log.RadTest.role00.0000.out

----------------------------------------------------------------------
Beginning MPAS-atmosphere Output Log File for task       0 of     720
    Opened at 2020/03/04 15:43:56
----------------------------------------------------------------------

 
 Using default single-precision reals
 
 Reading namelist from file namelist.atmosphere
 
 ----- Setting up physics suite 'mesoscale_reference' -----
 
     config_microp_scheme       = mp_wsm6
     config_convection_scheme   = cu_ntiedtke
     config_pbl_scheme          = bl_ysu
     config_gwdo_scheme         = bl_ysu_gwdo
     config_radt_cld_scheme     = cld_fraction
     config_radt_lw_scheme      = rrtmg_lw
     config_radt_sw_scheme      = rrtmg_sw
     config_sfclayer_scheme     = sf_monin_obukhov
     config_lsm_scheme          = noah
 
 ----- Setting up package variables -----
 
     mp_kessler_in           = F
     mp_thompson_in          = F
     mp_wsm6_in              = T
     cu_grell_freitas_in     = F
     cu_kain_fritsch_in      = F
     cu_tiedtke_in           = T
     bl_mynn_in              = F
     bl_ysu_in               = T
 
 Reading streams configuration from file streams.atmosphere
 Found mesh stream with filename template x1.5898242.init.nc
 Using io_type Parallel-NetCDF (CDF-5, large variable support) for mesh stream
  ** Attempting to bootstrap MPAS framework using stream: input
 Bootstrapping framework with mesh fields from input file 'x1.5898242.init.nc'
  * Requested field rainprod is deactivated due to packages, or is a scratch variable.
  * Requested field evapprod is deactivated due to packages, or is a scratch variable.
  * Requested field nt_c is deactivated due to packages, or is a scratch variable.
  * Requested field mu_c is deactivated due to packages, or is a scratch variable.
  * Requested field nca is deactivated due to packages, or is a scratch variable.
  * Requested field w0avg is deactivated due to packages, or is a scratch variable.
  * Requested field qcg is deactivated due to packages, or is a scratch variable.
  * Requested field sh3d is deactivated due to packages, or is a scratch variable.
  * Requested field qke is deactivated due to packages, or is a scratch variable.
  * Requested field qke_adv is deactivated due to packages, or is a scratch variable.
  * Requested field cov is deactivated due to packages, or is a scratch variable.
  * Requested field qsq is deactivated due to packages, or is a scratch variable.
  * Requested field tsq is deactivated due to packages, or is a scratch variable.
  * Requested field el_pbl is deactivated due to packages, or is a scratch variable.
  * Requested field ch is deactivated due to packages, or is a scratch variable.
  * Requested field k22_shallow is deactivated due to packages, or is a scratch variable.
  * Requested field kbcon_shallow is deactivated due to packages, or is a scratch variable.
  * Requested field ktop_shallow is deactivated due to packages, or is a scratch variable.
  * Requested field ktop_deep is deactivated due to packages, or is a scratch variable.
  * Requested field xmb_total is deactivated due to packages, or is a scratch variable.
  * Requested field xmb_shallow is deactivated due to packages, or is a scratch variable.
  * Requested field qc_cu is deactivated due to packages, or is a scratch variable.
  * Requested field qi_cu is deactivated due to packages, or is a scratch variable.
  * Requested field rqrcuten is deactivated due to packages, or is a scratch variable.
  * Requested field rqscuten is deactivated due to packages, or is a scratch variable.
  * Requested field rniblten is deactivated due to packages, or is a scratch variable.
  * Requested field u_amb is deactivated due to packages, or is a scratch variable.
  * Requested field rho_amb is deactivated due to packages, or is a scratch variable.
  * Requested field theta_amb is deactivated due to packages, or is a scratch variable.
 
Parsing run-time I/O configuration from streams.atmosphere ...
 
