 1, ptsmlstp = 0, csopt = 1, csfactr = 0.5000, csound = 150.0000, tacoef = 0.7500, dtsml = 1.5000, / &equation_formulation buoyopt = 1, buoy2nd = 1, rhofctopt = 1, bsnesq = 0, peqopt = 1, / &numerics tintegopt = 1, madvopt = 2, sadvopt = 2, fctorderopt= 2, fctadvptprt= 1, / &boundary_condition_options lbcopt = 2, wbc = 5, ebc = 5, sbc = 5, nbc = 5, tbc = 1, fftopt = 2, bbc = 1, rbcopt = 4, rbc_plcb = 1, c_phase = 300.0000, rlxlbc = 0.5000, pdetrnd = 0, / &exbcpara exbcname = '../extdata/em2013041107', tinitebd = '2013-04-11.07:00:00', tintvebd = 3600, ngbrz = 12, brlxhw = 0.48000E+01, cbcdmp = 0.20000E-01, exbcfmt = 3, / &coriolis_force coriopt = 4, earth_curvature = 0, coriotrm = 1, / &turbulence tmixopt = 4, trbisotp = 0, tkeopt = 3, trbvimp = 1, tmixvert = 0, prantl = 0.3300, tmixcst = 0.0000, kmlimit = 1.0000, / &computational_mixing cmix2nd = 0, cfcm2h = 0.00000E+00, cfcm2v = 0.40000E-03, cmix4th = 1, cfcm4h = 0.10000E-02, cfcm4v = 0.10000E-02, scmixfctr = 0.10000E+01, cmix_opt = 0, / &divergence_damping divdmp = 2, divdmpndh = 0.0500, divdmpndv = 0.0500, / &rayleigh_damping raydmp = 2, cfrdmp = 0.0020, zbrdmp = 12000.0000, / &asselin_time_filter flteps = 0.0500, / &concentration ccin = 0, cpoint = 1, icc = 85, jcc = 83, kcc = 2, ccstart = 7200, ccend = 10800, ccemit = 180000.0000, / µphysics moist = 1, mphyopt = 2, nmphystp = 1, dsdpref = 0, ntcloud = 0.10000E+09, n0rain = 0.80000E+07, n0snow = 0.30000E+07, n0grpl = 0.40000E+06, n0hail = 0.40000E+05, rhoice = 0.50000E+03, rhosnow = 0.10000E+03, rhogrpl = 0.40000E+03, rhohail = 0.91300E+03, alpharain = 0.00000E+00, alphaice = 0.00000E+00, alphasnow = 0.00000E+00, alphagrpl = 0.00000E+00, alphahail = 0.00000E+00, graupel_ON = 1, hail_ON = 1, mpthermdiag = 0, cnvctopt = 0, kffbfct = 0.00000E+00, kfsubsattrig = 0, wcldbs = 0.50000E-02, confrq = 0.1200E+03, qpfgfrq = 0.1200E+03, idownd = 1, impfallopt = 0, fallopt = 1, subsatopt = 0, rhsat = 0.10000E+01, rhsatmin = 0.80000E+00, dx_rhsatmin = 0.50000E+05, dx_rhsat100 = 0.50000E+04, / &radiation radopt = 2, radstgr = 1, rlwopt = 1, radshade = 0, dtrad = 600.0000, raddiag = 0, / &surface_physics sfcphy = 4, landwtr = 1, cdhwtropt = 0, cdmlnd = 0.30000E-02, cdmwtr = 0.10000E-02, cdhlnd = 0.30000E-02, cdhwtr = 0.10000E-02, cdqlnd = 0.21000E-02, cdqwtr = 0.70000E-03, pbldopt = 2, pbldpth0 = 1400.0000, lsclpbl0 = 0.2500, tqflxdis = 1, dtqflxdis = 200.0000, sfcdiag = 0, / &soil_ebm sfcdat = 2, styp = 3, vtyp = 10, lai0 = 0.3100, roufns0 = 0.0100, veg0 = 0.3000, sfcdtfl = '../casa2013_dfw_m04_d11_n3.sfchdf', sitemeso = '../../arpsdata.dir/mts.dir/Meso', siteflux = '../../arpsdata.dir/mts.dir/Flux', siternet = '../../arpsdata.dir/mts.dir/Radd', sitesoil = '../../arpsdata.dir/mts.dir/Soil', siteveg = '../../arpsdata.dir/mts.dir/Veg', sfcfmt = 3, soilmodel_forced = 0, soilmodel_option = 1, nzsoil = 2, dzsoil = 1.0000, zrefsoil = 0.0000, tsoilint(001) = 283.2000, qsoilint(001) = 0.2600, tsoilint(002) = 291.2000, qsoilint(002) = 0.2603, soilstrhopt = 0000, soildzmin = 1.0000, soildlayer1 = 0.0000, soildlayer2 = 1.0000, soilstrhtune = 1.0000, sfcdtfl = '../casa2013_dfw_m04_d11_n3.sfchdf', sfcfmt = 3, soilinit = 2, ptslnd0 = 293.0000, ptswtr0 = 288.0000, wetcanp0 = 0.00000E+00, snowdpth0 = 0.00000E+00, ttprt = 0.00000E+00, tbprt = 0.00000E+00, wgrat = 0.70000E+00, w2rat = 0.70000E+00, soilinfl = '../extdata/ei2013041107.soilvar.027300', soilfmt = 3, tsoil_offset = 0, tsoil_offset_amplitude = 2.5000, dtsfc = 3.0000, prtsoilflx = 0, / &grdtrans cltkopt = 0, tceltrk = 120.0000, tcrestr = 1800.0000, grdtrns = 0, umove = 0.0000, vmove = 0.0000, twindow = 300.0000, chkdpth = 2500.0000, / &history_dump hdmpopt = 1, hdmpfmt = 3, dmp_out_joined = 0000000, grbpkbit = 16, hdfcompr = 5, thisdmp = 300.0000, tstrtdmp = 0.0000, numhdmp = 3, hdmptim(001) = 0.0000, hdmptim(002) = 3600.0000, hdmptim(003) = 7200.0000, / &output dirname = '../arpsdata/', exbcdmp = 0, exbchdfcompr = 5, extdadmp = 0, filcmprs = 0, basout = 0, grdout = 0, varout = 1, mstout = 1, iceout = 1, tkeout = 1, trbout = 1, sfcout = 1, rainout = 1, prcout = 1, landout = 1, radout = 1, flxout = 1, qcexout = 0, qrexout = 0, qiexout = 0, qsexout = 0, qhexout = 0, qgexout = 0, nqexout = 0, zqexout = 0, sfcdmp = 0, soildmp = 0, terndmp = 0, tfmtprt = 0.0000, trstout = 0.0000, tmaxmin = 300.0000, tenergy = 0.0000, imgopt = 0, timgdmp = 60.0000, pltopt = 0, tplots = 600.0000, / &debug lvldbg = 0, / Output files for forecast time = 600.00 will be in directory <../arpsdata/>. Fortran I/O unit 39 picked from the free list. Fortran I/O unit 39 returned to the free list. Log file ../arpsdata/ar2013041107.log.01 was produced for this job. Allocating arrays nxndg,nyndg,nzndg = 33 23 53 Done allocating arrays Fortran I/O unit 39 picked from the free list. This is a restart run. Input was read from restart file ../arpsdata/ar2013041107.rst000600 using fortran unit 39 Restart data is at time 600.0 Base state arrays are read in from restart data set the base state set in INIBASE is superceded. read in sfc/soil variables: Fortran I/O unit 39 returned to the free list. Grid definition arrays are read in from initialization data those set in INIGRD are superceded. Min. and max. of the data arrays read in from restart data: xmin = -0.100000E+04, xmax = 0.361000E+06 ymin = -0.100000E+04, ymax = 0.321000E+06 zmin = -0.400000E+03, zmax = 0.204000E+05 zpmin = 0.415178E+02, zpmax = 0.207776E+05 zpsoilmin = 0.604563E+02, zpsoilmax = 0.494020E+03 hmin = 0.614563E+02, hmax = 0.494020E+03 ubarmin = 0.257109E+01, ubarmax = 0.466708E+02 vbarmin = -0.149574E+02, vbarmax = 0.473456E+02 ptbarmin= 0.277315E+03, ptbarmax= 0.487797E+03 pbarmin = 0.522298E+04, pbarmax = 0.100966E+06 rhostrmin= 0.588241E-01, rhostrmax= 0.802588E+00 qvbarmin= 0.970067E-06, qvbarmax= 0.426485E-02 Min/max of fields at tpresent: umin = -0.146709E+01, umax = 0.504181E+02 vmin = -0.165109E+02, vmax = 0.484155E+02 wmin = -0.185360E+01, wmax = 0.271627E+01 ptprtmin= -0.870904E+01, ptprtmax= 0.104924E+02 pprtmin = -0.638073E+03, pprtmax = 0.456678E+03 qvmin = 0.597457E-06, qvmax = 0.105998E-01 qcmin = 0.000000E+00, qcmax = 0.738371E-03 qrmin = 0.000000E+00, qrmax = 0.529726E-03 qimin = 0.000000E+00, qimax = 0.389881E-03 qsmin = 0.000000E+00, qsmax = 0.588510E-03 qhmin = 0.000000E+00, qhmax = 0.106525E-03 Min/max of fields at tpast: umin = -0.146704E+01, umax = 0.504199E+02 vmin = -0.165176E+02, vmax = 0.484174E+02 wmin = -0.187728E+01, wmax = 0.271367E+01 ptprtmin= -0.870823E+01, ptprtmax= 0.104919E+02 pprtmin = -0.638066E+03, pprtmax = 0.456723E+03 qvmin = 0.597431E-06, qvmax = 0.106001E-01 qcmin = 0.000000E+00, qcmax = 0.737218E-03 qrmin = 0.000000E+00, qrmax = 0.532400E-03 qimin = 0.000000E+00, qimax = 0.392906E-03 qsmin = 0.000000E+00, qsmax = 0.586057E-03 qhmin = 0.000000E+00, qhmax = 0.125334E-03 Min/max of fields for other one time level arrays: tsoilmin= 0.277653E+03, tsoilmax = 0.291292E+03 qsoilmin = 0.121361E+00, qsoilmax = 0.364575E+00 wetcmin = 0.000000E+00, wetcmax = 0.847125E-03 raingmin= 0.000000E+00, raingmax = 0.440205E+00 raincmin= 0.000000E+00, raincmax = 0.000000E+00 ptcummin= 0.000000E+00, ptcummax= 0.000000E+00 qvcummin= 0.000000E+00, qvcummax= 0.000000E+00 qccummin= 0.000000E+00, qccummax= 0.000000E+00 qrcummin= 0.000000E+00, qrcummax= 0.000000E+00 qicummin= 0.000000E+00, qicummax= 0.000000E+00 qscummin= 0.000000E+00, qscummax= 0.000000E+00 Base state z-profiles at I= 32, J= 22 Fortran I/O unit 39 picked from the free list. Output files for forecast time = 0.00 will be in directory <../arpsdata/>. k z(m) pbar(Pascal) ptbar(K) rhobar(kg/m**3) Qvbar(kg/kg) U(m/s) V(m/s) 52 20383.547 5227.445 487.67596 0.09845020 0.00000097 4.59818 2.26404 51 19616.453 5922.940 470.23712 0.09845020 0.00000114 5.45606 4.01590 50 18871.316 6687.585 453.88361 0.11123645 0.00000124 6.28937 5.71761 49 18168.309 7499.862 438.97583 0.12482566 0.00000130 7.09001 7.32209 48 17503.924 8356.573 427.26392 0.13854630 0.00000200 12.26133 11.01455 47 16874.803 9254.153 416.55676 0.15284787 0.00000270 17.29015 14.57785 46 16277.744 10191.206 407.40140 0.16742700 0.00000336 21.22397 17.19116 45 15709.701 11160.852 401.91821 0.18109174 0.00000399 20.90866 15.95983 44 15167.775 12159.136 396.81757 0.19499137 0.00000462 20.60784 14.78510 43 14649.221 13186.137 391.49750 0.20942356 0.00000509 22.44280 14.29314 42 14151.447 14243.615 386.27188 0.22427818 0.00000547 25.46925 14.19270 41 13672.015 15333.021 380.54205 0.23995794 0.00000651 29.03512 15.40606 40 13208.637 16461.920 373.16409 0.25743675 0.00000928 33.87083 20.03235 39 12759.178 17635.445 365.94861 0.27574435 0.00001207 38.47749 24.80686 38 12321.656 18861.125 357.36893 0.29624355 0.00001434 42.82401 33.02870 37 11894.242 20146.572 349.43311 0.31757757 0.00001530 46.64058 40.64549 36 11475.260 21493.191 343.26276 0.33857471 0.00001513 46.40760 44.53717 35 11063.182 22904.010 337.87878 0.35994691 0.00001443 45.65804 47.28640 34 10656.637 24378.238 334.40384 0.38025501 0.00001406 43.78841 46.43350 33 10254.405 25918.100 331.19855 0.40110126 0.00001577 41.41426 45.28816 32 9855.422 27528.041 328.22168 0.42253718 0.00001954 38.70316 43.79911 31 9458.770 29212.820 325.55515 0.44445539 0.00003111 34.82485 42.82208 30 9063.686 30977.010 323.20605 0.46682516 0.00005183 30.63451 41.98526 29 8669.563 32823.781 321.21552 0.48954004 0.00008593 26.37693 41.19270 28 8275.940 34756.285 319.60138 0.51251304 0.00013878 22.93573 40.23767 27 7882.515 36776.707 318.46021 0.53550887 0.00020101 21.03992 38.85209 26 7489.134 38886.457 317.36331 0.55917293 0.00027494 19.59097 37.28006 25 7095.798 41088.699 316.30029 0.58353364 0.00036139 18.91807 35.47011 24 6702.659 43384.910 315.29065 0.60854363 0.00046773 18.90739 33.41165 23 6310.021 45775.637 314.30243 0.63424850 0.00058988 19.19974 31.16311 22 5918.342 48260.723 313.27237 0.66075945 0.00073450 19.24875 28.86624 21 5528.233 50838.855 312.17801 0.68810654 0.00091933 18.90453 26.54682 20 5140.456 53506.781 311.06860 0.71616507 0.00111703 18.60064 23.86729 19 4755.925 56259.750 309.83496 0.74514675 0.00133665 18.03881 20.75814 18 4375.708 59091.656 308.42395 0.77516794 0.00156444 17.11806 17.23339 17 4001.023 61994.473 306.87054 0.80616105 0.00171794 16.41883 13.17327 16 3633.245 64956.453 305.34451 0.83760750 0.00180005 15.37728 8.96966 15 3273.897 67961.305 303.94897 0.86904675 0.00184680 13.71795 5.52508 14 2924.657 70988.750 302.70410 0.90015996 0.00193453 11.75803 3.58418 13 2587.354 74014.695 301.54001 0.93069339 0.00244151 9.88855 2.90372 12 2263.971 77011.641 300.25595 0.96088356 0.00358915 8.54822 2.42807 11 1956.641 79951.313 298.75986 0.99150556 0.00421687 7.49826 0.90907 10 1667.653 82806.250 296.34811 1.02504981 0.00403276 6.38443 -1.33158 9 1399.445 85544.539 293.56714 1.05958581 0.00324234 5.43460 -4.05585 8 1154.610 88132.000 289.39099 1.09813249 0.00303440 4.59751 -7.57749 7 935.892 90527.094 284.99811 1.13665235 0.00298213 4.32850 -11.97443 6 746.188 92672.023 281.34940 1.17071831 0.00311281 3.93479 -14.94615 5 588.548 94498.555 279.61249 1.19407833 0.00373564 4.09662 -13.30382 4 466.173 95941.023 278.66034 1.21103001 0.00395715 4.04400 -11.23495 3 382.418 96939.469 278.29428 1.22156024 0.00404097 3.87495 -9.57757 2 340.790 97438.773 278.12933 1.22674704 0.00408223 3.77062 -8.78220 1 321.121 97675.555 278.07605 1.22674704 0.00410044 3.67550 -8.46504 Fortran I/O unit 39 returned to the free list. Model initialization option was set to restart. All the surface and soil arrays should have been read in from the restart file. No more initialization is done in subroutine INITSFC. Boundary relaxation coefficients j\i 1 2 3 4 5 6 7 8 9 1 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 1.00000 2 1.00000 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 0.95840 3 1.00000 0.95840 0.85207 0.85207 0.85207 0.85207 0.85207 0.85207 0.85207 4 1.00000 0.95840 0.85207 0.71910 0.71910 0.71910 0.71910 0.71910 0.71910 5 1.00000 0.95840 0.85207 0.71910 0.59016 0.59016 0.59016 0.59016 0.59016 6 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.47960 0.47960 0.47960 7 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.39024 0.39024 8 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.31982 9 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 10 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 11 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 12 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 13 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 14 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 15 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 16 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 17 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 18 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 19 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 20 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 21 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 22 1.00000 0.95840 0.85207 0.71910 0.59016 0.47960 0.39024 0.31982 0.26471 23 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 0.00000 External BC data file ../extdata/em2013041107.20130411.080000_0101 could not be found. Try another time. External boundary data file has been found: ../extdata/em2013041107.20130411.090000_001001 Application of nudging adjustment lasts 600.00 secs HDFRDI: WARNING, variable iyr not found in file. Value was reset to 0. HDFRDI: WARNING, variable imon not found in file. Value was reset to 0. HDFRDI: WARNING, variable idy not found in file. Value was reset to 0. HDFRDI: WARNING, variable ihr not found in file. Value was reset to 0. HDFRDI: WARNING, variable imin not found in file. Value was reset to 0. HDFRDI: WARNING, variable isec not found in file. Value was reset to 0. Nudging applied in 20 steps ndintvl adjusted for dtbig = 30.00 The initial model time is at 600.000 seconds. Min. and max. of data arrays at initial time on grid 1 xmin = -0.100000E+04, xmax = 0.361000E+06 ymin = -0.100000E+04, ymax = 0.321000E+06 zmin = -0.400000E+03, zmax = 0.204000E+05 zpmin = 0.415178E+02, zpmax = 0.207776E+05 hmin = 0.614563E+02, hmax = 0.494020E+03 ubarmin = 0.257109E+01, ubarmax = 0.466708E+02 vbarmin = -0.149574E+02, vbarmax = 0.473456E+02 ptbarmin= 0.277315E+03, ptbarmax= 0.487797E+03 pbarmin = 0.522298E+04, pbarmax = 0.100966E+06 qvbarmin= 0.970067E-06, qvbarmax= 0.426485E-02 Min/max of fields at tpresent: umin = -0.146709E+01, umax = 0.504181E+02 vmin = -0.165109E+02, vmax = 0.484155E+02 wmin = -0.185360E+01, wmax = 0.271627E+01 ptprtmin= -0.870904E+01, ptprtmax= 0.104924E+02 pprtmin = -0.638073E+03, pprtmax = 0.456678E+03 qvmin = 0.597457E-06, qvmax = 0.105998E-01 qcmin = 0.000000E+00, qcmax = 0.738371E-03 qrmin = 0.000000E+00, qrmax = 0.529726E-03 qimin = 0.000000E+00, qimax = 0.389881E-03 qsmin = 0.000000E+00, qsmax = 0.588510E-03 qhmin = 0.000000E+00, qhmax = 0.106525E-03 Min/max of fields at tpast: umin = -0.146704E+01, umax = 0.504199E+02 vmin = -0.165176E+02, vmax = 0.484174E+02 wmin = -0.187728E+01, wmax = 0.271367E+01 ptprtmin= -0.870823E+01, ptprtmax= 0.104919E+02 pprtmin = -0.638066E+03, pprtmax = 0.456723E+03 qvmin = 0.597431E-06, qvmax = 0.106001E-01 qcmin = 0.000000E+00, qcmax = 0.737218E-03 qrmin = 0.000000E+00, qrmax = 0.532400E-03 qimin = 0.000000E+00, qimax = 0.392906E-03 qsmin = 0.000000E+00, qsmax = 0.586057E-03 qhmin = 0.000000E+00, qhmax = 0.125334E-03 ucourant = 0.1513 at i= 348, j= 28, k= 37 vcourant = 0.1453 at i= 294, j= 322, k= 33 wcourant = 0.0000 at i= 2, j= 2, k= 2 uvcourant= 0.1006 at i= 232, j= 127, k= 35 refmax= 38.7270278931 at i= 346, j= 12, k= 6 vorlx= 0.240368000232E-02 at i= 121, j= 155, k= 10 vorux= 0.267367763445E-02 at i= 121, j= 156, k= 12 uvmax= 17.0383319855 at i= 151, j= 189, k= 7 uvmaxdr= 0.00000000000 at i= 151, j= 189, k= 7 umin = -1.46709442139 at i= 1, j= 1, k= 5 umax = 50.4181251526 at i= 348, j= 28, k= 37 vmin = -16.5108947754 at i= 151, j= 189, k= 7 vmax = 48.4155235291 at i= 294, j= 322, k= 33 wmin = -1.85360264778 at i= 302, j= 31, k= 20 wmax = 2.71626877785 at i= 1, j= 1, k= 35 ptprtmin= -8.70904445648 at i= 361, j= 4, k= 40 ptprtmax= 10.4924011230 at i= 1, j= 322, k= 36 pprtmin = -638.0731812 at i= 1, j= 322, k= 30 pprtmax = 456.6783142 at i= 362, j= 1, k= 30 qvmin= 0.597457244567E-06 at i= 362, j= 78, k= 51 qvmax= 0.105998124927E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.738371396437E-03 at i= 360, j= 1, k= 11 qrmin= 0.00000000000 at i= 5, j= 1, k= 1 qrmax= 0.529725686647E-03 at i= 346, j= 13, k= 8 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.389881141018E-03 at i= 73, j= 172, k= 23 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.588510301895E-03 at i= 353, j= 25, k= 21 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.106524930743E-03 at i= 351, j= 20, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 2.21612048149 at i= 206, j= 306, k= 3 kmhmin= 0.00000000000 at i= 1, j= 1, k= 1 kmhmax= 0.00000000000 at i= 1, j= 1, k= 1 kmvmin= 0.00000000000 at i= 1, j= 1, k= 1 kmvmax= 0.00000000000 at i= 1, j= 1, k= 1 tsoilmin= 277.652587891 at i= 141, j= 322, k= 1 tsoilmax= 291.291534424 at i= 291, j= 84, k= 2 qsoilmin= 0.121361166239 at i= 242, j= 1, k= 1 qsoilmax= 0.364575058222 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.847125193104E-03 at i= 346, j= 11 Output files for forecast time = 600.00 will be in directory <../arpsdata/>. Check to see if file ../arpsdata/ar2013041107.maxmin already exists. If so, append a version number to the filename. Fortran I/O unit 39 picked from the free list. Output files for forecast time = 0.00 will be in directory <../arpsdata/>. Data dump of grid and base state arrays into file ../arpsdata//ar2013041107.hdfgrdbas_001001.01 Writing HDF4 grid and base file to ../arpsdata//ar2013041107.hdfgrdbas_001001.01 HDFWRT1D : Writing variable HDFWRT1D : Writing variable HDFWRT1D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3DI: Writing variable HDFWRT3D : Writing variable HDFWRT2DI: Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Output files for forecast time = 600.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf000600_001001.01 Writing HDF4 data at time= 600.000 into file ../arpsdata/ar2013041107.hdf000600_001001.01 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. now the nstep,curtim are 200 600.0 Compute radiation at time step, 201, model time= 600.00 (s) End of integration time step 201, Model time= 603.00 s ( 0.168 h) End of integration time step 202, Model time= 606.00 s ( 0.168 h) End of integration time step 203, Model time= 609.00 s ( 0.169 h) End of integration time step 204, Model time= 612.00 s ( 0.170 h) End of integration time step 205, Model time= 615.00 s ( 0.171 h) End of integration time step 206, Model time= 618.00 s ( 0.172 h) End of integration time step 207, Model time= 621.00 s ( 0.172 h) End of integration time step 208, Model time= 624.00 s ( 0.173 h) End of integration time step 209, Model time= 627.00 s ( 0.174 h) Nudging forecast at 630.0 Timeweight: 0.0090 Accum wgt: 0.0045 Accum Target: 1.0000 Timeweight: 0.0090 Accum wgt: 0.0090 Accum Target: 1.0000 End of integration time step 210, Model time= 630.00 s ( 0.175 h) End of integration time step 211, Model time= 633.00 s ( 0.176 h) End of integration time step 212, Model time= 636.00 s ( 0.177 h) End of integration time step 213, Model time= 639.00 s ( 0.178 h) End of integration time step 214, Model time= 642.00 s ( 0.178 h) End of integration time step 215, Model time= 645.00 s ( 0.179 h) End of integration time step 216, Model time= 648.00 s ( 0.180 h) End of integration time step 217, Model time= 651.00 s ( 0.181 h) End of integration time step 218, Model time= 654.00 s ( 0.182 h) End of integration time step 219, Model time= 657.00 s ( 0.183 h) Nudging forecast at 660.0 Timeweight: 0.0190 Accum wgt: 0.0185 Accum Target: 1.0000 Timeweight: 0.0190 Accum wgt: 0.0280 Accum Target: 1.0000 End of integration time step 220, Model time= 660.00 s ( 0.183 h) End of integration time step 221, Model time= 663.00 s ( 0.184 h) End of integration time step 222, Model time= 666.00 s ( 0.185 h) End of integration time step 223, Model time= 669.00 s ( 0.186 h) End of integration time step 224, Model time= 672.00 s ( 0.187 h) End of integration time step 225, Model time= 675.00 s ( 0.188 h) End of integration time step 226, Model time= 678.00 s ( 0.188 h) End of integration time step 227, Model time= 681.00 s ( 0.189 h) End of integration time step 228, Model time= 684.00 s ( 0.190 h) End of integration time step 229, Model time= 687.00 s ( 0.191 h) Nudging forecast at 690.0 Timeweight: 0.0290 Accum wgt: 0.0425 Accum Target: 1.0000 Timeweight: 0.0290 Accum wgt: 0.0570 Accum Target: 1.0000 End of integration time step 230, Model time= 690.00 s ( 0.192 h) End of integration time step 231, Model time= 693.00 s ( 0.193 h) End of integration time step 232, Model time= 696.00 s ( 0.193 h) End of integration time step 233, Model time= 699.00 s ( 0.194 h) End of integration time step 234, Model time= 702.00 s ( 0.195 h) End of integration time step 235, Model time= 705.00 s ( 0.196 h) End of integration time step 236, Model time= 708.00 s ( 0.197 h) End of integration time step 237, Model time= 711.00 s ( 0.198 h) End of integration time step 238, Model time= 714.00 s ( 0.198 h) End of integration time step 239, Model time= 717.00 s ( 0.199 h) Nudging forecast at 720.0 Timeweight: 0.0390 Accum wgt: 0.0765 Accum Target: 1.0000 Timeweight: 0.0390 Accum wgt: 0.0960 Accum Target: 1.0000 End of integration time step 240, Model time= 720.00 s ( 0.200 h) End of integration time step 241, Model time= 723.00 s ( 0.201 h) End of integration time step 242, Model time= 726.00 s ( 0.202 h) End of integration time step 243, Model time= 729.00 s ( 0.203 h) End of integration time step 244, Model time= 732.00 s ( 0.203 h) End of integration time step 245, Model time= 735.00 s ( 0.204 h) End of integration time step 246, Model time= 738.00 s ( 0.205 h) End of integration time step 247, Model time= 741.00 s ( 0.206 h) End of integration time step 248, Model time= 744.00 s ( 0.207 h) End of integration time step 249, Model time= 747.00 s ( 0.208 h) Nudging forecast at 750.0 Timeweight: 0.0490 Accum wgt: 0.1205 Accum Target: 1.0000 Timeweight: 0.0490 Accum wgt: 0.1450 Accum Target: 1.0000 End of integration time step 250, Model time= 750.00 s ( 0.208 h) End of integration time step 251, Model time= 753.00 s ( 0.209 h) End of integration time step 252, Model time= 756.00 s ( 0.210 h) End of integration time step 253, Model time= 759.00 s ( 0.211 h) End of integration time step 254, Model time= 762.00 s ( 0.212 h) End of integration time step 255, Model time= 765.00 s ( 0.213 h) End of integration time step 256, Model time= 768.00 s ( 0.213 h) End of integration time step 257, Model time= 771.00 s ( 0.214 h) End of integration time step 258, Model time= 774.00 s ( 0.215 h) End of integration time step 259, Model time= 777.00 s ( 0.216 h) Nudging forecast at 780.0 Timeweight: 0.0590 Accum wgt: 0.1745 Accum Target: 1.0000 Timeweight: 0.0590 Accum wgt: 0.2040 Accum Target: 1.0000 End of integration time step 260, Model time= 780.00 s ( 0.217 h) End of integration time step 261, Model time= 783.00 s ( 0.218 h) End of integration time step 262, Model time= 786.00 s ( 0.218 h) End of integration time step 263, Model time= 789.00 s ( 0.219 h) End of integration time step 264, Model time= 792.00 s ( 0.220 h) End of integration time step 265, Model time= 795.00 s ( 0.221 h) End of integration time step 266, Model time= 798.00 s ( 0.222 h) End of integration time step 267, Model time= 801.00 s ( 0.223 h) End of integration time step 268, Model time= 804.00 s ( 0.223 h) End of integration time step 269, Model time= 807.00 s ( 0.224 h) Nudging forecast at 810.0 Timeweight: 0.0690 Accum wgt: 0.2385 Accum Target: 1.0000 Timeweight: 0.0690 Accum wgt: 0.2730 Accum Target: 1.0000 End of integration time step 270, Model time= 810.00 s ( 0.225 h) End of integration time step 271, Model time= 813.00 s ( 0.226 h) End of integration time step 272, Model time= 816.00 s ( 0.227 h) End of integration time step 273, Model time= 819.00 s ( 0.228 h) End of integration time step 274, Model time= 822.00 s ( 0.228 h) End of integration time step 275, Model time= 825.00 s ( 0.229 h) End of integration time step 276, Model time= 828.00 s ( 0.230 h) End of integration time step 277, Model time= 831.00 s ( 0.231 h) End of integration time step 278, Model time= 834.00 s ( 0.232 h) End of integration time step 279, Model time= 837.00 s ( 0.233 h) Nudging forecast at 840.0 Timeweight: 0.0790 Accum wgt: 0.3125 Accum Target: 1.0000 Timeweight: 0.0790 Accum wgt: 0.3520 Accum Target: 1.0000 End of integration time step 280, Model time= 840.00 s ( 0.233 h) End of integration time step 281, Model time= 843.00 s ( 0.234 h) End of integration time step 282, Model time= 846.00 s ( 0.235 h) End of integration time step 283, Model time= 849.00 s ( 0.236 h) End of integration time step 284, Model time= 852.00 s ( 0.237 h) End of integration time step 285, Model time= 855.00 s ( 0.238 h) End of integration time step 286, Model time= 858.00 s ( 0.238 h) End of integration time step 287, Model time= 861.00 s ( 0.239 h) End of integration time step 288, Model time= 864.00 s ( 0.240 h) End of integration time step 289, Model time= 867.00 s ( 0.241 h) Nudging forecast at 870.0 Timeweight: 0.0890 Accum wgt: 0.3965 Accum Target: 1.0000 Timeweight: 0.0890 Accum wgt: 0.4410 Accum Target: 1.0000 End of integration time step 290, Model time= 870.00 s ( 0.242 h) End of integration time step 291, Model time= 873.00 s ( 0.243 h) End of integration time step 292, Model time= 876.00 s ( 0.243 h) End of integration time step 293, Model time= 879.00 s ( 0.244 h) End of integration time step 294, Model time= 882.00 s ( 0.245 h) End of integration time step 295, Model time= 885.00 s ( 0.246 h) End of integration time step 296, Model time= 888.00 s ( 0.247 h) End of integration time step 297, Model time= 891.00 s ( 0.248 h) End of integration time step 298, Model time= 894.00 s ( 0.248 h) End of integration time step 299, Model time= 897.00 s ( 0.249 h) Nudging forecast at 900.0 Timeweight: 0.0990 Accum wgt: 0.4905 Accum Target: 1.0000 Timeweight: 0.0990 Accum wgt: 0.5400 Accum Target: 1.0000 End of integration time step 300, Model time= 900.00 s ( 0.250 h) ucourant = 0.1508 at i= 320, j= 39, k= 37 vcourant = 0.1488 at i= 143, j= 162, k= 35 wcourant = 0.0221 at i= 2, j= 2, k= 35 uvcourant= 0.1005 at i= 237, j= 121, k= 35 refmax= 40.8250656128 at i= 79, j= 177, k= 21 vorlx= 0.212537357584E-02 at i= 124, j= 155, k= 10 vorux= 0.260626664385E-02 at i= 124, j= 157, k= 12 uvmax= 16.8762359619 at i= 153, j= 182, k= 7 uvmaxdr= 0.00000000000 at i= 153, j= 182, k= 7 umin = -1.39462649822 at i= 1, j= 1, k= 5 umax = 50.2504043579 at i= 320, j= 39, k= 37 vmin = -16.2611713409 at i= 51, j= 17, k= 6 vmax = 49.9688415527 at i= 143, j= 163, k= 35 wmin = -1.45751035213 at i= 72, j= 189, k= 22 wmax = 2.81688117981 at i= 1, j= 1, k= 35 ptprtmin= -8.78839302063 at i= 361, j= 4, k= 40 ptprtmax= 10.4677505493 at i= 1, j= 322, k= 36 pprtmin = -638.7846069 at i= 1, j= 322, k= 30 pprtmax = 452.1756592 at i= 362, j= 1, k= 30 qvmin= 0.821596756850E-06 at i= 362, j= 78, k= 51 qvmax= 0.105634862557E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.104575441219E-02 at i= 346, j= 33, k= 16 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.653058988973E-03 at i= 345, j= 10, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.311504903948E-03 at i= 78, j= 179, k= 24 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.847958028316E-03 at i= 79, j= 177, k= 21 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.159147966770E-03 at i= 355, j= 29, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 3.20743513107 at i= 350, j= 38, k= 13 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 178.248382568 at i= 350, j= 38, k= 13 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 59.5974044800 at i= 350, j= 38, k= 13 tsoilmin= 276.311004639 at i= 141, j= 322, k= 1 tsoilmax= 291.257965088 at i= 291, j= 84, k= 2 qsoilmin= 0.121386699378 at i= 242, j= 1, k= 1 qsoilmax= 0.364569097757 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.128457276151E-02 at i= 347, j= 10 Output files for forecast time = 900.