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 = 403 ny = 403 nz = 13 Namelist block message_passing sucessfully read. Number of processors in the x-direction is: 4 Number of processors in the y-direction is: 16 Maximum number of files open: 64 Namelist block comment_lines sucessfully read. Namelist block jobname sucessfully read. The name of this run is: ad2013021009 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 = 2013-02-10.09:10:00 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 ././ei2013021009.hdf011400 The base state/grid history dump format restart data to be read is ././ei2013021009.hdfgrdbas Sounding file to be used is may20.snd Namelist block nudging sucessfully read. The nudging assimilation option was 0 Nudging assimilation start: 6.00 Nudging assimilation stop: 300.00 Nudging assimilation interval: 30.00 Nudging assimilation gain: 1.00 The nudging increment file is ././incr2013021009 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 casa_anal_dfw.trnhdf The terrain data file format is 3 Namelist block grid sucessfully read. Input dx was 400.000 meters Input dy was 400.000 meters The stretch option was 2 Input dz was 1000.000 meters Input ctrlat was 33.000 degrees North Input ctrlon was -97.110 degrees East domain origin option was 0 dzmin is 400.000 meters zrefsfc is 0.000 meters dlayer1 is 2000.000 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 -97.110 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 2.000 seconds. The model startup time was 0.000 seconds. The termination time was 0.000 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 1.000 seconds. The actual small time step size to be used is 1.000 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 1977-05-2 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 0.50000001E-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 0.15000E-02 The coeff for fourth order vertical mixing was 0.15000E-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 300 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 3 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 2.000 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 60 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 150 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 0 The input precipitation rates array dump option was 0 The input ice array dump option was 1 The input TKE dump option was 0 The input eddy mixing coeff dump option was 0 The soil variable dump option was 1 The surface property array dump option was 1 The radiation arrays dump option was 0 The surface fluxes dump option was 0 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 3600.000 seconds Restart data files ad2013021009.rsttttttt will be produced every 1800 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 150 time steps. and the results are written into file ad2013021009.maxmin Interval between energy stats calculations was 0.000 Energy statistics calculations are switched off. Image dump option was 1 Image dump interval was 60.000 Data files for images will be written every 30 time steps. Plotting option was 0 Plotting interval was 600.000 Plotting routine will be called every 300 time steps. File compression option was 0 Namelist block debug sucessfully read. The debug printing level was 0 ======================================= Processor nx = 103 Processor ny = 28 Input dtsml = 1.00000, Adjusted dtsml = 1.00000 INITADAS: resetting lbcopt to 1 & lateral bc's to 4 Waiting ADAS namelist from standard input ... ======================================== Namelist block incr_out sucessfully read. Namelist block adas_const sucessfully read. Namelist block adjust sucessfully read. Namelist block adas_radaropt sucessfully read. Namelist block adas_cloud sucessfully read. Namelist block adas_typ sucessfully read. Namelist block adas_range sucessfully read. Namelist block adas_kpvar sucessfully read. Namelist block adas_zrange sucessfully read. Namelist block adas_thrng sucessfully read. Namelist block adas_trnrng sucessfully read. Namelist block adas_backerf sucessfully read. Namelist block adas_sng sucessfully read. Namelist block adas_ua sucessfully read. Namelist block adas_radar sucessfully read. Namelist block adas_retrieval sucessfully read. Waiting ARPS3DVAR namelist from standard input ... ======================================== Namelist block 3dvar_const sucessfully read. Namelist block 3dvar_refil sucessfully read. Namelist block 3dvar_exprt sucessfully read. Namelist block 3dvar_divergence sucessfully read. Namelist block 3dvar_smoothness sucessfully read. Analysis pass: 1 The horizontal influence radius: 100.0000 grid points The vertical influence radius option vradius_opt= 1 The vertical influence radius: 4.000000 grid points Analysis pass: 2 The horizontal influence radius: 4.000000 grid points The vertical influence radius option vradius_opt= 1 The vertical influence radius: 4.000000 grid points Finished allocating arrays Reading calib/model_error_wdt.adastab Background Std Error for RUC 3-hour forecast k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 0.00 3.00 3.00 3.00 3.00 30.00 2 100.00 3.00 3.00 3.00 3.00 30.00 3 500.00 3.00 3.00 2.50 3.00 20.00 4 1000.00 3.00 3.00 2.50 3.00 20.00 5 1500.00 3.00 3.00 2.50 3.00 20.00 6 2000.00 3.00 3.00 2.00 2.50 20.00 7 3000.00 3.00 3.00 2.00 2.00 20.00 8 4000.00 3.00 3.00 2.00 2.00 20.00 9 5000.00 3.00 3.00 2.00 2.50 20.00 10 5500.00 3.00 3.00 2.00 2.50 20.00 11 7000.00 4.00 4.00 2.00 2.50 20.00 12 8000.00 4.00 4.00 2.00 2.50 20.00 13 9000.00 5.00 5.00 2.00 2.50 20.00 14 10000.00 5.00 5.00 2.00 2.50 20.00 15 12000.00 5.00 5.00 2.00 2.50 20.00 16 16000.00 6.00 6.00 2.00 3.00 20.00 17 20000.00 6.00 6.00 2.00 3.00 20.00 Reading calib/saoerr.adastab Single-level std error for SA Surface Aviation Obs QC multiplier: 5.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.50 5.00 Reading calib/mesoerr.adastab Single-level std error for MESO Oklahoma Mesonet Obs QC multiplier: 5.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.11 5.00 Reading calib/wtxmnerr.adastab Single-level std error for WTXMN West Texas Mesonet Obs QC multiplier: 4.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.50 5.00 Reading calib/mesoalpnerr.adastab Single-level std error for MESOALPN Mesonets in Alpine Terrain QC multiplier: 3.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.11 5.00 Reading calib/mesohydrerr.adastab Single-level std error for MESOHYDR Hydrology Oriented Mesonet Stations QC multiplier: 3.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.11 5.00 Reading calib/mesometerr.adastab Single-level std error for MESOMET Mesonet Obs QC multiplier: 4.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.50 1.50 2.00 1.11 5.00 Reading calib/mesoroaderr.adastab Single-level std error for MESOROAD Roadside mesonet sites run by state DOTs. QC multiplier: 3.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 2.00 2.00 2.00 1.11 5.00 Reading calib/mesotverr.adastab Single-level std error for MESOTV Community Mesonets sponsored by TV Stations QC multiplier: 3.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 2.00 2.00 3.00 2.00 10.00 Reading calib/nfawoserr.adastab Single-level std error for NFAWOS Non-Federal AWOS Surface Obs QC multiplier: 4.0 u (m/s) v (m/s) pres(mb) temp(K) RH(%) 1.00 1.00 1.22 0.60 5.00 Reading calib/raoberr.adastab UA data std error for NWS RAOB U.S. NWS Radiosonde Observation QC multiplier: 4.