 -----  found immutable stream "input" in streams.atmosphere  -----
         filename template:  x1.5898242.init.nc
         filename interval:  none
         I/O type:           Parallel-NetCDF (CDF-5, large variable support)
         direction:          input
         reference time:     initial_time
         record interval:    -
         real precision:     4 bytes
         input alarm:        initial_only
 
 -----  found immutable stream "restart" in streams.atmosphere  -----
         filename template:  restart.$Y-$M-$D_$h.$m.$s.nc
         filename interval:  none
         direction:          input, output
         reference time:     initial_time
         record interval:    -
         input alarm:        initial_only
         output alarm:       none
 
 -----  found immutable stream "iau" in streams.atmosphere  -----
         filename template:  x1.5898242.AmB.$Y-$M-$D_$h.$m.$s.nc
         filename interval:  none
         direction:          input
         reference time:     initial_time
         record interval:    -
         input alarm:        initial_only
         package:            iau

 
 -----  found stream "output" in streams.atmosphere  -----
         filename template:  history.$Y-$M-$D_$h.$m.$s.nc
         filename interval:  none
         direction:          output
         reference time:     initial_time
         record interval:    -
         output alarm:       none
 
 -----  found stream "diagnostics" in streams.atmosphere  -----
         filename template:  diag.$Y-$M-$D_$h.$m.$s.nc
         filename interval:  none
         direction:          output
         reference time:     initial_time
         record interval:    -
         output alarm:       none
 
 -----  found stream "surface" in streams.atmosphere  -----
         filename template:  x1.5898242.sfc_update.nc
         filename interval:  none
         direction:          input
         reference time:     initial_time
         record interval:    -
         input alarm:        none
 
 ----- done parsing run-time I/O from streams.atmosphere -----

  ** Validating streams
 
 
 Reading dimensions from input streams ...
 
   *** unable to open input file x1.40962.init.nc for stream 'da_input'
 
 ----- reading dimensions from stream 'input' using file x1.5898242.init.nc
        nVertLevels = 56
        nCells = 5898242
        nEdges = 17694720
        nVertices = 11796480
        TWO = 2
        maxEdges = 6
        maxEdges2 = 12
        R3 = 3
        vertexDegree = 3
        nVertLevelsP1 = 57
        FIFTEEN = 15
        nMonths = 12
        nSoilLevels = 4
 
   *** unable to open input file restart.2010-10-23_00.00.00.nc for stream 'restart'
 
   *** unable to open input file x1.5898242.AmB.2010-10-23_00.00.00.nc for stream 'iau'
 
   *** unable to open input file x1.5898242.sfc_update.nc for stream 'surface'
 
 ----- done reading dimensions from input streams -----
 
 
 Processing decomposed dimensions ...
 
  ----- done processing decomposed dimensions -----
 
 
 Assigning remaining dimensions from definitions in Registry.xml ...
        THREE = 3
        TWENTYONE = 21
        nLags = 140 (input_soil_temperature_lag)
        nOznLevels = 59 (noznlev)
        nAerLevels = 29 (naerlev)
        cam_dim1 = 4 (camdim1)
        nVertLevelsP2 = 58
        nIsoLevelsT = 5
        nIsoLevelsZ = 13
 
  ----- done assigning dimensions from Registry.xml -----
 
 
WARNING: Variable qi not in input file.
WARNING: Variable qs not in input file.
WARNING: Variable qg not in input file.
      DT_RADTLW   =3600.00
      DT_RADTSW   =3600.00
      DT_CU       =60.0000
      DT_PBL      =60.0000
      IMS =1   IME =8187
      JMS =1   JME =1
      KMS =1   KME =57
      IDS =1   IDE =8188
      JDS =1   JDE =2
      KDS =1   KDE =57
      ITS =1   ITE =8187
      JTS =1   JTE =1
      KTS =1   KTE =56
 --- specifics on cloud microphysics option microp_scheme = mp_wsm6
 --- dt_microp = 60.0000
 --- n_microp  = 1
 --- has_reqc  = 0
 --- has_reqi  = 0
 --- has_reqs  = 0
     skipping over lutype = OLD
     skipping over lutype = USGS
     landuse type = MODIFIED_IGBP_MODIS_NOAH found          33  categories           2  seasons
 
 --- initialize NOAH LSM tables
     skipping over lutype = USGS
     landuse type = MODIFIED_IGBP_MODIS_NOAH found          20  categories
     end read VEGPARM.TBL
     input soil texture classification = STAS
     soil texture classification = STAS found          19  categories
     end read SOILPARM.TBL
     end read GENPARM.TBL
 --- end initialize NOAH LSM tables
 
 min/max of meshScalingDel2 = 1.00000 1.00000
 min/max of meshScalingDel4 = 1.00000 1.00000
 