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf000900_001001 Writing HDF4 data at time= 900.000 into file ../arpsdata/ar2013041107.hdf000900_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 301, Model time= 903.00 s ( 0.251 h) End of integration time step 302, Model time= 906.00 s ( 0.252 h) End of integration time step 303, Model time= 909.00 s ( 0.252 h) End of integration time step 304, Model time= 912.00 s ( 0.253 h) End of integration time step 305, Model time= 915.00 s ( 0.254 h) End of integration time step 306, Model time= 918.00 s ( 0.255 h) End of integration time step 307, Model time= 921.00 s ( 0.256 h) End of integration time step 308, Model time= 924.00 s ( 0.257 h) End of integration time step 309, Model time= 927.00 s ( 0.257 h) Nudging forecast at 930.0 Timeweight: 0.0910 Accum wgt: 0.5855 Accum Target: 1.0000 Timeweight: 0.0910 Accum wgt: 0.6310 Accum Target: 1.0000 End of integration time step 310, Model time= 930.00 s ( 0.258 h) End of integration time step 311, Model time= 933.00 s ( 0.259 h) End of integration time step 312, Model time= 936.00 s ( 0.260 h) End of integration time step 313, Model time= 939.00 s ( 0.261 h) End of integration time step 314, Model time= 942.00 s ( 0.262 h) End of integration time step 315, Model time= 945.00 s ( 0.263 h) End of integration time step 316, Model time= 948.00 s ( 0.263 h) End of integration time step 317, Model time= 951.00 s ( 0.264 h) End of integration time step 318, Model time= 954.00 s ( 0.265 h) End of integration time step 319, Model time= 957.00 s ( 0.266 h) Nudging forecast at 960.0 Timeweight: 0.0810 Accum wgt: 0.6715 Accum Target: 1.0000 Timeweight: 0.0810 Accum wgt: 0.7120 Accum Target: 1.0000 End of integration time step 320, Model time= 960.00 s ( 0.267 h) End of integration time step 321, Model time= 963.00 s ( 0.268 h) End of integration time step 322, Model time= 966.00 s ( 0.268 h) End of integration time step 323, Model time= 969.00 s ( 0.269 h) End of integration time step 324, Model time= 972.00 s ( 0.270 h) End of integration time step 325, Model time= 975.00 s ( 0.271 h) End of integration time step 326, Model time= 978.00 s ( 0.272 h) End of integration time step 327, Model time= 981.00 s ( 0.273 h) End of integration time step 328, Model time= 984.00 s ( 0.273 h) End of integration time step 329, Model time= 987.00 s ( 0.274 h) Nudging forecast at 990.0 Timeweight: 0.0710 Accum wgt: 0.7475 Accum Target: 1.0000 Timeweight: 0.0710 Accum wgt: 0.7830 Accum Target: 1.0000 End of integration time step 330, Model time= 990.00 s ( 0.275 h) End of integration time step 331, Model time= 993.00 s ( 0.276 h) End of integration time step 332, Model time= 996.00 s ( 0.277 h) End of integration time step 333, Model time= 999.00 s ( 0.278 h) End of integration time step 334, Model time= 1002.00 s ( 0.278 h) End of integration time step 335, Model time= 1005.00 s ( 0.279 h) End of integration time step 336, Model time= 1008.00 s ( 0.280 h) End of integration time step 337, Model time= 1011.00 s ( 0.281 h) End of integration time step 338, Model time= 1014.00 s ( 0.282 h) End of integration time step 339, Model time= 1017.00 s ( 0.282 h) Nudging forecast at 1020.0 Timeweight: 0.0610 Accum wgt: 0.8135 Accum Target: 1.0000 Timeweight: 0.0610 Accum wgt: 0.8440 Accum Target: 1.0000 End of integration time step 340, Model time= 1020.00 s ( 0.283 h) End of integration time step 341, Model time= 1023.00 s ( 0.284 h) End of integration time step 342, Model time= 1026.00 s ( 0.285 h) End of integration time step 343, Model time= 1029.00 s ( 0.286 h) End of integration time step 344, Model time= 1032.00 s ( 0.287 h) End of integration time step 345, Model time= 1035.00 s ( 0.287 h) End of integration time step 346, Model time= 1038.00 s ( 0.288 h) End of integration time step 347, Model time= 1041.00 s ( 0.289 h) End of integration time step 348, Model time= 1044.00 s ( 0.290 h) End of integration time step 349, Model time= 1047.00 s ( 0.291 h) Nudging forecast at 1050.0 Timeweight: 0.0510 Accum wgt: 0.8695 Accum Target: 1.0000 Timeweight: 0.0510 Accum wgt: 0.8950 Accum Target: 1.0000 End of integration time step 350, Model time= 1050.00 s ( 0.292 h) End of integration time step 351, Model time= 1053.00 s ( 0.293 h) End of integration time step 352, Model time= 1056.00 s ( 0.293 h) End of integration time step 353, Model time= 1059.00 s ( 0.294 h) End of integration time step 354, Model time= 1062.00 s ( 0.295 h) End of integration time step 355, Model time= 1065.00 s ( 0.296 h) End of integration time step 356, Model time= 1068.00 s ( 0.297 h) End of integration time step 357, Model time= 1071.00 s ( 0.298 h) End of integration time step 358, Model time= 1074.00 s ( 0.298 h) End of integration time step 359, Model time= 1077.00 s ( 0.299 h) Nudging forecast at 1080.0 Timeweight: 0.0410 Accum wgt: 0.9155 Accum Target: 1.0000 Timeweight: 0.0410 Accum wgt: 0.9360 Accum Target: 1.0000 End of integration time step 360, Model time= 1080.00 s ( 0.300 h) End of integration time step 361, Model time= 1083.00 s ( 0.301 h) End of integration time step 362, Model time= 1086.00 s ( 0.302 h) End of integration time step 363, Model time= 1089.00 s ( 0.303 h) End of integration time step 364, Model time= 1092.00 s ( 0.303 h) End of integration time step 365, Model time= 1095.00 s ( 0.304 h) End of integration time step 366, Model time= 1098.00 s ( 0.305 h) End of integration time step 367, Model time= 1101.00 s ( 0.306 h) End of integration time step 368, Model time= 1104.00 s ( 0.307 h) End of integration time step 369, Model time= 1107.00 s ( 0.308 h) Nudging forecast at 1110.0 Timeweight: 0.0310 Accum wgt: 0.9515 Accum Target: 1.0000 Timeweight: 0.0310 Accum wgt: 0.9670 Accum Target: 1.0000 End of integration time step 370, Model time= 1110.00 s ( 0.308 h) End of integration time step 371, Model time= 1113.00 s ( 0.309 h) End of integration time step 372, Model time= 1116.00 s ( 0.310 h) End of integration time step 373, Model time= 1119.00 s ( 0.311 h) End of integration time step 374, Model time= 1122.00 s ( 0.312 h) End of integration time step 375, Model time= 1125.00 s ( 0.313 h) End of integration time step 376, Model time= 1128.00 s ( 0.313 h) End of integration time step 377, Model time= 1131.00 s ( 0.314 h) End of integration time step 378, Model time= 1134.00 s ( 0.315 h) End of integration time step 379, Model time= 1137.00 s ( 0.316 h) Nudging forecast at 1140.0 Timeweight: 0.0210 Accum wgt: 0.9775 Accum Target: 1.0000 Timeweight: 0.0210 Accum wgt: 0.9880 Accum Target: 1.0000 End of integration time step 380, Model time= 1140.00 s ( 0.317 h) End of integration time step 381, Model time= 1143.00 s ( 0.317 h) End of integration time step 382, Model time= 1146.00 s ( 0.318 h) End of integration time step 383, Model time= 1149.00 s ( 0.319 h) End of integration time step 384, Model time= 1152.00 s ( 0.320 h) End of integration time step 385, Model time= 1155.00 s ( 0.321 h) End of integration time step 386, Model time= 1158.00 s ( 0.322 h) End of integration time step 387, Model time= 1161.00 s ( 0.323 h) End of integration time step 388, Model time= 1164.00 s ( 0.323 h) End of integration time step 389, Model time= 1167.00 s ( 0.324 h) Nudging forecast at 1170.0 Timeweight: 0.0110 Accum wgt: 0.9935 Accum Target: 1.0000 Timeweight: 0.0110 Accum wgt: 0.9990 Accum Target: 1.0000 End of integration time step 390, Model time= 1170.00 s ( 0.325 h) End of integration time step 391, Model time= 1173.00 s ( 0.326 h) End of integration time step 392, Model time= 1176.00 s ( 0.327 h) End of integration time step 393, Model time= 1179.00 s ( 0.328 h) End of integration time step 394, Model time= 1182.00 s ( 0.328 h) End of integration time step 395, Model time= 1185.00 s ( 0.329 h) End of integration time step 396, Model time= 1188.00 s ( 0.330 h) End of integration time step 397, Model time= 1191.00 s ( 0.331 h) End of integration time step 398, Model time= 1194.00 s ( 0.332 h) End of integration time step 399, Model time= 1197.00 s ( 0.333 h) End of integration time step 400, Model time= 1200.00 s ( 0.333 h) ucourant = 0.1512 at i= 345, j= 40, k= 37 vcourant = 0.1474 at i= 185, j= 172, k= 34 wcourant = 0.0212 at i= 2, j= 2, k= 35 uvcourant= 0.1006 at i= 246, j= 60, k= 36 refmax= 42.5564231873 at i= 85, j= 181, k= 20 vorlx= 0.234083319083E-02 at i= 118, j= 155, k= 10 vorux= 0.294568762183E-02 at i= 126, j= 157, k= 12 uvmax= 17.9085998535 at i= 126, j= 162, k= 7 uvmaxdr= 0.00000000000 at i= 126, j= 162, k= 7 umin = -1.47889018059 at i= 1, j= 1, k= 5 umax = 50.3982086182 at i= 345, j= 40, k= 37 vmin = -17.0797348022 at i= 126, j= 162, k= 7 vmax = 49.1507072449 at i= 185, j= 172, k= 34 wmin = -1.15984725952 at i= 351, j= 35, k= 15 wmax = 2.71285486221 at i= 1, j= 1, k= 35 ptprtmin= -8.77025127411 at i= 361, j= 4, k= 40 ptprtmax= 10.5925598145 at i= 1, j= 322, k= 36 pprtmin = -639.4959717 at i= 1, j= 322, k= 30 pprtmax = 447.6730347 at i= 362, j= 1, k= 30 qvmin= 0.602642671765E-06 at i= 362, j= 78, k= 51 qvmax= 0.105518167838E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.112556514796E-02 at i= 347, j= 35, k= 16 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.794227351435E-03 at i= 348, j= 36, k= 12 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.164973564097E-03 at i= 84, j= 185, k= 24 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.954437477048E-03 at i= 85, j= 182, k= 21 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.235751256696E-03 at i= 349, j= 37, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 4.47454595566 at i= 33, j= 62, k= 14 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 211.297134399 at i= 33, j= 62, k= 14 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 73.5257568359 at i= 33, j= 62, k= 15 tsoilmin= 275.280395508 at i= 141, j= 322, k= 1 tsoilmax= 291.221343994 at i= 291, j= 84, k= 2 qsoilmin= 0.121414974332 at i= 242, j= 1, k= 1 qsoilmax= 0.364563137293 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.129010214005E-02 at i= 346, j= 17 Output files for forecast time = 1200.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf001200_001001 Writing HDF4 data at time= 1200.000 into file ../arpsdata/ar2013041107.hdf001200_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 401, model time= 1200.00 (s) End of integration time step 401, Model time= 1203.00 s ( 0.334 h) End of integration time step 402, Model time= 1206.00 s ( 0.335 h) End of integration time step 403, Model time= 1209.00 s ( 0.336 h) End of integration time step 404, Model time= 1212.00 s ( 0.337 h) End of integration time step 405, Model time= 1215.00 s ( 0.338 h) End of integration time step 406, Model time= 1218.00 s ( 0.338 h) End of integration time step 407, Model time= 1221.00 s ( 0.339 h) End of integration time step 408, Model time= 1224.00 s ( 0.340 h) End of integration time step 409, Model time= 1227.00 s ( 0.341 h) End of integration time step 410, Model time= 1230.00 s ( 0.342 h) End of integration time step 411, Model time= 1233.00 s ( 0.343 h) End of integration time step 412, Model time= 1236.00 s ( 0.343 h) End of integration time step 413, Model time= 1239.00 s ( 0.344 h) End of integration time step 414, Model time= 1242.00 s ( 0.345 h) End of integration time step 415, Model time= 1245.00 s ( 0.346 h) End of integration time step 416, Model time= 1248.00 s ( 0.347 h) End of integration time step 417, Model time= 1251.00 s ( 0.347 h) End of integration time step 418, Model time= 1254.00 s ( 0.348 h) End of integration time step 419, Model time= 1257.00 s ( 0.349 h) End of integration time step 420, Model time= 1260.00 s ( 0.350 h) End of integration time step 421, Model time= 1263.00 s ( 0.351 h) End of integration time step 422, Model time= 1266.00 s ( 0.352 h) End of integration time step 423, Model time= 1269.00 s ( 0.353 h) End of integration time step 424, Model time= 1272.00 s ( 0.353 h) End of integration time step 425, Model time= 1275.00 s ( 0.354 h) End of integration time step 426, Model time= 1278.00 s ( 0.355 h) End of integration time step 427, Model time= 1281.00 s ( 0.356 h) End of integration time step 428, Model time= 1284.00 s ( 0.357 h) End of integration time step 429, Model time= 1287.00 s ( 0.358 h) End of integration time step 430, Model time= 1290.00 s ( 0.358 h) End of integration time step 431, Model time= 1293.00 s ( 0.359 h) End of integration time step 432, Model time= 1296.00 s ( 0.360 h) End of integration time step 433, Model time= 1299.00 s ( 0.361 h) End of integration time step 434, Model time= 1302.00 s ( 0.362 h) End of integration time step 435, Model time= 1305.00 s ( 0.363 h) End of integration time step 436, Model time= 1308.00 s ( 0.363 h) End of integration time step 437, Model time= 1311.00 s ( 0.364 h) End of integration time step 438, Model time= 1314.00 s ( 0.365 h) End of integration time step 439, Model time= 1317.00 s ( 0.366 h) End of integration time step 440, Model time= 1320.00 s ( 0.367 h) End of integration time step 441, Model time= 1323.00 s ( 0.368 h) End of integration time step 442, Model time= 1326.00 s ( 0.368 h) End of integration time step 443, Model time= 1329.00 s ( 0.369 h) End of integration time step 444, Model time= 1332.00 s ( 0.370 h) End of integration time step 445, Model time= 1335.00 s ( 0.371 h) End of integration time step 446, Model time= 1338.00 s ( 0.372 h) End of integration time step 447, Model time= 1341.00 s ( 0.373 h) End of integration time step 448, Model time= 1344.00 s ( 0.373 h) End of integration time step 449, Model time= 1347.00 s ( 0.374 h) End of integration time step 450, Model time= 1350.00 s ( 0.375 h) End of integration time step 451, Model time= 1353.00 s ( 0.376 h) End of integration time step 452, Model time= 1356.00 s ( 0.377 h) End of integration time step 453, Model time= 1359.00 s ( 0.377 h) End of integration time step 454, Model time= 1362.00 s ( 0.378 h) End of integration time step 455, Model time= 1365.00 s ( 0.379 h) End of integration time step 456, Model time= 1368.00 s ( 0.380 h) End of integration time step 457, Model time= 1371.00 s ( 0.381 h) End of integration time step 458, Model time= 1374.00 s ( 0.382 h) End of integration time step 459, Model time= 1377.00 s ( 0.383 h) End of integration time step 460, Model time= 1380.00 s ( 0.383 h) End of integration time step 461, Model time= 1383.00 s ( 0.384 h) End of integration time step 462, Model time= 1386.00 s ( 0.385 h) End of integration time step 463, Model time= 1389.00 s ( 0.386 h) End of integration time step 464, Model time= 1392.00 s ( 0.387 h) End of integration time step 465, Model time= 1395.00 s ( 0.388 h) End of integration time step 466, Model time= 1398.00 s ( 0.388 h) End of integration time step 467, Model time= 1401.00 s ( 0.389 h) End of integration time step 468, Model time= 1404.00 s ( 0.390 h) End of integration time step 469, Model time= 1407.00 s ( 0.391 h) End of integration time step 470, Model time= 1410.00 s ( 0.392 h) End of integration time step 471, Model time= 1413.00 s ( 0.393 h) End of integration time step 472, Model time= 1416.00 s ( 0.393 h) End of integration time step 473, Model time= 1419.00 s ( 0.394 h) End of integration time step 474, Model time= 1422.00 s ( 0.395 h) End of integration time step 475, Model time= 1425.00 s ( 0.396 h) End of integration time step 476, Model time= 1428.00 s ( 0.397 h) End of integration time step 477, Model time= 1431.00 s ( 0.398 h) End of integration time step 478, Model time= 1434.00 s ( 0.398 h) End of integration time step 479, Model time= 1437.00 s ( 0.399 h) End of integration time step 480, Model time= 1440.00 s ( 0.400 h) End of integration time step 481, Model time= 1443.00 s ( 0.401 h) End of integration time step 482, Model time= 1446.00 s ( 0.402 h) End of integration time step 483, Model time= 1449.00 s ( 0.403 h) End of integration time step 484, Model time= 1452.00 s ( 0.403 h) End of integration time step 485, Model time= 1455.00 s ( 0.404 h) End of integration time step 486, Model time= 1458.00 s ( 0.405 h) End of integration time step 487, Model time= 1461.00 s ( 0.406 h) End of integration time step 488, Model time= 1464.00 s ( 0.407 h) End of integration time step 489, Model time= 1467.00 s ( 0.407 h) End of integration time step 490, Model time= 1470.00 s ( 0.408 h) End of integration time step 491, Model time= 1473.00 s ( 0.409 h) End of integration time step 492, Model time= 1476.00 s ( 0.410 h) End of integration time step 493, Model time= 1479.00 s ( 0.411 h) End of integration time step 494, Model time= 1482.00 s ( 0.412 h) End of integration time step 495, Model time= 1485.00 s ( 0.413 h) End of integration time step 496, Model time= 1488.00 s ( 0.413 h) End of integration time step 497, Model time= 1491.00 s ( 0.414 h) End of integration time step 498, Model time= 1494.00 s ( 0.415 h) End of integration time step 499, Model time= 1497.00 s ( 0.416 h) End of integration time step 500, Model time= 1500.00 s ( 0.417 h) ucourant = 0.1510 at i= 325, j= 59, k= 37 vcourant = 0.1473 at i= 198, j= 184, k= 34 wcourant = 0.0293 at i= 349, j= 28, k= 17 uvcourant= 0.1007 at i= 256, j= 72, k= 36 refmax= 42.1219940186 at i= 349, j= 38, k= 11 vorlx= 0.219096709043E-02 at i= 119, j= 154, k= 10 vorux= 0.343392486684E-02 at i= 82, j= 166, k= 16 uvmax= 18.1463432312 at i= 128, j= 157, k= 7 uvmaxdr= 0.00000000000 at i= 128, j= 157, k= 7 umin = -1.48478806019 at i= 1, j= 1, k= 5 umax = 50.3485183716 at i= 325, j= 59, k= 37 vmin = -17.4215297699 at i= 128, j= 157, k= 7 vmax = 49.1195564270 at i= 198, j= 184, k= 34 wmin = -1.51900720596 at i= 346, j= 40, k= 16 wmax = 3.63908576965 at i= 349, j= 28, k= 17 ptprtmin= -8.66616725922 at i= 361, j= 4, k= 40 ptprtmax= 10.6426391602 at i= 1, j= 322, k= 36 pprtmin = -640.2073975 at i= 1, j= 322, k= 30 pprtmax = 443.1703796 at i= 362, j= 1, k= 30 qvmin= 0.605235356943E-06 at i= 362, j= 78, k= 51 qvmax= 0.105278184637E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.138457468711E-02 at i= 349, j= 28, k= 17 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.973729009274E-03 at i= 349, j= 38, k= 12 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.948049928411E-04 at i= 350, j= 39, k= 20 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.816242943984E-03 at i= 92, j= 188, k= 21 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.330360024236E-03 at i= 350, j= 39, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 4.79994630814 at i= 350, j= 44, k= 19 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 218.136154175 at i= 350, j= 44, k= 19 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 84.3460464478 at i= 350, j= 44, k= 19 tsoilmin= 274.517761230 at i= 141, j= 322, k= 1 tsoilmax= 291.182769775 at i= 291, j= 84, k= 2 qsoilmin= 0.121445082128 at i= 242, j= 1, k= 1 qsoilmax= 0.364557176828 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142394308932E-02 at i= 349, j= 35 Output files for forecast time = 1500.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf001500_001001 Writing HDF4 data at time= 1500.000 into file ../arpsdata/ar2013041107.hdf001500_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 501, Model time= 1503.00 s ( 0.418 h) End of integration time step 502, Model time= 1506.00 s ( 0.418 h) End of integration time step 503, Model time= 1509.00 s ( 0.419 h) End of integration time step 504, Model time= 1512.00 s ( 0.420 h) End of integration time step 505, Model time= 1515.00 s ( 0.421 h) End of integration time step 506, Model time= 1518.00 s ( 0.422 h) End of integration time step 507, Model time= 1521.00 s ( 0.423 h) End of integration time step 508, Model time= 1524.00 s ( 0.423 h) End of integration time step 509, Model time= 1527.00 s ( 0.424 h) End of integration time step 510, Model time= 1530.00 s ( 0.425 h) End of integration time step 511, Model time= 1533.00 s ( 0.426 h) End of integration time step 512, Model time= 1536.00 s ( 0.427 h) End of integration time step 513, Model time= 1539.00 s ( 0.428 h) End of integration time step 514, Model time= 1542.00 s ( 0.428 h) End of integration time step 515, Model time= 1545.00 s ( 0.429 h) End of integration time step 516, Model time= 1548.00 s ( 0.430 h) End of integration time step 517, Model time= 1551.00 s ( 0.431 h) End of integration time step 518, Model time= 1554.00 s ( 0.432 h) End of integration time step 519, Model time= 1557.00 s ( 0.433 h) End of integration time step 520, Model time= 1560.00 s ( 0.433 h) End of integration time step 521, Model time= 1563.00 s ( 0.434 h) End of integration time step 522, Model time= 1566.00 s ( 0.435 h) End of integration time step 523, Model time= 1569.00 s ( 0.436 h) End of integration time step 524, Model time= 1572.00 s ( 0.437 h) End of integration time step 525, Model time= 1575.00 s ( 0.438 h) End of integration time step 526, Model time= 1578.00 s ( 0.438 h) End of integration time step 527, Model time= 1581.00 s ( 0.439 h) End of integration time step 528, Model time= 1584.00 s ( 0.440 h) End of integration time step 529, Model time= 1587.00 s ( 0.441 h) End of integration time step 530, Model time= 1590.00 s ( 0.442 h) End of integration time step 531, Model time= 1593.00 s ( 0.443 h) End of integration time step 532, Model time= 1596.00 s ( 0.443 h) End of integration time step 533, Model time= 1599.00 s ( 0.444 h) End of integration time step 534, Model time= 1602.00 s ( 0.445 h) End of integration time step 535, Model time= 1605.00 s ( 0.446 h) End of integration time step 536, Model time= 1608.00 s ( 0.447 h) End of integration time step 537, Model time= 1611.00 s ( 0.448 h) End of integration time step 538, Model time= 1614.00 s ( 0.448 h) End of integration time step 539, Model time= 1617.00 s ( 0.449 h) End of integration time step 540, Model time= 1620.00 s ( 0.450 h) End of integration time step 541, Model time= 1623.00 s ( 0.451 h) End of integration time step 542, Model time= 1626.00 s ( 0.452 h) End of integration time step 543, Model time= 1629.00 s ( 0.453 h) End of integration time step 544, Model time= 1632.00 s ( 0.453 h) End of integration time step 545, Model time= 1635.00 s ( 0.454 h) End of integration time step 546, Model time= 1638.00 s ( 0.455 h) End of integration time step 547, Model time= 1641.00 s ( 0.456 h) End of integration time step 548, Model time= 1644.00 s ( 0.457 h) End of integration time step 549, Model time= 1647.00 s ( 0.458 h) End of integration time step 550, Model time= 1650.00 s ( 0.458 h) End of integration time step 551, Model time= 1653.00 s ( 0.459 h) End of integration time step 552, Model time= 1656.00 s ( 0.460 h) End of integration time step 553, Model time= 1659.00 s ( 0.461 h) End of integration time step 554, Model time= 1662.00 s ( 0.462 h) End of integration time step 555, Model time= 1665.00 s ( 0.463 h) End of integration time step 556, Model time= 1668.00 s ( 0.463 h) End of integration time step 557, Model time= 1671.00 s ( 0.464 h) End of integration time step 558, Model time= 1674.00 s ( 0.465 h) End of integration time step 559, Model time= 1677.00 s ( 0.466 h) End of integration time step 560, Model time= 1680.00 s ( 0.467 h) End of integration time step 561, Model time= 1683.00 s ( 0.468 h) End of integration time step 562, Model time= 1686.00 s ( 0.468 h) End of integration time step 563, Model time= 1689.00 s ( 0.469 h) End of integration time step 564, Model time= 1692.00 s ( 0.470 h) End of integration time step 565, Model time= 1695.00 s ( 0.471 h) End of integration time step 566, Model time= 1698.00 s ( 0.472 h) End of integration time step 567, Model time= 1701.00 s ( 0.473 h) End of integration time step 568, Model time= 1704.00 s ( 0.473 h) End of integration time step 569, Model time= 1707.00 s ( 0.474 h) End of integration time step 570, Model time= 1710.00 s ( 0.475 h) End of integration time step 571, Model time= 1713.00 s ( 0.476 h) End of integration time step 572, Model time= 1716.00 s ( 0.477 h) End of integration time step 573, Model time= 1719.00 s ( 0.478 h) End of integration time step 574, Model time= 1722.00 s ( 0.478 h) End of integration time step 575, Model time= 1725.00 s ( 0.479 h) End of integration time step 576, Model time= 1728.00 s ( 0.480 h) End of integration time step 577, Model time= 1731.00 s ( 0.481 h) End of integration time step 578, Model time= 1734.00 s ( 0.482 h) End of integration time step 579, Model time= 1737.00 s ( 0.483 h) End of integration time step 580, Model time= 1740.00 s ( 0.483 h) End of integration time step 581, Model time= 1743.00 s ( 0.484 h) End of integration time step 582, Model time= 1746.00 s ( 0.485 h) End of integration time step 583, Model time= 1749.00 s ( 0.486 h) End of integration time step 584, Model time= 1752.00 s ( 0.487 h) End of integration time step 585, Model time= 1755.00 s ( 0.488 h) End of integration time step 586, Model time= 1758.00 s ( 0.488 h) End of integration time step 587, Model time= 1761.00 s ( 0.489 h) End of integration time step 588, Model time= 1764.00 s ( 0.490 h) End of integration time step 589, Model time= 1767.00 s ( 0.491 h) End of integration time step 590, Model time= 1770.00 s ( 0.492 h) End of integration time step 591, Model time= 1773.00 s ( 0.493 h) End of integration time step 592, Model time= 1776.00 s ( 0.493 h) End of integration time step 593, Model time= 1779.00 s ( 0.494 h) End of integration time step 594, Model time= 1782.00 s ( 0.495 h) End of integration time step 595, Model time= 1785.00 s ( 0.496 h) End of integration time step 596, Model time= 1788.00 s ( 0.497 h) End of integration time step 597, Model time= 1791.00 s ( 0.498 h) End of integration time step 598, Model time= 1794.00 s ( 0.498 h) End of integration time step 599, Model time= 1797.00 s ( 0.499 h) End of integration time step 600, Model time= 1800.00 s ( 0.500 h) ucourant = 0.1510 at i= 351, j= 36, k= 37 vcourant = 0.1468 at i= 210, j= 197, k= 34 wcourant = 0.0470 at i= 351, j= 31, k= 18 uvcourant= 0.1007 at i= 261, j= 77, k= 36 refmax= 43.7988662720 at i= 351, j= 31, k= 13 vorlx= 0.184498843737E-02 at i= 121, j= 153, k= 10 vorux= 0.412833550945E-02 at i= 86, j= 167, k= 16 uvmax= 17.7661437988 at i= 127, j= 156, k= 7 uvmaxdr= 0.00000000000 at i= 127, j= 156, k= 7 umin = -1.49068593979 at i= 1, j= 1, k= 5 umax = 50.3374252319 at i= 351, j= 36, k= 37 vmin = -17.0642967224 at i= 127, j= 157, k= 7 vmax = 48.9322433472 at i= 210, j= 197, k= 34 wmin = -1.80956792831 at i= 348, j= 41, k= 17 wmax = 5.94451427460 at i= 351, j= 31, k= 18 ptprtmin= -8.61340618134 at i= 361, j= 4, k= 40 ptprtmax= 10.6927185059 at i= 1, j= 322, k= 36 pprtmin = -640.9187622 at i= 1, j= 322, k= 30 pprtmax = 438.6677246 at i= 362, j= 1, k= 30 qvmin= 0.607828042121E-06 at i= 362, j= 78, k= 51 qvmax= 0.105038201436E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.185495219193E-02 at i= 351, j= 31, k= 18 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.126755784731E-02 at i= 351, j= 31, k= 13 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.146851001773E-03 at i= 351, j= 32, k= 21 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.640056852717E-03 at i= 99, j= 194, k= 20 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.762784562539E-03 at i= 351, j= 31, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 6.04755926132 at i= 352, j= 42, k= 20 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 245.653778076 at i= 352, j= 42, k= 20 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 95.8998489380 at i= 352, j= 42, k= 20 tsoilmin= 273.910156250 at i= 141, j= 322, k= 1 tsoilmax= 291.143096924 at i= 291, j= 84, k= 2 qsoilmin= 0.121476404369 at i= 242, j= 1, k= 1 qsoilmax= 0.364551216364 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 1800.