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 2.00 2.00 0.60 1.20 5.00 2 540.00 2.00 2.00 0.60 1.20 5.00 3 988.00 2.00 2.00 0.60 1.20 5.00 4 1457.00 2.00 2.00 0.60 1.00 5.00 5 1949.00 2.00 2.00 0.60 1.00 5.00 6 2466.00 2.00 2.00 0.60 1.00 5.00 7 3012.00 2.00 2.00 0.60 1.00 5.00 8 3591.00 2.50 2.50 0.60 1.00 5.00 9 4206.00 2.50 2.50 0.60 1.00 5.00 10 4865.00 2.50 2.50 0.60 1.00 7.00 11 5574.00 2.50 2.50 0.60 1.00 7.00 12 6343.00 3.00 3.00 0.60 1.00 7.00 13 7185.00 3.00 3.00 0.60 1.00 10.00 14 8177.00 3.50 3.50 0.60 1.00 10.00 15 9163.00 3.50 3.50 0.60 1.00 12.00 16 10362.00 3.50 3.50 0.50 1.50 15.00 17 11774.00 3.50 3.50 0.50 1.80 15.00 18 13507.00 3.50 3.50 0.50 1.80 15.00 19 15795.00 3.00 3.00 0.40 2.00 15.00 Reading calib/profilerr.adastab UA data std error for WPDN PRO U.S. Wind Profiler Demonstration Network Profiler QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 2.00 2.00 0.60 1.80 13.00 2 540.00 2.00 2.00 0.60 1.80 13.00 3 988.00 2.00 2.00 0.60 1.80 13.00 4 1457.00 2.00 2.00 0.60 1.50 13.00 5 1949.00 2.00 2.00 0.60 1.50 13.00 6 2466.00 2.00 2.00 0.60 1.40 13.00 7 3012.00 2.00 2.00 0.60 1.30 13.00 8 3591.00 2.50 2.50 0.60 1.20 13.00 9 4206.00 2.50 2.50 0.60 1.00 13.00 10 4865.00 2.50 2.50 0.60 1.00 13.00 11 5574.00 2.50 2.50 0.60 1.00 13.00 12 6343.00 3.00 3.00 0.60 1.00 13.00 13 7185.00 3.00 3.00 0.60 1.00 13.00 14 8177.00 3.50 3.50 0.60 1.00 15.00 15 9163.00 3.50 3.50 0.60 1.00 17.00 16 10362.00 3.50 3.50 0.50 1.50 20.00 17 11774.00 3.50 3.50 0.50 1.80 20.00 18 13507.00 3.50 3.50 0.50 1.80 20.00 19 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/blproferr.adastab UA data std error for BLPROF Boundary Layer Profiler -- typically SODARs QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 0.00 2.00 2.00 0.60 1.80 13.00 2 111.00 2.00 2.00 0.60 1.80 13.00 3 540.00 2.00 2.00 0.60 1.80 13.00 4 988.00 2.00 2.00 0.60 1.80 13.00 5 1457.00 2.00 2.00 0.60 1.50 13.00 6 1949.00 2.00 2.00 0.60 1.50 13.00 7 2466.00 2.00 2.00 0.60 1.40 13.00 8 3012.00 2.00 2.00 0.60 1.30 13.00 9 3591.00 2.50 2.50 0.60 1.20 13.00 10 4206.00 2.50 2.50 0.60 1.00 13.00 11 4865.00 2.50 2.50 0.60 1.00 13.00 12 5574.00 2.50 2.50 0.60 1.00 13.00 13 6343.00 3.00 3.00 0.60 1.00 13.00 14 7185.00 3.00 3.00 0.60 1.00 13.00 15 8177.00 3.50 3.50 0.60 1.00 15.00 16 9163.00 3.50 3.50 0.60 1.00 17.00 17 10362.00 3.50 3.50 0.50 1.50 20.00 18 11774.00 3.50 3.50 0.50 1.80 20.00 19 13507.00 3.50 3.50 0.50 1.80 20.00 20 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/sodarerr.adastab UA data std error for SODAR Typical SODAR QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 0.00 2.00 2.00 0.60 1.80 13.00 2 111.00 2.00 2.00 0.60 1.80 13.00 3 540.00 2.00 2.00 0.60 1.80 13.00 4 988.00 2.00 2.00 0.60 1.80 13.00 5 1457.00 2.00 2.00 0.60 1.50 13.00 6 1949.00 2.00 2.00 0.60 1.50 13.00 7 2466.00 2.00 2.00 0.60 1.40 13.00 8 3012.00 2.00 2.00 0.60 1.30 13.00 9 3591.00 2.50 2.50 0.60 1.20 13.00 10 4206.00 2.50 2.50 0.60 1.00 13.00 11 4865.00 2.50 2.50 0.60 1.00 13.00 12 5574.00 2.50 2.50 0.60 1.00 13.00 13 6343.00 3.00 3.00 0.60 1.00 13.00 14 7185.00 3.00 3.00 0.60 1.00 13.00 15 8177.00 3.50 3.50 0.60 1.00 15.00 16 9163.00 3.50 3.50 0.60 1.00 17.00 17 10362.00 3.50 3.50 0.50 1.50 20.00 18 11774.00 3.50 3.50 0.50 1.80 20.00 19 13507.00 3.50 3.50 0.50 1.80 20.00 20 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/proflrerr.adastab UA data std error for PROFLR Generic Wind Profiler (e.g., MADIS MAP Unspecified Instrument) QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 2.00 2.00 0.60 1.80 13.00 2 540.00 2.00 2.00 0.60 1.80 13.00 3 988.00 2.00 2.00 0.60 1.80 13.00 4 1457.00 2.00 2.00 0.60 1.50 13.00 5 1949.00 2.00 2.00 0.60 1.50 13.00 6 2466.00 2.00 2.00 0.60 1.40 13.00 7 3012.00 2.00 2.00 0.60 1.30 13.00 8 3591.00 2.50 2.50 0.60 1.20 13.00 9 4206.00 2.50 2.50 0.60 1.00 13.00 10 4865.00 2.50 2.50 0.60 1.00 13.00 11 5574.00 2.50 2.50 0.60 1.00 13.00 12 6343.00 3.00 3.00 0.60 1.00 13.00 13 7185.00 3.00 3.00 0.60 1.00 13.00 14 8177.00 3.50 3.50 0.60 1.00 15.00 15 9163.00 3.50 3.50 0.60 1.00 17.00 16 10362.00 3.50 3.50 0.50 1.50 20.00 17 11774.00 3.50 3.50 0.50 1.80 20.00 18 13507.00 3.50 3.50 0.50 1.80 20.00 19 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/uhfprferr.adastab UA data std error for UHFPRF UHF Wind Profiler QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 2.00 2.00 0.60 1.80 13.00 2 540.00 2.00 2.00 0.60 1.80 13.00 3 988.00 2.00 2.00 0.60 1.80 13.00 4 1457.00 2.00 2.00 0.60 1.50 13.00 5 1949.00 2.00 2.00 0.60 1.50 13.00 6 2466.00 2.00 2.00 0.60 1.40 13.00 7 3012.00 2.00 2.00 0.60 1.30 13.00 8 3591.00 2.50 2.50 0.60 1.20 13.00 9 4206.00 2.50 2.50 0.60 1.00 13.00 10 4865.00 2.50 2.50 0.60 1.00 13.00 11 5574.00 2.50 2.50 0.60 1.00 13.00 12 6343.00 3.00 3.00 0.60 1.00 13.00 13 7185.00 3.00 3.00 0.60 1.00 13.00 14 8177.00 3.50 3.50 0.60 1.00 15.00 15 9163.00 3.50 3.50 0.60 1.00 17.00 16 10362.00 3.50 3.50 0.50 1.50 20.00 17 11774.00 3.50 3.50 0.50 1.80 20.00 18 13507.00 3.50 3.50 0.50 1.80 20.00 19 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/vhfprferr.adastab UA data std error for VHFPRF VHF Wind Profiler QC multiplier: 3.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 2.00 2.00 0.60 1.80 13.00 2 540.00 2.00 2.00 0.60 1.80 13.00 3 988.00 2.00 2.00 0.60 1.80 13.00 4 1457.00 2.00 2.00 0.60 1.50 13.00 5 1949.00 2.00 2.00 0.60 1.50 13.00 6 2466.00 2.00 2.00 0.60 1.40 13.00 7 3012.00 2.00 2.00 0.60 1.30 13.00 8 3591.00 2.50 2.50 0.60 1.20 13.00 9 4206.00 2.50 2.50 0.60 1.00 13.00 10 4865.00 2.50 2.50 0.60 1.00 13.00 11 5574.00 2.50 2.50 0.60 1.00 13.00 12 6343.00 3.00 3.00 0.60 1.00 13.00 13 7185.00 3.00 3.00 0.60 1.00 13.00 14 8177.00 3.50 3.50 0.60 1.00 15.00 15 9163.00 3.50 3.50 0.60 1.00 17.00 16 10362.00 3.50 3.50 0.50 1.50 20.00 17 11774.00 3.50 3.50 0.50 1.80 20.00 18 13507.00 3.50 3.50 0.50 1.80 20.00 19 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/vad88derr.adastab UA data std error for 88D VAD VAD Winds from WSR-88D NEXRAD radar QC multiplier: 2.5 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 0.00 2.00 2.00 0.60 1.80 13.00 2 111.00 2.00 2.00 0.60 1.80 13.00 3 540.00 2.00 2.00 0.60 1.80 13.00 4 988.00 2.00 2.00 0.60 1.80 13.00 5 1457.00 2.00 2.00 0.60 1.50 13.00 6 1949.00 2.00 2.00 0.60 1.50 13.00 7 2466.00 2.00 2.00 0.60 1.40 13.00 8 3012.00 2.00 2.00 0.60 1.30 13.00 9 3591.00 2.50 2.50 0.60 1.20 13.00 10 4206.00 2.50 2.50 0.60 1.00 13.00 11 4865.00 2.50 2.50 0.60 1.00 13.00 12 5574.00 2.50 2.50 0.60 1.00 13.00 13 6343.00 3.00 3.00 0.60 1.00 13.00 14 7185.00 3.00 3.00 0.60 1.00 13.00 15 8177.00 3.50 3.50 0.60 1.00 15.00 16 9163.00 3.50 3.50 0.60 1.00 17.00 17 10362.00 3.50 3.50 0.50 1.50 20.00 18 11774.00 3.50 3.50 0.50 1.80 20.00 19 13507.00 3.50 3.50 0.50 1.80 20.00 20 15795.00 3.00 3.00 0.40 2.00 20.00 Reading calib/rad88Derr.adastab Radar data std error for 88D-AII 88D NWS/DoD Network Radar - Archive-II QC multiplier: 4.0 ref(dBz) Vrad(m/s) SpWid(m/s) 0.10 2.00 2.00 0.00 Reading calib/radnidserr.adastab Radar data std error for 88D-NIDS 88D NWS/DoD Network Radar NIDS distribution QC multiplier: 2.0 ref(dBz) Vrad(m/s) SpWid(m/s) 0.10 3.00 2.00 0.00 Reading calib/radcasaerr.adastab Radar data std error for CASA-IP1 CASA X-band Radar QC multiplier: 4.0 ref(dBz) Vrad(m/s) SpWid(m/s) 0.12 2.50 2.00 0.00 Reading calib/radtdwrerr.adastab Radar data std error for TDWR TDWR Airport Radar Network QC multiplier: 4.0 ref(dBz) Vrad(m/s) SpWid(m/s) 0.10 1.00 2.00 0.00 Reading