 Begin timestep 2010-10-23_00:00:00
 --- time to update background surface albedo, greeness fraction.
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 10.8210 s
 
 Begin timestep 2010-10-23_00:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48723 s
 
 Begin timestep 2010-10-23_00:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63518 s
 
 Begin timestep 2010-10-23_00:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60287 s
 
 Begin timestep 2010-10-23_00:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.42329 s
 
 Begin timestep 2010-10-23_00:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.00343 s
 
 Begin timestep 2010-10-23_00:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64602 s
 
 Begin timestep 2010-10-23_00:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49595 s
 
 Begin timestep 2010-10-23_00:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.15239 s
 
 Begin timestep 2010-10-23_00:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59209 s
 
 Begin timestep 2010-10-23_00:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.46344 s
 
 Begin timestep 2010-10-23_00:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61460 s
 
 Begin timestep 2010-10-23_00:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61036 s
 
 Begin timestep 2010-10-23_00:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.08234 s
 
 Begin timestep 2010-10-23_00:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49682 s
 
 Begin timestep 2010-10-23_00:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.24040 s
 
 Begin timestep 2010-10-23_00:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57023 s
 
 Begin timestep 2010-10-23_00:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74654 s
 
 Begin timestep 2010-10-23_00:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.44071 s
 
 Begin timestep 2010-10-23_00:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74340 s
 
 Begin timestep 2010-10-23_00:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53128 s
 
 Begin timestep 2010-10-23_00:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.41226 s
 
 Begin timestep 2010-10-23_00:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60997 s
 
 Begin timestep 2010-10-23_00:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.93026 s
 
 Begin timestep 2010-10-23_00:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.01580 s
 
 Begin timestep 2010-10-23_00:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.76225 s
 
 Begin timestep 2010-10-23_00:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.81638 s
 
 Begin timestep 2010-10-23_00:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59099 s
 
 Begin timestep 2010-10-23_00:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64205 s
 
 Begin timestep 2010-10-23_00:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.46927 s
 
 Begin timestep 2010-10-23_00:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63814 s
 
 Begin timestep 2010-10-23_00:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58436 s
 
 Begin timestep 2010-10-23_00:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61036 s
 
 Begin timestep 2010-10-23_00:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64780 s
 
 Begin timestep 2010-10-23_00:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69085 s
 
 Begin timestep 2010-10-23_00:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67026 s
 
 Begin timestep 2010-10-23_00:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55886 s
 
 Begin timestep 2010-10-23_00:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.13563 s
 
 Begin timestep 2010-10-23_00:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07247 s
 
 Begin timestep 2010-10-23_00:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71049 s
 
 Begin timestep 2010-10-23_00:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74463 s
 
 Begin timestep 2010-10-23_00:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45581 s
 
 Begin timestep 2010-10-23_00:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61407 s
 
 Begin timestep 2010-10-23_00:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66216 s
 
 Begin timestep 2010-10-23_00:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61394 s
 
 Begin timestep 2010-10-23_00:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.47795 s
 
 Begin timestep 2010-10-23_00:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57573 s
 
 Begin timestep 2010-10-23_00:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60315 s
 
 Begin timestep 2010-10-23_00:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60469 s
 
 Begin timestep 2010-10-23_00:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.16141 s
 
 Begin timestep 2010-10-23_00:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53830 s
 
 Begin timestep 2010-10-23_00:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.92360 s
 
 Begin timestep 2010-10-23_00:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.01677 s
 
 Begin timestep 2010-10-23_00:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67641 s
 
 Begin timestep 2010-10-23_00:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57502 s
 
 Begin timestep 2010-10-23_00:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.46657 s
 
 Begin timestep 2010-10-23_00:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65225 s
 
 Begin timestep 2010-10-23_00:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54205 s
 
 Begin timestep 2010-10-23_00:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60197 s
 
 Begin timestep 2010-10-23_00:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70406 s
 
 Begin timestep 2010-10-23_01:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 13.3592 s
 
 Begin timestep 2010-10-23_01:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55184 s
 
 Begin timestep 2010-10-23_01:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62405 s
 
 Begin timestep 2010-10-23_01:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48078 s
 
 Begin timestep 2010-10-23_01:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71061 s
 
 Begin timestep 2010-10-23_01:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56048 s
 