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf001800_001001 Writing HDF4 data at time= 1800.000 into file ../arpsdata/ar2013041107.hdf001800_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 601, model time= 1800.00 (s) End of integration time step 601, Model time= 1803.00 s ( 0.501 h) End of integration time step 602, Model time= 1806.00 s ( 0.502 h) End of integration time step 603, Model time= 1809.00 s ( 0.502 h) End of integration time step 604, Model time= 1812.00 s ( 0.503 h) End of integration time step 605, Model time= 1815.00 s ( 0.504 h) End of integration time step 606, Model time= 1818.00 s ( 0.505 h) End of integration time step 607, Model time= 1821.00 s ( 0.506 h) End of integration time step 608, Model time= 1824.00 s ( 0.507 h) End of integration time step 609, Model time= 1827.00 s ( 0.507 h) End of integration time step 610, Model time= 1830.00 s ( 0.508 h) End of integration time step 611, Model time= 1833.00 s ( 0.509 h) End of integration time step 612, Model time= 1836.00 s ( 0.510 h) End of integration time step 613, Model time= 1839.00 s ( 0.511 h) End of integration time step 614, Model time= 1842.00 s ( 0.512 h) End of integration time step 615, Model time= 1845.00 s ( 0.512 h) End of integration time step 616, Model time= 1848.00 s ( 0.513 h) End of integration time step 617, Model time= 1851.00 s ( 0.514 h) End of integration time step 618, Model time= 1854.00 s ( 0.515 h) End of integration time step 619, Model time= 1857.00 s ( 0.516 h) End of integration time step 620, Model time= 1860.00 s ( 0.517 h) End of integration time step 621, Model time= 1863.00 s ( 0.517 h) End of integration time step 622, Model time= 1866.00 s ( 0.518 h) End of integration time step 623, Model time= 1869.00 s ( 0.519 h) End of integration time step 624, Model time= 1872.00 s ( 0.520 h) End of integration time step 625, Model time= 1875.00 s ( 0.521 h) End of integration time step 626, Model time= 1878.00 s ( 0.522 h) End of integration time step 627, Model time= 1881.00 s ( 0.523 h) End of integration time step 628, Model time= 1884.00 s ( 0.523 h) End of integration time step 629, Model time= 1887.00 s ( 0.524 h) End of integration time step 630, Model time= 1890.00 s ( 0.525 h) End of integration time step 631, Model time= 1893.00 s ( 0.526 h) End of integration time step 632, Model time= 1896.00 s ( 0.527 h) End of integration time step 633, Model time= 1899.00 s ( 0.528 h) End of integration time step 634, Model time= 1902.00 s ( 0.528 h) End of integration time step 635, Model time= 1905.00 s ( 0.529 h) End of integration time step 636, Model time= 1908.00 s ( 0.530 h) End of integration time step 637, Model time= 1911.00 s ( 0.531 h) End of integration time step 638, Model time= 1914.00 s ( 0.532 h) End of integration time step 639, Model time= 1917.00 s ( 0.533 h) End of integration time step 640, Model time= 1920.00 s ( 0.533 h) End of integration time step 641, Model time= 1923.00 s ( 0.534 h) End of integration time step 642, Model time= 1926.00 s ( 0.535 h) End of integration time step 643, Model time= 1929.00 s ( 0.536 h) End of integration time step 644, Model time= 1932.00 s ( 0.537 h) End of integration time step 645, Model time= 1935.00 s ( 0.538 h) End of integration time step 646, Model time= 1938.00 s ( 0.538 h) End of integration time step 647, Model time= 1941.00 s ( 0.539 h) End of integration time step 648, Model time= 1944.00 s ( 0.540 h) End of integration time step 649, Model time= 1947.00 s ( 0.541 h) End of integration time step 650, Model time= 1950.00 s ( 0.542 h) End of integration time step 651, Model time= 1953.00 s ( 0.543 h) End of integration time step 652, Model time= 1956.00 s ( 0.543 h) End of integration time step 653, Model time= 1959.00 s ( 0.544 h) End of integration time step 654, Model time= 1962.00 s ( 0.545 h) End of integration time step 655, Model time= 1965.00 s ( 0.546 h) End of integration time step 656, Model time= 1968.00 s ( 0.547 h) End of integration time step 657, Model time= 1971.00 s ( 0.548 h) End of integration time step 658, Model time= 1974.00 s ( 0.548 h) End of integration time step 659, Model time= 1977.00 s ( 0.549 h) End of integration time step 660, Model time= 1980.00 s ( 0.550 h) End of integration time step 661, Model time= 1983.00 s ( 0.551 h) End of integration time step 662, Model time= 1986.00 s ( 0.552 h) End of integration time step 663, Model time= 1989.00 s ( 0.553 h) End of integration time step 664, Model time= 1992.00 s ( 0.553 h) End of integration time step 665, Model time= 1995.00 s ( 0.554 h) End of integration time step 666, Model time= 1998.00 s ( 0.555 h) End of integration time step 667, Model time= 2001.00 s ( 0.556 h) End of integration time step 668, Model time= 2004.00 s ( 0.557 h) End of integration time step 669, Model time= 2007.00 s ( 0.558 h) End of integration time step 670, Model time= 2010.00 s ( 0.558 h) End of integration time step 671, Model time= 2013.00 s ( 0.559 h) End of integration time step 672, Model time= 2016.00 s ( 0.560 h) End of integration time step 673, Model time= 2019.00 s ( 0.561 h) End of integration time step 674, Model time= 2022.00 s ( 0.562 h) End of integration time step 675, Model time= 2025.00 s ( 0.563 h) End of integration time step 676, Model time= 2028.00 s ( 0.563 h) End of integration time step 677, Model time= 2031.00 s ( 0.564 h) End of integration time step 678, Model time= 2034.00 s ( 0.565 h) End of integration time step 679, Model time= 2037.00 s ( 0.566 h) End of integration time step 680, Model time= 2040.00 s ( 0.567 h) End of integration time step 681, Model time= 2043.00 s ( 0.567 h) End of integration time step 682, Model time= 2046.00 s ( 0.568 h) End of integration time step 683, Model time= 2049.00 s ( 0.569 h) End of integration time step 684, Model time= 2052.00 s ( 0.570 h) End of integration time step 685, Model time= 2055.00 s ( 0.571 h) End of integration time step 686, Model time= 2058.00 s ( 0.572 h) End of integration time step 687, Model time= 2061.00 s ( 0.572 h) End of integration time step 688, Model time= 2064.00 s ( 0.573 h) End of integration time step 689, Model time= 2067.00 s ( 0.574 h) End of integration time step 690, Model time= 2070.00 s ( 0.575 h) End of integration time step 691, Model time= 2073.00 s ( 0.576 h) End of integration time step 692, Model time= 2076.00 s ( 0.577 h) End of integration time step 693, Model time= 2079.00 s ( 0.577 h) End of integration time step 694, Model time= 2082.00 s ( 0.578 h) End of integration time step 695, Model time= 2085.00 s ( 0.579 h) End of integration time step 696, Model time= 2088.00 s ( 0.580 h) End of integration time step 697, Model time= 2091.00 s ( 0.581 h) End of integration time step 698, Model time= 2094.00 s ( 0.582 h) End of integration time step 699, Model time= 2097.00 s ( 0.583 h) End of integration time step 700, Model time= 2100.00 s ( 0.583 h) ucourant = 0.1508 at i= 351, j= 51, k= 37 vcourant = 0.1465 at i= 334, j= 322, k= 34 wcourant = 0.0426 at i= 317, j= 34, k= 17 uvcourant= 0.1008 at i= 266, j= 87, k= 36 refmax= 45.9505538940 at i= 353, j= 34, k= 11 vorlx= 0.178537133615E-02 at i= 16, j= 293, k= 5 vorux= 0.434218021110E-02 at i= 89, j= 167, k= 17 uvmax= 18.2452926636 at i= 129, j= 153, k= 7 uvmaxdr= 0.00000000000 at i= 129, j= 153, k= 7 umin = -1.49658381939 at i= 1, j= 1, k= 5 umax = 50.2809829712 at i= 351, j= 51, k= 37 vmin = -17.3461132050 at i= 129, j= 154, k= 7 vmax = 48.8267936707 at i= 334, j= 322, k= 34 wmin = -1.69460499287 at i= 355, j= 39, k= 23 wmax = 5.25871181488 at i= 317, j= 34, k= 17 ptprtmin= -8.57742595673 at i= 361, j= 4, k= 40 ptprtmax= 10.7427978516 at i= 1, j= 322, k= 36 pprtmin = -641.6301880 at i= 1, j= 322, k= 30 pprtmax = 434.1651001 at i= 362, j= 1, k= 30 qvmin= 0.610420784142E-06 at i= 362, j= 78, k= 51 qvmax= 0.104798227549E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.181282963604E-02 at i= 317, j= 34, k= 17 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.160313607194E-02 at i= 353, j= 34, k= 12 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.150218562339E-03 at i= 353, j= 35, k= 21 qsmin= 0.00000000000 at i= 3, j= 1, k= 1 qsmax= 0.599314516876E-03 at i= 354, j= 36, k= 21 qhmin= 0.00000000000 at i= 3, j= 1, k= 1 qhmax= 0.850207696203E-03 at i= 353, j= 34, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 6.39502811432 at i= 88, j= 169, k= 18 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 252.705841064 at i= 88, j= 169, k= 18 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 95.9187698364 at i= 88, j= 169, k= 18 tsoilmin= 273.443328857 at i= 141, j= 322, k= 1 tsoilmax= 291.101104736 at i= 291, j= 84, k= 2 qsoilmin= 0.121508561075 at i= 242, j= 1, k= 1 qsoilmax= 0.364545255899 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 2100.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf002100_001001 Writing HDF4 data at time= 2100.000 into file ../arpsdata/ar2013041107.hdf002100_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 701, Model time= 2103.00 s ( 0.584 h) End of integration time step 702, Model time= 2106.00 s ( 0.585 h) End of integration time step 703, Model time= 2109.00 s ( 0.586 h) End of integration time step 704, Model time= 2112.00 s ( 0.587 h) End of integration time step 705, Model time= 2115.00 s ( 0.588 h) End of integration time step 706, Model time= 2118.00 s ( 0.588 h) End of integration time step 707, Model time= 2121.00 s ( 0.589 h) End of integration time step 708, Model time= 2124.00 s ( 0.590 h) End of integration time step 709, Model time= 2127.00 s ( 0.591 h) End of integration time step 710, Model time= 2130.00 s ( 0.592 h) End of integration time step 711, Model time= 2133.00 s ( 0.593 h) End of integration time step 712, Model time= 2136.00 s ( 0.593 h) End of integration time step 713, Model time= 2139.00 s ( 0.594 h) End of integration time step 714, Model time= 2142.00 s ( 0.595 h) End of integration time step 715, Model time= 2145.00 s ( 0.596 h) End of integration time step 716, Model time= 2148.00 s ( 0.597 h) End of integration time step 717, Model time= 2151.00 s ( 0.598 h) End of integration time step 718, Model time= 2154.00 s ( 0.598 h) End of integration time step 719, Model time= 2157.00 s ( 0.599 h) End of integration time step 720, Model time= 2160.00 s ( 0.600 h) End of integration time step 721, Model time= 2163.00 s ( 0.601 h) End of integration time step 722, Model time= 2166.00 s ( 0.602 h) End of integration time step 723, Model time= 2169.00 s ( 0.603 h) End of integration time step 724, Model time= 2172.00 s ( 0.603 h) End of integration time step 725, Model time= 2175.00 s ( 0.604 h) End of integration time step 726, Model time= 2178.00 s ( 0.605 h) End of integration time step 727, Model time= 2181.00 s ( 0.606 h) End of integration time step 728, Model time= 2184.00 s ( 0.607 h) End of integration time step 729, Model time= 2187.00 s ( 0.608 h) End of integration time step 730, Model time= 2190.00 s ( 0.608 h) End of integration time step 731, Model time= 2193.00 s ( 0.609 h) End of integration time step 732, Model time= 2196.00 s ( 0.610 h) End of integration time step 733, Model time= 2199.00 s ( 0.611 h) End of integration time step 734, Model time= 2202.00 s ( 0.612 h) End of integration time step 735, Model time= 2205.00 s ( 0.613 h) End of integration time step 736, Model time= 2208.00 s ( 0.613 h) End of integration time step 737, Model time= 2211.00 s ( 0.614 h) End of integration time step 738, Model time= 2214.00 s ( 0.615 h) End of integration time step 739, Model time= 2217.00 s ( 0.616 h) End of integration time step 740, Model time= 2220.00 s ( 0.617 h) End of integration time step 741, Model time= 2223.00 s ( 0.618 h) End of integration time step 742, Model time= 2226.00 s ( 0.618 h) End of integration time step 743, Model time= 2229.00 s ( 0.619 h) End of integration time step 744, Model time= 2232.00 s ( 0.620 h) End of integration time step 745, Model time= 2235.00 s ( 0.621 h) End of integration time step 746, Model time= 2238.00 s ( 0.622 h) End of integration time step 747, Model time= 2241.00 s ( 0.623 h) End of integration time step 748, Model time= 2244.00 s ( 0.623 h) End of integration time step 749, Model time= 2247.00 s ( 0.624 h) End of integration time step 750, Model time= 2250.00 s ( 0.625 h) End of integration time step 751, Model time= 2253.00 s ( 0.626 h) End of integration time step 752, Model time= 2256.00 s ( 0.627 h) End of integration time step 753, Model time= 2259.00 s ( 0.627 h) End of integration time step 754, Model time= 2262.00 s ( 0.628 h) End of integration time step 755, Model time= 2265.00 s ( 0.629 h) End of integration time step 756, Model time= 2268.00 s ( 0.630 h) End of integration time step 757, Model time= 2271.00 s ( 0.631 h) End of integration time step 758, Model time= 2274.00 s ( 0.632 h) End of integration time step 759, Model time= 2277.00 s ( 0.632 h) End of integration time step 760, Model time= 2280.00 s ( 0.633 h) End of integration time step 761, Model time= 2283.00 s ( 0.634 h) End of integration time step 762, Model time= 2286.00 s ( 0.635 h) End of integration time step 763, Model time= 2289.00 s ( 0.636 h) End of integration time step 764, Model time= 2292.00 s ( 0.637 h) End of integration time step 765, Model time= 2295.00 s ( 0.637 h) End of integration time step 766, Model time= 2298.00 s ( 0.638 h) End of integration time step 767, Model time= 2301.00 s ( 0.639 h) End of integration time step 768, Model time= 2304.00 s ( 0.640 h) End of integration time step 769, Model time= 2307.00 s ( 0.641 h) End of integration time step 770, Model time= 2310.00 s ( 0.642 h) End of integration time step 771, Model time= 2313.00 s ( 0.643 h) End of integration time step 772, Model time= 2316.00 s ( 0.643 h) End of integration time step 773, Model time= 2319.00 s ( 0.644 h) End of integration time step 774, Model time= 2322.00 s ( 0.645 h) End of integration time step 775, Model time= 2325.00 s ( 0.646 h) End of integration time step 776, Model time= 2328.00 s ( 0.647 h) End of integration time step 777, Model time= 2331.00 s ( 0.648 h) End of integration time step 778, Model time= 2334.00 s ( 0.648 h) End of integration time step 779, Model time= 2337.00 s ( 0.649 h) End of integration time step 780, Model time= 2340.00 s ( 0.650 h) End of integration time step 781, Model time= 2343.00 s ( 0.651 h) End of integration time step 782, Model time= 2346.00 s ( 0.652 h) End of integration time step 783, Model time= 2349.00 s ( 0.653 h) End of integration time step 784, Model time= 2352.00 s ( 0.653 h) End of integration time step 785, Model time= 2355.00 s ( 0.654 h) End of integration time step 786, Model time= 2358.00 s ( 0.655 h) End of integration time step 787, Model time= 2361.00 s ( 0.656 h) End of integration time step 788, Model time= 2364.00 s ( 0.657 h) End of integration time step 789, Model time= 2367.00 s ( 0.658 h) End of integration time step 790, Model time= 2370.00 s ( 0.658 h) End of integration time step 791, Model time= 2373.00 s ( 0.659 h) End of integration time step 792, Model time= 2376.00 s ( 0.660 h) End of integration time step 793, Model time= 2379.00 s ( 0.661 h) End of integration time step 794, Model time= 2382.00 s ( 0.662 h) End of integration time step 795, Model time= 2385.00 s ( 0.663 h) End of integration time step 796, Model time= 2388.00 s ( 0.663 h) End of integration time step 797, Model time= 2391.00 s ( 0.664 h) End of integration time step 798, Model time= 2394.00 s ( 0.665 h) End of integration time step 799, Model time= 2397.00 s ( 0.666 h) End of integration time step 800, Model time= 2400.00 s ( 0.667 h) ucourant = 0.1508 at i= 351, j= 48, k= 37 vcourant = 0.1467 at i= 335, j= 322, k= 34 wcourant = 0.0660 at i= 319, j= 37, k= 18 uvcourant= 0.1008 at i= 268, j= 88, k= 36 refmax= 45.0431060791 at i= 354, j= 35, k= 7 vorlx= 0.167150539346E-02 at i= 17, j= 290, k= 5 vorux= 0.417402852327E-02 at i= 93, j= 168, k= 17 uvmax= 17.3084144592 at i= 132, j= 147, k= 7 uvmaxdr= 0.00000000000 at i= 132, j= 147, k= 7 umin = -1.50248169899 at i= 1, j= 1, k= 5 umax = 50.2587089539 at i= 351, j= 48, k= 37 vmin = -16.7488574982 at i= 132, j= 149, k= 7 vmax = 48.9508171082 at i= 332, j= 323, k= 34 wmin = -2.17431259155 at i= 321, j= 41, k= 21 wmax = 8.35795211792 at i= 319, j= 37, k= 19 ptprtmin= -8.54528141022 at i= 361, j= 4, k= 40 ptprtmax= 10.7928771973 at i= 1, j= 322, k= 36 pprtmin = -642.3415527 at i= 1, j= 322, k= 30 pprtmax = 429.6624451 at i= 362, j= 1, k= 30 qvmin= 0.613013469319E-06 at i= 362, j= 78, k= 51 qvmax= 0.104558244348E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.222433824092E-02 at i= 319, j= 37, k= 18 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.129938207101E-02 at i= 354, j= 36, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.223523267778E-03 at i= 320, j= 38, k= 21 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.579664425459E-03 at i= 319, j= 38, k= 20 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.720821437426E-03 at i= 319, j= 38, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 7.11402463913 at i= 320, j= 38, k= 21 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 264.656463623 at i= 319, j= 37, k= 20 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 103.508071899 at i= 319, j= 37, k= 20 tsoilmin= 273.060791016 at i= 141, j= 322, k= 1 tsoilmax= 291.058380127 at i= 291, j= 84, k= 2 qsoilmin= 0.121541343629 at i= 242, j= 1, k= 1 qsoilmax= 0.364539295435 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 2400.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf002400_001001 Writing HDF4 data at time= 2400.000 into file ../arpsdata/ar2013041107.hdf002400_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 801, model time= 2400.00 (s) End of integration time step 801, Model time= 2403.00 s ( 0.668 h) End of integration time step 802, Model time= 2406.00 s ( 0.668 h) End of integration time step 803, Model time= 2409.00 s ( 0.669 h) End of integration time step 804, Model time= 2412.00 s ( 0.670 h) End of integration time step 805, Model time= 2415.00 s ( 0.671 h) End of integration time step 806, Model time= 2418.00 s ( 0.672 h) End of integration time step 807, Model time= 2421.00 s ( 0.673 h) End of integration time step 808, Model time= 2424.00 s ( 0.673 h) End of integration time step 809, Model time= 2427.00 s ( 0.674 h) End of integration time step 810, Model time= 2430.00 s ( 0.675 h) End of integration time step 811, Model time= 2433.00 s ( 0.676 h) End of integration time step 812, Model time= 2436.00 s ( 0.677 h) End of integration time step 813, Model time= 2439.00 s ( 0.678 h) End of integration time step 814, Model time= 2442.00 s ( 0.678 h) End of integration time step 815, Model time= 2445.00 s ( 0.679 h) End of integration time step 816, Model time= 2448.00 s ( 0.680 h) End of integration time step 817, Model time= 2451.00 s ( 0.681 h) End of integration time step 818, Model time= 2454.00 s ( 0.682 h) End of integration time step 819, Model time= 2457.00 s ( 0.683 h) End of integration time step 820, Model time= 2460.00 s ( 0.683 h) End of integration time step 821, Model time= 2463.00 s ( 0.684 h) End of integration time step 822, Model time= 2466.00 s ( 0.685 h) End of integration time step 823, Model time= 2469.00 s ( 0.686 h) End of integration time step 824, Model time= 2472.00 s ( 0.687 h) End of integration time step 825, Model time= 2475.00 s ( 0.688 h) End of integration time step 826, Model time= 2478.00 s ( 0.688 h) End of integration time step 827, Model time= 2481.00 s ( 0.689 h) End of integration time step 828, Model time= 2484.00 s ( 0.690 h) End of integration time step 829, Model time= 2487.00 s ( 0.691 h) End of integration time step 830, Model time= 2490.00 s ( 0.692 h) End of integration time step 831, Model time= 2493.00 s ( 0.692 h) End of integration time step 832, Model time= 2496.00 s ( 0.693 h) End of integration time step 833, Model time= 2499.00 s ( 0.694 h) End of integration time step 834, Model time= 2502.00 s ( 0.695 h) End of integration time step 835, Model time= 2505.00 s ( 0.696 h) End of integration time step 836, Model time= 2508.00 s ( 0.697 h) End of integration time step 837, Model time= 2511.00 s ( 0.697 h) End of integration time step 838, Model time= 2514.00 s ( 0.698 h) End of integration time step 839, Model time= 2517.00 s ( 0.699 h) End of integration time step 840, Model time= 2520.00 s ( 0.700 h) End of integration time step 841, Model time= 2523.00 s ( 0.701 h) End of integration time step 842, Model time= 2526.00 s ( 0.702 h) End of integration time step 843, Model time= 2529.00 s ( 0.703 h) End of integration time step 844, Model time= 2532.00 s ( 0.703 h) End of integration time step 845, Model time= 2535.00 s ( 0.704 h) End of integration time step 846, Model time= 2538.00 s ( 0.705 h) End of integration time step 847, Model time= 2541.00 s ( 0.706 h) End of integration time step 848, Model time= 2544.00 s ( 0.707 h) End of integration time step 849, Model time= 2547.00 s ( 0.708 h) End of integration time step 850, Model time= 2550.00 s ( 0.708 h) End of integration time step 851, Model time= 2553.00 s ( 0.709 h) End of integration time step 852, Model time= 2556.00 s ( 0.710 h) End of integration time step 853, Model time= 2559.00 s ( 0.711 h) End of integration time step 854, Model time= 2562.00 s ( 0.712 h) End of integration time step 855, Model time= 2565.00 s ( 0.713 h) End of integration time step 856, Model time= 2568.00 s ( 0.713 h) End of integration time step 857, Model time= 2571.00 s ( 0.714 h) End of integration time step 858, Model time= 2574.00 s ( 0.715 h) End of integration time step 859, Model time= 2577.00 s ( 0.716 h) End of integration time step 860, Model time= 2580.00 s ( 0.717 h) End of integration time step 861, Model time= 2583.00 s ( 0.718 h) End of integration time step 862, Model time= 2586.00 s ( 0.718 h) End of integration time step 863, Model time= 2589.00 s ( 0.719 h) End of integration time step 864, Model time= 2592.00 s ( 0.720 h) End of integration time step 865, Model time= 2595.00 s ( 0.721 h) End of integration time step 866, Model time= 2598.00 s ( 0.722 h) End of integration time step 867, Model time= 2601.00 s ( 0.723 h) End of integration time step 868, Model time= 2604.00 s ( 0.723 h) End of integration time step 869, Model time= 2607.00 s ( 0.724 h) End of integration time step 870, Model time= 2610.00 s ( 0.725 h) End of integration time step 871, Model time= 2613.00 s ( 0.726 h) End of integration time step 872, Model time= 2616.00 s ( 0.727 h) End of integration time step 873, Model time= 2619.00 s ( 0.728 h) End of integration time step 874, Model time= 2622.00 s ( 0.728 h) End of integration time step 875, Model time= 2625.00 s ( 0.729 h) End of integration time step 876, Model time= 2628.00 s ( 0.730 h) End of integration time step 877, Model time= 2631.00 s ( 0.731 h) End of integration time step 878, Model time= 2634.00 s ( 0.732 h) End of integration time step 879, Model time= 2637.00 s ( 0.733 h) End of integration time step 880, Model time= 2640.00 s ( 0.733 h) End of integration time step 881, Model time= 2643.00 s ( 0.734 h) End of integration time step 882, Model time= 2646.00 s ( 0.735 h) End of integration time step 883, Model time= 2649.00 s ( 0.736 h) End of integration time step 884, Model time= 2652.00 s ( 0.737 h) End of integration time step 885, Model time= 2655.00 s ( 0.738 h) End of integration time step 886, Model time= 2658.00 s ( 0.738 h) End of integration time step 887, Model time= 2661.00 s ( 0.739 h) End of integration time step 888, Model time= 2664.00 s ( 0.740 h) End of integration time step 889, Model time= 2667.00 s ( 0.741 h) End of integration time step 890, Model time= 2670.00 s ( 0.742 h) End of integration time step 891, Model time= 2673.00 s ( 0.743 h) End of integration time step 892, Model time= 2676.00 s ( 0.743 h) End of integration time step 893, Model time= 2679.00 s ( 0.744 h) End of integration time step 894, Model time= 2682.00 s ( 0.745 h) End of integration time step 895, Model time= 2685.00 s ( 0.746 h) End of integration time step 896, Model time= 2688.00 s ( 0.747 h) End of integration time step 897, Model time= 2691.00 s ( 0.748 h) End of integration time step 898, Model time= 2694.00 s ( 0.748 h) End of integration time step 899, Model time= 2697.00 s ( 0.749 h) End of integration time step 900, Model time= 2700.00 s ( 0.750 h) ucourant = 0.1506 at i= 324, j= 43, k= 37 vcourant = 0.1471 at i= 335, j= 322, k= 34 wcourant = 0.0734 at i= 323, j= 43, k= 22 uvcourant= 0.1008 at i= 269, j= 88, k= 36 refmax= 48.1378402710 at i= 321, j= 40, k= 17 vorlx= 0.165061047301E-02 at i= 17, j= 289, k= 5 vorux= 0.736157968640E-02 at i= 324, j= 42, k= 20 uvmax= 16.5262641907 at i= 235, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 235, j= 228, k= 7 umin = -1.56804871559 at i= 146, j= 156, k= 1 umax = 50.2039985657 at i= 324, j= 43, k= 37 vmin = -16.0273704529 at i= 170, j= 137, k= 7 vmax = 49.0917472839 at i= 333, j= 323, k= 34 wmin = -3.96308994293 at i= 324, j= 46, k= 24 wmax = 9.70428562164 at i= 323, j= 43, k= 22 ptprtmin= -8.51810169220 at i= 361, j= 4, k= 40 ptprtmax= 10.8429565430 at i= 1, j= 322, k= 36 pprtmin = -643.0529785 at i= 1, j= 322, k= 30 pprtmax = 425.1598206 at i= 362, j= 1, k= 30 qvmin= 0.615606211340E-06 at i= 362, j= 78, k= 51 qvmax= 0.104318261147E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.187483499758E-02 at i= 321, j= 40, k= 19 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.173639249988E-02 at i= 321, j= 40, k= 13 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.437625334598E-03 at i= 323, j= 43, k= 24 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.115617539268E-02 at i= 323, j= 43, k= 23 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.154946232215E-02 at i= 321, j= 40, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 9.68990421295 at i= 323, j= 43, k= 24 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 309.409973145 at i= 323, j= 43, k= 24 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 122.964782715 at i= 323, j= 43, k= 24 tsoilmin= 272.759399414 at i= 141, j= 322, k= 1 tsoilmax= 291.015655518 at i= 291, j= 84, k= 2 qsoilmin= 0.121574424207 at i= 242, j= 1, k= 1 qsoilmax= 0.364535391331 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 2700.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf002700_001001 Writing HDF4 data at time= 2700.000 into file ../arpsdata/ar2013041107.hdf002700_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 901, Model time= 2703.00 s ( 0.751 h) End of integration time step 902, Model time= 2706.00 s ( 0.752 h) End of integration time step 903, Model time= 2709.00 s ( 0.752 h) End of integration time step 904, Model time= 2712.00 s ( 0.753 h) End of integration time step 905, Model time= 2715.00 s ( 0.754 h) End of integration time step 906, Model time= 2718.00 s ( 0.755 h) End of integration time step 907, Model time= 2721.00 s ( 0.756 h) End of integration time step 908, Model time= 2724.00 s ( 0.757 h) End of integration time step 909, Model time= 2727.00 s ( 0.757 h) End of integration time step 910, Model time= 2730.00 s ( 0.758 h) End of integration time step 911, Model time= 2733.00 s ( 0.759 h) End of integration time step 912, Model time= 2736.00 s ( 0.760 h) End of integration time step 913, Model time= 2739.00 s ( 0.761 h) End of integration time step 914, Model time= 2742.00 s ( 0.762 h) End of integration time step 915, Model time= 2745.00 s ( 0.763 h) End of integration time step 916, Model time= 2748.00 s ( 0.763 h) End of integration time step 917, Model time= 2751.00 s ( 0.764 h) End of integration time step 918, Model time= 2754.00 s ( 0.765 h) End of integration time step 919, Model time= 2757.00 s ( 0.766 h) End of integration time step 920, Model time= 2760.00 s ( 0.767 h) End of integration time step 921, Model time= 2763.00 s ( 0.768 h) End of integration time step 922, Model time= 2766.00 s ( 0.768 h) End of integration time step 923, Model time= 2769.00 s ( 0.769 h) End of integration time step 924, Model time= 2772.00 s ( 0.770 h) End of integration time step 925, Model time= 2775.00 s ( 0.771 h) End of integration time step 926, Model time= 2778.00 s ( 0.772 h) End of integration time step 927, Model time= 2781.00 s ( 0.773 h) End of integration time step 928, Model time= 2784.00 s ( 0.773 h) End of integration time step 929, Model time= 2787.00 s ( 0.774 h) End of integration time step 930, Model time= 2790.00 s ( 0.775 h) End of integration time step 931, Model time= 2793.00 s ( 0.776 h) End of integration time step 932, Model time= 2796.00 s ( 0.777 h) End of integration time step 933, Model time= 2799.00 s ( 0.778 h) End of integration time step 934, Model time= 2802.00 s ( 0.778 h) End of integration time step 935, Model time= 2805.00 s ( 0.779 h) End of integration time step 936, Model time= 2808.00 s ( 0.780 h) End of integration time step 937, Model time= 2811.00 s ( 0.781 h) End of integration time step 938, Model time= 2814.00 s ( 0.782 h) End of integration time step 939, Model time= 2817.00 s ( 0.783 h) End of integration time step 940, Model time= 2820.00 s ( 0.783 h) End of integration time step 941, Model time= 2823.00 s ( 0.784 h) End of integration time step 942, Model time= 2826.00 s ( 0.785 h) End of integration time step 943, Model time= 2829.00 s ( 0.786 h) End of integration time step 944, Model time= 2832.00 s ( 0.787 h) End of integration time step 945, Model time= 2835.00 s ( 0.788 h) End of integration time step 946, Model time= 2838.00 s ( 0.788 h) End of integration time step 947, Model time= 2841.00 s ( 0.789 h) End of integration time step 948, Model time= 2844.00 s ( 0.790 h) End of integration time step 949, Model time= 2847.00 s ( 0.791 h) End of integration time step 950, Model time= 2850.00 s ( 0.792 h) End of integration time step 951, Model time= 2853.00 s ( 0.793 h) End of integration time step 952, Model time= 2856.00 s ( 0.793 h) End of integration time step 953, Model time= 2859.00 s ( 0.794 h) End of integration time step 954, Model time= 2862.00 s ( 0.795 h) End of integration time step 955, Model time= 2865.00 s ( 0.796 h) End of integration time step 956, Model time= 2868.00 s ( 0.797 h) End of integration time step 957, Model time= 2871.00 s ( 0.798 h) End of integration time step 958, Model time= 2874.00 s ( 0.798 h) End of integration time step 959, Model time= 2877.00 s ( 0.799 h) End of integration time step 960, Model time= 2880.00 s ( 0.800 h) End of integration time step 961, Model time= 2883.00 s ( 0.801 h) End of integration time step 962, Model time= 2886.00 s ( 0.802 h) End of integration time step 963, Model time= 2889.00 s ( 0.803 h) End of integration time step 964, Model time= 2892.00 s ( 0.803 h) End of integration time step 965, Model time= 2895.00 s ( 0.804 h) End of integration time step 966, Model time= 2898.00 s ( 0.805 h) End of integration time step 967, Model time= 2901.00 s ( 0.806 h) End of integration time step 968, Model time= 2904.00 s ( 0.807 h) End of integration time step 969, Model time= 2907.00 s ( 0.808 h) End of integration time step 970, Model time= 2910.00 s ( 0.808 h) End of integration time step 971, Model time= 2913.00 s ( 0.809 h) End of integration time step 972, Model time= 2916.00 s ( 0.810 h) End of integration time step 973, Model time= 2919.00 s ( 0.811 h) End of integration time step 974, Model time= 2922.00 s ( 0.812 h) End of integration time step 975, Model time= 2925.00 s ( 0.813 h) End of integration time step 976, Model time= 2928.00 s ( 0.813 h) End of integration time step 977, Model time= 2931.00 s ( 0.814 h) End of integration time step 978, Model time= 2934.00 s ( 0.815 h) End of integration time step 979, Model time= 2937.00 s ( 0.816 h) End of integration time step 980, Model time= 2940.00 s ( 0.817 h) End of integration time step 981, Model time= 2943.00 s ( 0.817 h) End of integration time step 982, Model time= 2946.00 s ( 0.818 h) End of integration time step 983, Model time= 2949.00 s ( 0.819 h) End of integration time step 984, Model time= 2952.00 s ( 0.820 h) End of integration time step 985, Model time= 2955.00 s ( 0.821 h) End of integration time step 986, Model time= 2958.00 s ( 0.822 h) End of integration time step 987, Model time= 2961.00 s ( 0.822 h) End of integration time step 988, Model time= 2964.00 s ( 0.823 h) End of integration time step 989, Model time= 2967.00 s ( 0.824 h) End of integration time step 990, Model time= 2970.00 s ( 0.825 h) End of integration time step 991, Model time= 2973.00 s ( 0.826 h) End of integration time step 992, Model time= 2976.00 s ( 0.827 h) End of integration time step 993, Model time= 2979.00 s ( 0.828 h) End of integration time step 994, Model time= 2982.00 s ( 0.828 h) End of integration time step 995, Model time= 2985.00 s ( 0.829 h) End of integration time step 996, Model time= 2988.00 s ( 0.830 h) End of integration time step 997, Model time= 2991.00 s ( 0.831 h) End of integration time step 998, Model time= 2994.00 s ( 0.832 h) End of integration time step 999, Model time= 2997.00 s ( 0.833 h) End of integration time step 1000, Model time= 3000.00 s ( 0.833 h) ucourant = 0.1514 at i= 327, j= 50, k= 37 vcourant = 0.1474 at i= 335, j= 322, k= 34 wcourant = 0.0549 at i= 324, j= 43, k= 19 uvcourant= 0.1008 at i= 292, j= 96, k= 36 refmax= 48.3581771851 at i= 324, j= 44, k= 16 vorlx= 0.147227325942E-02 at i= 18, j= 286, k= 5 vorux= 0.103561282158E-01 at i= 328, j= 49, k= 24 uvmax= 16.6459388733 at i= 235, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 235, j= 228, k= 7 umin = -2.10392594337 at i= 139, j= 155, k= 1 umax = 50.4710044861 at i= 327, j= 50, k= 37 vmin = -15.9257574081 at i= 169, j= 168, k= 7 vmax = 49.2337951660 at i= 334, j= 323, k= 34 wmin = -4.35377883911 at i= 328, j= 52, k= 27 wmax = 7.11762905121 at i= 326, j= 49, k= 25 ptprtmin= -8.49580669403 at i= 361, j= 4, k= 40 ptprtmax= 10.8930358887 at i= 1, j= 322, k= 36 pprtmin = -643.7643433 at i= 1, j= 322, k= 30 pprtmax = 420.6571655 at i= 362, j= 1, k= 30 qvmin= 0.618198896518E-06 at i= 362, j= 78, k= 51 qvmax= 0.104078277946E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.160874973517E-02 at i= 324, j= 43, k= 20 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.196249899454E-02 at i= 324, j= 43, k= 11 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.523758295458E-03 at i= 326, j= 49, k= 26 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.170063448604E-02 at i= 326, j= 49, k= 25 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.158143776935E-02 at i= 324, j= 44, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 7.98411989212 at i= 326, j= 50, k= 27 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 281.102386475 at i= 326, j= 50, k= 27 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 111.794059753 at i= 326, j= 50, k= 27 tsoilmin= 272.506225586 at i= 141, j= 322, k= 1 tsoilmax= 290.969970703 at i= 291, j= 84, k= 2 qsoilmin= 0.121607951820 at i= 242, j= 1, k= 1 qsoilmax= 0.364532411098 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 3000.