calib/rad88dperr.adastab Radar data std error for 88D-POL 88D Dual Pol QC multiplier: 4.0 ref(dBz) Vrad(m/s) SpWid(m/s) 0.10 1.00 2.00 0.00 Reading calib/ret88Derr.adastab Retrieval std error for 88D-RET Retrieved data from WSR-88D network radar QC multiplier: 4.0 k hgt(m) u(m/s) v(m/s) pres(mb) temp(K) RH(%) 1 111.00 1.50 1.50 0.60 1.50 5.00 2 540.00 1.50 1.50 0.60 1.50 5.00 3 988.00 1.50 1.50 0.60 1.50 5.00 4 1457.00 1.50 1.50 0.60 1.20 5.00 5 1949.00 1.50 1.50 0.60 1.20 5.00 6 2466.00 1.50 1.50 0.60 1.20 5.00 7 3012.00 1.50 1.50 0.60 1.20 5.00 8 3591.00 2.00 2.00 0.60 1.00 5.00 9 4206.00 2.00 2.00 0.60 1.00 5.00 10 4865.00 2.00 2.00 0.60 1.00 5.00 11 5574.00 2.00 2.00 0.60 1.00 5.00 12 6343.00 3.00 3.00 0.60 1.00 5.00 13 7185.00 3.00 3.00 0.60 1.00 5.00 14 8177.00 3.50 3.50 0.60 1.00 5.00 15 9163.00 3.50 3.50 0.60 1.00 5.00 16 10362.00 3.50 3.50 0.50 1.20 10.00 17 11774.00 3.50 3.50 0.50 1.50 10.00 18 13507.00 3.50 3.50 0.50 1.50 10.00 19 15795.00 3.50 3.50 0.50 1.50 10.00 HDFREADSPLIT: Reading HDF file: ././ei2013021009.hdfgrdbas Incoming data format, fmtverin=005.30 HDF4 Coded Data THE NAME OF THIS RUN IS: ei2013021009 Comments: ARPS 5.3 nx = 403, ny = 403, nz = 13 To read grid and base state data at time 11400.0 secs = 190.000 mins. HDFREADSPLIT: INFO: nstyp in file ( 9) is greater than that specified in namelist ( 3), using only 3 stypes. 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= 190.0 (min) were successfully read. HDFREADSPLIT: Successfully read ././ei2013021009.hdfgrdbas HDFREADSPLIT: Reading HDF file: ././ei2013021009.hdf011400 Incoming data format, fmtverin=005.30 HDF4 Coded Data THE NAME OF THIS RUN IS: ei2013021009 Comments: ARPS 5.3 nx = 403, ny = 403, nz = 13 To read data for time: 11400.0 secs = 190.000 mins. nscalarin = 1 qcin = 1, qrin = -1, qiin = -1, qsin = -1, qhin = -1, HDFREADSPLIT: INFO: nstyp in file ( 9) is greater than that specified in namelist ( 3), using only 3 stypes. Data at time= 190.0 (min) were successfully read. HDFREADSPLIT: Successfully read ././ei2013021009.hdf011400 Use specified initial time: 2013-02-10.09:10:00 and model starting time: 0.000 seconds Min. and max. of the data arrays read in: xmin = -0.400000E+03, xmax = 0.160400E+06 ymin = -0.400000E+03, ymax = 0.160400E+06 zmin = -0.100000E+04, zmax = 0.110000E+05 zpmin = -0.303087E+03, zpmax = 0.127739E+05 j3min = 0.385042E+00, j3max = 0.277391E+01 ubarmin = 0.342539E+00, ubarmax = 0.571744E+02 vbarmin = 0.632481E+01, vbarmax = 0.233133E+02 ptbarmin= 0.289450E+03, ptbarmax= 0.341744E+03 pbarmin = 0.218725E+05, pbarmax = 0.102021E+06 rhostrmin= 0.346986E+00, rhostrmax= 0.183788E+01 qvbarmin= 0.936293E-05, qvbarmax= 0.119087E-01 umin = -0.165610E+01, umax = 0.501095E+02 vmin = 0.358390E+01, vmax = 0.247292E+02 wmin = -0.232107E+00, wmax = 0.314456E+00 ptprtmin= -0.195169E+01, ptprtmax= 0.209949E+01 pprtmin = -0.262328E+03, pprtmax = 0.178984E+03 qvmin = 0.210351E-04, qvmax = 0.133127E-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= 51, J= 15 Fortran I/O unit 39 picked from the free list. Output files for forecast time 0.00 will be in directory ././. k z(m) pbar(Pascal) ptbar(K) rhobar(kg/m**3) Qvbar(kg/kg) U(m/s) V(m/s) 12 11372.485 21921.352 341.57721 0.49238890 0.00000938 57.16360 22.75767 11 8627.515 33129.559 321.46005 0.49238890 0.00018247 37.40917 22.65906 10 5882.598 48525.215 314.98019 0.65954262 0.00124677 25.72380 23.25225 9 3725.888 64169.141 306.88885 0.82545304 0.00323399 21.02076 18.39183 8 2745.488 72512.836 302.28934 0.91334325 0.00526726 20.66552 13.48179 7 2353.296 76095.469 300.31924 0.95092171 0.00636961 21.68591 14.28440 6 1961.157 79821.953 298.78101 0.98843902 0.00734884 21.40730 16.73932 5 1569.018 83693.852 297.37958 1.02671742 0.00824642 19.50776 18.00762 4 1176.880 87715.336 295.77295 1.06665683 0.00954672 15.48236 20.63158 3 784.741 91894.227 293.96472 1.10870135 0.01074781 8.93201 19.05256 2 392.602 96243.086 291.44247 1.15551710 0.01122257 2.12549 11.38027 1 0.464 100772.367 289.75452 1.15551710 0.01188632 0.34254 6.32481 Fortran I/O unit 39 returned to the free list. READSPLITSFCDT: reading in external supplied surface data from file - ./casa_anal_dfw_m02_d10_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: -0.97110001E+02 Read in soiltyp Read in stypfrct Read in vegtyp Read in lai Read in roufns Read in veg Read in ndvi Surface variable in the initialization file was used. No more initialization performed. Precip correlation category assignment counts cat 1: 0 cat 2a: 0 cat 2b: 161604 cat 3: 0 cat 4: 0 Fortran I/O unit 39 picked from the free list. Writing ad2013021009.lst Processing file 1 data/sao201302100905.lso Fortran I/O unit 38 picked from the free list. Opening qclist: sao201302100905.sqc Fortran I/O unit 37 picked from the free list. Opening qclist: sao201302100905.lsq Calling prepsfcobs Getting surface data from: data/sao201302100905.lso Fortran I/O unit 36 picked from the free list. Blacklisted station GAG not found in dataset Blacklisted station 1F0 not found in dataset Blacklisted station PVJ not found in dataset Blacklisted station JWG not found in dataset Blacklisted station F05 not found in dataset Blacklisted station LAW not found in dataset Blacklisted station SNK not found in dataset Blacklisted station PVW not found in dataset Blacklisted station HHF not found in dataset Blacklisted station KHRS not found in dataset Blacklisted station KONS not found in dataset Fortran I/O unit 36 returned to the free list. Normal completion of READ_SURFACE_OBS LSO data vaild time: 10-FEB-2013-09:05:00.00 Getting past surface data from: data/sao201302100805.lso Fortran I/O unit 36 picked from the free list. Blacklisted station GAG not found in dataset Blacklisted station 1F0 not found in dataset Blacklisted station PVJ not found in dataset Blacklisted station JWG not found in dataset Blacklisted station F05 not found in dataset Blacklisted station LAW not found in dataset Blacklisted station SNK not found in dataset Blacklisted station PVW not found in dataset Blacklisted station HHF not found in dataset Blacklisted station KHRS not found in dataset Blacklisted station KONS not found in dataset Fortran I/O unit 36 returned to the free list. Normal completion of READ_SURFACE_OBS # of data stns available: 43 40 FYI from sta_match: 38 stations of 43 were not matched. Hourly change: ivar= 1 mean= -0.72 stddev= 2.05 Hourly change: ivar= 2 mean= -2.16 stddev= 4.99 Hourly change: ivar= 3 mean= 60.00 stddev= 92.74 Hourly change: ivar= 4 mean= 0.20 stddev= 3.83 Hourly change: ivar= 5 mean= -0.42 stddev= 4.29 Hourly change: ivar= 6 mean= -1.60 stddev= 7.56 numdiff < 2, no dev_ck done. Hourly change: ivar= 8 mean= 0.30 stddev= 0.14 Hourly change: ivar= 9 mean= 0.12 stddev= 0.75 Hourly change: ivar= 10 mean= -579.10 stddev= 931.25 Hourly change: ivar= 11 mean= 42.66 stddev= 63.21 Hourly change: ivar= 12 mean= -0.24 stddev= 0.26 numdiff < 2, no dev_ck done. Hourly change: ivar= 14 mean= 1.63 stddev= 3.59 ** temporal QC of surface data complete. ** AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched AUTO source not matched qsrc = 2.250000 2.250000 40000.00 2.250000 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 2.250000 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 4.000000 4.000000 40000.00 1.232100 1.6000002E-05 4.000000 qsrc = 4.000000 4.000000 90000.00 4.000000 1.6000002E-05 4.000000 qsrc = 1.000000 1.000000 14884.00 0.3600000 1.6000002E-05 1.000000 qsrc = 