 Begin timestep 2010-10-23_01:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57715 s
 
 Begin timestep 2010-10-23_01:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45088 s
 
 Begin timestep 2010-10-23_01:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19734 s
 
 Begin timestep 2010-10-23_01:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59791 s
 
 Begin timestep 2010-10-23_01:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.02462 s
 
 Begin timestep 2010-10-23_01:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58942 s
 
 Begin timestep 2010-10-23_01:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.00031 s
 
 Begin timestep 2010-10-23_01:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.43151 s
 
 Begin timestep 2010-10-23_01:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58881 s
 
 Begin timestep 2010-10-23_01:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66055 s
 
 Begin timestep 2010-10-23_01:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.05909 s
 
 Begin timestep 2010-10-23_01:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.92253 s
 
 Begin timestep 2010-10-23_01:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53366 s
 
 Begin timestep 2010-10-23_01:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.08672 s
 
 Begin timestep 2010-10-23_01:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.43174 s
 
 Begin timestep 2010-10-23_01:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54285 s
 
 Begin timestep 2010-10-23_01:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.82182 s
 
 Begin timestep 2010-10-23_01:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61749 s
 
 Begin timestep 2010-10-23_01:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.77761 s
 
 Begin timestep 2010-10-23_01:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57293 s
 
 Begin timestep 2010-10-23_01:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57224 s
 
 Begin timestep 2010-10-23_01:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48073 s
 
 Begin timestep 2010-10-23_01:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59003 s
 
 Begin timestep 2010-10-23_01:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56569 s
 
 Begin timestep 2010-10-23_01:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57713 s
 
 Begin timestep 2010-10-23_01:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26301 s
 
 Begin timestep 2010-10-23_01:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.39001 s
 
 Begin timestep 2010-10-23_01:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52770 s
 
 Begin timestep 2010-10-23_01:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52749 s
 
 Begin timestep 2010-10-23_01:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.47402 s
 
 Begin timestep 2010-10-23_01:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70372 s
 
 Begin timestep 2010-10-23_01:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62005 s
 
 Begin timestep 2010-10-23_01:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66619 s
 
 Begin timestep 2010-10-23_01:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.35834 s
 
 Begin timestep 2010-10-23_01:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65681 s
 
 Begin timestep 2010-10-23_01:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62642 s
 
 Begin timestep 2010-10-23_01:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67176 s
 
 Begin timestep 2010-10-23_01:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72278 s
 
 Begin timestep 2010-10-23_01:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57326 s
 
 Begin timestep 2010-10-23_01:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61926 s
 
 Begin timestep 2010-10-23_01:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65397 s
 
 Begin timestep 2010-10-23_01:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67490 s
 
 Begin timestep 2010-10-23_01:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.16526 s
 
 Begin timestep 2010-10-23_01:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57441 s
 
 Begin timestep 2010-10-23_01:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.35829 s
 
 Begin timestep 2010-10-23_01:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50573 s
 
 Begin timestep 2010-10-23_01:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20435 s
 
 Begin timestep 2010-10-23_01:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.35179 s
 
 Begin timestep 2010-10-23_01:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.50039 s
 
 Begin timestep 2010-10-23_01:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54453 s
 
 Begin timestep 2010-10-23_01:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50557 s
 
 Begin timestep 2010-10-23_01:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61866 s
 
 Begin timestep 2010-10-23_01:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57225 s
 
 Begin timestep 2010-10-23_01:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.80158 s
 
 Begin timestep 2010-10-23_02:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 9.05683 s
 
 Begin timestep 2010-10-23_02:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20772 s
 
 Begin timestep 2010-10-23_02:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.24501 s
 
 Begin timestep 2010-10-23_02:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.77538 s
 
 Begin timestep 2010-10-23_02:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69396 s
 
 Begin timestep 2010-10-23_02:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60087 s
 
 Begin timestep 2010-10-23_02:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58853 s
 
 Begin timestep 2010-10-23_02:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74646 s
 
 Begin timestep 2010-10-23_02:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56596 s
 
 Begin timestep 2010-10-23_02:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65833 s
 
 Begin timestep 2010-10-23_02:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19111 s
 
 Begin timestep 2010-10-23_02:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75821 s
 
 Begin timestep 2010-10-23_02:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.37959 s
 
 Begin timestep 2010-10-23_02:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.73023 s
 