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf003000_001001 Writing HDF4 data at time= 3000.000 into file ../arpsdata/ar2013041107.hdf003000_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 1001, model time= 3000.00 (s) End of integration time step 1001, Model time= 3003.00 s ( 0.834 h) End of integration time step 1002, Model time= 3006.00 s ( 0.835 h) End of integration time step 1003, Model time= 3009.00 s ( 0.836 h) End of integration time step 1004, Model time= 3012.00 s ( 0.837 h) End of integration time step 1005, Model time= 3015.00 s ( 0.838 h) End of integration time step 1006, Model time= 3018.00 s ( 0.838 h) End of integration time step 1007, Model time= 3021.00 s ( 0.839 h) End of integration time step 1008, Model time= 3024.00 s ( 0.840 h) End of integration time step 1009, Model time= 3027.00 s ( 0.841 h) End of integration time step 1010, Model time= 3030.00 s ( 0.842 h) End of integration time step 1011, Model time= 3033.00 s ( 0.843 h) End of integration time step 1012, Model time= 3036.00 s ( 0.843 h) End of integration time step 1013, Model time= 3039.00 s ( 0.844 h) End of integration time step 1014, Model time= 3042.00 s ( 0.845 h) End of integration time step 1015, Model time= 3045.00 s ( 0.846 h) End of integration time step 1016, Model time= 3048.00 s ( 0.847 h) End of integration time step 1017, Model time= 3051.00 s ( 0.848 h) End of integration time step 1018, Model time= 3054.00 s ( 0.848 h) End of integration time step 1019, Model time= 3057.00 s ( 0.849 h) End of integration time step 1020, Model time= 3060.00 s ( 0.850 h) End of integration time step 1021, Model time= 3063.00 s ( 0.851 h) End of integration time step 1022, Model time= 3066.00 s ( 0.852 h) End of integration time step 1023, Model time= 3069.00 s ( 0.853 h) End of integration time step 1024, Model time= 3072.00 s ( 0.853 h) End of integration time step 1025, Model time= 3075.00 s ( 0.854 h) End of integration time step 1026, Model time= 3078.00 s ( 0.855 h) End of integration time step 1027, Model time= 3081.00 s ( 0.856 h) End of integration time step 1028, Model time= 3084.00 s ( 0.857 h) End of integration time step 1029, Model time= 3087.00 s ( 0.858 h) End of integration time step 1030, Model time= 3090.00 s ( 0.858 h) End of integration time step 1031, Model time= 3093.00 s ( 0.859 h) End of integration time step 1032, Model time= 3096.00 s ( 0.860 h) End of integration time step 1033, Model time= 3099.00 s ( 0.861 h) End of integration time step 1034, Model time= 3102.00 s ( 0.862 h) End of integration time step 1035, Model time= 3105.00 s ( 0.863 h) End of integration time step 1036, Model time= 3108.00 s ( 0.863 h) End of integration time step 1037, Model time= 3111.00 s ( 0.864 h) End of integration time step 1038, Model time= 3114.00 s ( 0.865 h) End of integration time step 1039, Model time= 3117.00 s ( 0.866 h) End of integration time step 1040, Model time= 3120.00 s ( 0.867 h) End of integration time step 1041, Model time= 3123.00 s ( 0.868 h) End of integration time step 1042, Model time= 3126.00 s ( 0.868 h) End of integration time step 1043, Model time= 3129.00 s ( 0.869 h) End of integration time step 1044, Model time= 3132.00 s ( 0.870 h) End of integration time step 1045, Model time= 3135.00 s ( 0.871 h) End of integration time step 1046, Model time= 3138.00 s ( 0.872 h) End of integration time step 1047, Model time= 3141.00 s ( 0.873 h) End of integration time step 1048, Model time= 3144.00 s ( 0.873 h) End of integration time step 1049, Model time= 3147.00 s ( 0.874 h) End of integration time step 1050, Model time= 3150.00 s ( 0.875 h) End of integration time step 1051, Model time= 3153.00 s ( 0.876 h) End of integration time step 1052, Model time= 3156.00 s ( 0.877 h) End of integration time step 1053, Model time= 3159.00 s ( 0.877 h) End of integration time step 1054, Model time= 3162.00 s ( 0.878 h) End of integration time step 1055, Model time= 3165.00 s ( 0.879 h) End of integration time step 1056, Model time= 3168.00 s ( 0.880 h) End of integration time step 1057, Model time= 3171.00 s ( 0.881 h) End of integration time step 1058, Model time= 3174.00 s ( 0.882 h) End of integration time step 1059, Model time= 3177.00 s ( 0.882 h) End of integration time step 1060, Model time= 3180.00 s ( 0.883 h) End of integration time step 1061, Model time= 3183.00 s ( 0.884 h) End of integration time step 1062, Model time= 3186.00 s ( 0.885 h) End of integration time step 1063, Model time= 3189.00 s ( 0.886 h) End of integration time step 1064, Model time= 3192.00 s ( 0.887 h) End of integration time step 1065, Model time= 3195.00 s ( 0.888 h) End of integration time step 1066, Model time= 3198.00 s ( 0.888 h) End of integration time step 1067, Model time= 3201.00 s ( 0.889 h) End of integration time step 1068, Model time= 3204.00 s ( 0.890 h) End of integration time step 1069, Model time= 3207.00 s ( 0.891 h) End of integration time step 1070, Model time= 3210.00 s ( 0.892 h) End of integration time step 1071, Model time= 3213.00 s ( 0.893 h) End of integration time step 1072, Model time= 3216.00 s ( 0.893 h) End of integration time step 1073, Model time= 3219.00 s ( 0.894 h) End of integration time step 1074, Model time= 3222.00 s ( 0.895 h) End of integration time step 1075, Model time= 3225.00 s ( 0.896 h) End of integration time step 1076, Model time= 3228.00 s ( 0.897 h) End of integration time step 1077, Model time= 3231.00 s ( 0.898 h) End of integration time step 1078, Model time= 3234.00 s ( 0.898 h) End of integration time step 1079, Model time= 3237.00 s ( 0.899 h) End of integration time step 1080, Model time= 3240.00 s ( 0.900 h) End of integration time step 1081, Model time= 3243.00 s ( 0.901 h) End of integration time step 1082, Model time= 3246.00 s ( 0.902 h) End of integration time step 1083, Model time= 3249.00 s ( 0.903 h) End of integration time step 1084, Model time= 3252.00 s ( 0.903 h) End of integration time step 1085, Model time= 3255.00 s ( 0.904 h) End of integration time step 1086, Model time= 3258.00 s ( 0.905 h) End of integration time step 1087, Model time= 3261.00 s ( 0.906 h) End of integration time step 1088, Model time= 3264.00 s ( 0.907 h) End of integration time step 1089, Model time= 3267.00 s ( 0.908 h) End of integration time step 1090, Model time= 3270.00 s ( 0.908 h) End of integration time step 1091, Model time= 3273.00 s ( 0.909 h) End of integration time step 1092, Model time= 3276.00 s ( 0.910 h) End of integration time step 1093, Model time= 3279.00 s ( 0.911 h) End of integration time step 1094, Model time= 3282.00 s ( 0.912 h) End of integration time step 1095, Model time= 3285.00 s ( 0.913 h) End of integration time step 1096, Model time= 3288.00 s ( 0.913 h) End of integration time step 1097, Model time= 3291.00 s ( 0.914 h) End of integration time step 1098, Model time= 3294.00 s ( 0.915 h) End of integration time step 1099, Model time= 3297.00 s ( 0.916 h) End of integration time step 1100, Model time= 3300.00 s ( 0.917 h) ucourant = 0.1519 at i= 330, j= 56, k= 37 vcourant = 0.1478 at i= 342, j= 322, k= 34 wcourant = 0.0456 at i= 327, j= 47, k= 20 uvcourant= 0.1010 at i= 279, j= 68, k= 36 refmax= 47.9499588013 at i= 326, j= 46, k= 8 vorlx= 0.155588542111E-02 at i= 325, j= 47, k= 10 vorux= 0.887878239155E-02 at i= 332, j= 57, k= 26 uvmax= 16.7361812592 at i= 236, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 236, j= 228, k= 7 umin = -2.57065224648 at i= 138, j= 154, k= 1 umax = 50.6474456787 at i= 330, j= 56, k= 37 vmin = -16.0142021179 at i= 148, j= 92, k= 7 vmax = 49.3766212463 at i= 335, j= 323, k= 34 wmin = -3.00585770607 at i= 332, j= 60, k= 29 wmax = 5.99211978912 at i= 327, j= 47, k= 20 ptprtmin= -8.46899700165 at i= 361, j= 4, k= 40 ptprtmax= 10.9431152344 at i= 1, j= 322, k= 36 pprtmin = -644.4757690 at i= 1, j= 322, k= 30 pprtmax = 416.1545410 at i= 362, j= 1, k= 30 qvmin= 0.620791638539E-06 at i= 362, j= 78, k= 51 qvmax= 0.103838304058E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.157459569164E-02 at i= 345, j= 39, k= 18 qrmin= 0.00000000000 at i= 1, j= 1, k= 1 qrmax= 0.190188083798E-02 at i= 327, j= 48, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.335212302161E-03 at i= 328, j= 51, k= 25 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.141639378853E-02 at i= 329, j= 52, k= 24 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.127234775573E-02 at i= 327, j= 48, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 6 tkemax= 7.05226421356 at i= 330, j= 54, k= 26 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 264.430786133 at i= 329, j= 53, k= 26 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 105.137710571 at i= 329, j= 53, k= 26 tsoilmin= 272.296051025 at i= 141, j= 322, k= 1 tsoilmax= 290.924194336 at i= 291, j= 84, k= 2 qsoilmin= 0.121639892459 at i= 242, j= 1, k= 1 qsoilmax= 0.364529430866 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 3300.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf003300_001001 Writing HDF4 data at time= 3300.000 into file ../arpsdata/ar2013041107.hdf003300_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 1101, Model time= 3303.00 s ( 0.918 h) End of integration time step 1102, Model time= 3306.00 s ( 0.918 h) End of integration time step 1103, Model time= 3309.00 s ( 0.919 h) End of integration time step 1104, Model time= 3312.00 s ( 0.920 h) End of integration time step 1105, Model time= 3315.00 s ( 0.921 h) End of integration time step 1106, Model time= 3318.00 s ( 0.922 h) End of integration time step 1107, Model time= 3321.00 s ( 0.923 h) End of integration time step 1108, Model time= 3324.00 s ( 0.923 h) End of integration time step 1109, Model time= 3327.00 s ( 0.924 h) End of integration time step 1110, Model time= 3330.00 s ( 0.925 h) End of integration time step 1111, Model time= 3333.00 s ( 0.926 h) End of integration time step 1112, Model time= 3336.00 s ( 0.927 h) End of integration time step 1113, Model time= 3339.00 s ( 0.928 h) End of integration time step 1114, Model time= 3342.00 s ( 0.928 h) End of integration time step 1115, Model time= 3345.00 s ( 0.929 h) End of integration time step 1116, Model time= 3348.00 s ( 0.930 h) End of integration time step 1117, Model time= 3351.00 s ( 0.931 h) End of integration time step 1118, Model time= 3354.00 s ( 0.932 h) End of integration time step 1119, Model time= 3357.00 s ( 0.933 h) End of integration time step 1120, Model time= 3360.00 s ( 0.933 h) End of integration time step 1121, Model time= 3363.00 s ( 0.934 h) End of integration time step 1122, Model time= 3366.00 s ( 0.935 h) End of integration time step 1123, Model time= 3369.00 s ( 0.936 h) End of integration time step 1124, Model time= 3372.00 s ( 0.937 h) End of integration time step 1125, Model time= 3375.00 s ( 0.938 h) End of integration time step 1126, Model time= 3378.00 s ( 0.938 h) End of integration time step 1127, Model time= 3381.00 s ( 0.939 h) End of integration time step 1128, Model time= 3384.00 s ( 0.940 h) End of integration time step 1129, Model time= 3387.00 s ( 0.941 h) End of integration time step 1130, Model time= 3390.00 s ( 0.942 h) End of integration time step 1131, Model time= 3393.00 s ( 0.942 h) End of integration time step 1132, Model time= 3396.00 s ( 0.943 h) End of integration time step 1133, Model time= 3399.00 s ( 0.944 h) End of integration time step 1134, Model time= 3402.00 s ( 0.945 h) End of integration time step 1135, Model time= 3405.00 s ( 0.946 h) End of integration time step 1136, Model time= 3408.00 s ( 0.947 h) End of integration time step 1137, Model time= 3411.00 s ( 0.948 h) End of integration time step 1138, Model time= 3414.00 s ( 0.948 h) End of integration time step 1139, Model time= 3417.00 s ( 0.949 h) End of integration time step 1140, Model time= 3420.00 s ( 0.950 h) End of integration time step 1141, Model time= 3423.00 s ( 0.951 h) End of integration time step 1142, Model time= 3426.00 s ( 0.952 h) End of integration time step 1143, Model time= 3429.00 s ( 0.953 h) End of integration time step 1144, Model time= 3432.00 s ( 0.953 h) End of integration time step 1145, Model time= 3435.00 s ( 0.954 h) End of integration time step 1146, Model time= 3438.00 s ( 0.955 h) End of integration time step 1147, Model time= 3441.00 s ( 0.956 h) End of integration time step 1148, Model time= 3444.00 s ( 0.957 h) End of integration time step 1149, Model time= 3447.00 s ( 0.958 h) End of integration time step 1150, Model time= 3450.00 s ( 0.958 h) End of integration time step 1151, Model time= 3453.00 s ( 0.959 h) End of integration time step 1152, Model time= 3456.00 s ( 0.960 h) End of integration time step 1153, Model time= 3459.00 s ( 0.961 h) End of integration time step 1154, Model time= 3462.00 s ( 0.962 h) End of integration time step 1155, Model time= 3465.00 s ( 0.963 h) End of integration time step 1156, Model time= 3468.00 s ( 0.963 h) End of integration time step 1157, Model time= 3471.00 s ( 0.964 h) End of integration time step 1158, Model time= 3474.00 s ( 0.965 h) End of integration time step 1159, Model time= 3477.00 s ( 0.966 h) End of integration time step 1160, Model time= 3480.00 s ( 0.967 h) End of integration time step 1161, Model time= 3483.00 s ( 0.968 h) End of integration time step 1162, Model time= 3486.00 s ( 0.968 h) End of integration time step 1163, Model time= 3489.00 s ( 0.969 h) End of integration time step 1164, Model time= 3492.00 s ( 0.970 h) End of integration time step 1165, Model time= 3495.00 s ( 0.971 h) End of integration time step 1166, Model time= 3498.00 s ( 0.972 h) End of integration time step 1167, Model time= 3501.00 s ( 0.973 h) End of integration time step 1168, Model time= 3504.00 s ( 0.973 h) End of integration time step 1169, Model time= 3507.00 s ( 0.974 h) End of integration time step 1170, Model time= 3510.00 s ( 0.975 h) End of integration time step 1171, Model time= 3513.00 s ( 0.976 h) End of integration time step 1172, Model time= 3516.00 s ( 0.977 h) End of integration time step 1173, Model time= 3519.00 s ( 0.978 h) End of integration time step 1174, Model time= 3522.00 s ( 0.978 h) End of integration time step 1175, Model time= 3525.00 s ( 0.979 h) End of integration time step 1176, Model time= 3528.00 s ( 0.980 h) End of integration time step 1177, Model time= 3531.00 s ( 0.981 h) End of integration time step 1178, Model time= 3534.00 s ( 0.982 h) End of integration time step 1179, Model time= 3537.00 s ( 0.983 h) End of integration time step 1180, Model time= 3540.00 s ( 0.983 h) End of integration time step 1181, Model time= 3543.00 s ( 0.984 h) End of integration time step 1182, Model time= 3546.00 s ( 0.985 h) End of integration time step 1183, Model time= 3549.00 s ( 0.986 h) End of integration time step 1184, Model time= 3552.00 s ( 0.987 h) End of integration time step 1185, Model time= 3555.00 s ( 0.988 h) End of integration time step 1186, Model time= 3558.00 s ( 0.988 h) End of integration time step 1187, Model time= 3561.00 s ( 0.989 h) End of integration time step 1188, Model time= 3564.00 s ( 0.990 h) End of integration time step 1189, Model time= 3567.00 s ( 0.991 h) End of integration time step 1190, Model time= 3570.00 s ( 0.992 h) End of integration time step 1191, Model time= 3573.00 s ( 0.993 h) End of integration time step 1192, Model time= 3576.00 s ( 0.993 h) End of integration time step 1193, Model time= 3579.00 s ( 0.994 h) End of integration time step 1194, Model time= 3582.00 s ( 0.995 h) End of integration time step 1195, Model time= 3585.00 s ( 0.996 h) End of integration time step 1196, Model time= 3588.00 s ( 0.997 h) End of integration time step 1197, Model time= 3591.00 s ( 0.998 h) End of integration time step 1198, Model time= 3594.00 s ( 0.998 h) End of integration time step 1199, Model time= 3597.00 s ( 0.999 h) End of integration time step 1200, Model time= 3600.00 s ( 1.000 h) ucourant = 0.1523 at i= 332, j= 61, k= 37 vcourant = 0.1482 at i= 342, j= 322, k= 34 wcourant = 0.0639 at i= 350, j= 45, k= 20 uvcourant= 0.1014 at i= 332, j= 59, k= 36 refmax= 47.0560607910 at i= 329, j= 50, k= 8 vorlx= 0.168345787097E-02 at i= 328, j= 51, k= 10 vorux= 0.650475639850E-02 at i= 334, j= 57, k= 25 uvmax= 16.8677406311 at i= 236, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 236, j= 228, k= 7 umin = -1.52607309818 at i= 1, j= 1, k= 5 umax = 50.7767944336 at i= 332, j= 61, k= 37 vmin = -16.0393238068 at i= 172, j= 129, k= 7 vmax = 49.5203857422 at i= 335, j= 323, k= 34 wmin = -3.02248215675 at i= 351, j= 50, k= 25 wmax = 8.29603385925 at i= 350, j= 45, k= 20 ptprtmin= -8.43910980225 at i= 361, j= 4, k= 40 ptprtmax= 10.9931945801 at i= 1, j= 322, k= 36 pprtmin = -645.1871338 at i= 1, j= 322, k= 30 pprtmax = 411.6518860 at i= 362, j= 1, k= 30 qvmin= 0.623384323717E-06 at i= 362, j= 78, k= 51 qvmax= 0.103598320857E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.174559094012E-02 at i= 350, j= 45, k= 19 qrmin= 0.00000000000 at i= 4, j= 1, k= 1 qrmax= 0.165316823404E-02 at i= 329, j= 51, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.346223358065E-03 at i= 349, j= 47, k= 24 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.140969362110E-02 at i= 332, j= 57, k= 24 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.109692185652E-02 at i= 330, j= 52, k= 17 tkemin= 0.00000000000 at i= 12, j= 13, k= 5 tkemax= 9.14174652100 at i= 349, j= 47, k= 24 kmhmin= 0.00000000000 at i= 1, j= 1, k= 6 kmhmax= 300.041412354 at i= 349, j= 47, k= 24 kmvmin= 0.00000000000 at i= 1, j= 1, k= 6 kmvmax= 119.139144897 at i= 349, j= 47, k= 24 tsoilmin= 272.044403076 at i= 7, j= 322, k= 1 tsoilmax= 290.878417969 at i= 291, j= 84, k= 2 qsoilmin= 0.121671184897 at i= 242, j= 1, k= 1 qsoilmax= 0.364526450634 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 3600.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf003600_001001 Writing HDF4 data at time= 3600.000 into file ../arpsdata/ar2013041107.hdf003600_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 1201, model time= 3600.00 (s) End of integration time step 1201, Model time= 3603.00 s ( 1.001 h) End of integration time step 1202, Model time= 3606.00 s ( 1.002 h) End of integration time step 1203, Model time= 3609.00 s ( 1.003 h) End of integration time step 1204, Model time= 3612.00 s ( 1.003 h) End of integration time step 1205, Model time= 3615.00 s ( 1.004 h) End of integration time step 1206, Model time= 3618.00 s ( 1.005 h) End of integration time step 1207, Model time= 3621.00 s ( 1.006 h) End of integration time step 1208, Model time= 3624.00 s ( 1.007 h) End of integration time step 1209, Model time= 3627.00 s ( 1.008 h) End of integration time step 1210, Model time= 3630.00 s ( 1.008 h) End of integration time step 1211, Model time= 3633.00 s ( 1.009 h) End of integration time step 1212, Model time= 3636.00 s ( 1.010 h) End of integration time step 1213, Model time= 3639.00 s ( 1.011 h) End of integration time step 1214, Model time= 3642.00 s ( 1.012 h) End of integration time step 1215, Model time= 3645.00 s ( 1.013 h) End of integration time step 1216, Model time= 3648.00 s ( 1.013 h) End of integration time step 1217, Model time= 3651.00 s ( 1.014 h) End of integration time step 1218, Model time= 3654.00 s ( 1.015 h) End of integration time step 1219, Model time= 3657.00 s ( 1.016 h) End of integration time step 1220, Model time= 3660.00 s ( 1.017 h) End of integration time step 1221, Model time= 3663.00 s ( 1.018 h) End of integration time step 1222, Model time= 3666.00 s ( 1.018 h) End of integration time step 1223, Model time= 3669.00 s ( 1.019 h) End of integration time step 1224, Model time= 3672.00 s ( 1.020 h) End of integration time step 1225, Model time= 3675.00 s ( 1.021 h) End of integration time step 1226, Model time= 3678.00 s ( 1.022 h) End of integration time step 1227, Model time= 3681.00 s ( 1.023 h) End of integration time step 1228, Model time= 3684.00 s ( 1.023 h) End of integration time step 1229, Model time= 3687.00 s ( 1.024 h) End of integration time step 1230, Model time= 3690.00 s ( 1.025 h) End of integration time step 1231, Model time= 3693.00 s ( 1.026 h) End of integration time step 1232, Model time= 3696.00 s ( 1.027 h) End of integration time step 1233, Model time= 3699.00 s ( 1.028 h) End of integration time step 1234, Model time= 3702.00 s ( 1.028 h) End of integration time step 1235, Model time= 3705.00 s ( 1.029 h) End of integration time step 1236, Model time= 3708.00 s ( 1.030 h) End of integration time step 1237, Model time= 3711.00 s ( 1.031 h) End of integration time step 1238, Model time= 3714.00 s ( 1.032 h) End of integration time step 1239, Model time= 3717.00 s ( 1.033 h) End of integration time step 1240, Model time= 3720.00 s ( 1.033 h) End of integration time step 1241, Model time= 3723.00 s ( 1.034 h) End of integration time step 1242, Model time= 3726.00 s ( 1.035 h) End of integration time step 1243, Model time= 3729.00 s ( 1.036 h) End of integration time step 1244, Model time= 3732.00 s ( 1.037 h) End of integration time step 1245, Model time= 3735.00 s ( 1.038 h) End of integration time step 1246, Model time= 3738.00 s ( 1.038 h) End of integration time step 1247, Model time= 3741.00 s ( 1.039 h) End of integration time step 1248, Model time= 3744.00 s ( 1.040 h) End of integration time step 1249, Model time= 3747.00 s ( 1.041 h) End of integration time step 1250, Model time= 3750.00 s ( 1.042 h) End of integration time step 1251, Model time= 3753.00 s ( 1.043 h) End of integration time step 1252, Model time= 3756.00 s ( 1.043 h) End of integration time step 1253, Model time= 3759.00 s ( 1.044 h) End of integration time step 1254, Model time= 3762.00 s ( 1.045 h) End of integration time step 1255, Model time= 3765.00 s ( 1.046 h) End of integration time step 1256, Model time= 3768.00 s ( 1.047 h) End of integration time step 1257, Model time= 3771.00 s ( 1.048 h) End of integration time step 1258, Model time= 3774.00 s ( 1.048 h) End of integration time step 1259, Model time= 3777.00 s ( 1.049 h) End of integration time step 1260, Model time= 3780.00 s ( 1.050 h) End of integration time step 1261, Model time= 3783.00 s ( 1.051 h) End of integration time step 1262, Model time= 3786.00 s ( 1.052 h) End of integration time step 1263, Model time= 3789.00 s ( 1.053 h) End of integration time step 1264, Model time= 3792.00 s ( 1.053 h) End of integration time step 1265, Model time= 3795.00 s ( 1.054 h) End of integration time step 1266, Model time= 3798.00 s ( 1.055 h) End of integration time step 1267, Model time= 3801.00 s ( 1.056 h) End of integration time step 1268, Model time= 3804.00 s ( 1.057 h) End of integration time step 1269, Model time= 3807.00 s ( 1.058 h) End of integration time step 1270, Model time= 3810.00 s ( 1.058 h) End of integration time step 1271, Model time= 3813.00 s ( 1.059 h) End of integration time step 1272, Model time= 3816.00 s ( 1.060 h) End of integration time step 1273, Model time= 3819.00 s ( 1.061 h) End of integration time step 1274, Model time= 3822.00 s ( 1.062 h) End of integration time step 1275, Model time= 3825.00 s ( 1.063 h) End of integration time step 1276, Model time= 3828.00 s ( 1.063 h) End of integration time step 1277, Model time= 3831.00 s ( 1.064 h) End of integration time step 1278, Model time= 3834.00 s ( 1.065 h) End of integration time step 1279, Model time= 3837.00 s ( 1.066 h) End of integration time step 1280, Model time= 3840.00 s ( 1.067 h) End of integration time step 1281, Model time= 3843.00 s ( 1.067 h) End of integration time step 1282, Model time= 3846.00 s ( 1.068 h) End of integration time step 1283, Model time= 3849.00 s ( 1.069 h) End of integration time step 1284, Model time= 3852.00 s ( 1.070 h) End of integration time step 1285, Model time= 3855.00 s ( 1.071 h) End of integration time step 1286, Model time= 3858.00 s ( 1.072 h) End of integration time step 1287, Model time= 3861.00 s ( 1.072 h) End of integration time step 1288, Model time= 3864.00 s ( 1.073 h) End of integration time step 1289, Model time= 3867.00 s ( 1.074 h) End of integration time step 1290, Model time= 3870.00 s ( 1.075 h) End of integration time step 1291, Model time= 3873.00 s ( 1.076 h) End of integration time step 1292, Model time= 3876.00 s ( 1.077 h) End of integration time step 1293, Model time= 3879.00 s ( 1.077 h) End of integration time step 1294, Model time= 3882.00 s ( 1.078 h) End of integration time step 1295, Model time= 3885.00 s ( 1.079 h) End of integration time step 1296, Model time= 3888.00 s ( 1.080 h) End of integration time step 1297, Model time= 3891.00 s ( 1.081 h) End of integration time step 1298, Model time= 3894.00 s ( 1.082 h) End of integration time step 1299, Model time= 3897.00 s ( 1.082 h) End of integration time step 1300, Model time= 3900.00 s ( 1.083 h) ucourant = 0.1521 at i= 335, j= 66, k= 37 vcourant = 0.1488 at i= 336, j= 322, k= 34 wcourant = 0.0492 at i= 351, j= 53, k= 23 uvcourant= 0.1015 at i= 335, j= 64, k= 36 refmax= 47.8547630310 at i= 352, j= 48, k= 11 vorlx= 0.158985657617E-02 at i= 331, j= 55, k= 10 vorux= 0.585496705025E-02 at i= 335, j= 56, k= 19 uvmax= 16.9723129272 at i= 235, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 235, j= 228, k= 7 umin = -1.53197097778 at i= 1, j= 1, k= 5 umax = 50.6891098022 at i= 335, j= 66, k= 37 vmin = -16.1668682098 at i= 135, j= 131, k= 7 vmax = 49.6652565002 at i= 337, j= 323, k= 34 wmin = -3.38106060028 at i= 354, j= 56, k= 27 wmax = 6.50322628021 at i= 351, j= 53, k= 23 ptprtmin= -8.41031742096 at i= 361, j= 4, k= 40 ptprtmax= 11.0432739258 at i= 1, j= 322, k= 36 pprtmin = -645.8985596 at i= 1, j= 322, k= 30 pprtmax = 407.1492310 at i= 362, j= 1, k= 30 qvmin= 0.625977008895E-06 at i= 362, j= 78, k= 51 qvmax= 0.103358337656E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.180190894753E-02 at i= 331, j= 51, k= 18 qrmin= 0.00000000000 at i= 5, j= 1, k= 1 qrmax= 0.200713286176E-02 at i= 352, j= 48, k= 11 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.442224525614E-03 at i= 351, j= 53, k= 26 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.144994119182E-02 at i= 351, j= 53, k= 25 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.135361414868E-02 at i= 352, j= 50, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 7.78373861313 at i= 351, j= 54, k= 26 kmhmin= 0.00000000000 at i= 12, j= 15, k= 5 kmhmax= 281.144104004 at i= 351, j= 53, k= 26 kmvmin= 0.00000000000 at i= 12, j= 15, k= 5 kmvmax= 111.680244446 at i= 351, j= 53, k= 26 tsoilmin= 271.801025391 at i= 7, j= 322, k= 1 tsoilmax= 290.832641602 at i= 291, j= 84, k= 2 qsoilmin= 0.121702477336 at i= 242, j= 1, k= 1 qsoilmax= 0.364523470402 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 3900.