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 qsrc = 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 BARQC: nsta= 43 Fortran I/O unit 38 returned to the free list. Fortran I/O unit 37 returned to the free list. Processing file 2 data/okmeso201302100905.lso Fortran I/O unit 37 picked from the free list. Opening qclist: okmeso201302100905.sqc Fortran I/O unit 38 picked from the free list. Opening qclist: okmeso201302100905.lsq Calling prepsfcobs Getting surface data from: data/okmeso201302100905.lso Fortran I/O unit 36 picked from the free list. Blacklisted station GAG not found in dataset Blacklisted station 1F0 not found in dataset Blacklisted station PVJ not found in dataset Blacklisted station JWG not found in dataset Blacklisted station F05 not found in dataset Blacklisted station LAW not found in dataset Blacklisted station SNK not found in dataset Blacklisted station PVW not found in dataset Blacklisted station HHF not found in dataset Blacklisted station KHRS not found in dataset Blacklisted station KONS not found in dataset Fortran I/O unit 36 returned to the free list. Normal completion of READ_SURFACE_OBS LSO data vaild time: 10-FEB-2013 09:05:00.00 Getting past surface data from: data/okmeso201302100805.lso Fortran I/O unit 36 picked from the free list. Blacklisted station GAG not found in dataset Blacklisted station 1F0 not found in dataset Blacklisted station PVJ not found in dataset Blacklisted station JWG not found in dataset Blacklisted station F05 not found in dataset Blacklisted station LAW not found in dataset Blacklisted station SNK not found in dataset Blacklisted station PVW not found in dataset Blacklisted station HHF not found in dataset Blacklisted station KHRS not found in dataset Blacklisted station KONS not found in dataset Fortran I/O unit 36 returned to the free list. Normal completion of READ_SURFACE_OBS # of data stns available: 119 119 FYI from sta_match: 0 stations of 119 were not matched. Hourly change: ivar= 1 mean= -0.19 stddev= 1.93 Hourly change: ivar= 2 mean= -0.95 stddev= 4.13 Hourly change: ivar= 3 mean= 16.20 stddev= 81.28 Hourly change: ivar= 4 mean= -0.45 stddev= 3.15 Hourly change: ivar= 5 mean= 1.41 stddev= 4.27 Hourly change: ivar= 6 mean= -0.95 stddev= 3.69 Hourly change: ivar= 7 mean= -0.51 stddev= 0.76 numdiff < 2, no dev_ck done. numdiff < 2, no dev_ck done. numdiff < 2, no dev_ck done. numdiff < 2, no dev_ck done. numdiff < 2, no dev_ck done. std dev = 0., dev_ck not completed... numdiff < 2, no dev_ck done. ** temporal QC of surface data complete. ** qsrc = 2.250000 2.250000 40000.00 2.250000 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 2.250000 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 2.250000 2.250000 40000.00 1.232100 1.6000002E-05 2.250000 qsrc = 4.000000 4.000000 40000.00 1.232100 1.6000002E-05 4.000000 qsrc = 4.000000 4.000000 90000.00 4.000000 1.6000002E-05 4.000000 qsrc = 1.000000 1.000000 14884.00 0.3600000 1.6000002E-05 1.000000 qsrc = 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 qsrc = 0.000000 0.000000 0.000000 0.000000 0.000000 0.000000 BARQC: nsta= 119 QC flagging data...sta=KENT var, ob =qv 3.3772851E-03 delta ob = 1.6399790E-03 3.0*stdv,qclimit= 2.4459750E-04 2.0000001E-02 Fortran I/O unit 37 returned to the free list. Fortran I/O unit 38 returned to the free list. Calling grdtosng Calling prepuaobs Calling grdtoua allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 allocating full ref_mos_3d 103 28 13 Calling prepradar allocating full ref_mos_3d 103 28 13 RDRADCOL: Opening radar file - nids/r882013021009_0909_KFDR.adas.hdf4 RADAR file source, srcrad( 1) = 88D-AII runname: r882 iradfmt: 1, strhoptin: 2, mapprin: 2 dxin,dyin,dzin: 400. 400. 1000. ctrlatin,ctrlonin: 33.00 -97.11 tlat1in,tlat2in,tlonin: 32.00 34.00 -97.00 scalin: 1. latrad,lonrad,elvrad: 34.36 -98.98 396.00 Got nradvr,iradvr: 6 1 2 3 4 5 6 0 0 0 0 itime = 1676106581 Reading remapped raw radar data for: 02-10-13 09:09 UTC Adding radar KFDR to mosaic. Reflectivity coverage 3.00 km to 230.00 km. Reflectivity elevs 0.53 deg to 6.37 deg. RDRADCOL: Opening radar file - nids/r882013021009_0911_KFWS.adas.hdf4 Processor: 4 accepts 511 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 5 accepts 511 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 8 accepts 2178 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 9 accepts 2178 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 14 accepts 200 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 27 accepts 6 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 31 accepts 363 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 12 accepts 4805 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 13 accepts 4805 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 18 accepts 1169 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 35 accepts 1213 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 39 accepts 2503 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 22 accepts 2848 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 60 accepts 3439 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 56 accepts 5325 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 63 accepts 5537 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 47 accepts 5134 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 43 accepts 3893 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 26 accepts 5015 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 51 accepts 6239 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 52 accepts 5987 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 55 accepts 7220 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. RADAR file source, srcrad( 1) = 88D-AII runname: r882 iradfmt: 1, strhoptin: 2, mapprin: 2 dxin,dyin,dzin: 400. 400. 1000. ctrlatin,ctrlonin: 33.00 -97.11 tlat1in,tlat2in,tlonin: 32.00 34.00 -97.00 scalin: 1. latrad,lonrad,elvrad: 32.57 -97.30 228.00 Got nradvr,iradvr: 6 1 2 3 4 5 6 0 0 0 0 itime = 1676106698 Reading remapped raw radar data for: 02-10-13 09:11 UTC Processor: 59 accepts 7848 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 17 accepts 7864 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 30 accepts 6995 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 48 accepts 6935 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 34 accepts 8747 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 44 accepts 7998 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 40 accepts 9268 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 61 accepts 8512 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 62 accepts 8756 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 16 accepts 7864 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 20 accepts 10479 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 21 accepts 10479 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 38 accepts 10303 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 53 accepts 12915 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 57 accepts 12634 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 58 accepts 12878 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 49 accepts 12940 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 50 accepts 12832 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 36 accepts 11219 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 41 accepts 12927 