 Begin timestep 2010-10-23_02:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.25947 s
 
 Begin timestep 2010-10-23_02:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72617 s
 
 Begin timestep 2010-10-23_02:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52153 s
 
 Begin timestep 2010-10-23_02:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69968 s
 
 Begin timestep 2010-10-23_02:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70668 s
 
 Begin timestep 2010-10-23_02:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.06358 s
 
 Begin timestep 2010-10-23_02:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68003 s
 
 Begin timestep 2010-10-23_02:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72174 s
 
 Begin timestep 2010-10-23_02:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52698 s
 
 Begin timestep 2010-10-23_02:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.38231 s
 
 Begin timestep 2010-10-23_02:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49225 s
 
 Begin timestep 2010-10-23_02:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26771 s
 
 Begin timestep 2010-10-23_02:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.21245 s
 
 Begin timestep 2010-10-23_02:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.12332 s
 
 Begin timestep 2010-10-23_02:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.78397 s
 
 Begin timestep 2010-10-23_02:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66958 s
 
 Begin timestep 2010-10-23_02:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.81138 s
 
 Begin timestep 2010-10-23_02:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.34564 s
 
 Begin timestep 2010-10-23_02:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.97471 s
 
 Begin timestep 2010-10-23_02:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.17020 s
 
 Begin timestep 2010-10-23_02:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.47358 s
 
 Begin timestep 2010-10-23_02:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19643 s
 
 Begin timestep 2010-10-23_02:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19279 s
 
 Begin timestep 2010-10-23_02:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59394 s
 
 Begin timestep 2010-10-23_02:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52791 s
 
 Begin timestep 2010-10-23_02:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.11964 s
 
 Begin timestep 2010-10-23_02:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.24263 s
 
 Begin timestep 2010-10-23_02:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.34773 s
 
 Begin timestep 2010-10-23_02:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.89162 s
 
 Begin timestep 2010-10-23_02:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72314 s
 
 Begin timestep 2010-10-23_02:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.91169 s
 
 Begin timestep 2010-10-23_02:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68334 s
 
 Begin timestep 2010-10-23_02:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.08661 s
 
 Begin timestep 2010-10-23_02:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.77615 s
 
 Begin timestep 2010-10-23_02:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.37047 s
 
 Begin timestep 2010-10-23_02:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.02196 s
 
 Begin timestep 2010-10-23_02:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61664 s
 
 Begin timestep 2010-10-23_02:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.03495 s
 
 Begin timestep 2010-10-23_02:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.16361 s
 
 Begin timestep 2010-10-23_02:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52767 s
 
 Begin timestep 2010-10-23_02:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19345 s
 
 Begin timestep 2010-10-23_02:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63279 s
 
 Begin timestep 2010-10-23_02:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69059 s
 
 Begin timestep 2010-10-23_02:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52842 s
 
 Begin timestep 2010-10-23_02:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65960 s
 
 Begin timestep 2010-10-23_02:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.09086 s
 
 Begin timestep 2010-10-23_03:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 12.6605 s
 
 Begin timestep 2010-10-23_03:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58176 s
 
 Begin timestep 2010-10-23_03:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.76961 s
 
 Begin timestep 2010-10-23_03:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52731 s
 
 Begin timestep 2010-10-23_03:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.28534 s
 
 Begin timestep 2010-10-23_03:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.14449 s
 
 Begin timestep 2010-10-23_03:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.86192 s
 
 Begin timestep 2010-10-23_03:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74945 s
 
 Begin timestep 2010-10-23_03:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.91440 s
 
 Begin timestep 2010-10-23_03:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64140 s
 
 Begin timestep 2010-10-23_03:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50906 s
 
 Begin timestep 2010-10-23_03:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62167 s
 
 Begin timestep 2010-10-23_03:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.44710 s
 
 Begin timestep 2010-10-23_03:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55494 s
 
 Begin timestep 2010-10-23_03:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.56628 s
 
 Begin timestep 2010-10-23_03:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62091 s
 
 Begin timestep 2010-10-23_03:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53469 s
 
 Begin timestep 2010-10-23_03:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56648 s
 
 Begin timestep 2010-10-23_03:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51025 s
 
 Begin timestep 2010-10-23_03:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59391 s
 
 Begin timestep 2010-10-23_03:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72966 s
 