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf003900_001001 Writing HDF4 data at time= 3900.000 into file ../arpsdata/ar2013041107.hdf003900_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 1301, Model time= 3903.00 s ( 1.084 h) End of integration time step 1302, Model time= 3906.00 s ( 1.085 h) End of integration time step 1303, Model time= 3909.00 s ( 1.086 h) End of integration time step 1304, Model time= 3912.00 s ( 1.087 h) End of integration time step 1305, Model time= 3915.00 s ( 1.087 h) End of integration time step 1306, Model time= 3918.00 s ( 1.088 h) End of integration time step 1307, Model time= 3921.00 s ( 1.089 h) End of integration time step 1308, Model time= 3924.00 s ( 1.090 h) End of integration time step 1309, Model time= 3927.00 s ( 1.091 h) End of integration time step 1310, Model time= 3930.00 s ( 1.092 h) End of integration time step 1311, Model time= 3933.00 s ( 1.092 h) End of integration time step 1312, Model time= 3936.00 s ( 1.093 h) End of integration time step 1313, Model time= 3939.00 s ( 1.094 h) End of integration time step 1314, Model time= 3942.00 s ( 1.095 h) End of integration time step 1315, Model time= 3945.00 s ( 1.096 h) End of integration time step 1316, Model time= 3948.00 s ( 1.097 h) End of integration time step 1317, Model time= 3951.00 s ( 1.098 h) End of integration time step 1318, Model time= 3954.00 s ( 1.098 h) End of integration time step 1319, Model time= 3957.00 s ( 1.099 h) End of integration time step 1320, Model time= 3960.00 s ( 1.100 h) End of integration time step 1321, Model time= 3963.00 s ( 1.101 h) End of integration time step 1322, Model time= 3966.00 s ( 1.102 h) End of integration time step 1323, Model time= 3969.00 s ( 1.103 h) End of integration time step 1324, Model time= 3972.00 s ( 1.103 h) End of integration time step 1325, Model time= 3975.00 s ( 1.104 h) End of integration time step 1326, Model time= 3978.00 s ( 1.105 h) End of integration time step 1327, Model time= 3981.00 s ( 1.106 h) End of integration time step 1328, Model time= 3984.00 s ( 1.107 h) End of integration time step 1329, Model time= 3987.00 s ( 1.108 h) End of integration time step 1330, Model time= 3990.00 s ( 1.108 h) End of integration time step 1331, Model time= 3993.00 s ( 1.109 h) End of integration time step 1332, Model time= 3996.00 s ( 1.110 h) End of integration time step 1333, Model time= 3999.00 s ( 1.111 h) End of integration time step 1334, Model time= 4002.00 s ( 1.112 h) End of integration time step 1335, Model time= 4005.00 s ( 1.113 h) End of integration time step 1336, Model time= 4008.00 s ( 1.113 h) End of integration time step 1337, Model time= 4011.00 s ( 1.114 h) End of integration time step 1338, Model time= 4014.00 s ( 1.115 h) End of integration time step 1339, Model time= 4017.00 s ( 1.116 h) End of integration time step 1340, Model time= 4020.00 s ( 1.117 h) End of integration time step 1341, Model time= 4023.00 s ( 1.118 h) End of integration time step 1342, Model time= 4026.00 s ( 1.118 h) End of integration time step 1343, Model time= 4029.00 s ( 1.119 h) End of integration time step 1344, Model time= 4032.00 s ( 1.120 h) End of integration time step 1345, Model time= 4035.00 s ( 1.121 h) End of integration time step 1346, Model time= 4038.00 s ( 1.122 h) End of integration time step 1347, Model time= 4041.00 s ( 1.123 h) End of integration time step 1348, Model time= 4044.00 s ( 1.123 h) End of integration time step 1349, Model time= 4047.00 s ( 1.124 h) End of integration time step 1350, Model time= 4050.00 s ( 1.125 h) End of integration time step 1351, Model time= 4053.00 s ( 1.126 h) End of integration time step 1352, Model time= 4056.00 s ( 1.127 h) End of integration time step 1353, Model time= 4059.00 s ( 1.128 h) End of integration time step 1354, Model time= 4062.00 s ( 1.128 h) End of integration time step 1355, Model time= 4065.00 s ( 1.129 h) End of integration time step 1356, Model time= 4068.00 s ( 1.130 h) End of integration time step 1357, Model time= 4071.00 s ( 1.131 h) End of integration time step 1358, Model time= 4074.00 s ( 1.132 h) End of integration time step 1359, Model time= 4077.00 s ( 1.133 h) End of integration time step 1360, Model time= 4080.00 s ( 1.133 h) End of integration time step 1361, Model time= 4083.00 s ( 1.134 h) End of integration time step 1362, Model time= 4086.00 s ( 1.135 h) End of integration time step 1363, Model time= 4089.00 s ( 1.136 h) End of integration time step 1364, Model time= 4092.00 s ( 1.137 h) End of integration time step 1365, Model time= 4095.00 s ( 1.138 h) End of integration time step 1366, Model time= 4098.00 s ( 1.138 h) End of integration time step 1367, Model time= 4101.00 s ( 1.139 h) End of integration time step 1368, Model time= 4104.00 s ( 1.140 h) End of integration time step 1369, Model time= 4107.00 s ( 1.141 h) End of integration time step 1370, Model time= 4110.00 s ( 1.142 h) End of integration time step 1371, Model time= 4113.00 s ( 1.143 h) End of integration time step 1372, Model time= 4116.00 s ( 1.143 h) End of integration time step 1373, Model time= 4119.00 s ( 1.144 h) End of integration time step 1374, Model time= 4122.00 s ( 1.145 h) End of integration time step 1375, Model time= 4125.00 s ( 1.146 h) End of integration time step 1376, Model time= 4128.00 s ( 1.147 h) End of integration time step 1377, Model time= 4131.00 s ( 1.148 h) End of integration time step 1378, Model time= 4134.00 s ( 1.148 h) End of integration time step 1379, Model time= 4137.00 s ( 1.149 h) End of integration time step 1380, Model time= 4140.00 s ( 1.150 h) End of integration time step 1381, Model time= 4143.00 s ( 1.151 h) End of integration time step 1382, Model time= 4146.00 s ( 1.152 h) End of integration time step 1383, Model time= 4149.00 s ( 1.153 h) End of integration time step 1384, Model time= 4152.00 s ( 1.153 h) End of integration time step 1385, Model time= 4155.00 s ( 1.154 h) End of integration time step 1386, Model time= 4158.00 s ( 1.155 h) End of integration time step 1387, Model time= 4161.00 s ( 1.156 h) End of integration time step 1388, Model time= 4164.00 s ( 1.157 h) End of integration time step 1389, Model time= 4167.00 s ( 1.158 h) End of integration time step 1390, Model time= 4170.00 s ( 1.158 h) End of integration time step 1391, Model time= 4173.00 s ( 1.159 h) End of integration time step 1392, Model time= 4176.00 s ( 1.160 h) End of integration time step 1393, Model time= 4179.00 s ( 1.161 h) End of integration time step 1394, Model time= 4182.00 s ( 1.162 h) End of integration time step 1395, Model time= 4185.00 s ( 1.163 h) End of integration time step 1396, Model time= 4188.00 s ( 1.163 h) End of integration time step 1397, Model time= 4191.00 s ( 1.164 h) End of integration time step 1398, Model time= 4194.00 s ( 1.165 h) End of integration time step 1399, Model time= 4197.00 s ( 1.166 h) End of integration time step 1400, Model time= 4200.00 s ( 1.167 h) ucourant = 0.1521 at i= 339, j= 69, k= 37 vcourant = 0.1493 at i= 346, j= 322, k= 34 wcourant = 0.0505 at i= 336, j= 62, k= 20 uvcourant= 0.1018 at i= 339, j= 67, k= 36 refmax= 48.9311637878 at i= 354, j= 52, k= 9 vorlx= 0.176640343852E-02 at i= 334, j= 59, k= 10 vorux= 0.568785704672E-02 at i= 339, j= 63, k= 24 uvmax= 17.0701637268 at i= 234, j= 227, k= 7 uvmaxdr= 0.00000000000 at i= 234, j= 227, k= 7 umin = -1.53786885738 at i= 1, j= 1, k= 5 umax = 50.6931953430 at i= 339, j= 69, k= 37 vmin = -16.5988636017 at i= 136, j= 125, k= 7 vmax = 49.8115882874 at i= 338, j= 323, k= 34 wmin = -2.56796288490 at i= 337, j= 55, k= 20 wmax = 6.57985496521 at i= 336, j= 62, k= 20 ptprtmin= -8.38171577454 at i= 361, j= 4, k= 40 ptprtmax= 11.0933532715 at i= 1, j= 322, k= 36 pprtmin = -646.6099243 at i= 1, j= 322, k= 30 pprtmax = 402.6466064 at i= 362, j= 1, k= 30 qvmin= 0.628569750916E-06 at i= 362, j= 78, k= 51 qvmax= 0.103118354455E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.186273374129E-02 at i= 334, j= 54, k= 18 qrmin= 0.00000000000 at i= 13, j= 1, k= 1 qrmax= 0.218590302393E-02 at i= 354, j= 53, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.296647602227E-03 at i= 335, j= 62, k= 21 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.139911880251E-02 at i= 354, j= 60, k= 25 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.132756272797E-02 at i= 336, j= 62, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 6.88230752945 at i= 348, j= 52, k= 22 kmhmin= 0.00000000000 at i= 11, j= 12, k= 5 kmhmax= 262.617370605 at i= 348, j= 52, k= 22 kmvmin= 0.00000000000 at i= 11, j= 12, k= 5 kmvmax= 103.722320557 at i= 348, j= 52, k= 22 tsoilmin= 271.582427979 at i= 7, j= 322, k= 1 tsoilmax= 290.786621094 at i= 291, j= 84, k= 2 qsoilmin= 0.121733769774 at i= 242, j= 1, k= 1 qsoilmax= 0.364520490170 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 4200.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf004200_001001 Writing HDF4 data at time= 4200.000 into file ../arpsdata/ar2013041107.hdf004200_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 1401, model time= 4200.00 (s) End of integration time step 1401, Model time= 4203.00 s ( 1.168 h) End of integration time step 1402, Model time= 4206.00 s ( 1.168 h) End of integration time step 1403, Model time= 4209.00 s ( 1.169 h) End of integration time step 1404, Model time= 4212.00 s ( 1.170 h) End of integration time step 1405, Model time= 4215.00 s ( 1.171 h) End of integration time step 1406, Model time= 4218.00 s ( 1.172 h) End of integration time step 1407, Model time= 4221.00 s ( 1.173 h) End of integration time step 1408, Model time= 4224.00 s ( 1.173 h) End of integration time step 1409, Model time= 4227.00 s ( 1.174 h) End of integration time step 1410, Model time= 4230.00 s ( 1.175 h) End of integration time step 1411, Model time= 4233.00 s ( 1.176 h) End of integration time step 1412, Model time= 4236.00 s ( 1.177 h) End of integration time step 1413, Model time= 4239.00 s ( 1.178 h) End of integration time step 1414, Model time= 4242.00 s ( 1.178 h) End of integration time step 1415, Model time= 4245.00 s ( 1.179 h) End of integration time step 1416, Model time= 4248.00 s ( 1.180 h) End of integration time step 1417, Model time= 4251.00 s ( 1.181 h) End of integration time step 1418, Model time= 4254.00 s ( 1.182 h) End of integration time step 1419, Model time= 4257.00 s ( 1.183 h) End of integration time step 1420, Model time= 4260.00 s ( 1.183 h) End of integration time step 1421, Model time= 4263.00 s ( 1.184 h) End of integration time step 1422, Model time= 4266.00 s ( 1.185 h) End of integration time step 1423, Model time= 4269.00 s ( 1.186 h) End of integration time step 1424, Model time= 4272.00 s ( 1.187 h) End of integration time step 1425, Model time= 4275.00 s ( 1.188 h) End of integration time step 1426, Model time= 4278.00 s ( 1.188 h) End of integration time step 1427, Model time= 4281.00 s ( 1.189 h) End of integration time step 1428, Model time= 4284.00 s ( 1.190 h) End of integration time step 1429, Model time= 4287.00 s ( 1.191 h) End of integration time step 1430, Model time= 4290.00 s ( 1.192 h) End of integration time step 1431, Model time= 4293.00 s ( 1.192 h) End of integration time step 1432, Model time= 4296.00 s ( 1.193 h) End of integration time step 1433, Model time= 4299.00 s ( 1.194 h) End of integration time step 1434, Model time= 4302.00 s ( 1.195 h) End of integration time step 1435, Model time= 4305.00 s ( 1.196 h) End of integration time step 1436, Model time= 4308.00 s ( 1.197 h) End of integration time step 1437, Model time= 4311.00 s ( 1.197 h) End of integration time step 1438, Model time= 4314.00 s ( 1.198 h) End of integration time step 1439, Model time= 4317.00 s ( 1.199 h) End of integration time step 1440, Model time= 4320.00 s ( 1.200 h) End of integration time step 1441, Model time= 4323.00 s ( 1.201 h) End of integration time step 1442, Model time= 4326.00 s ( 1.202 h) End of integration time step 1443, Model time= 4329.00 s ( 1.202 h) End of integration time step 1444, Model time= 4332.00 s ( 1.203 h) End of integration time step 1445, Model time= 4335.00 s ( 1.204 h) End of integration time step 1446, Model time= 4338.00 s ( 1.205 h) End of integration time step 1447, Model time= 4341.00 s ( 1.206 h) End of integration time step 1448, Model time= 4344.00 s ( 1.207 h) End of integration time step 1449, Model time= 4347.00 s ( 1.207 h) End of integration time step 1450, Model time= 4350.00 s ( 1.208 h) End of integration time step 1451, Model time= 4353.00 s ( 1.209 h) End of integration time step 1452, Model time= 4356.00 s ( 1.210 h) End of integration time step 1453, Model time= 4359.00 s ( 1.211 h) End of integration time step 1454, Model time= 4362.00 s ( 1.212 h) End of integration time step 1455, Model time= 4365.00 s ( 1.212 h) End of integration time step 1456, Model time= 4368.00 s ( 1.213 h) End of integration time step 1457, Model time= 4371.00 s ( 1.214 h) End of integration time step 1458, Model time= 4374.00 s ( 1.215 h) End of integration time step 1459, Model time= 4377.00 s ( 1.216 h) End of integration time step 1460, Model time= 4380.00 s ( 1.217 h) End of integration time step 1461, Model time= 4383.00 s ( 1.217 h) End of integration time step 1462, Model time= 4386.00 s ( 1.218 h) End of integration time step 1463, Model time= 4389.00 s ( 1.219 h) End of integration time step 1464, Model time= 4392.00 s ( 1.220 h) End of integration time step 1465, Model time= 4395.00 s ( 1.221 h) End of integration time step 1466, Model time= 4398.00 s ( 1.222 h) End of integration time step 1467, Model time= 4401.00 s ( 1.223 h) End of integration time step 1468, Model time= 4404.00 s ( 1.223 h) End of integration time step 1469, Model time= 4407.00 s ( 1.224 h) End of integration time step 1470, Model time= 4410.00 s ( 1.225 h) End of integration time step 1471, Model time= 4413.00 s ( 1.226 h) End of integration time step 1472, Model time= 4416.00 s ( 1.227 h) End of integration time step 1473, Model time= 4419.00 s ( 1.228 h) End of integration time step 1474, Model time= 4422.00 s ( 1.228 h) End of integration time step 1475, Model time= 4425.00 s ( 1.229 h) End of integration time step 1476, Model time= 4428.00 s ( 1.230 h) End of integration time step 1477, Model time= 4431.00 s ( 1.231 h) End of integration time step 1478, Model time= 4434.00 s ( 1.232 h) End of integration time step 1479, Model time= 4437.00 s ( 1.233 h) End of integration time step 1480, Model time= 4440.00 s ( 1.233 h) End of integration time step 1481, Model time= 4443.00 s ( 1.234 h) End of integration time step 1482, Model time= 4446.00 s ( 1.235 h) End of integration time step 1483, Model time= 4449.00 s ( 1.236 h) End of integration time step 1484, Model time= 4452.00 s ( 1.237 h) End of integration time step 1485, Model time= 4455.00 s ( 1.238 h) End of integration time step 1486, Model time= 4458.00 s ( 1.238 h) End of integration time step 1487, Model time= 4461.00 s ( 1.239 h) End of integration time step 1488, Model time= 4464.00 s ( 1.240 h) End of integration time step 1489, Model time= 4467.00 s ( 1.241 h) End of integration time step 1490, Model time= 4470.00 s ( 1.242 h) End of integration time step 1491, Model time= 4473.00 s ( 1.243 h) End of integration time step 1492, Model time= 4476.00 s ( 1.243 h) End of integration time step 1493, Model time= 4479.00 s ( 1.244 h) End of integration time step 1494, Model time= 4482.00 s ( 1.245 h) End of integration time step 1495, Model time= 4485.00 s ( 1.246 h) End of integration time step 1496, Model time= 4488.00 s ( 1.247 h) End of integration time step 1497, Model time= 4491.00 s ( 1.248 h) End of integration time step 1498, Model time= 4494.00 s ( 1.248 h) End of integration time step 1499, Model time= 4497.00 s ( 1.249 h) End of integration time step 1500, Model time= 4500.00 s ( 1.250 h) ucourant = 0.1525 at i= 342, j= 73, k= 37 vcourant = 0.1495 at i= 336, j= 322, k= 34 wcourant = 0.0498 at i= 338, j= 65, k= 20 uvcourant= 0.1022 at i= 342, j= 70, k= 36 refmax= 47.7183609009 at i= 338, j= 64, k= 10 vorlx= 0.198033591732E-02 at i= 337, j= 63, k= 10 vorux= 0.651989504695E-02 at i= 342, j= 67, k= 24 uvmax= 17.0880374908 at i= 237, j= 227, k= 7 uvmaxdr= 0.00000000000 at i= 237, j= 227, k= 7 umin = -1.54376673698 at i= 1, j= 1, k= 5 umax = 50.8263511658 at i= 342, j= 73, k= 37 vmin = -16.4929313660 at i= 136, j= 126, k= 7 vmax = 49.9590721130 at i= 339, j= 323, k= 34 wmin = -2.54061961174 at i= 340, j= 59, k= 21 wmax = 6.44501543045 at i= 338, j= 65, k= 21 ptprtmin= -8.35286331177 at i= 361, j= 4, k= 40 ptprtmax= 11.1434326172 at i= 1, j= 322, k= 36 pprtmin = -647.3213501 at i= 1, j= 322, k= 30 pprtmax = 398.1439514 at i= 362, j= 1, k= 30 qvmin= 0.631162436093E-06 at i= 362, j= 78, k= 51 qvmax= 0.102878380567E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.162938411813E-02 at i= 337, j= 58, k= 19 qrmin= 0.00000000000 at i= 16, j= 1, k= 1 qrmax= 0.189691118430E-02 at i= 338, j= 64, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.365798943676E-03 at i= 339, j= 66, k= 22 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.137851561885E-02 at i= 340, j= 68, k= 24 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.139898515772E-02 at i= 338, j= 65, k= 17 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 7.42317533493 at i= 338, j= 61, k= 23 kmhmin= 0.00000000000 at i= 8, j= 6, k= 5 kmhmax= 272.227264404 at i= 338, j= 61, k= 23 kmvmin= 0.00000000000 at i= 8, j= 6, k= 5 kmvmax= 107.945419312 at i= 338, j= 61, k= 23 tsoilmin= 271.394042969 at i= 7, j= 322, k= 1 tsoilmax= 290.737792969 at i= 291, j= 84, k= 2 qsoilmin= 0.121765062213 at i= 242, j= 1, k= 1 qsoilmax= 0.364517509937 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 4500.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf004500_001001 Writing HDF4 data at time= 4500.000 into file ../arpsdata/ar2013041107.hdf004500_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 1501, Model time= 4503.00 s ( 1.251 h) End of integration time step 1502, Model time= 4506.00 s ( 1.252 h) End of integration time step 1503, Model time= 4509.00 s ( 1.253 h) End of integration time step 1504, Model time= 4512.00 s ( 1.253 h) End of integration time step 1505, Model time= 4515.00 s ( 1.254 h) End of integration time step 1506, Model time= 4518.00 s ( 1.255 h) End of integration time step 1507, Model time= 4521.00 s ( 1.256 h) End of integration time step 1508, Model time= 4524.00 s ( 1.257 h) End of integration time step 1509, Model time= 4527.00 s ( 1.258 h) End of integration time step 1510, Model time= 4530.00 s ( 1.258 h) End of integration time step 1511, Model time= 4533.00 s ( 1.259 h) End of integration time step 1512, Model time= 4536.00 s ( 1.260 h) End of integration time step 1513, Model time= 4539.00 s ( 1.261 h) End of integration time step 1514, Model time= 4542.00 s ( 1.262 h) End of integration time step 1515, Model time= 4545.00 s ( 1.263 h) End of integration time step 1516, Model time= 4548.00 s ( 1.263 h) End of integration time step 1517, Model time= 4551.00 s ( 1.264 h) End of integration time step 1518, Model time= 4554.00 s ( 1.265 h) End of integration time step 1519, Model time= 4557.00 s ( 1.266 h) End of integration time step 1520, Model time= 4560.00 s ( 1.267 h) End of integration time step 1521, Model time= 4563.00 s ( 1.268 h) End of integration time step 1522, Model time= 4566.00 s ( 1.268 h) End of integration time step 1523, Model time= 4569.00 s ( 1.269 h) End of integration time step 1524, Model time= 4572.00 s ( 1.270 h) End of integration time step 1525, Model time= 4575.00 s ( 1.271 h) End of integration time step 1526, Model time= 4578.00 s ( 1.272 h) End of integration time step 1527, Model time= 4581.00 s ( 1.273 h) End of integration time step 1528, Model time= 4584.00 s ( 1.273 h) End of integration time step 1529, Model time= 4587.00 s ( 1.274 h) End of integration time step 1530, Model time= 4590.00 s ( 1.275 h) End of integration time step 1531, Model time= 4593.00 s ( 1.276 h) End of integration time step 1532, Model time= 4596.00 s ( 1.277 h) End of integration time step 1533, Model time= 4599.00 s ( 1.278 h) End of integration time step 1534, Model time= 4602.00 s ( 1.278 h) End of integration time step 1535, Model time= 4605.00 s ( 1.279 h) End of integration time step 1536, Model time= 4608.00 s ( 1.280 h) End of integration time step 1537, Model time= 4611.00 s ( 1.281 h) End of integration time step 1538, Model time= 4614.00 s ( 1.282 h) End of integration time step 1539, Model time= 4617.00 s ( 1.283 h) End of integration time step 1540, Model time= 4620.00 s ( 1.283 h) End of integration time step 1541, Model time= 4623.00 s ( 1.284 h) End of integration time step 1542, Model time= 4626.00 s ( 1.285 h) End of integration time step 1543, Model time= 4629.00 s ( 1.286 h) End of integration time step 1544, Model time= 4632.00 s ( 1.287 h) End of integration time step 1545, Model time= 4635.00 s ( 1.288 h) End of integration time step 1546, Model time= 4638.00 s ( 1.288 h) End of integration time step 1547, Model time= 4641.00 s ( 1.289 h) End of integration time step 1548, Model time= 4644.00 s ( 1.290 h) End of integration time step 1549, Model time= 4647.00 s ( 1.291 h) End of integration time step 1550, Model time= 4650.00 s ( 1.292 h) End of integration time step 1551, Model time= 4653.00 s ( 1.293 h) End of integration time step 1552, Model time= 4656.00 s ( 1.293 h) End of integration time step 1553, Model time= 4659.00 s ( 1.294 h) End of integration time step 1554, Model time= 4662.00 s ( 1.295 h) End of integration time step 1555, Model time= 4665.00 s ( 1.296 h) End of integration time step 1556, Model time= 4668.00 s ( 1.297 h) End of integration time step 1557, Model time= 4671.00 s ( 1.298 h) End of integration time step 1558, Model time= 4674.00 s ( 1.298 h) End of integration time step 1559, Model time= 4677.00 s ( 1.299 h) End of integration time step 1560, Model time= 4680.00 s ( 1.300 h) End of integration time step 1561, Model time= 4683.00 s ( 1.301 h) End of integration time step 1562, Model time= 4686.00 s ( 1.302 h) End of integration time step 1563, Model time= 4689.00 s ( 1.303 h) End of integration time step 1564, Model time= 4692.00 s ( 1.303 h) End of integration time step 1565, Model time= 4695.00 s ( 1.304 h) End of integration time step 1566, Model time= 4698.00 s ( 1.305 h) End of integration time step 1567, Model time= 4701.00 s ( 1.306 h) End of integration time step 1568, Model time= 4704.00 s ( 1.307 h) End of integration time step 1569, Model time= 4707.00 s ( 1.308 h) End of integration time step 1570, Model time= 4710.00 s ( 1.308 h) End of integration time step 1571, Model time= 4713.00 s ( 1.309 h) End of integration time step 1572, Model time= 4716.00 s ( 1.310 h) End of integration time step 1573, Model time= 4719.00 s ( 1.311 h) End of integration time step 1574, Model time= 4722.00 s ( 1.312 h) End of integration time step 1575, Model time= 4725.00 s ( 1.313 h) End of integration time step 1576, Model time= 4728.00 s ( 1.313 h) End of integration time step 1577, Model time= 4731.00 s ( 1.314 h) End of integration time step 1578, Model time= 4734.00 s ( 1.315 h) End of integration time step 1579, Model time= 4737.00 s ( 1.316 h) End of integration time step 1580, Model time= 4740.00 s ( 1.317 h) End of integration time step 1581, Model time= 4743.00 s ( 1.317 h) End of integration time step 1582, Model time= 4746.00 s ( 1.318 h) End of integration time step 1583, Model time= 4749.00 s ( 1.319 h) End of integration time step 1584, Model time= 4752.00 s ( 1.320 h) End of integration time step 1585, Model time= 4755.00 s ( 1.321 h) End of integration time step 1586, Model time= 4758.00 s ( 1.322 h) End of integration time step 1587, Model time= 4761.00 s ( 1.322 h) End of integration time step 1588, Model time= 4764.00 s ( 1.323 h) End of integration time step 1589, Model time= 4767.00 s ( 1.324 h) End of integration time step 1590, Model time= 4770.00 s ( 1.325 h) End of integration time step 1591, Model time= 4773.00 s ( 1.326 h) End of integration time step 1592, Model time= 4776.00 s ( 1.327 h) End of integration time step 1593, Model time= 4779.00 s ( 1.327 h) End of integration time step 1594, Model time= 4782.00 s ( 1.328 h) End of integration time step 1595, Model time= 4785.00 s ( 1.329 h) End of integration time step 1596, Model time= 4788.00 s ( 1.330 h) End of integration time step 1597, Model time= 4791.00 s ( 1.331 h) End of integration time step 1598, Model time= 4794.00 s ( 1.332 h) End of integration time step 1599, Model time= 4797.00 s ( 1.332 h) End of integration time step 1600, Model time= 4800.00 s ( 1.333 h) ucourant = 0.1533 at i= 346, j= 77, k= 37 vcourant = 0.1502 at i= 344, j= 322, k= 34 wcourant = 0.0399 at i= 341, j= 67, k= 21 uvcourant= 0.1030 at i= 345, j= 76, k= 36 refmax= 47.0719718933 at i= 340, j= 64, k= 1 vorlx= 0.226903846487E-02 at i= 339, j= 66, k= 10 vorux= 0.705492915586E-02 at i= 346, j= 73, k= 25 uvmax= 17.1193618774 at i= 246, j= 211, k= 7 uvmaxdr= 0.00000000000 at i= 246, j= 211, k= 7 umin = -1.54966461658 at i= 1, j= 1, k= 5 umax = 51.1118583679 at i= 346, j= 77, k= 37 vmin = -16.5174884796 at i= 137, j= 121, k= 7 vmax = 50.1071777344 at i= 340, j= 323, k= 34 wmin = -2.19417190552 at i= 337, j= 64, k= 21 wmax = 5.25093698502 at i= 341, j= 67, k= 21 ptprtmin= -8.32306194305 at i= 361, j= 4, k= 40 ptprtmax= 11.1935119629 at i= 1, j= 322, k= 36 pprtmin = -648.0327148 at i= 1, j= 322, k= 30 pprtmax = 393.6412964 at i= 362, j= 1, k= 30 qvmin= 0.633755178114E-06 at i= 362, j= 78, k= 51 qvmax= 0.102638397366E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.153081829194E-02 at i= 351, j= 50, k= 16 qrmin= 0.00000000000 at i= 6, j= 1, k= 1 qrmax= 0.165310222656E-02 at i= 341, j= 67, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.355161726475E-03 at i= 343, j= 73, k= 27 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.160137785133E-02 at i= 343, j= 73, k= 25 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.119960843585E-02 at i= 341, j= 68, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 8.77740764618 at i= 342, j= 68, k= 25 kmhmin= 0.00000000000 at i= 8, j= 6, k= 5 kmhmax= 295.450256348 at i= 342, j= 68, k= 25 kmvmin= 0.00000000000 at i= 8, j= 6, k= 5 kmvmax= 117.343818665 at i= 342, j= 68, k= 25 tsoilmin= 271.222106934 at i= 7, j= 322, k= 1 tsoilmax= 290.688964844 at i= 291, j= 84, k= 2 qsoilmin= 0.121796354651 at i= 242, j= 1, k= 1 qsoilmax= 0.364514529705 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 4800.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf004800_001001 Writing HDF4 data at time= 4800.000 into file ../arpsdata/ar2013041107.hdf004800_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 1601, model time= 4800.00 (s) End of integration time step 1601, Model time= 4803.00 s ( 1.334 h) End of integration time step 1602, Model time= 4806.00 s ( 1.335 h) End of integration time step 1603, Model time= 4809.00 s ( 1.336 h) End of integration time step 1604, Model time= 4812.00 s ( 1.337 h) End of integration time step 1605, Model time= 4815.00 s ( 1.337 h) End of integration time step 1606, Model time= 4818.00 s ( 1.338 h) End of integration time step 1607, Model time= 4821.00 s ( 1.339 h) End of integration time step 1608, Model time= 4824.00 s ( 1.340 h) End of integration time step 1609, Model time= 4827.00 s ( 1.341 h) End of integration time step 1610, Model time= 4830.00 s ( 1.342 h) End of integration time step 1611, Model time= 4833.00 s ( 1.343 h) End of integration time step 1612, Model time= 4836.00 s ( 1.343 h) End of integration time step 1613, Model time= 4839.00 s ( 1.344 h) End of integration time step 1614, Model time= 4842.00 s ( 1.345 h) End of integration time step 1615, Model time= 4845.00 s ( 1.346 h) End of integration time step 1616, Model time= 4848.00 s ( 1.347 h) End of integration time step 1617, Model time= 4851.00 s ( 1.348 h) End of integration time step 1618, Model time= 4854.00 s ( 1.348 h) End of integration time step 1619, Model time= 4857.00 s ( 1.349 h) End of integration time step 1620, Model time= 4860.00 s ( 1.350 h) End of integration time step 1621, Model time= 4863.00 s ( 1.351 h) End of integration time step 1622, Model time= 4866.00 s ( 1.352 h) End of integration time step 1623, Model time= 4869.00 s ( 1.353 h) End of integration time step 1624, Model time= 4872.00 s ( 1.353 h) End of integration time step 1625, Model time= 4875.00 s ( 1.354 h) End of integration time step 1626, Model time= 4878.00 s ( 1.355 h) End of integration time step 1627, Model time= 4881.00 s ( 1.356 h) End of integration time step 1628, Model time= 4884.00 s ( 1.357 h) End of integration time step 1629, Model time= 4887.00 s ( 1.358 h) End of integration time step 1630, Model time= 4890.00 s ( 1.358 h) End of integration time step 1631, Model time= 4893.00 s ( 1.359 h) End of integration time step 1632, Model time= 4896.00 s ( 1.360 h) End of integration time step 1633, Model time= 4899.00 s ( 1.361 h) End of integration time step 1634, Model time= 4902.00 s ( 1.362 h) End of integration time step 1635, Model time= 4905.00 s ( 1.363 h) End of integration time step 1636, Model time= 4908.00 s ( 1.363 h) End of integration time step 1637, Model time= 4911.00 s ( 1.364 h) End of integration time step 1638, Model time= 4914.00 s ( 1.365 h) End of integration time step 1639, Model time= 4917.00 s ( 1.366 h) End of integration time step 1640, Model time= 4920.00 s ( 1.367 h) End of integration time step 1641, Model time= 4923.00 s ( 1.368 h) End of integration time step 1642, Model time= 4926.00 s ( 1.368 h) End of integration time step 1643, Model time= 4929.00 s ( 1.369 h) End of integration time step 1644, Model time= 4932.00 s ( 1.370 h) End of integration time step 1645, Model time= 4935.00 s ( 1.371 h) End of integration time step 1646, Model time= 4938.00 s ( 1.372 h) End of integration time step 1647, Model time= 4941.00 s ( 1.373 h) End of integration time step 1648, Model time= 4944.00 s ( 1.373 h) End of integration time step 1649, Model time= 4947.00 s ( 1.374 h) End of integration time step 1650, Model time= 4950.00 s ( 1.375 h) End of integration time step 1651, Model time= 4953.00 s ( 1.376 h) End of integration time step 1652, Model time= 4956.00 s ( 1.377 h) End of integration time step 1653, Model time= 4959.00 s ( 1.378 h) End of integration time step 1654, Model time= 4962.00 s ( 1.378 h) End of integration time step 1655, Model time= 4965.00 s ( 1.379 h) End of integration time step 1656, Model time= 4968.00 s ( 1.380 h) End of integration time step 1657, Model time= 4971.00 s ( 1.381 h) End of integration time step 1658, Model time= 4974.00 s ( 1.382 h) End of integration time step 1659, Model time= 4977.00 s ( 1.383 h) End of integration time step 1660, Model time= 4980.00 s ( 1.383 h) End of integration time step 1661, Model time= 4983.00 s ( 1.384 h) End of integration time step 1662, Model time= 4986.00 s ( 1.385 h) End of integration time step 1663, Model time= 4989.00 s ( 1.386 h) End of integration time step 1664, Model time= 4992.00 s ( 1.387 h) End of integration time step 1665, Model time= 4995.00 s ( 1.388 h) End of integration time step 1666, Model time= 4998.00 s ( 1.388 h) End of integration time step 1667, Model time= 5001.00 s ( 1.389 h) End of integration time step 1668, Model time= 5004.00 s ( 1.390 h) End of integration time step 1669, Model time= 5007.00 s ( 1.391 h) End of integration time step 1670, Model time= 5010.00 s ( 1.392 h) End of integration time step 1671, Model time= 5013.00 s ( 1.393 h) End of integration time step 1672, Model time= 5016.00 s ( 1.393 h) End of integration time step 1673, Model time= 5019.00 s ( 1.394 h) End of integration time step 1674, Model time= 5022.00 s ( 1.395 h) End of integration time step 1675, Model time= 5025.00 s ( 1.396 h) End of integration time step 1676, Model time= 5028.00 s ( 1.397 h) End of integration time step 1677, Model time= 5031.00 s ( 1.398 h) End of integration time step 1678, Model time= 5034.00 s ( 1.398 h) End of integration time step 1679, Model time= 5037.00 s ( 1.399 h) End of integration time step 1680, Model time= 5040.00 s ( 1.400 h) End of integration time step 1681, Model time= 5043.00 s ( 1.401 h) End of integration time step 1682, Model time= 5046.00 s ( 1.402 h) End of integration time step 1683, Model time= 5049.00 s ( 1.403 h) End of integration time step 1684, Model time= 5052.00 s ( 1.403 h) End of integration time step 1685, Model time= 5055.00 s ( 1.404 h) End of integration time step 1686, Model time= 5058.00 s ( 1.405 h) End of integration time step 1687, Model time= 5061.00 s ( 1.406 h) End of integration time step 1688, Model time= 5064.00 s ( 1.407 h) End of integration time step 1689, Model time= 5067.00 s ( 1.408 h) End of integration time step 1690, Model time= 5070.00 s ( 1.408 h) End of integration time step 1691, Model time= 5073.00 s ( 1.409 h) End of integration time step 1692, Model time= 5076.00 s ( 1.410 h) End of integration time step 1693, Model time= 5079.00 s ( 1.411 h) End of integration time step 1694, Model time= 5082.00 s ( 1.412 h) End of integration time step 1695, Model time= 5085.00 s ( 1.413 h) End of integration time step 1696, Model time= 5088.00 s ( 1.413 h) End of integration time step 1697, Model time= 5091.00 s ( 1.414 h) End of integration time step 1698, Model time= 5094.00 s ( 1.415 h) End of integration time step 1699, Model time= 5097.00 s ( 1.416 h) End of integration time step 1700, Model time= 5100.00 s ( 1.417 h) ucourant = 0.1539 at i= 349, j= 84, k= 37 vcourant = 0.1504 at i= 348, j= 322, k= 34 wcourant = 0.0378 at i= 345, j= 73, k= 26 uvcourant= 0.1035 at i= 349, j= 84, k= 36 refmax= 46.7899017334 at i= 345, j= 72, k= 23 vorlx= 0.224612420425E-02 at i= 342, j= 70, k= 10 vorux= 0.641740858555E-02 at i= 347, j= 72, k= 25 uvmax= 17.0830726624 at i= 233, j= 226, k= 7 uvmaxdr= 0.00000000000 at i= 233, j= 226, k= 7 umin = -1.55556249619 at i= 1, j= 1, k= 5 umax = 51.2961845398 at i= 349, j= 84, k= 37 vmin = -16.2878780365 at i= 180, j= 121, k= 7 vmax = 50.2561531067 at i= 340, j= 323, k= 34 wmin = -1.87211918831 at i= 352, j= 87, k= 28 wmax = 5.00101280212 at i= 345, j= 73, k= 26 ptprtmin= -8.29109764099 at i= 361, j= 4, k= 40 ptprtmax= 11.2435913086 at i= 1, j= 322, k= 36 pprtmin = -648.7441406 at i= 1, j= 322, k= 30 pprtmax = 389.1386719 at i= 362, j= 1, k= 30 qvmin= 0.636347863292E-06 at i= 362, j= 78, k= 51 qvmax= 0.102398414165E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.130954105407E-02 at i= 353, j= 54, k= 17 qrmin= 0.00000000000 at i= 24, j= 1, k= 1 qrmax= 0.130075996276E-02 at i= 344, j= 71, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.426183512900E-03 at i= 345, j= 73, k= 27 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.152235536370E-02 at i= 344, j= 72, k= 24 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.102055608295E-02 at i= 344, j= 71, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 9.41103553772 at i= 345, j= 74, k= 27 kmhmin= 0.00000000000 at i= 8, j= 6, k= 5 kmhmax= 305.352600098 at i= 345, j= 74, k= 27 kmvmin= 0.00000000000 at i= 8, j= 6, k= 5 kmvmax= 121.313400269 at i= 345, j= 74, k= 27 tsoilmin= 271.065185547 at i= 7, j= 322, k= 1 tsoilmax= 290.640136719 at i= 291, j= 84, k= 2 qsoilmin= 0.121827647090 at i= 242, j= 1, k= 1 qsoilmax= 0.364511549473 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 5100.