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 42 accepts 11620 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 54 accepts 12955 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 46 accepts 12458 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 24 accepts 12495 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 25 accepts 12495 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 28 accepts 13568 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 29 accepts 13850 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 32 accepts 12855 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 33 accepts 13912 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 37 accepts 13491 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 45 accepts 12898 non-missing columns from file - nids/r882013021009_0909_KFDR.adas.hdf4. Processor: 0 accepts 10492 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Adding radar KFWS to mosaic. Reflectivity coverage 3.00 km to 230.00 km. Reflectivity elevs 0.48 deg to 0.87 deg. RDRADCOL: Opening radar file - nids/r882013021009_0909_KGRK.adas.hdf4 Processor: 1 accepts 12796 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. RADAR file source, srcrad( 1) = 88D-AII runname: r882 iradfmt: 1, strhoptin: 2, mapprin: 2 dxin,dyin,dzin: 400. 400. 1000. ctrlatin,ctrlonin: 33.00 -97.11 tlat1in,tlat2in,tlonin: 32.00 34.00 -97.00 scalin: 1. latrad,lonrad,elvrad: 30.72 -97.38 179.00 Got nradvr,iradvr: 6 1 2 3 4 5 6 0 0 0 0 itime = 1676106550 Reading remapped raw radar data for: 02-10-13 09:09 UTC Processor: 3 accepts 2568 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 2 accepts 7756 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 7 accepts 4988 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 11 accepts 6933 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 4 accepts 15100 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 6 accepts 12234 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 12 accepts 14310 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 8 accepts 14596 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 10 accepts 13627 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 14 accepts 16221 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 5 accepts 19616 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 9 accepts 20716 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 13 accepts 21678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 60 accepts 710 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 52 accepts 2672 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 56 accepts 1517 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 48 accepts 3833 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 61 accepts 5804 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 44 accepts 4974 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 36 accepts 7213 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 40 accepts 6002 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 32 accepts 8947 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 15 accepts 9516 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 63 accepts 9332 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 53 accepts 10472 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 57 accepts 9111 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 62 accepts 9910 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 59 accepts 14357 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 58 accepts 15667 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 49 accepts 11633 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 51 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 55 accepts 15557 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 45 accepts 12774 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 24 accepts 12907 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 41 accepts 13802 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 28 accepts 11050 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 43 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 19 accepts 12251 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 39 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 16 accepts 14147 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 33 accepts 16747 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 20 accepts 14107 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 54 accepts 17995 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 35 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 23 accepts 14375 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 47 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 27 accepts 15651 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 37 accepts 15013 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 31 accepts 15678 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 18 accepts 19290 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 50 accepts 19277 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 21 accepts 21907 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 29 accepts 18850 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 25 accepts 20707 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 46 accepts 20418 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 38 accepts 22395 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 42 accepts 21446 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 34 accepts 23047 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 30 accepts 23461 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 26 accepts 23451 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 22 accepts 22175 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 17 accepts 21947 non-missing columns from file - nids/r882013021009_0911_KFWS.adas.hdf4. Processor: 0 accepts 10504 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Adding radar KGRK to mosaic. Reflectivity coverage 3.00 km to 230.00 km. Reflectivity elevs 0.48 deg to 5.10 deg. Processor: 1 accepts 15704 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 3 accepts 10266 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 25 accepts 3332 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 27 accepts 601 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 26 accepts 2278 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 24 accepts 2773 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. RDRADCOL: Opening radar file - nids/r882013021009_0910_KTLX.adas.hdf4 Processor: 2 accepts 15466 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 7 accepts 15291 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 23 accepts 3536 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 11 accepts 14995 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 4 accepts 15554 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 12 accepts 15753 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 8 accepts 15756 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 19 accepts 8035 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 20 accepts 7823 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 22 accepts 7713 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 21 accepts 10787 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 14 accepts 20469 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 10 accepts 22795 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 6 accepts 22991 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 13 accepts 23359 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 15 accepts 12669 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 9 accepts 23556 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 5 accepts 23254 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 16 accepts 12873 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 18 accepts 14712 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. Processor: 17 accepts 18337 non-missing columns from file - nids/r882013021009_0909_KGRK.adas.hdf4. RADAR file source, srcrad( 1) = 88D-AII runname: r882 iradfmt: 1, strhoptin: 2, mapprin: 2 dxin,dyin,dzin: 400. 