 Begin timestep 2010-10-23_03:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54604 s
 
 Begin timestep 2010-10-23_03:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69784 s
 
 Begin timestep 2010-10-23_03:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.96547 s
 
 Begin timestep 2010-10-23_03:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59791 s
 
 Begin timestep 2010-10-23_03:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.80561 s
 
 Begin timestep 2010-10-23_03:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66163 s
 
 Begin timestep 2010-10-23_03:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67888 s
 
 Begin timestep 2010-10-23_03:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71527 s
 
 Begin timestep 2010-10-23_03:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54677 s
 
 Begin timestep 2010-10-23_03:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.13374 s
 
 Begin timestep 2010-10-23_03:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07945 s
 
 Begin timestep 2010-10-23_03:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.34870 s
 
 Begin timestep 2010-10-23_03:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75517 s
 
 Begin timestep 2010-10-23_03:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72107 s
 
 Begin timestep 2010-10-23_03:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58098 s
 
 Begin timestep 2010-10-23_03:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.40553 s
 
 Begin timestep 2010-10-23_03:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66258 s
 
 Begin timestep 2010-10-23_03:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.47819 s
 
 Begin timestep 2010-10-23_03:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67325 s
 
 Begin timestep 2010-10-23_03:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.85053 s
 
 Begin timestep 2010-10-23_03:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.45738 s
 
 Begin timestep 2010-10-23_03:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68488 s
 
 Begin timestep 2010-10-23_03:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20213 s
 
 Begin timestep 2010-10-23_03:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26591 s
 
 Begin timestep 2010-10-23_03:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68680 s
 
 Begin timestep 2010-10-23_03:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70129 s
 
 Begin timestep 2010-10-23_03:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.18251 s
 
 Begin timestep 2010-10-23_03:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.43261 s
 
 Begin timestep 2010-10-23_03:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19098 s
 
 Begin timestep 2010-10-23_03:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.18050 s
 
 Begin timestep 2010-10-23_03:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.78843 s
 
 Begin timestep 2010-10-23_03:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.96573 s
 
 Begin timestep 2010-10-23_03:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.80732 s
 
 Begin timestep 2010-10-23_03:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.85071 s
 
 Begin timestep 2010-10-23_03:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59215 s
 
 Begin timestep 2010-10-23_03:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74486 s
 
 Begin timestep 2010-10-23_03:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.28919 s
 
 Begin timestep 2010-10-23_03:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.90187 s
 
 Begin timestep 2010-10-23_03:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63114 s
 
 Begin timestep 2010-10-23_04:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 12.7900 s
 
 Begin timestep 2010-10-23_04:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.44622 s
 
 Begin timestep 2010-10-23_04:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48879 s
 
 Begin timestep 2010-10-23_04:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60727 s
 
 Begin timestep 2010-10-23_04:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60475 s
 
 Begin timestep 2010-10-23_04:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.47721 s
 
 Begin timestep 2010-10-23_04:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52219 s
 
 Begin timestep 2010-10-23_04:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50903 s
 
 Begin timestep 2010-10-23_04:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57046 s
 
 Begin timestep 2010-10-23_04:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.39174 s
 
 Begin timestep 2010-10-23_04:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60166 s
 
 Begin timestep 2010-10-23_04:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56171 s
 
 Begin timestep 2010-10-23_04:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56567 s
 
 Begin timestep 2010-10-23_04:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.06158 s
 
 Begin timestep 2010-10-23_04:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60869 s
 
 Begin timestep 2010-10-23_04:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.44092 s
 
 Begin timestep 2010-10-23_04:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.22428 s
 
 Begin timestep 2010-10-23_04:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.29222 s
 
 Begin timestep 2010-10-23_04:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48994 s
 
 Begin timestep 2010-10-23_04:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55446 s
 
 Begin timestep 2010-10-23_04:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57645 s
 
 Begin timestep 2010-10-23_04:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.02668 s
 
 Begin timestep 2010-10-23_04:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52008 s
 
 Begin timestep 2010-10-23_04:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64803 s
 
 Begin timestep 2010-10-23_04:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50371 s
 
 Begin timestep 2010-10-23_04:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.44514 s
 
 Begin timestep 2010-10-23_04:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.09494 s
 
 Begin timestep 2010-10-23_04:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45235 s
 