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf005100_001001 Writing HDF4 data at time= 5100.000 into file ../arpsdata/ar2013041107.hdf005100_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. External BC data file ../extdata/em2013041107.20130411.100000_0101 could not be found. Try another time. External BC data file ../extdata/em2013041107.20130411.110000_0101 could not be found. Try another time. External boundary data file has been found: ../extdata/em2013041107.20130411.120000_001001 READEXBC: reading in external boundary data from file ../extdata/em2013041107.20130411.120000_001001 HDFRDI: WARNING, variable clipxy not found in file. Value was reset to 0. HDFRDI: WARNING, variable clipz not found in file. Value was reset to 0. Max. and Min. of EXBC data variables: umin = 0.187321E+01, umax = 0.291531E+02 vmin = -0.132173E+02, vmax = 0.284409E+02 wmin = -0.154286E+00, wmax = 0.859181E-01 ptmin= 0.277700E+03, ptmax= 0.488046E+03 pmin = 0.519755E+04, pmax = 0.977135E+05 qvmin= 0.147122E-05, qvmax= 0.314122E-02 End of integration time step 1701, Model time= 5103.00 s ( 1.418 h) End of integration time step 1702, Model time= 5106.00 s ( 1.418 h) End of integration time step 1703, Model time= 5109.00 s ( 1.419 h) End of integration time step 1704, Model time= 5112.00 s ( 1.420 h) End of integration time step 1705, Model time= 5115.00 s ( 1.421 h) End of integration time step 1706, Model time= 5118.00 s ( 1.422 h) End of integration time step 1707, Model time= 5121.00 s ( 1.423 h) End of integration time step 1708, Model time= 5124.00 s ( 1.423 h) End of integration time step 1709, Model time= 5127.00 s ( 1.424 h) End of integration time step 1710, Model time= 5130.00 s ( 1.425 h) End of integration time step 1711, Model time= 5133.00 s ( 1.426 h) End of integration time step 1712, Model time= 5136.00 s ( 1.427 h) End of integration time step 1713, Model time= 5139.00 s ( 1.428 h) End of integration time step 1714, Model time= 5142.00 s ( 1.428 h) End of integration time step 1715, Model time= 5145.00 s ( 1.429 h) End of integration time step 1716, Model time= 5148.00 s ( 1.430 h) End of integration time step 1717, Model time= 5151.00 s ( 1.431 h) End of integration time step 1718, Model time= 5154.00 s ( 1.432 h) End of integration time step 1719, Model time= 5157.00 s ( 1.433 h) End of integration time step 1720, Model time= 5160.00 s ( 1.433 h) End of integration time step 1721, Model time= 5163.00 s ( 1.434 h) End of integration time step 1722, Model time= 5166.00 s ( 1.435 h) End of integration time step 1723, Model time= 5169.00 s ( 1.436 h) End of integration time step 1724, Model time= 5172.00 s ( 1.437 h) End of integration time step 1725, Model time= 5175.00 s ( 1.438 h) End of integration time step 1726, Model time= 5178.00 s ( 1.438 h) End of integration time step 1727, Model time= 5181.00 s ( 1.439 h) End of integration time step 1728, Model time= 5184.00 s ( 1.440 h) End of integration time step 1729, Model time= 5187.00 s ( 1.441 h) End of integration time step 1730, Model time= 5190.00 s ( 1.442 h) End of integration time step 1731, Model time= 5193.00 s ( 1.442 h) End of integration time step 1732, Model time= 5196.00 s ( 1.443 h) End of integration time step 1733, Model time= 5199.00 s ( 1.444 h) End of integration time step 1734, Model time= 5202.00 s ( 1.445 h) End of integration time step 1735, Model time= 5205.00 s ( 1.446 h) End of integration time step 1736, Model time= 5208.00 s ( 1.447 h) End of integration time step 1737, Model time= 5211.00 s ( 1.447 h) End of integration time step 1738, Model time= 5214.00 s ( 1.448 h) End of integration time step 1739, Model time= 5217.00 s ( 1.449 h) End of integration time step 1740, Model time= 5220.00 s ( 1.450 h) End of integration time step 1741, Model time= 5223.00 s ( 1.451 h) End of integration time step 1742, Model time= 5226.00 s ( 1.452 h) End of integration time step 1743, Model time= 5229.00 s ( 1.452 h) End of integration time step 1744, Model time= 5232.00 s ( 1.453 h) End of integration time step 1745, Model time= 5235.00 s ( 1.454 h) End of integration time step 1746, Model time= 5238.00 s ( 1.455 h) End of integration time step 1747, Model time= 5241.00 s ( 1.456 h) End of integration time step 1748, Model time= 5244.00 s ( 1.457 h) End of integration time step 1749, Model time= 5247.00 s ( 1.457 h) End of integration time step 1750, Model time= 5250.00 s ( 1.458 h) End of integration time step 1751, Model time= 5253.00 s ( 1.459 h) End of integration time step 1752, Model time= 5256.00 s ( 1.460 h) End of integration time step 1753, Model time= 5259.00 s ( 1.461 h) End of integration time step 1754, Model time= 5262.00 s ( 1.462 h) End of integration time step 1755, Model time= 5265.00 s ( 1.462 h) End of integration time step 1756, Model time= 5268.00 s ( 1.463 h) End of integration time step 1757, Model time= 5271.00 s ( 1.464 h) End of integration time step 1758, Model time= 5274.00 s ( 1.465 h) End of integration time step 1759, Model time= 5277.00 s ( 1.466 h) End of integration time step 1760, Model time= 5280.00 s ( 1.467 h) End of integration time step 1761, Model time= 5283.00 s ( 1.468 h) End of integration time step 1762, Model time= 5286.00 s ( 1.468 h) End of integration time step 1763, Model time= 5289.00 s ( 1.469 h) End of integration time step 1764, Model time= 5292.00 s ( 1.470 h) End of integration time step 1765, Model time= 5295.00 s ( 1.471 h) End of integration time step 1766, Model time= 5298.00 s ( 1.472 h) End of integration time step 1767, Model time= 5301.00 s ( 1.473 h) End of integration time step 1768, Model time= 5304.00 s ( 1.473 h) End of integration time step 1769, Model time= 5307.00 s ( 1.474 h) End of integration time step 1770, Model time= 5310.00 s ( 1.475 h) End of integration time step 1771, Model time= 5313.00 s ( 1.476 h) End of integration time step 1772, Model time= 5316.00 s ( 1.477 h) End of integration time step 1773, Model time= 5319.00 s ( 1.478 h) End of integration time step 1774, Model time= 5322.00 s ( 1.478 h) End of integration time step 1775, Model time= 5325.00 s ( 1.479 h) End of integration time step 1776, Model time= 5328.00 s ( 1.480 h) End of integration time step 1777, Model time= 5331.00 s ( 1.481 h) End of integration time step 1778, Model time= 5334.00 s ( 1.482 h) End of integration time step 1779, Model time= 5337.00 s ( 1.483 h) End of integration time step 1780, Model time= 5340.00 s ( 1.483 h) End of integration time step 1781, Model time= 5343.00 s ( 1.484 h) End of integration time step 1782, Model time= 5346.00 s ( 1.485 h) End of integration time step 1783, Model time= 5349.00 s ( 1.486 h) End of integration time step 1784, Model time= 5352.00 s ( 1.487 h) End of integration time step 1785, Model time= 5355.00 s ( 1.488 h) End of integration time step 1786, Model time= 5358.00 s ( 1.488 h) End of integration time step 1787, Model time= 5361.00 s ( 1.489 h) End of integration time step 1788, Model time= 5364.00 s ( 1.490 h) End of integration time step 1789, Model time= 5367.00 s ( 1.491 h) End of integration time step 1790, Model time= 5370.00 s ( 1.492 h) End of integration time step 1791, Model time= 5373.00 s ( 1.493 h) End of integration time step 1792, Model time= 5376.00 s ( 1.493 h) End of integration time step 1793, Model time= 5379.00 s ( 1.494 h) End of integration time step 1794, Model time= 5382.00 s ( 1.495 h) End of integration time step 1795, Model time= 5385.00 s ( 1.496 h) End of integration time step 1796, Model time= 5388.00 s ( 1.497 h) End of integration time step 1797, Model time= 5391.00 s ( 1.498 h) End of integration time step 1798, Model time= 5394.00 s ( 1.498 h) End of integration time step 1799, Model time= 5397.00 s ( 1.499 h) End of integration time step 1800, Model time= 5400.00 s ( 1.500 h) ucourant = 0.1543 at i= 351, j= 83, k= 37 vcourant = 0.1504 at i= 346, j= 322, k= 34 wcourant = 0.0415 at i= 350, j= 81, k= 27 uvcourant= 0.1045 at i= 350, j= 83, k= 36 refmax= 47.3139381409 at i= 349, j= 79, k= 25 vorlx= 0.193627015688E-02 at i= 343, j= 68, k= 10 vorux= 0.750356493518E-02 at i= 352, j= 81, k= 27 uvmax= 17.1653652191 at i= 240, j= 229, k= 7 uvmaxdr= 0.00000000000 at i= 240, j= 229, k= 7 umin = -1.44180715084 at i= 1, j= 1, k= 5 umax = 51.4503097534 at i= 351, j= 83, k= 37 vmin = -16.2206707001 at i= 181, j= 114, k= 7 vmax = 50.1642951965 at i= 341, j= 323, k= 34 wmin = -2.72454261780 at i= 352, j= 85, k= 31 wmax = 5.43028736115 at i= 350, j= 81, k= 27 ptprtmin= -8.28777790070 at i= 361, j= 4, k= 40 ptprtmax= 11.1787891388 at i= 1, j= 322, k= 36 pprtmin = -647.3378906 at i= 1, j= 322, k= 29 pprtmax = 387.4825439 at i= 362, j= 1, k= 30 qvmin= 0.642607631107E-06 at i= 362, j= 78, k= 51 qvmax= 0.101958280429E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.120038772002E-02 at i= 345, j= 77, k= 18 qrmin= 0.00000000000 at i= 17, j= 1, k= 1 qrmax= 0.116320361849E-02 at i= 346, j= 74, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.597164500505E-03 at i= 350, j= 81, k= 29 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.180291850120E-02 at i= 349, j= 79, k= 25 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.998996314593E-03 at i= 347, j= 76, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 9.15528392792 at i= 349, j= 83, k= 29 kmhmin= 0.00000000000 at i= 9, j= 6, k= 5 kmhmax= 301.944702148 at i= 349, j= 82, k= 29 kmvmin= 0.00000000000 at i= 9, j= 6, k= 5 kmvmax= 120.168685913 at i= 349, j= 82, k= 29 tsoilmin= 270.922912598 at i= 7, j= 322, k= 1 tsoilmax= 290.591308594 at i= 291, j= 84, k= 2 qsoilmin= 0.121858939528 at i= 242, j= 1, k= 1 qsoilmax= 0.364508569241 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 5400.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf005400_001001 Writing HDF4 data at time= 5400.000 into file ../arpsdata/ar2013041107.hdf005400_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 1801, model time= 5400.00 (s) End of integration time step 1801, Model time= 5403.00 s ( 1.501 h) End of integration time step 1802, Model time= 5406.00 s ( 1.502 h) End of integration time step 1803, Model time= 5409.00 s ( 1.503 h) End of integration time step 1804, Model time= 5412.00 s ( 1.503 h) End of integration time step 1805, Model time= 5415.00 s ( 1.504 h) End of integration time step 1806, Model time= 5418.00 s ( 1.505 h) End of integration time step 1807, Model time= 5421.00 s ( 1.506 h) End of integration time step 1808, Model time= 5424.00 s ( 1.507 h) End of integration time step 1809, Model time= 5427.00 s ( 1.508 h) End of integration time step 1810, Model time= 5430.00 s ( 1.508 h) End of integration time step 1811, Model time= 5433.00 s ( 1.509 h) End of integration time step 1812, Model time= 5436.00 s ( 1.510 h) End of integration time step 1813, Model time= 5439.00 s ( 1.511 h) End of integration time step 1814, Model time= 5442.00 s ( 1.512 h) End of integration time step 1815, Model time= 5445.00 s ( 1.513 h) End of integration time step 1816, Model time= 5448.00 s ( 1.513 h) End of integration time step 1817, Model time= 5451.00 s ( 1.514 h) End of integration time step 1818, Model time= 5454.00 s ( 1.515 h) End of integration time step 1819, Model time= 5457.00 s ( 1.516 h) End of integration time step 1820, Model time= 5460.00 s ( 1.517 h) End of integration time step 1821, Model time= 5463.00 s ( 1.518 h) End of integration time step 1822, Model time= 5466.00 s ( 1.518 h) End of integration time step 1823, Model time= 5469.00 s ( 1.519 h) End of integration time step 1824, Model time= 5472.00 s ( 1.520 h) End of integration time step 1825, Model time= 5475.00 s ( 1.521 h) End of integration time step 1826, Model time= 5478.00 s ( 1.522 h) End of integration time step 1827, Model time= 5481.00 s ( 1.523 h) End of integration time step 1828, Model time= 5484.00 s ( 1.523 h) End of integration time step 1829, Model time= 5487.00 s ( 1.524 h) End of integration time step 1830, Model time= 5490.00 s ( 1.525 h) End of integration time step 1831, Model time= 5493.00 s ( 1.526 h) End of integration time step 1832, Model time= 5496.00 s ( 1.527 h) End of integration time step 1833, Model time= 5499.00 s ( 1.528 h) End of integration time step 1834, Model time= 5502.00 s ( 1.528 h) End of integration time step 1835, Model time= 5505.00 s ( 1.529 h) End of integration time step 1836, Model time= 5508.00 s ( 1.530 h) End of integration time step 1837, Model time= 5511.00 s ( 1.531 h) End of integration time step 1838, Model time= 5514.00 s ( 1.532 h) End of integration time step 1839, Model time= 5517.00 s ( 1.533 h) End of integration time step 1840, Model time= 5520.00 s ( 1.533 h) End of integration time step 1841, Model time= 5523.00 s ( 1.534 h) End of integration time step 1842, Model time= 5526.00 s ( 1.535 h) End of integration time step 1843, Model time= 5529.00 s ( 1.536 h) End of integration time step 1844, Model time= 5532.00 s ( 1.537 h) End of integration time step 1845, Model time= 5535.00 s ( 1.538 h) End of integration time step 1846, Model time= 5538.00 s ( 1.538 h) End of integration time step 1847, Model time= 5541.00 s ( 1.539 h) End of integration time step 1848, Model time= 5544.00 s ( 1.540 h) End of integration time step 1849, Model time= 5547.00 s ( 1.541 h) End of integration time step 1850, Model time= 5550.00 s ( 1.542 h) End of integration time step 1851, Model time= 5553.00 s ( 1.543 h) End of integration time step 1852, Model time= 5556.00 s ( 1.543 h) End of integration time step 1853, Model time= 5559.00 s ( 1.544 h) End of integration time step 1854, Model time= 5562.00 s ( 1.545 h) End of integration time step 1855, Model time= 5565.00 s ( 1.546 h) End of integration time step 1856, Model time= 5568.00 s ( 1.547 h) End of integration time step 1857, Model time= 5571.00 s ( 1.548 h) End of integration time step 1858, Model time= 5574.00 s ( 1.548 h) End of integration time step 1859, Model time= 5577.00 s ( 1.549 h) End of integration time step 1860, Model time= 5580.00 s ( 1.550 h) End of integration time step 1861, Model time= 5583.00 s ( 1.551 h) End of integration time step 1862, Model time= 5586.00 s ( 1.552 h) End of integration time step 1863, Model time= 5589.00 s ( 1.553 h) End of integration time step 1864, Model time= 5592.00 s ( 1.553 h) End of integration time step 1865, Model time= 5595.00 s ( 1.554 h) End of integration time step 1866, Model time= 5598.00 s ( 1.555 h) End of integration time step 1867, Model time= 5601.00 s ( 1.556 h) End of integration time step 1868, Model time= 5604.00 s ( 1.557 h) End of integration time step 1869, Model time= 5607.00 s ( 1.558 h) End of integration time step 1870, Model time= 5610.00 s ( 1.558 h) End of integration time step 1871, Model time= 5613.00 s ( 1.559 h) End of integration time step 1872, Model time= 5616.00 s ( 1.560 h) End of integration time step 1873, Model time= 5619.00 s ( 1.561 h) End of integration time step 1874, Model time= 5622.00 s ( 1.562 h) End of integration time step 1875, Model time= 5625.00 s ( 1.563 h) End of integration time step 1876, Model time= 5628.00 s ( 1.563 h) End of integration time step 1877, Model time= 5631.00 s ( 1.564 h) End of integration time step 1878, Model time= 5634.00 s ( 1.565 h) End of integration time step 1879, Model time= 5637.00 s ( 1.566 h) End of integration time step 1880, Model time= 5640.00 s ( 1.567 h) End of integration time step 1881, Model time= 5643.00 s ( 1.567 h) End of integration time step 1882, Model time= 5646.00 s ( 1.568 h) End of integration time step 1883, Model time= 5649.00 s ( 1.569 h) End of integration time step 1884, Model time= 5652.00 s ( 1.570 h) End of integration time step 1885, Model time= 5655.00 s ( 1.571 h) End of integration time step 1886, Model time= 5658.00 s ( 1.572 h) End of integration time step 1887, Model time= 5661.00 s ( 1.572 h) End of integration time step 1888, Model time= 5664.00 s ( 1.573 h) End of integration time step 1889, Model time= 5667.00 s ( 1.574 h) End of integration time step 1890, Model time= 5670.00 s ( 1.575 h) End of integration time step 1891, Model time= 5673.00 s ( 1.576 h) End of integration time step 1892, Model time= 5676.00 s ( 1.577 h) End of integration time step 1893, Model time= 5679.00 s ( 1.577 h) End of integration time step 1894, Model time= 5682.00 s ( 1.578 h) End of integration time step 1895, Model time= 5685.00 s ( 1.579 h) End of integration time step 1896, Model time= 5688.00 s ( 1.580 h) End of integration time step 1897, Model time= 5691.00 s ( 1.581 h) End of integration time step 1898, Model time= 5694.00 s ( 1.582 h) End of integration time step 1899, Model time= 5697.00 s ( 1.582 h) End of integration time step 1900, Model time= 5700.00 s ( 1.583 h) ucourant = 0.1517 at i= 352, j= 94, k= 37 vcourant = 0.1502 at i= 348, j= 322, k= 34 wcourant = 0.0426 at i= 350, j= 75, k= 21 uvcourant= 0.1032 at i= 351, j= 94, k= 36 refmax= 46.7476615906 at i= 354, j= 88, k= 25 vorlx= 0.196548784152E-02 at i= 345, j= 72, k= 10 vorux= 0.371866137721E-02 at i= 351, j= 81, k= 19 uvmax= 17.1787071228 at i= 243, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 243, j= 228, k= 7 umin = -1.32805180550 at i= 1, j= 1, k= 5 umax = 50.5638542175 at i= 352, j= 94, k= 37 vmin = -16.2326698303 at i= 154, j= 123, k= 7 vmax = 50.0745887756 at i= 342, j= 323, k= 34 wmin = -1.87034046650 at i= 357, j= 94, k= 32 wmax = 5.56998872757 at i= 350, j= 75, k= 21 ptprtmin= -8.30152797699 at i= 361, j= 4, k= 40 ptprtmax= 11.1139869690 at i= 1, j= 322, k= 36 pprtmin = -646.4921875 at i= 1, j= 322, k= 29 pprtmax = 385.8263855 at i= 362, j= 1, k= 30 qvmin= 0.648867398922E-06 at i= 362, j= 78, k= 51 qvmax= 0.101518137380E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.123281567357E-02 at i= 348, j= 80, k= 18 qrmin= 0.00000000000 at i= 17, j= 1, k= 1 qrmax= 0.119850214105E-02 at i= 349, j= 79, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.334624695824E-03 at i= 352, j= 92, k= 29 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.183233874850E-02 at i= 354, j= 89, k= 26 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.878983526491E-03 at i= 349, j= 80, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 6.96589756012 at i= 352, j= 95, k= 28 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 263.422088623 at i= 351, j= 94, k= 28 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 104.888298035 at i= 351, j= 94, k= 28 tsoilmin= 270.801696777 at i= 7, j= 322, k= 1 tsoilmax= 290.542480469 at i= 291, j= 84, k= 2 qsoilmin= 0.121890231967 at i= 242, j= 1, k= 1 qsoilmax= 0.364505589008 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.142718362622E-02 at i= 349, j= 36 Output files for forecast time = 5700.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf005700_001001 Writing HDF4 data at time= 5700.000 into file ../arpsdata/ar2013041107.hdf005700_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 1901, Model time= 5703.00 s ( 1.584 h) End of integration time step 1902, Model time= 5706.00 s ( 1.585 h) End of integration time step 1903, Model time= 5709.00 s ( 1.586 h) End of integration time step 1904, Model time= 5712.00 s ( 1.587 h) End of integration time step 1905, Model time= 5715.00 s ( 1.588 h) End of integration time step 1906, Model time= 5718.00 s ( 1.588 h) End of integration time step 1907, Model time= 5721.00 s ( 1.589 h) End of integration time step 1908, Model time= 5724.00 s ( 1.590 h) End of integration time step 1909, Model time= 5727.00 s ( 1.591 h) End of integration time step 1910, Model time= 5730.00 s ( 1.592 h) End of integration time step 1911, Model time= 5733.00 s ( 1.593 h) End of integration time step 1912, Model time= 5736.00 s ( 1.593 h) End of integration time step 1913, Model time= 5739.00 s ( 1.594 h) End of integration time step 1914, Model time= 5742.00 s ( 1.595 h) End of integration time step 1915, Model time= 5745.00 s ( 1.596 h) End of integration time step 1916, Model time= 5748.00 s ( 1.597 h) End of integration time step 1917, Model time= 5751.00 s ( 1.598 h) End of integration time step 1918, Model time= 5754.00 s ( 1.598 h) End of integration time step 1919, Model time= 5757.00 s ( 1.599 h) End of integration time step 1920, Model time= 5760.00 s ( 1.600 h) End of integration time step 1921, Model time= 5763.00 s ( 1.601 h) End of integration time step 1922, Model time= 5766.00 s ( 1.602 h) End of integration time step 1923, Model time= 5769.00 s ( 1.603 h) End of integration time step 1924, Model time= 5772.00 s ( 1.603 h) End of integration time step 1925, Model time= 5775.00 s ( 1.604 h) End of integration time step 1926, Model time= 5778.00 s ( 1.605 h) End of integration time step 1927, Model time= 5781.00 s ( 1.606 h) End of integration time step 1928, Model time= 5784.00 s ( 1.607 h) End of integration time step 1929, Model time= 5787.00 s ( 1.608 h) End of integration time step 1930, Model time= 5790.00 s ( 1.608 h) End of integration time step 1931, Model time= 5793.00 s ( 1.609 h) End of integration time step 1932, Model time= 5796.00 s ( 1.610 h) End of integration time step 1933, Model time= 5799.00 s ( 1.611 h) End of integration time step 1934, Model time= 5802.00 s ( 1.612 h) End of integration time step 1935, Model time= 5805.00 s ( 1.613 h) End of integration time step 1936, Model time= 5808.00 s ( 1.613 h) End of integration time step 1937, Model time= 5811.00 s ( 1.614 h) End of integration time step 1938, Model time= 5814.00 s ( 1.615 h) End of integration time step 1939, Model time= 5817.00 s ( 1.616 h) End of integration time step 1940, Model time= 5820.00 s ( 1.617 h) End of integration time step 1941, Model time= 5823.00 s ( 1.618 h) End of integration time step 1942, Model time= 5826.00 s ( 1.618 h) End of integration time step 1943, Model time= 5829.00 s ( 1.619 h) End of integration time step 1944, Model time= 5832.00 s ( 1.620 h) End of integration time step 1945, Model time= 5835.00 s ( 1.621 h) End of integration time step 1946, Model time= 5838.00 s ( 1.622 h) End of integration time step 1947, Model time= 5841.00 s ( 1.623 h) End of integration time step 1948, Model time= 5844.00 s ( 1.623 h) End of integration time step 1949, Model time= 5847.00 s ( 1.624 h) End of integration time step 1950, Model time= 5850.00 s ( 1.625 h) End of integration time step 1951, Model time= 5853.00 s ( 1.626 h) End of integration time step 1952, Model time= 5856.00 s ( 1.627 h) End of integration time step 1953, Model time= 5859.00 s ( 1.628 h) End of integration time step 1954, Model time= 5862.00 s ( 1.628 h) End of integration time step 1955, Model time= 5865.00 s ( 1.629 h) End of integration time step 1956, Model time= 5868.00 s ( 1.630 h) End of integration time step 1957, Model time= 5871.00 s ( 1.631 h) End of integration time step 1958, Model time= 5874.00 s ( 1.632 h) End of integration time step 1959, Model time= 5877.00 s ( 1.633 h) End of integration time step 1960, Model time= 5880.00 s ( 1.633 h) End of integration time step 1961, Model time= 5883.00 s ( 1.634 h) End of integration time step 1962, Model time= 5886.00 s ( 1.635 h) End of integration time step 1963, Model time= 5889.00 s ( 1.636 h) End of integration time step 1964, Model time= 5892.00 s ( 1.637 h) End of integration time step 1965, Model time= 5895.00 s ( 1.638 h) End of integration time step 1966, Model time= 5898.00 s ( 1.638 h) End of integration time step 1967, Model time= 5901.00 s ( 1.639 h) End of integration time step 1968, Model time= 5904.00 s ( 1.640 h) End of integration time step 1969, Model time= 5907.00 s ( 1.641 h) End of integration time step 1970, Model time= 5910.00 s ( 1.642 h) End of integration time step 1971, Model time= 5913.00 s ( 1.643 h) End of integration time step 1972, Model time= 5916.00 s ( 1.643 h) End of integration time step 1973, Model time= 5919.00 s ( 1.644 h) End of integration time step 1974, Model time= 5922.00 s ( 1.645 h) End of integration time step 1975, Model time= 5925.00 s ( 1.646 h) End of integration time step 1976, Model time= 5928.00 s ( 1.647 h) End of integration time step 1977, Model time= 5931.00 s ( 1.648 h) End of integration time step 1978, Model time= 5934.00 s ( 1.648 h) End of integration time step 1979, Model time= 5937.00 s ( 1.649 h) End of integration time step 1980, Model time= 5940.00 s ( 1.650 h) End of integration time step 1981, Model time= 5943.00 s ( 1.651 h) End of integration time step 1982, Model time= 5946.00 s ( 1.652 h) End of integration time step 1983, Model time= 5949.00 s ( 1.653 h) End of integration time step 1984, Model time= 5952.00 s ( 1.653 h) End of integration time step 1985, Model time= 5955.00 s ( 1.654 h) End of integration time step 1986, Model time= 5958.00 s ( 1.655 h) End of integration time step 1987, Model time= 5961.00 s ( 1.656 h) End of integration time step 1988, Model time= 5964.00 s ( 1.657 h) End of integration time step 1989, Model time= 5967.00 s ( 1.658 h) End of integration time step 1990, Model time= 5970.00 s ( 1.658 h) End of integration time step 1991, Model time= 5973.00 s ( 1.659 h) End of integration time step 1992, Model time= 5976.00 s ( 1.660 h) End of integration time step 1993, Model time= 5979.00 s ( 1.661 h) End of integration time step 1994, Model time= 5982.00 s ( 1.662 h) End of integration time step 1995, Model time= 5985.00 s ( 1.663 h) End of integration time step 1996, Model time= 5988.00 s ( 1.663 h) End of integration time step 1997, Model time= 5991.00 s ( 1.664 h) End of integration time step 1998, Model time= 5994.00 s ( 1.665 h) End of integration time step 1999, Model time= 5997.00 s ( 1.666 h) End of integration time step 2000, Model time= 6000.00 s ( 1.667 h) ucourant = 0.1504 at i= 351, j= 92, k= 37 vcourant = 0.1501 at i= 350, j= 322, k= 34 wcourant = 0.0488 at i= 351, j= 85, k= 20 uvcourant= 0.1025 at i= 350, j= 99, k= 36 refmax= 45.9520339966 at i= 354, j= 86, k= 23 vorlx= 0.192741106730E-02 at i= 348, j= 76, k= 10 vorux= 0.344533636235E-02 at i= 353, j= 84, k= 19 uvmax= 17.1734142303 at i= 250, j= 231, k= 7 uvmaxdr= 0.00000000000 at i= 250, j= 231, k= 7 umin = -1.23213887215 at i= 14, j= 13, k= 7 umax = 50.1256141663 at i= 351, j= 92, k= 37 vmin = -16.3079051971 at i= 156, j= 118, k= 7 vmax = 50.0163497925 at i= 350, j= 322, k= 34 wmin = -1.85909318924 at i= 349, j= 79, k= 21 wmax = 6.34949111938 at i= 351, j= 85, k= 21 ptprtmin= -8.31727313995 at i= 361, j= 4, k= 40 ptprtmax= 11.0491838455 at i= 1, j= 322, k= 36 pprtmin = -645.6464844 at i= 1, j= 322, k= 29 pprtmax = 384.1702576 at i= 362, j= 1, k= 30 qvmin= 0.655127109894E-06 at i= 362, j= 78, k= 51 qvmax= 0.101078003645E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.129127514083E-02 at i= 351, j= 84, k= 19 qrmin= 0.00000000000 at i= 24, j= 1, k= 1 qrmax= 0.125719420612E-02 at i= 351, j= 83, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.280373089481E-03 at i= 351, j= 85, k= 21 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.148112711031E-02 at i= 354, j= 86, k= 24 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.100520870183E-02 at i= 352, j= 84, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 3.69566917419 at i= 351, j= 87, k= 19 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 191.980468750 at i= 351, j= 87, k= 19 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 74.2877197266 at i= 351, j= 87, k= 19 tsoilmin= 270.692382813 at i= 7, j= 322, k= 1 tsoilmax= 290.493652344 at i= 291, j= 84, k= 2 qsoilmin= 0.121921524405 at i= 242, j= 1, k= 1 qsoilmax= 0.364502608776 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 6000.