400. 1000. ctrlatin,ctrlonin: 33.00 -97.11 tlat1in,tlat2in,tlonin: 32.00 34.00 -97.00 scalin: 1. latrad,lonrad,elvrad: 35.33 -97.28 384.00 Got nradvr,iradvr: 6 1 2 3 4 5 6 0 0 0 0 itime = 1676106649 Reading remapped raw radar data for: 02-10-13 09:10 UTC Adding radar KTLX to mosaic. Reflectivity coverage 3.00 km to 230.00 km. Reflectivity elevs 0.52 deg to 3.42 deg. Processor: 37 accepts 251 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 39 accepts 26 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 36 accepts 231 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 38 accepts 251 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. RDRADCOL: Opening radar file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 HDFOPEN: ERROR opening tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 RDRADCOL: ERROR opening hdf file:tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 for reading. Processor: 40 accepts 2568 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 43 accepts 2340 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 60 accepts 3060 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 41 accepts 4607 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 44 accepts 4620 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 42 accepts 4827 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 56 accepts 4962 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 52 accepts 5701 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 47 accepts 6712 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 61 accepts 8160 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 48 accepts 6481 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 63 accepts 10251 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 46 accepts 11176 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 45 accepts 9159 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 62 accepts 13158 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 49 accepts 13520 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 53 accepts 13501 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 51 accepts 11737 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 57 accepts 12562 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 59 accepts 15275 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 55 accepts 14832 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 50 accepts 17987 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 54 accepts 20299 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 58 accepts 20009 non-missing columns from file - nids/r882013021009_0910_KTLX.adas.hdf4. Processor: 63 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 57 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 54 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 52 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 62 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 60 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 50 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 55 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 59 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 48 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 49 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 53 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 56 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 51 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 61 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 58 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 18 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 30 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 25 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 28 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 23 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 21 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 31 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 19 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 16 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 22 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 27 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 24 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 29 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 6 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 34 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 26 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 3 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 38 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 20 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 1 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 43 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 17 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 13 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 40 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 15 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 47 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 7 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 37 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 11 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 39 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 5 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 33 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 8 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 32 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 4 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 41 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 12 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 46 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 35 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 44 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 42 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 2 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 36 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 14 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 45 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 10 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 9 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Processor: 0 finds maximum number of vert levels 5 from file - tdwr/tdwr2013021009_0909_TDFW.adas.hdf4 Maximum local columns 51249 Prepradar: ncolrad = 252837 Calling prepretr Calling grdtoret Calling qcdiff QC Statistics for single-level data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 QC Statistics for UA data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 QC Statistics for radar data Variable Obs Rejected Percent Vr 675372 0 0.0 QC Statistics for retrieval data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 Analysis pass is: 1 Calling minimization ... The vertical influence radius is specified in grid points as: ---- The followings are k, zp, dzp, vradius at i=3,j=3 ---- 1 -102.3828 388.5532 4.000000 2 286.1703 388.5532 4.000000 3 674.7236 388.5532 4.000000 4 1063.277 388.5531 4.000000 5 1451.830 388.5532 4.000000 6 1840.383 388.5530 4.000000 7 2228.936 388.5532 4.000000 8 2617.489 388.6560 4.000000 9 3006.145 1554.214 4.000000 10 4560.359 2719.768 4.000000 11 7280.126 2719.874 4.000000 12 10000.00 2719.873 4.000000 pscalc = 676.0367 Source usage switches for pass: 1 Single level data Using SA Using MESO Using WTXMN Using MESOALPN Using MESOHYDR Using MESOMET Using MESOROAD Using MESOTV Using NFAWOS Multiple level data none Raw radar data none Retrieval radar data none =========== iteration - 0 ========== sngsw = 1, uasw = 0, radsw = 0 After COSTF, cfun_total = 0.00 -----------------after minimization!