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf006000_001001 Writing HDF4 data at time= 6000.000 into file ../arpsdata/ar2013041107.hdf006000_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 2001, model time= 6000.00 (s) End of integration time step 2001, Model time= 6003.00 s ( 1.668 h) End of integration time step 2002, Model time= 6006.00 s ( 1.668 h) End of integration time step 2003, Model time= 6009.00 s ( 1.669 h) End of integration time step 2004, Model time= 6012.00 s ( 1.670 h) End of integration time step 2005, Model time= 6015.00 s ( 1.671 h) End of integration time step 2006, Model time= 6018.00 s ( 1.672 h) End of integration time step 2007, Model time= 6021.00 s ( 1.673 h) End of integration time step 2008, Model time= 6024.00 s ( 1.673 h) End of integration time step 2009, Model time= 6027.00 s ( 1.674 h) End of integration time step 2010, Model time= 6030.00 s ( 1.675 h) End of integration time step 2011, Model time= 6033.00 s ( 1.676 h) End of integration time step 2012, Model time= 6036.00 s ( 1.677 h) End of integration time step 2013, Model time= 6039.00 s ( 1.678 h) End of integration time step 2014, Model time= 6042.00 s ( 1.678 h) End of integration time step 2015, Model time= 6045.00 s ( 1.679 h) End of integration time step 2016, Model time= 6048.00 s ( 1.680 h) End of integration time step 2017, Model time= 6051.00 s ( 1.681 h) End of integration time step 2018, Model time= 6054.00 s ( 1.682 h) End of integration time step 2019, Model time= 6057.00 s ( 1.683 h) End of integration time step 2020, Model time= 6060.00 s ( 1.683 h) End of integration time step 2021, Model time= 6063.00 s ( 1.684 h) End of integration time step 2022, Model time= 6066.00 s ( 1.685 h) End of integration time step 2023, Model time= 6069.00 s ( 1.686 h) End of integration time step 2024, Model time= 6072.00 s ( 1.687 h) End of integration time step 2025, Model time= 6075.00 s ( 1.688 h) End of integration time step 2026, Model time= 6078.00 s ( 1.688 h) End of integration time step 2027, Model time= 6081.00 s ( 1.689 h) End of integration time step 2028, Model time= 6084.00 s ( 1.690 h) End of integration time step 2029, Model time= 6087.00 s ( 1.691 h) End of integration time step 2030, Model time= 6090.00 s ( 1.692 h) End of integration time step 2031, Model time= 6093.00 s ( 1.692 h) End of integration time step 2032, Model time= 6096.00 s ( 1.693 h) End of integration time step 2033, Model time= 6099.00 s ( 1.694 h) End of integration time step 2034, Model time= 6102.00 s ( 1.695 h) End of integration time step 2035, Model time= 6105.00 s ( 1.696 h) End of integration time step 2036, Model time= 6108.00 s ( 1.697 h) End of integration time step 2037, Model time= 6111.00 s ( 1.697 h) End of integration time step 2038, Model time= 6114.00 s ( 1.698 h) End of integration time step 2039, Model time= 6117.00 s ( 1.699 h) End of integration time step 2040, Model time= 6120.00 s ( 1.700 h) End of integration time step 2041, Model time= 6123.00 s ( 1.701 h) End of integration time step 2042, Model time= 6126.00 s ( 1.702 h) End of integration time step 2043, Model time= 6129.00 s ( 1.702 h) End of integration time step 2044, Model time= 6132.00 s ( 1.703 h) End of integration time step 2045, Model time= 6135.00 s ( 1.704 h) End of integration time step 2046, Model time= 6138.00 s ( 1.705 h) End of integration time step 2047, Model time= 6141.00 s ( 1.706 h) End of integration time step 2048, Model time= 6144.00 s ( 1.707 h) End of integration time step 2049, Model time= 6147.00 s ( 1.708 h) End of integration time step 2050, Model time= 6150.00 s ( 1.708 h) End of integration time step 2051, Model time= 6153.00 s ( 1.709 h) End of integration time step 2052, Model time= 6156.00 s ( 1.710 h) End of integration time step 2053, Model time= 6159.00 s ( 1.711 h) End of integration time step 2054, Model time= 6162.00 s ( 1.712 h) End of integration time step 2055, Model time= 6165.00 s ( 1.713 h) End of integration time step 2056, Model time= 6168.00 s ( 1.713 h) End of integration time step 2057, Model time= 6171.00 s ( 1.714 h) End of integration time step 2058, Model time= 6174.00 s ( 1.715 h) End of integration time step 2059, Model time= 6177.00 s ( 1.716 h) End of integration time step 2060, Model time= 6180.00 s ( 1.717 h) End of integration time step 2061, Model time= 6183.00 s ( 1.718 h) End of integration time step 2062, Model time= 6186.00 s ( 1.718 h) End of integration time step 2063, Model time= 6189.00 s ( 1.719 h) End of integration time step 2064, Model time= 6192.00 s ( 1.720 h) End of integration time step 2065, Model time= 6195.00 s ( 1.721 h) End of integration time step 2066, Model time= 6198.00 s ( 1.722 h) End of integration time step 2067, Model time= 6201.00 s ( 1.723 h) End of integration time step 2068, Model time= 6204.00 s ( 1.723 h) End of integration time step 2069, Model time= 6207.00 s ( 1.724 h) End of integration time step 2070, Model time= 6210.00 s ( 1.725 h) End of integration time step 2071, Model time= 6213.00 s ( 1.726 h) End of integration time step 2072, Model time= 6216.00 s ( 1.727 h) End of integration time step 2073, Model time= 6219.00 s ( 1.728 h) End of integration time step 2074, Model time= 6222.00 s ( 1.728 h) End of integration time step 2075, Model time= 6225.00 s ( 1.729 h) End of integration time step 2076, Model time= 6228.00 s ( 1.730 h) End of integration time step 2077, Model time= 6231.00 s ( 1.731 h) End of integration time step 2078, Model time= 6234.00 s ( 1.732 h) End of integration time step 2079, Model time= 6237.00 s ( 1.733 h) End of integration time step 2080, Model time= 6240.00 s ( 1.733 h) End of integration time step 2081, Model time= 6243.00 s ( 1.734 h) End of integration time step 2082, Model time= 6246.00 s ( 1.735 h) End of integration time step 2083, Model time= 6249.00 s ( 1.736 h) End of integration time step 2084, Model time= 6252.00 s ( 1.737 h) End of integration time step 2085, Model time= 6255.00 s ( 1.738 h) End of integration time step 2086, Model time= 6258.00 s ( 1.738 h) End of integration time step 2087, Model time= 6261.00 s ( 1.739 h) End of integration time step 2088, Model time= 6264.00 s ( 1.740 h) End of integration time step 2089, Model time= 6267.00 s ( 1.741 h) End of integration time step 2090, Model time= 6270.00 s ( 1.742 h) End of integration time step 2091, Model time= 6273.00 s ( 1.743 h) End of integration time step 2092, Model time= 6276.00 s ( 1.743 h) End of integration time step 2093, Model time= 6279.00 s ( 1.744 h) End of integration time step 2094, Model time= 6282.00 s ( 1.745 h) End of integration time step 2095, Model time= 6285.00 s ( 1.746 h) End of integration time step 2096, Model time= 6288.00 s ( 1.747 h) End of integration time step 2097, Model time= 6291.00 s ( 1.748 h) End of integration time step 2098, Model time= 6294.00 s ( 1.748 h) End of integration time step 2099, Model time= 6297.00 s ( 1.749 h) End of integration time step 2100, Model time= 6300.00 s ( 1.750 h) ucourant = 0.1496 at i= 350, j= 95, k= 37 vcourant = 0.1499 at i= 354, j= 322, k= 34 wcourant = 0.0279 at i= 353, j= 89, k= 20 uvcourant= 0.1022 at i= 350, j= 97, k= 36 refmax= 44.9296646118 at i= 354, j= 86, k= 9 vorlx= 0.210984842852E-02 at i= 350, j= 79, k= 10 vorux= 0.222464557737E-02 at i= 355, j= 89, k= 18 uvmax= 17.1446571350 at i= 251, j= 230, k= 7 uvmaxdr= 0.00000000000 at i= 251, j= 230, k= 7 umin = -1.19400417805 at i= 14, j= 13, k= 7 umax = 49.8789062500 at i= 350, j= 95, k= 37 vmin = -16.3646526337 at i= 161, j= 66, k= 7 vmax = 49.9714622498 at i= 354, j= 322, k= 34 wmin = -1.50919127464 at i= 356, j= 94, k= 26 wmax = 3.53871631622 at i= 353, j= 89, k= 20 ptprtmin= -8.33557415009 at i= 361, j= 4, k= 40 ptprtmax= 10.9991960526 at i= 1, j= 322, k= 37 pprtmin = -644.8007813 at i= 1, j= 322, k= 29 pprtmax = 382.5140991 at i= 362, j= 1, k= 30 qvmin= 0.661386877709E-06 at i= 362, j= 78, k= 51 qvmax= 0.100637869909E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.111267808825E-02 at i= 351, j= 40, k= 17 qrmin= 0.00000000000 at i= 26, j= 1, k= 1 qrmax= 0.127461017109E-02 at i= 354, j= 86, k= 9 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.168549449882E-03 at i= 353, j= 90, k= 21 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.104171689600E-02 at i= 356, j= 92, k= 23 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.931758142542E-03 at i= 354, j= 89, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 3.88528728485 at i= 350, j= 39, k= 20 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 196.970962524 at i= 350, j= 39, k= 20 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 76.9256286621 at i= 350, j= 39, k= 20 tsoilmin= 270.598815918 at i= 7, j= 322, k= 1 tsoilmax= 290.444824219 at i= 291, j= 84, k= 2 qsoilmin= 0.121952302754 at i= 242, j= 1, k= 1 qsoilmax= 0.364499628544 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 6300.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf006300_001001 Writing HDF4 data at time= 6300.000 into file ../arpsdata/ar2013041107.hdf006300_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 2101, Model time= 6303.00 s ( 1.751 h) End of integration time step 2102, Model time= 6306.00 s ( 1.752 h) End of integration time step 2103, Model time= 6309.00 s ( 1.753 h) End of integration time step 2104, Model time= 6312.00 s ( 1.753 h) End of integration time step 2105, Model time= 6315.00 s ( 1.754 h) End of integration time step 2106, Model time= 6318.00 s ( 1.755 h) End of integration time step 2107, Model time= 6321.00 s ( 1.756 h) End of integration time step 2108, Model time= 6324.00 s ( 1.757 h) End of integration time step 2109, Model time= 6327.00 s ( 1.758 h) End of integration time step 2110, Model time= 6330.00 s ( 1.758 h) End of integration time step 2111, Model time= 6333.00 s ( 1.759 h) End of integration time step 2112, Model time= 6336.00 s ( 1.760 h) End of integration time step 2113, Model time= 6339.00 s ( 1.761 h) End of integration time step 2114, Model time= 6342.00 s ( 1.762 h) End of integration time step 2115, Model time= 6345.00 s ( 1.763 h) End of integration time step 2116, Model time= 6348.00 s ( 1.763 h) End of integration time step 2117, Model time= 6351.00 s ( 1.764 h) End of integration time step 2118, Model time= 6354.00 s ( 1.765 h) End of integration time step 2119, Model time= 6357.00 s ( 1.766 h) End of integration time step 2120, Model time= 6360.00 s ( 1.767 h) End of integration time step 2121, Model time= 6363.00 s ( 1.768 h) End of integration time step 2122, Model time= 6366.00 s ( 1.768 h) End of integration time step 2123, Model time= 6369.00 s ( 1.769 h) End of integration time step 2124, Model time= 6372.00 s ( 1.770 h) End of integration time step 2125, Model time= 6375.00 s ( 1.771 h) End of integration time step 2126, Model time= 6378.00 s ( 1.772 h) End of integration time step 2127, Model time= 6381.00 s ( 1.773 h) End of integration time step 2128, Model time= 6384.00 s ( 1.773 h) End of integration time step 2129, Model time= 6387.00 s ( 1.774 h) End of integration time step 2130, Model time= 6390.00 s ( 1.775 h) End of integration time step 2131, Model time= 6393.00 s ( 1.776 h) End of integration time step 2132, Model time= 6396.00 s ( 1.777 h) End of integration time step 2133, Model time= 6399.00 s ( 1.778 h) End of integration time step 2134, Model time= 6402.00 s ( 1.778 h) End of integration time step 2135, Model time= 6405.00 s ( 1.779 h) End of integration time step 2136, Model time= 6408.00 s ( 1.780 h) End of integration time step 2137, Model time= 6411.00 s ( 1.781 h) End of integration time step 2138, Model time= 6414.00 s ( 1.782 h) End of integration time step 2139, Model time= 6417.00 s ( 1.783 h) End of integration time step 2140, Model time= 6420.00 s ( 1.783 h) End of integration time step 2141, Model time= 6423.00 s ( 1.784 h) End of integration time step 2142, Model time= 6426.00 s ( 1.785 h) End of integration time step 2143, Model time= 6429.00 s ( 1.786 h) End of integration time step 2144, Model time= 6432.00 s ( 1.787 h) End of integration time step 2145, Model time= 6435.00 s ( 1.788 h) End of integration time step 2146, Model time= 6438.00 s ( 1.788 h) End of integration time step 2147, Model time= 6441.00 s ( 1.789 h) End of integration time step 2148, Model time= 6444.00 s ( 1.790 h) End of integration time step 2149, Model time= 6447.00 s ( 1.791 h) End of integration time step 2150, Model time= 6450.00 s ( 1.792 h) End of integration time step 2151, Model time= 6453.00 s ( 1.793 h) End of integration time step 2152, Model time= 6456.00 s ( 1.793 h) End of integration time step 2153, Model time= 6459.00 s ( 1.794 h) End of integration time step 2154, Model time= 6462.00 s ( 1.795 h) End of integration time step 2155, Model time= 6465.00 s ( 1.796 h) End of integration time step 2156, Model time= 6468.00 s ( 1.797 h) End of integration time step 2157, Model time= 6471.00 s ( 1.798 h) End of integration time step 2158, Model time= 6474.00 s ( 1.798 h) End of integration time step 2159, Model time= 6477.00 s ( 1.799 h) End of integration time step 2160, Model time= 6480.00 s ( 1.800 h) End of integration time step 2161, Model time= 6483.00 s ( 1.801 h) End of integration time step 2162, Model time= 6486.00 s ( 1.802 h) End of integration time step 2163, Model time= 6489.00 s ( 1.803 h) End of integration time step 2164, Model time= 6492.00 s ( 1.803 h) End of integration time step 2165, Model time= 6495.00 s ( 1.804 h) End of integration time step 2166, Model time= 6498.00 s ( 1.805 h) End of integration time step 2167, Model time= 6501.00 s ( 1.806 h) End of integration time step 2168, Model time= 6504.00 s ( 1.807 h) End of integration time step 2169, Model time= 6507.00 s ( 1.808 h) End of integration time step 2170, Model time= 6510.00 s ( 1.808 h) End of integration time step 2171, Model time= 6513.00 s ( 1.809 h) End of integration time step 2172, Model time= 6516.00 s ( 1.810 h) End of integration time step 2173, Model time= 6519.00 s ( 1.811 h) End of integration time step 2174, Model time= 6522.00 s ( 1.812 h) End of integration time step 2175, Model time= 6525.00 s ( 1.813 h) End of integration time step 2176, Model time= 6528.00 s ( 1.813 h) End of integration time step 2177, Model time= 6531.00 s ( 1.814 h) End of integration time step 2178, Model time= 6534.00 s ( 1.815 h) End of integration time step 2179, Model time= 6537.00 s ( 1.816 h) End of integration time step 2180, Model time= 6540.00 s ( 1.817 h) End of integration time step 2181, Model time= 6543.00 s ( 1.817 h) End of integration time step 2182, Model time= 6546.00 s ( 1.818 h) End of integration time step 2183, Model time= 6549.00 s ( 1.819 h) End of integration time step 2184, Model time= 6552.00 s ( 1.820 h) End of integration time step 2185, Model time= 6555.00 s ( 1.821 h) End of integration time step 2186, Model time= 6558.00 s ( 1.822 h) End of integration time step 2187, Model time= 6561.00 s ( 1.822 h) End of integration time step 2188, Model time= 6564.00 s ( 1.823 h) End of integration time step 2189, Model time= 6567.00 s ( 1.824 h) End of integration time step 2190, Model time= 6570.00 s ( 1.825 h) End of integration time step 2191, Model time= 6573.00 s ( 1.826 h) End of integration time step 2192, Model time= 6576.00 s ( 1.827 h) End of integration time step 2193, Model time= 6579.00 s ( 1.827 h) End of integration time step 2194, Model time= 6582.00 s ( 1.828 h) End of integration time step 2195, Model time= 6585.00 s ( 1.829 h) End of integration time step 2196, Model time= 6588.00 s ( 1.830 h) End of integration time step 2197, Model time= 6591.00 s ( 1.831 h) End of integration time step 2198, Model time= 6594.00 s ( 1.832 h) End of integration time step 2199, Model time= 6597.00 s ( 1.833 h) End of integration time step 2200, Model time= 6600.00 s ( 1.833 h) ucourant = 0.1488 at i= 348, j= 76, k= 37 vcourant = 0.1498 at i= 354, j= 322, k= 34 wcourant = 0.0307 at i= 351, j= 40, k= 18 uvcourant= 0.1020 at i= 348, j= 104, k= 36 refmax= 43.4756507874 at i= 356, j= 87, k= 1 vorlx= 0.126083195210E-02 at i= 285, j= 281, k= 2 vorux= 0.195583631285E-02 at i= 352, j= 39, k= 19 uvmax= 17.1839618683 at i= 241, j= 229, k= 7 uvmaxdr= 0.00000000000 at i= 241, j= 229, k= 7 umin = -1.14698624611 at i= 14, j= 13, k= 7 umax = 49.5977783203 at i= 348, j= 76, k= 37 vmin = -16.4098510742 at i= 158, j= 112, k= 7 vmax = 49.9397659302 at i= 354, j= 322, k= 34 wmin = -0.991783261299 at i= 356, j= 96, k= 24 wmax = 3.89994072914 at i= 351, j= 40, k= 18 ptprtmin= -8.35666179657 at i= 361, j= 4, k= 40 ptprtmax= 10.9602460861 at i= 1, j= 322, k= 37 pprtmin = -643.9550781 at i= 1, j= 322, k= 29 pprtmax = 380.8579712 at i= 362, j= 1, k= 30 qvmin= 0.00000000000 at i= 274, j= 152, k= 32 qvmax= 0.100197726861E-01 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.126171240117E-02 at i= 351, j= 40, k= 17 qrmin= 0.00000000000 at i= 27, j= 1, k= 1 qrmax= 0.921663886402E-03 at i= 356, j= 87, k= 1 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.114327180199E-03 at i= 351, j= 41, k= 20 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.565216585528E-03 at i= 352, j= 42, k= 20 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.623528263532E-03 at i= 353, j= 43, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 4.11708402634 at i= 351, j= 42, k= 21 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 202.762710571 at i= 351, j= 42, k= 21 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 79.7358398438 at i= 351, j= 42, k= 21 tsoilmin= 270.513366699 at i= 7, j= 322, k= 1 tsoilmax= 290.395996094 at i= 291, j= 84, k= 2 qsoilmin= 0.121982850134 at i= 242, j= 1, k= 1 qsoilmax= 0.364496648312 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 6600.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf006600_001001 Writing HDF4 data at time= 6600.000 into file ../arpsdata/ar2013041107.hdf006600_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 2201, model time= 6600.00 (s) End of integration time step 2201, Model time= 6603.00 s ( 1.834 h) End of integration time step 2202, Model time= 6606.00 s ( 1.835 h) End of integration time step 2203, Model time= 6609.00 s ( 1.836 h) End of integration time step 2204, Model time= 6612.00 s ( 1.837 h) End of integration time step 2205, Model time= 6615.00 s ( 1.838 h) End of integration time step 2206, Model time= 6618.00 s ( 1.838 h) End of integration time step 2207, Model time= 6621.00 s ( 1.839 h) End of integration time step 2208, Model time= 6624.00 s ( 1.840 h) End of integration time step 2209, Model time= 6627.00 s ( 1.841 h) End of integration time step 2210, Model time= 6630.00 s ( 1.842 h) End of integration time step 2211, Model time= 6633.00 s ( 1.843 h) End of integration time step 2212, Model time= 6636.00 s ( 1.843 h) End of integration time step 2213, Model time= 6639.00 s ( 1.844 h) End of integration time step 2214, Model time= 6642.00 s ( 1.845 h) End of integration time step 2215, Model time= 6645.00 s ( 1.846 h) End of integration time step 2216, Model time= 6648.00 s ( 1.847 h) End of integration time step 2217, Model time= 6651.00 s ( 1.848 h) End of integration time step 2218, Model time= 6654.00 s ( 1.848 h) End of integration time step 2219, Model time= 6657.00 s ( 1.849 h) End of integration time step 2220, Model time= 6660.00 s ( 1.850 h) End of integration time step 2221, Model time= 6663.00 s ( 1.851 h) End of integration time step 2222, Model time= 6666.00 s ( 1.852 h) End of integration time step 2223, Model time= 6669.00 s ( 1.853 h) End of integration time step 2224, Model time= 6672.00 s ( 1.853 h) End of integration time step 2225, Model time= 6675.00 s ( 1.854 h) End of integration time step 2226, Model time= 6678.00 s ( 1.855 h) End of integration time step 2227, Model time= 6681.00 s ( 1.856 h) End of integration time step 2228, Model time= 6684.00 s ( 1.857 h) End of integration time step 2229, Model time= 6687.00 s ( 1.858 h) End of integration time step 2230, Model time= 6690.00 s ( 1.858 h) End of integration time step 2231, Model time= 6693.00 s ( 1.859 h) End of integration time step 2232, Model time= 6696.00 s ( 1.860 h) End of integration time step 2233, Model time= 6699.00 s ( 1.861 h) End of integration time step 2234, Model time= 6702.00 s ( 1.862 h) End of integration time step 2235, Model time= 6705.00 s ( 1.863 h) End of integration time step 2236, Model time= 6708.00 s ( 1.863 h) End of integration time step 2237, Model time= 6711.00 s ( 1.864 h) End of integration time step 2238, Model time= 6714.00 s ( 1.865 h) End of integration time step 2239, Model time= 6717.00 s ( 1.866 h) End of integration time step 2240, Model time= 6720.00 s ( 1.867 h) End of integration time step 2241, Model time= 6723.00 s ( 1.868 h) End of integration time step 2242, Model time= 6726.00 s ( 1.868 h) End of integration time step 2243, Model time= 6729.00 s ( 1.869 h) End of integration time step 2244, Model time= 6732.00 s ( 1.870 h) End of integration time step 2245, Model time= 6735.00 s ( 1.871 h) End of integration time step 2246, Model time= 6738.00 s ( 1.872 h) End of integration time step 2247, Model time= 6741.00 s ( 1.873 h) End of integration time step 2248, Model time= 6744.00 s ( 1.873 h) End of integration time step 2249, Model time= 6747.00 s ( 1.874 h) End of integration time step 2250, Model time= 6750.00 s ( 1.875 h) End of integration time step 2251, Model time= 6753.00 s ( 1.876 h) End of integration time step 2252, Model time= 6756.00 s ( 1.877 h) End of integration time step 2253, Model time= 6759.00 s ( 1.878 h) End of integration time step 2254, Model time= 6762.00 s ( 1.878 h) End of integration time step 2255, Model time= 6765.00 s ( 1.879 h) End of integration time step 2256, Model time= 6768.00 s ( 1.880 h) End of integration time step 2257, Model time= 6771.00 s ( 1.881 h) End of integration time step 2258, Model time= 6774.00 s ( 1.882 h) End of integration time step 2259, Model time= 6777.00 s ( 1.883 h) End of integration time step 2260, Model time= 6780.00 s ( 1.883 h) End of integration time step 2261, Model time= 6783.00 s ( 1.884 h) End of integration time step 2262, Model time= 6786.00 s ( 1.885 h) End of integration time step 2263, Model time= 6789.00 s ( 1.886 h) End of integration time step 2264, Model time= 6792.00 s ( 1.887 h) End of integration time step 2265, Model time= 6795.00 s ( 1.888 h) End of integration time step 2266, Model time= 6798.00 s ( 1.888 h) End of integration time step 2267, Model time= 6801.00 s ( 1.889 h) End of integration time step 2268, Model time= 6804.00 s ( 1.890 h) End of integration time step 2269, Model time= 6807.00 s ( 1.891 h) End of integration time step 2270, Model time= 6810.00 s ( 1.892 h) End of integration time step 2271, Model time= 6813.00 s ( 1.893 h) End of integration time step 2272, Model time= 6816.00 s ( 1.893 h) End of integration time step 2273, Model time= 6819.00 s ( 1.894 h) End of integration time step 2274, Model time= 6822.00 s ( 1.895 h) End of integration time step 2275, Model time= 6825.00 s ( 1.896 h) End of integration time step 2276, Model time= 6828.00 s ( 1.897 h) End of integration time step 2277, Model time= 6831.00 s ( 1.898 h) End of integration time step 2278, Model time= 6834.00 s ( 1.898 h) End of integration time step 2279, Model time= 6837.00 s ( 1.899 h) End of integration time step 2280, Model time= 6840.00 s ( 1.900 h) End of integration time step 2281, Model time= 6843.00 s ( 1.901 h) End of integration time step 2282, Model time= 6846.00 s ( 1.902 h) End of integration time step 2283, Model time= 6849.00 s ( 1.903 h) End of integration time step 2284, Model time= 6852.00 s ( 1.903 h) End of integration time step 2285, Model time= 6855.00 s ( 1.904 h) End of integration time step 2286, Model time= 6858.00 s ( 1.905 h) End of integration time step 2287, Model time= 6861.00 s ( 1.906 h) End of integration time step 2288, Model time= 6864.00 s ( 1.907 h) End of integration time step 2289, Model time= 6867.00 s ( 1.908 h) End of integration time step 2290, Model time= 6870.00 s ( 1.908 h) End of integration time step 2291, Model time= 6873.00 s ( 1.909 h) End of integration time step 2292, Model time= 6876.00 s ( 1.910 h) End of integration time step 2293, Model time= 6879.00 s ( 1.911 h) End of integration time step 2294, Model time= 6882.00 s ( 1.912 h) End of integration time step 2295, Model time= 6885.00 s ( 1.913 h) End of integration time step 2296, Model time= 6888.00 s ( 1.913 h) End of integration time step 2297, Model time= 6891.00 s ( 1.914 h) End of integration time step 2298, Model time= 6894.00 s ( 1.915 h) End of integration time step 2299, Model time= 6897.00 s ( 1.916 h) End of integration time step 2300, Model time= 6900.00 s ( 1.917 h) ucourant = 0.1480 at i= 348, j= 81, k= 37 vcourant = 0.1498 at i= 354, j= 322, k= 34 wcourant = 0.0317 at i= 351, j= 40, k= 18 uvcourant= 0.1016 at i= 344, j= 108, k= 36 refmax= 42.1984252930 at i= 354, j= 44, k= 10 vorlx= 0.129330041818E-02 at i= 285, j= 280, k= 2 vorux= 0.215112790465E-02 at i= 351, j= 38, k= 19 uvmax= 17.2123584747 at i= 241, j= 230, k= 7 uvmaxdr= 0.00000000000 at i= 241, j= 230, k= 7 umin = -1.05765569210 at i= 14, j= 13, k= 7 umax = 49.3294982910 at i= 348, j= 81, k= 37 vmin = -16.4893302917 at i= 159, j= 107, k= 7 vmax = 49.9141387939 at i= 354, j= 322, k= 34 wmin = -0.929843068123 at i= 354, j= 50, k= 26 wmax = 4.01799154282 at i= 351, j= 40, k= 18 ptprtmin= -8.37528419495 at i= 361, j= 4, k= 40 ptprtmax= 10.9212951660 at i= 1, j= 322, k= 37 pprtmin = -643.1093750 at i= 1, j= 322, k= 29 pprtmax = 379.2018127 at i= 362, j= 1, k= 30 qvmin= 0.00000000000 at i= 255, j= 115, k= 31 qvmax= 0.997575931251E-02 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.128687045071E-02 at i= 351, j= 40, k= 17 qrmin= 0.00000000000 at i= 29, j= 1, k= 1 qrmax= 0.941675272770E-03 at i= 354, j= 44, k= 11 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.117028510431E-03 at i= 351, j= 42, k= 20 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.540916342288E-03 at i= 351, j= 41, k= 20 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.676714756992E-03 at i= 353, j= 43, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 4.23569393158 at i= 351, j= 42, k= 21 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 205.801834106 at i= 351, j= 42, k= 21 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 80.9309692383 at i= 351, j= 42, k= 21 tsoilmin= 270.439575195 at i= 7, j= 322, k= 1 tsoilmax= 290.347167969 at i= 291, j= 84, k= 2 qsoilmin= 0.122013397515 at i= 242, j= 1, k= 1 qsoilmax= 0.364493668079 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 6900.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf006900_001001 Writing HDF4 data at time= 6900.000 into file ../arpsdata/ar2013041107.hdf006900_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 2301, Model time= 6903.00 s ( 1.918 h) End of integration time step 2302, Model time= 6906.00 s ( 1.918 h) End of integration time step 2303, Model time= 6909.00 s ( 1.919 h) End of integration time step 2304, Model time= 6912.00 s ( 1.920 h) End of integration time step 2305, Model time= 6915.00 s ( 1.921 h) End of integration time step 2306, Model time= 6918.00 s ( 1.922 h) End of integration time step 2307, Model time= 6921.00 s ( 1.923 h) End of integration time step 2308, Model time= 6924.00 s ( 1.923 h) End of integration time step 2309, Model time= 6927.00 s ( 1.924 h) End of integration time step 2310, Model time= 6930.00 s ( 1.925 h) End of integration time step 2311, Model time= 6933.00 s ( 1.926 h) End of integration time step 2312, Model time= 6936.00 s ( 1.927 h) End of integration time step 2313, Model time= 6939.00 s ( 1.928 h) End of integration time step 2314, Model time= 6942.00 s ( 1.928 h) End of integration time step 2315, Model time= 6945.00 s ( 1.929 h) End of integration time step 2316, Model time= 6948.00 s ( 1.930 h) End of integration time step 2317, Model time= 6951.00 s ( 1.931 h) End of integration time step 2318, Model time= 6954.00 s ( 1.932 h) End of integration time step 2319, Model time= 6957.00 s ( 1.933 h) End of integration time step 2320, Model time= 6960.00 s ( 1.933 h) End of integration time step 2321, Model time= 6963.00 s ( 1.934 h) End of integration time step 2322, Model time= 6966.00 s ( 1.935 h) End of integration time step 2323, Model time= 6969.00 s ( 1.936 h) End of integration time step 2324, Model time= 6972.00 s ( 1.937 h) End of integration time step 2325, Model time= 6975.00 s ( 1.938 h) End of integration time step 2326, Model time= 6978.00 s ( 1.938 h) End of integration time step 2327, Model time= 6981.00 s ( 1.939 h) End of integration time step 2328, Model time= 6984.00 s ( 1.940 h) End of integration time step 2329, Model time= 6987.00 s ( 1.941 h) End of integration time step 2330, Model time= 6990.00 s ( 1.942 h) End of integration time step 2331, Model time= 6993.00 s ( 1.942 h) End of integration time step 2332, Model time= 6996.00 s ( 1.943 h) End of integration time step 2333, Model time= 6999.00 s ( 1.944 h) End of integration time step 2334, Model time= 7002.00 s ( 1.945 h) End of integration time step 2335, Model time= 7005.00 s ( 1.946 h) End of integration time step 2336, Model time= 7008.00 s ( 1.947 h) End of integration time step 2337, Model time= 7011.00 s ( 1.947 h) End of integration time step 2338, Model time= 7014.00 s ( 1.948 h) End of integration time step 2339, Model time= 7017.00 s ( 1.949 h) End of integration time step 2340, Model time= 7020.00 s ( 1.950 h) End of integration time step 2341, Model time= 7023.00 s ( 1.951 h) End of integration time step 2342, Model time= 7026.00 s ( 1.952 h) End of integration time step 2343, Model time= 7029.00 s ( 1.953 h) End of integration time step 2344, Model time= 7032.00 s ( 1.953 h) End of integration time step 2345, Model time= 7035.00 s ( 1.954 h) End of integration time step 2346, Model time= 7038.00 s ( 1.955 h) End of integration time step 2347, Model time= 7041.00 s ( 1.956 h) End of integration time step 2348, Model time= 7044.00 s ( 1.957 h) End of integration time step 2349, Model time= 7047.00 s ( 1.958 h) End of integration time step 2350, Model time= 7050.00 s ( 1.958 h) End of integration time step 2351, Model time= 7053.00 s ( 1.959 h) End of integration time step 2352, Model time= 7056.00 s ( 1.960 h) End of integration time step 2353, Model time= 7059.00 s ( 1.961 h) End of integration time step 2354, Model time= 7062.00 s ( 1.962 h) End of integration time step 2355, Model time= 7065.00 s ( 1.963 h) End of integration time step 2356, Model time= 7068.00 s ( 1.963 h) End of integration time step 2357, Model time= 7071.00 s ( 1.964 h) End of integration time step 2358, Model time= 7074.00 s ( 1.965 h) End of integration time step 2359, Model time= 7077.00 s ( 1.966 h) End of integration time step 2360, Model time= 7080.00 s ( 1.967 h) End of integration time step 2361, Model time= 7083.00 s ( 1.968 h) End of integration time step 2362, Model time= 7086.00 s ( 1.968 h) End of integration time step 2363, Model time= 7089.00 s ( 1.969 h) End of integration time step 2364, Model time= 7092.00 s ( 1.970 h) End of integration time step 2365, Model time= 7095.00 s ( 1.971 h) End of integration time step 2366, Model time= 7098.00 s ( 1.972 h) End of integration time step 2367, Model time= 7101.00 s ( 1.973 h) End of integration time step 2368, Model time= 7104.00 s ( 1.973 h) End of integration time step 2369, Model time= 7107.00 s ( 1.974 h) End of integration time step 2370, Model time= 7110.00 s ( 1.975 h) End of integration time step 2371, Model time= 7113.00 s ( 1.976 h) End of integration time step 2372, Model time= 7116.00 s ( 1.977 h) End of integration time step 2373, Model time= 7119.00 s ( 1.978 h) End of integration time step 2374, Model time= 7122.00 s ( 1.978 h) End of integration time step 2375, Model time= 7125.00 s ( 1.979 h) End of integration time step 2376, Model time= 7128.00 s ( 1.980 h) End of integration time step 2377, Model time= 7131.00 s ( 1.981 h) End of integration time step 2378, Model time= 7134.00 s ( 1.982 h) End of integration time step 2379, Model time= 7137.00 s ( 1.983 h) End of integration time step 2380, Model time= 7140.00 s ( 1.983 h) End of integration time step 2381, Model time= 7143.00 s ( 1.984 h) End of integration time step 2382, Model time= 7146.00 s ( 1.985 h) End of integration time step 2383, Model time= 7149.00 s ( 1.986 h) End of integration time step 2384, Model time= 7152.00 s ( 1.987 h) End of integration time step 2385, Model time= 7155.00 s ( 1.988 h) End of integration time step 2386, Model time= 7158.00 s ( 1.988 h) End of integration time step 2387, Model time= 7161.00 s ( 1.989 h) End of integration time step 2388, Model time= 7164.00 s ( 1.990 h) End of integration time step 2389, Model time= 7167.00 s ( 1.991 h) End of integration time step 2390, Model time= 7170.00 s ( 1.992 h) End of integration time step 2391, Model time= 7173.00 s ( 1.993 h) End of integration time step 2392, Model time= 7176.00 s ( 1.993 h) End of integration time step 2393, Model time= 7179.00 s ( 1.994 h) End of integration time step 2394, Model time= 7182.00 s ( 1.995 h) End of integration time step 2395, Model time= 7185.00 s ( 1.996 h) End of integration time step 2396, Model time= 7188.00 s ( 1.997 h) End of integration time step 2397, Model time= 7191.00 s ( 1.998 h) End of integration time step 2398, Model time= 7194.00 s ( 1.998 h) End of integration time step 2399, Model time= 7197.00 s ( 1.999 h) End of integration time step 2400, Model time= 7200.00 s ( 2.000 h) ucourant = 0.1470 at i= 348, j= 85, k= 37 vcourant = 0.1497 at i= 354, j= 322, k= 34 wcourant = 0.0298 at i= 351, j= 40, k= 18 uvcourant= 0.1013 at i= 342, j= 108, k= 36 refmax= 42.5282211304 at i= 354, j= 44, k= 10 vorlx= 0.130481633823E-02 at i= 285, j= 280, k= 2 vorux= 0.220345589332E-02 at i= 352, j= 40, k= 20 uvmax= 17.3162117004 at i= 241, j= 230, k= 7 uvmaxdr= 0.00000000000 at i= 241, j= 230, k= 7 umin = -0.947853565216 at i= 14, j= 13, k= 7 umax = 49.0180549622 at i= 348, j= 85, k= 37 vmin = -16.6047916412 at i= 160, j= 104, k= 7 vmax = 49.8846397400 at i= 354, j= 322, k= 34 wmin = -0.933922767639 at i= 221, j= 311, k= 21 wmax = 3.80885887146 at i= 351, j= 41, k= 19 ptprtmin= -8.39449691772 at i= 361, j= 4, k= 40 ptprtmax= 10.8823442459 at i= 1, j= 322, k= 37 pprtmin = -642.2636719 at i= 1, j= 322, k= 29 pprtmax = 377.5456848 at i= 362, j= 1, k= 30 qvmin= 0.00000000000 at i= 251, j= 109, k= 31 qvmax= 0.993174593896E-02 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.120917987078E-02 at i= 351, j= 40, k= 17 qrmin= 0.00000000000 at i= 29, j= 3, k= 1 qrmax= 0.973632617388E-03 at i= 354, j= 44, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.115709153761E-03 at i= 351, j= 42, k= 20 qsmin= 0.00000000000 at i= 1, j= 1, k= 1 qsmax= 0.540293869562E-03 at i= 351, j= 41, k= 20 qhmin= 0.00000000000 at i= 1, j= 1, k= 1 qhmax= 0.567883951589E-03 at i= 353, j= 44, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 4.23702144623 at i= 351, j= 42, k= 21 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 205.822708130 at i= 351, j= 42, k= 21 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 80.9391784668 at i= 351, j= 42, k= 21 tsoilmin= 270.371185303 at i= 7, j= 322, k= 1 tsoilmax= 290.298339844 at i= 291, j= 84, k= 2 qsoilmin= 0.122043944895 at i= 242, j= 1, k= 1 qsoilmax= 0.364490687847 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 7200.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf007200_001001 Writing HDF4 data at time= 7200.000 into file ../arpsdata/ar2013041107.hdf007200_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. Compute radiation at time step, 2401, model time= 7200.00 (s) End of integration time step 2401, Model time= 7203.00 s ( 2.001 h) End of integration time step 2402, Model time= 7206.00 s ( 2.002 h) End of integration time step 2403, Model time= 7209.00 s ( 2.003 h) End of integration time step 2404, Model time= 7212.00 s ( 2.003 h) End of integration time step 2405, Model time= 7215.00 s ( 2.004 h) End of integration time step 2406, Model time= 7218.00 s ( 2.005 h) End of integration time step 2407, Model time= 7221.00 s ( 2.006 h) End of integration time step 2408, Model time= 7224.00 s ( 2.007 h) End of integration time step 2409, Model time= 7227.00 s ( 2.007 h) End of integration time step 2410, Model time= 7230.00 s ( 2.008 h) End of integration time step 2411, Model time= 7233.00 s ( 2.009 h) End of integration time step 2412, Model time= 7236.00 s ( 2.010 h) End of integration time step 2413, Model time= 7239.00 s ( 2.011 h) End of integration time step 2414, Model time= 7242.00 s ( 2.012 h) End of integration time step 2415, Model time= 7245.00 s ( 2.013 h) End of integration time step 2416, Model time= 7248.00 s ( 2.013 h) End of integration time step 2417, Model time= 7251.00 s ( 2.014 h) End of integration time step 2418, Model time= 7254.00 s ( 2.015 h) End of integration time step 2419, Model time= 7257.00 s ( 2.016 h) End of integration time step 2420, Model time= 7260.00 s ( 2.017 h) End of integration time step 2421, Model time= 7263.00 s ( 2.018 h) End of integration time step 2422, Model time= 7266.00 s ( 2.018 h) End of integration time step 2423, Model time= 7269.00 s ( 2.019 h) End of integration time step 2424, Model time= 7272.00 s ( 2.020 h) End of integration time step 2425, Model time= 7275.00 s ( 2.021 h) End of integration time step 2426, Model time= 7278.00 s ( 2.022 h) End of integration time step 2427, Model time= 7281.00 s ( 2.023 h) End of integration time step 2428, Model time= 7284.00 s ( 2.023 h) End of integration time step 2429, Model time= 7287.00 s ( 2.024 h) End of integration time step 2430, Model time= 7290.00 s ( 2.025 h) End of integration time step 2431, Model time= 7293.00 s ( 2.026 h) End of integration time step 2432, Model time= 7296.00 s ( 2.027 h) End of integration time step 2433, Model time= 7299.00 s ( 2.028 h) End of integration time step 2434, Model time= 7302.00 s ( 2.028 h) End of integration time step 2435, Model time= 7305.00 s ( 2.029 h) End of integration time step 2436, Model time= 7308.00 s ( 2.030 h) End of integration time step 2437, Model time= 7311.00 s ( 2.031 h) End of integration time step 2438, Model time= 7314.00 s ( 2.032 h) End of integration time step 2439, Model time= 7317.00 s ( 2.033 h) End of integration time step 2440, Model time= 7320.00 s ( 2.033 h) End of integration time step 2441, Model time= 7323.00 s ( 2.034 h) End of integration time step 2442, Model time= 7326.00 s ( 2.035 h) End of integration time step 2443, Model time= 7329.00 s ( 2.036 h) End of integration time step 2444, Model time= 7332.00 s ( 2.037 h) End of integration time step 2445, Model time= 7335.00 s ( 2.038 h) End of integration time step 2446, Model time= 7338.00 s ( 2.038 h) End of integration time step 2447, Model time= 7341.00 s ( 2.039 h) End of integration time step 2448, Model time= 7344.00 s ( 2.040 h) End of integration time step 2449, Model time= 7347.00 s ( 2.041 h) End of integration time step 2450, Model time= 7350.00 s ( 2.042 h) End of integration time step 2451, Model time= 7353.00 s ( 2.043 h) End of integration time step 2452, Model time= 7356.00 s ( 2.043 h) End of integration time step 2453, Model time= 7359.00 s ( 2.044 h) End of integration time step 2454, Model time= 7362.00 s ( 2.045 h) End of integration time step 2455, Model time= 7365.00 s ( 2.046 h) End of integration time step 2456, Model time= 7368.00 s ( 2.047 h) End of integration time step 2457, Model time= 7371.00 s ( 2.048 h) End of integration time step 2458, Model time= 7374.00 s ( 2.048 h) End of integration time step 2459, Model time= 7377.00 s ( 2.049 h) End of integration time step 2460, Model time= 7380.00 s ( 2.050 h) End of integration time step 2461, Model time= 7383.00 s ( 2.051 h) End of integration time step 2462, Model time= 7386.00 s ( 2.052 h) End of integration time step 2463, Model time= 7389.00 s ( 2.053 h) End of integration time step 2464, Model time= 7392.00 s ( 2.053 h) End of integration time step 2465, Model time= 7395.00 s ( 2.054 h) End of integration time step 2466, Model time= 7398.00 s ( 2.055 h) End of integration time step 2467, Model time= 7401.00 s ( 2.056 h) End of integration time step 2468, Model time= 7404.00 s ( 2.057 h) End of integration time step 2469, Model time= 7407.00 s ( 2.058 h) End of integration time step 2470, Model time= 7410.00 s ( 2.058 h) End of integration time step 2471, Model time= 7413.00 s ( 2.059 h) End of integration time step 2472, Model time= 7416.00 s ( 2.060 h) End of integration time step 2473, Model time= 7419.00 s ( 2.061 h) End of integration time step 2474, Model time= 7422.00 s ( 2.062 h) End of integration time step 2475, Model time= 7425.00 s ( 2.063 h) End of integration time step 2476, Model time= 7428.00 s ( 2.063 h) End of integration time step 2477, Model time= 7431.00 s ( 2.064 h) End of integration time step 2478, Model time= 7434.00 s ( 2.065 h) End of integration time step 2479, Model time= 7437.00 s ( 2.066 h) End of integration time step 2480, Model time= 7440.00 s ( 2.067 h) End of integration time step 2481, Model time= 7443.00 s ( 2.068 h) End of integration time step 2482, Model time= 7446.00 s ( 2.068 h) End of integration time step 2483, Model time= 7449.00 s ( 2.069 h) End of integration time step 2484, Model time= 7452.00 s ( 2.070 h) End of integration time step 2485, Model time= 7455.00 s ( 2.071 h) End of integration time step 2486, Model time= 7458.00 s ( 2.072 h) End of integration time step 2487, Model time= 7461.00 s ( 2.072 h) End of integration time step 2488, Model time= 7464.00 s ( 2.073 h) End of integration time step 2489, Model time= 7467.00 s ( 2.074 h) End of integration time step 2490, Model time= 7470.00 s ( 2.075 h) End of integration time step 2491, Model time= 7473.00 s ( 2.076 h) End of integration time step 2492, Model time= 7476.00 s ( 2.077 h) End of integration time step 2493, Model time= 7479.00 s ( 2.078 h) End of integration time step 2494, Model time= 7482.00 s ( 2.078 h) End of integration time step 2495, Model time= 7485.00 s ( 2.079 h) End of integration time step 2496, Model time= 7488.00 s ( 2.080 h) End of integration time step 2497, Model time= 7491.00 s ( 2.081 h) End of integration time step 2498, Model time= 7494.00 s ( 2.082 h) End of integration time step 2499, Model time= 7497.00 s ( 2.082 h) End of integration time step 2500, Model time= 7500.00 s ( 2.083 h) ucourant = 0.1463 at i= 348, j= 64, k= 37 vcourant = 0.1496 at i= 354, j= 322, k= 34 wcourant = 0.0243 at i= 351, j= 41, k= 18 uvcourant= 0.1009 at i= 332, j= 118, k= 36 refmax= 41.9107246399 at i= 354, j= 44, k= 10 vorlx= 0.131998490542E-02 at i= 285, j= 280, k= 2 vorux= 0.173600006383E-02 at i= 352, j= 40, k= 20 uvmax= 17.3676986694 at i= 240, j= 230, k= 7 uvmaxdr= 0.00000000000 at i= 240, j= 230, k= 7 umin = -0.866403281689 at i= 14, j= 13, k= 7 umax = 48.7844924927 at i= 348, j= 64, k= 37 vmin = -16.6643390656 at i= 161, j= 102, k= 7 vmax = 49.8543739319 at i= 354, j= 322, k= 34 wmin = -0.859057366848 at i= 1, j= 322, k= 53 wmax = 3.08709239960 at i= 351, j= 41, k= 18 ptprtmin= -8.41406631470 at i= 361, j= 4, k= 40 ptprtmax= 10.8433942795 at i= 1, j= 322, k= 37 pprtmin = -641.8215942 at i= 1, j= 322, k= 28 pprtmax = 375.8895264 at i= 362, j= 1, k= 30 qvmin= 0.00000000000 at i= 241, j= 101, k= 32 qvmax= 0.988773163408E-02 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.110363285057E-02 at i= 352, j= 41, k= 17 qrmin= 0.00000000000 at i= 3, j= 1, k= 1 qrmax= 0.897847174201E-03 at i= 354, j= 44, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.100468932942E-03 at i= 352, j= 44, k= 20 qsmin= 0.00000000000 at i= 4, j= 1, k= 1 qsmax= 0.462867959868E-03 at i= 353, j= 45, k= 21 qhmin= 0.00000000000 at i= 4, j= 1, k= 1 qhmax= 0.513722596224E-03 at i= 353, j= 44, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 4.02235698700 at i= 351, j= 41, k= 20 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 200.720230103 at i= 351, j= 41, k= 20 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 78.5229568481 at i= 352, j= 43, k= 21 tsoilmin= 270.311767578 at i= 7, j= 322, k= 1 tsoilmax= 290.249511719 at i= 291, j= 84, k= 2 qsoilmin= 0.122074492276 at i= 242, j= 1, k= 1 qsoilmax= 0.364487707615 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 7500.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf007500_001001 Writing HDF4 data at time= 7500.000 into file ../arpsdata/ar2013041107.hdf007500_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. End of integration time step 2501, Model time= 7503.00 s ( 2.084 h) End of integration time step 2502, Model time= 7506.00 s ( 2.085 h) End of integration time step 2503, Model time= 7509.00 s ( 2.086 h) End of integration time step 2504, Model time= 7512.00 s ( 2.087 h) End of integration time step 2505, Model time= 7515.00 s ( 2.088 h) End of integration time step 2506, Model time= 7518.00 s ( 2.088 h) End of integration time step 2507, Model time= 7521.00 s ( 2.089 h) End of integration time step 2508, Model time= 7524.00 s ( 2.090 h) End of integration time step 2509, Model time= 7527.00 s ( 2.091 h) End of integration time step 2510, Model time= 7530.00 s ( 2.092 h) End of integration time step 2511, Model time= 7533.00 s ( 2.092 h) End of integration time step 2512, Model time= 7536.00 s ( 2.093 h) End of integration time step 2513, Model time= 7539.00 s ( 2.094 h) End of integration time step 2514, Model time= 7542.00 s ( 2.095 h) End of integration time step 2515, Model time= 7545.00 s ( 2.096 h) End of integration time step 2516, Model time= 7548.00 s ( 2.097 h) End of integration time step 2517, Model time= 7551.00 s ( 2.098 h) End of integration time step 2518, Model time= 7554.00 s ( 2.098 h) End of integration time step 2519, Model time= 7557.00 s ( 2.099 h) End of integration time step 2520, Model time= 7560.00 s ( 2.100 h) End of integration time step 2521, Model time= 7563.00 s ( 2.101 h) End of integration time step 2522, Model time= 7566.00 s ( 2.102 h) End of integration time step 2523, Model time= 7569.00 s ( 2.102 h) End of integration time step 2524, Model time= 7572.00 s ( 2.103 h) End of integration time step 2525, Model time= 7575.00 s ( 2.104 h) End of integration time step 2526, Model time= 7578.00 s ( 2.105 h) End of integration time step 2527, Model time= 7581.00 s ( 2.106 h) End of integration time step 2528, Model time= 7584.00 s ( 2.107 h) End of integration time step 2529, Model time= 7587.00 s ( 2.108 h) End of integration time step 2530, Model time= 7590.00 s ( 2.108 h) End of integration time step 2531, Model time= 7593.00 s ( 2.109 h) End of integration time step 2532, Model time= 7596.00 s ( 2.110 h) End of integration time step 2533, Model time= 7599.00 s ( 2.111 h) End of integration time step 2534, Model time= 7602.00 s ( 2.112 h) End of integration time step 2535, Model time= 7605.00 s ( 2.112 h) End of integration time step 2536, Model time= 7608.00 s ( 2.113 h) End of integration time step 2537, Model time= 7611.00 s ( 2.114 h) End of integration time step 2538, Model time= 7614.00 s ( 2.115 h) End of integration time step 2539, Model time= 7617.00 s ( 2.116 h) End of integration time step 2540, Model time= 7620.00 s ( 2.117 h) End of integration time step 2541, Model time= 7623.00 s ( 2.118 h) End of integration time step 2542, Model time= 7626.00 s ( 2.118 h) End of integration time step 2543, Model time= 7629.00 s ( 2.119 h) End of integration time step 2544, Model time= 7632.00 s ( 2.120 h) End of integration time step 2545, Model time= 7635.00 s ( 2.121 h) End of integration time step 2546, Model time= 7638.00 s ( 2.122 h) End of integration time step 2547, Model time= 7641.00 s ( 2.122 h) End of integration time step 2548, Model time= 7644.00 s ( 2.123 h) End of integration time step 2549, Model time= 7647.00 s ( 2.124 h) End of integration time step 2550, Model time= 7650.00 s ( 2.125 h) End of integration time step 2551, Model time= 7653.00 s ( 2.126 h) End of integration time step 2552, Model time= 7656.00 s ( 2.127 h) End of integration time step 2553, Model time= 7659.00 s ( 2.128 h) End of integration time step 2554, Model time= 7662.00 s ( 2.128 h) End of integration time step 2555, Model time= 7665.00 s ( 2.129 h) End of integration time step 2556, Model time= 7668.00 s ( 2.130 h) End of integration time step 2557, Model time= 7671.00 s ( 2.131 h) End of integration time step 2558, Model time= 7674.00 s ( 2.132 h) End of integration time step 2559, Model time= 7677.00 s ( 2.132 h) End of integration time step 2560, Model time= 7680.00 s ( 2.133 h) End of integration time step 2561, Model time= 7683.00 s ( 2.134 h) End of integration time step 2562, Model time= 7686.00 s ( 2.135 h) End of integration time step 2563, Model time= 7689.00 s ( 2.136 h) End of integration time step 2564, Model time= 7692.00 s ( 2.137 h) End of integration time step 2565, Model time= 7695.00 s ( 2.138 h) End of integration time step 2566, Model time= 7698.00 s ( 2.138 h) End of integration time step 2567, Model time= 7701.00 s ( 2.139 h) End of integration time step 2568, Model time= 7704.00 s ( 2.140 h) End of integration time step 2569, Model time= 7707.00 s ( 2.141 h) End of integration time step 2570, Model time= 7710.00 s ( 2.142 h) End of integration time step 2571, Model time= 7713.00 s ( 2.143 h) End of integration time step 2572, Model time= 7716.00 s ( 2.143 h) End of integration time step 2573, Model time= 7719.00 s ( 2.144 h) End of integration time step 2574, Model time= 7722.00 s ( 2.145 h) End of integration time step 2575, Model time= 7725.00 s ( 2.146 h) End of integration time step 2576, Model time= 7728.00 s ( 2.147 h) End of integration time step 2577, Model time= 7731.00 s ( 2.148 h) End of integration time step 2578, Model time= 7734.00 s ( 2.148 h) End of integration time step 2579, Model time= 7737.00 s ( 2.149 h) End of integration time step 2580, Model time= 7740.00 s ( 2.150 h) End of integration time step 2581, Model time= 7743.00 s ( 2.151 h) End of integration time step 2582, Model time= 7746.00 s ( 2.152 h) End of integration time step 2583, Model time= 7749.00 s ( 2.153 h) End of integration time step 2584, Model time= 7752.00 s ( 2.153 h) End of integration time step 2585, Model time= 7755.00 s ( 2.154 h) End of integration time step 2586, Model time= 7758.00 s ( 2.155 h) End of integration time step 2587, Model time= 7761.00 s ( 2.156 h) End of integration time step 2588, Model time= 7764.00 s ( 2.157 h) End of integration time step 2589, Model time= 7767.00 s ( 2.158 h) End of integration time step 2590, Model time= 7770.00 s ( 2.158 h) End of integration time step 2591, Model time= 7773.00 s ( 2.159 h) End of integration time step 2592, Model time= 7776.00 s ( 2.160 h) End of integration time step 2593, Model time= 7779.00 s ( 2.161 h) End of integration time step 2594, Model time= 7782.00 s ( 2.162 h) End of integration time step 2595, Model time= 7785.00 s ( 2.163 h) End of integration time step 2596, Model time= 7788.00 s ( 2.163 h) End of integration time step 2597, Model time= 7791.00 s ( 2.164 h) End of integration time step 2598, Model time= 7794.00 s ( 2.165 h) End of integration time step 2599, Model time= 7797.00 s ( 2.166 h) End of integration time step 2600, Model time= 7800.00 s ( 2.167 h) ucourant = 0.1457 at i= 348, j= 65, k= 37 vcourant = 0.1495 at i= 354, j= 322, k= 34 wcourant = 0.0196 at i= 2, j= 2, k= 33 uvcourant= 0.1005 at i= 331, j= 119, k= 36 refmax= 40.7733879089 at i= 355, j= 45, k= 9 vorlx= 0.131997070275E-02 at i= 158, j= 247, k= 2 vorux= 0.140602304600E-02 at i= 154, j= 135, k= 20 uvmax= 17.4478645325 at i= 235, j= 228, k= 7 uvmaxdr= 0.00000000000 at i= 235, j= 228, k= 7 umin = -0.787249505520 at i= 14, j= 13, k= 7 umax = 48.5683937073 at i= 348, j= 65, k= 37 vmin = -16.8717536926 at i= 161, j= 99, k= 7 vmax = 49.8220024109 at i= 354, j= 322, k= 34 wmin = -0.859884202480 at i= 1, j= 322, k= 53 wmax = 2.47776913643 at i= 1, j= 1, k= 34 ptprtmin= -8.43221569061 at i= 361, j= 4, k= 40 ptprtmax= 10.8044433594 at i= 1, j= 322, k= 37 pprtmin = -641.5458984 at i= 1, j= 322, k= 28 pprtmax = 374.2333984 at i= 362, j= 1, k= 30 qvmin= 0.00000000000 at i= 241, j= 100, k= 32 qvmax= 0.984371826053E-02 at i= 362, j= 1, k= 10 qcmin= 0.00000000000 at i= 1, j= 1, k= 1 qcmax= 0.841181143187E-03 at i= 353, j= 43, k= 17 qrmin= 0.00000000000 at i= 29, j= 1, k= 1 qrmax= 0.761218543630E-03 at i= 355, j= 46, k= 10 qimin= 0.00000000000 at i= 1, j= 1, k= 1 qimax= 0.951438923948E-04 at i= 250, j= 82, k= 22 qsmin= 0.00000000000 at i= 5, j= 1, k= 1 qsmax= 0.409117288655E-03 at i= 354, j= 46, k= 19 qhmin= 0.00000000000 at i= 5, j= 1, k= 1 qhmax= 0.371947360691E-03 at i= 354, j= 46, k= 16 tkemin= 0.00000000000 at i= 1, j= 1, k= 1 tkemax= 3.48177576065 at i= 352, j= 43, k= 20 kmhmin= 0.00000000000 at i= 12, j= 5, k= 5 kmhmax= 187.036468506 at i= 352, j= 43, k= 20 kmvmin= 0.00000000000 at i= 12, j= 5, k= 5 kmvmax= 73.0057754517 at i= 352, j= 43, k= 20 tsoilmin= 270.256011963 at i= 7, j= 322, k= 1 tsoilmax= 290.200683594 at i= 291, j= 84, k= 2 qsoilmin= 0.122105039656 at i= 242, j= 1, k= 1 qsoilmax= 0.364484727383 at i= 168, j= 154, k= 2 wetcmin= 0.00000000000 at i= 1, j= 1 wetcmax= 0.143205781933E-02 at i= 362, j= 40 Output files for forecast time = 7800.00 will be in directory <../arpsdata/>. History data dump in file ../arpsdata/ar2013041107.hdf007800_001001 Writing HDF4 data at time= 7800.000 into file ../arpsdata/ar2013041107.hdf007800_001001 HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable

HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT3D : Writing variable HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT3D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable HDFWRT2D : Writing variable Fortran I/O unit 38 picked from the free list. Fortran I/O unit 38 returned to the free list. ARPS CPU Summary: Process CPU time WALL CLOCK time (mean) ----------------- ---------------------- ---------------------- Initialization : 1.647626E+02s 0.25% 8.581425E-01s 0.25% Data output : 6.624111E+03s 10.18% 3.450140E+01s 10.18% Wind advection : 8.445871E+02s 1.30% 4.401193E+00s 1.30% Scalar advection: 2.094309E+03s 3.22% 1.091664E+01s 3.22% Coriolis force : 2.540201E+02s 0.39% 1.322932E+00s 0.39% Buoyancy term : 1.102913E+03s 1.70% 5.745815E+00s 1.70% Misc Large tstep: 1.554277E+03s 2.39% 8.097637E+00s 2.39% Small time steps: 7.767802E+03s 11.94% 4.048448E+01s 11.95% Radiation : 4.631405E+02s 0.71% 2.411819E+00s 0.71% Soil model : 1.298016E+03s 2.00% 6.760622E+00s 2.00% Surface physics : 2.236676E+02s 0.34% 1.164888E+00s 0.34% Turbulence : 1.007675E+04s 15.49% 5.250116E+01s 15.50% Comput. mixing : 2.237369E+03s 3.44% 1.165078E+01s 3.44% Rayleigh damping: 5.272028E+02s 0.81% 2.746747E+00s 0.81% TKE src terms : 1.682122E+03s 2.59% 8.762407E+00s 2.59% Gridscale precp.: 1.295483E-01s 0.00% 5.641563E-04s 0.00% Cumulus (NO ): 0.000000E+00s 0.00% 0.000000E+00s 0.00% Microph (linice): 1.493154E+04s 22.96% 7.777054E+01s 22.96% Hydrometero fall: 2.503870E+03s 3.85% 1.304028E+01s 3.85% Bound.conditions: 7.346963E+02s 1.13% 3.786502E+00s 1.12% Message passing : 7.681799E+03s 11.81% 3.998544E+01s 11.80% Miscellaneous : 2.279723E+03s 3.50% 1.187547E+01s 3.51% Entire model : 6.504681E+04s 1084.11 min 3.387855E+02s 5.65 min Without Init/IO : 5.825793E+04s 3.034259E+02s ARPS stopped normally in the main program. The ending time was 7800.000 seconds. Thanks for using ARPS. Maxumum memory allocation (in words): 0.000000 Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Warning: ieee_overflow is signaling Warning: ieee_underflow is signaling Warning: ieee_inexact is signaling FORTRAN STOP Job /lsf/7.0/linux2.6-glibc2.3-x86_64/bin/openmpi_wrapper -np 192 /home/kwthomas/rt2013/user/software/casa2013/openmpi/arps/abin/arps_mpi TID HOST_NAME COMMAND_LINE STATUS TERMINATION_TIME ===== ========== ================ ======================= =================== 00000 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00001 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00002 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00003 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00004 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00005 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00006 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00007 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00008 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00009 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00010 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00011 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00012 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00013 c016 /home/kwthomas/r Done 04/11/2013 03:03:12 00014 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00015 c016 /home/kwthomas/r Done 04/11/2013 03:03:13 00016 c418 /home/kwthomas/r Done 04/11/2013 03:03:13 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/home/kwthomas/r Done 04/11/2013 03:03:12 00074 c056 /home/kwthomas/r Done 04/11/2013 03:03:13 00075 c056 /home/kwthomas/r Done 04/11/2013 03:03:13 00076 c056 /home/kwthomas/r Done 04/11/2013 03:03:12 00077 c056 /home/kwthomas/r Done 04/11/2013 03:03:13 00078 c056 /home/kwthomas/r Done 04/11/2013 03:03:13 00079 c056 /home/kwthomas/r Done 04/11/2013 03:03:12 00080 c059 /home/kwthomas/r Done 04/11/2013 03:03:13 00081 c059 /home/kwthomas/r Done 04/11/2013 03:03:13 00082 c059 /home/kwthomas/r Done 04/11/2013 03:03:13 00083 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00084 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00085 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00086 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00087 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00088 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00089 c059 /home/kwthomas/r Done 04/11/2013 03:03:12 00090 c059 /home/kwthomas/r Done 04/11/2013 03:03:13 00091 c059 /home/kwthomas/r Done 04/11/2013 03:03:13 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