--------------------- =========== out minimization =========== Calling qcdiff QC Statistics for single-level data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 QC Statistics for UA data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 QC Statistics for radar data Variable Obs Rejected Percent Vr 675372 0 0.0 QC Statistics for retrieval data Variable Obs Rejected Percent u 0 0 0.0 v 0 0 0.0 press 0 0 0.0 theta 0 0 0.0 qv 0 0 0.0 w 0 0 0.0 =========== out qcdiff =========== The cpu time used by 1 analysis is: 0.2587460 The cost function time is: 3.8865998E-02 The gradient part is: 4.0069997E-02 The minimization part is: 1.0450035E-03 Analysis pass is: 2 Calling minimization ... The vertical influence radius is specified in grid points as: ---- The followings are k, zp, dzp, vradius at i=3,j=3 ---- 1 -102.3828 388.5532 4.000000 2 286.1703 388.5532 4.000000 3 674.7236 388.5532 4.000000 4 1063.277 388.5531 4.000000 5 1451.830 388.5532 4.000000 6 1840.383 388.5530 4.000000 7 2228.936 388.5532 4.000000 8 2617.489 388.6560 4.000000 9 3006.145 1554.214 4.000000 10 4560.359 2719.768 4.000000 11 7280.126 2719.874 4.000000 12 10000.00 2719.873 4.000000 Source usage switches for pass: 2 Single level data none Multiple level data none Raw radar data Using 88D-AII Using 88D-NIDS Using CASA-IP1 Using TDWR Retrieval radar data none pscalc = 26.67028 =========== iteration - 0 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 3276962.97 =========== iteration - 1 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 3219965.42 =========== iteration - 2 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 3000850.97 =========== iteration - 3 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 2266404.80 =========== iteration - 4 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 2013981.59 =========== iteration - 5 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 1103616.38 =========== iteration - 6 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 1013120.28 =========== iteration - 7 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 974720.90 =========== iteration - 8 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 843654.06 =========== iteration - 9 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 831989.92 =========== iteration - 10 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 766148.94 =========== iteration - 11 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 734963.11 =========== iteration - 12 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 639322.45 =========== iteration - 13 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 598167.40 =========== iteration - 14 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 545527.09 =========== iteration - 15 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 529314.76 =========== iteration - 16 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 504730.30 =========== iteration - 17 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 461478.98 =========== iteration - 18 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 443273.13 =========== iteration - 19 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 419069.90 =========== iteration - 20 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 411759.94 =========== iteration - 21 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 389233.28 =========== iteration - 22 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 366211.94 =========== iteration - 23 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 362568.03 =========== iteration - 24 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 352983.52 =========== iteration - 25 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 343114.58 =========== iteration - 26 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 328632.71 =========== iteration - 27 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 304295.25 =========== iteration - 28 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 276632.51 =========== iteration - 29 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 260157.60 =========== iteration - 30 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 255653.73 =========== iteration - 31 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 250377.15 =========== iteration - 32 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 245904.78 =========== iteration - 33 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 229785.78 =========== iteration - 34 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 228187.62 =========== iteration - 35 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 225280.47 =========== iteration - 36 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 221041.92 =========== iteration - 37 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 218384.18 =========== iteration - 38 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 214131.23 =========== iteration - 39 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 213297.53 =========== iteration - 40 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 211081.86 =========== iteration - 41 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 207903.27 =========== iteration - 42 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 209466.85 =========== iteration - 43 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 206003.92 =========== iteration - 44 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 204316.51 =========== iteration - 45 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 201305.56 =========== iteration - 46 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 199098.25 =========== iteration - 47 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 195799.87 =========== iteration - 48 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 191216.33 =========== iteration - 49 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 187657.87 =========== iteration - 50 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 192683.44 =========== iteration - 51 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 185425.42 =========== iteration - 52 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 184097.29 =========== iteration - 53 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 181834.32 =========== iteration - 54 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 180178.23 =========== iteration - 55 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 177633.20 =========== iteration - 56 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 175399.37 =========== iteration - 57 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 173639.46 =========== iteration - 58 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 181752.63 =========== iteration - 59 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 172298.72 =========== iteration - 60 ========== sngsw = 0, uasw = 0, radsw = 1 After COSTF, cfun_total = 171149.68 -----------------after minimization!--------------------- =========== out minimization =========== =========== out qcdiff =========== The cpu time used by 2 analysis is: 23.17862 The cost function time is: 14.12758 The gradient part is: 8.313786 The minimization part is: 0.4053389 The end of 3DVar analysis Creating status file: ad2013021009.adasstat Creating station list file: ad2013021009.adasstn Calling Cloud Cover Analysis: cloud_cv Welcome to the ADAS Cloud Analysis Call background fields routine Initializing the cloud analysis grid Call Ingest/Insert SAO routines Inserting SAO data from 162 stations. Num stations analyzed/cloud soundings = 1 1 Analyzing SAO cloud soundings Barnes_r5 called Good value of iskip = 1 # of cloud soundings = 1 Min possible weight = 4.5987583E-10 Max possible weight = 100000.0 Ncnt = 10 radm2*100,iii_max,n_fnorm: 1.533000 517912 543180 Calculating solar position parameters. Getting satellite visible data remapped on the model grid Skipping vis processing Inserting satellite IR data. Getting satellite IR data remapped on the model grid Skipping IR insertion Inserting radar reflectivity data. Inserting radar reflectivity pt(101, 26): Solar alt = -51.89011, declin = -14.61388, hour_angle = -143.15094 Total cloud grid points modified by radar = 615289 !!!WARNING!!! Problem using satellite VIS data. Skipping VIS data insertion Comparing clouds and radar (_RDR) vis_rad_thcvr = 0.20 vis_rad_thdbz = 10.00 Calculating Cloud Ceiling, Base and Top Calculating cloud liquid/ice water. Start LWC subroutine. wmhr_Cu= 5.0000002E-04 wmhr_Sc= 4.9999999E-05 wc_St= 5.0000001E-02 thresh_cvr= 0.6500000 Generating Lowest Base and Highest Top Arrays Initializing SLWC array Initializing w array Initializing Cloud Type Array Finding Cloud Layers and Computing Output Field(s) Quality check consistency of comulunimbus cloud. n_cld_columns = 127622, n_slwc_call = 161388 Analyzing cloud/precipitation type. rlayer_refreez_max = 0.000000 n_frz_rain/n_sleet = 0 0 Computing Icing Severity Index field Computing Precip mixing ratio. Using Kessler radar reflectivity equations... Cloud options: cldqvopt= 1 cldqcopt= 1 cldqropt= 1 cldptopt= 5 cldwopt = 0 Enhancing qc and qi-fields Enhancing qr, qs, and qh-fields Adjusting ptprt to moist-adiab cloud temp for w>-0.2 frac of qc: 1.000000 adj_lim: 8.000000 max_adj= 238.1946 Enhancing RH-field for cldcvr between 0.35 and 0.90with linear ramp from 50.0% to 99.0% Data dump of grid and base state arrays into file ././/ad2013021009.hdfgrdbas Writing HDF4 data at time= 0.000 into file ././/ad2013021009.hdfgrdbas 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. History data dump in file ././ad2013021009.hdf000000 Writing HDF4 data at time= 0.000 into file ././ad2013021009.hdf000000 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 HDFWRT4D : Writing variable HDFWRT4D : Writing variable HDFWRT3D : 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. ==== ARPS3DVAR_MPI terminated normally ==== Job /lsf/7.0/linux2.6-glibc2.3-x86_64/bin/openmpi_wrapper -np 64 /home/kwthomas/rt2013/user/software/casa2013/openmpi/arps/abin/arps3dvar_mpi TID HOST_NAME COMMAND_LINE STATUS TERMINATION_TIME ===== ========== ================ ======================= =================== 00000 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00001 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00002 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00003 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00004 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00005 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00006 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00007 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00008 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00009 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00010 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00011 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00012 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00013 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00014 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00015 c009 /home/kwthomas/r Done 02/10/2013 03:15:56 00016 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00017 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00018 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00019 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00020 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00021 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00022 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00023 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00024 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00025 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00026 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00027 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00028 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00029 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00030 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00031 c007 /home/kwthomas/r Done 02/10/2013 03:15:56 00032 c006 /home/kwthomas/r Done 02/10/2013 03:15:57 00033 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00034 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00035 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00036 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00037 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00038 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00039 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00040 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00041 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00042 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00043 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00044 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00045 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00046 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00047 c006 /home/kwthomas/r Done 02/10/2013 03:15:56 00048 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00049 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00050 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00051 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00052 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00053 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00054 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00055 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00056 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00057 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00058 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00059 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00060 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00061 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00062 c017 /home/kwthomas/r Done 02/10/2013 03:15:56 00063 c017 /home/kwthomas/r Done 02/10/2013 03:15:56