 Begin timestep 2010-10-23_04:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.21575 s
 
 Begin timestep 2010-10-23_04:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45316 s
 
 Begin timestep 2010-10-23_04:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56347 s
 
 Begin timestep 2010-10-23_04:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55518 s
 
 Begin timestep 2010-10-23_04:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07187 s
 
 Begin timestep 2010-10-23_04:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.39920 s
 
 Begin timestep 2010-10-23_04:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51594 s
 
 Begin timestep 2010-10-23_04:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49015 s
 
 Begin timestep 2010-10-23_04:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64277 s
 
 Begin timestep 2010-10-23_04:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53459 s
 
 Begin timestep 2010-10-23_04:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66316 s
 
 Begin timestep 2010-10-23_04:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65362 s
 
 Begin timestep 2010-10-23_04:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56357 s
 
 Begin timestep 2010-10-23_04:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.29013 s
 
 Begin timestep 2010-10-23_04:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07404 s
 
 Begin timestep 2010-10-23_04:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.13598 s
 
 Begin timestep 2010-10-23_04:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.17658 s
 
 Begin timestep 2010-10-23_04:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.04495 s
 
 Begin timestep 2010-10-23_04:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45701 s
 
 Begin timestep 2010-10-23_04:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50887 s
 
 Begin timestep 2010-10-23_04:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.43805 s
 
 Begin timestep 2010-10-23_04:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.45034 s
 
 Begin timestep 2010-10-23_04:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.02698 s
 
 Begin timestep 2010-10-23_04:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56027 s
 
 Begin timestep 2010-10-23_04:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.37734 s
 
 Begin timestep 2010-10-23_04:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64102 s
 
 Begin timestep 2010-10-23_04:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56559 s
 
 Begin timestep 2010-10-23_04:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58365 s
 
 Begin timestep 2010-10-23_04:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.35435 s
 
 Begin timestep 2010-10-23_04:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74385 s
 
 Begin timestep 2010-10-23_04:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49094 s
 
 Begin timestep 2010-10-23_04:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.86062 s
 
 Begin timestep 2010-10-23_05:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.40706 s
 
 Begin timestep 2010-10-23_05:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.04094 s
 
 Begin timestep 2010-10-23_05:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.09864 s
 
 Begin timestep 2010-10-23_05:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51676 s
 
 Begin timestep 2010-10-23_05:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71890 s
 
 Begin timestep 2010-10-23_05:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57057 s
 
 Begin timestep 2010-10-23_05:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69302 s
 
 Begin timestep 2010-10-23_05:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07139 s
 
 Begin timestep 2010-10-23_05:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26522 s
 
 Begin timestep 2010-10-23_05:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65201 s
 
 Begin timestep 2010-10-23_05:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.80360 s
 
 Begin timestep 2010-10-23_05:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.01038 s
 
 Begin timestep 2010-10-23_05:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57917 s
 
 Begin timestep 2010-10-23_05:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63040 s
 
 Begin timestep 2010-10-23_05:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60029 s
 
 Begin timestep 2010-10-23_05:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52101 s
 
 Begin timestep 2010-10-23_05:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64600 s
 
 Begin timestep 2010-10-23_05:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62242 s
 
 Begin timestep 2010-10-23_05:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.79094 s
 
 Begin timestep 2010-10-23_05:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66355 s
 
 Begin timestep 2010-10-23_05:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.41712 s
 
 Begin timestep 2010-10-23_05:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.13873 s
 
 Begin timestep 2010-10-23_05:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.58378 s
 
 Begin timestep 2010-10-23_05:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64396 s
 
 Begin timestep 2010-10-23_05:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.73118 s
 
 Begin timestep 2010-10-23_05:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67516 s
 
 Begin timestep 2010-10-23_05:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.78211 s
 
 Begin timestep 2010-10-23_05:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19314 s
 
 Begin timestep 2010-10-23_05:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.44899 s
 
 Begin timestep 2010-10-23_05:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19796 s
 
 Begin timestep 2010-10-23_05:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.65052 s
 
 Begin timestep 2010-10-23_05:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72641 s
 
 Begin timestep 2010-10-23_05:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62162 s
 
 Begin timestep 2010-10-23_05:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.01298 s
 
 Begin timestep 2010-10-23_05:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60864 s
 
 Begin timestep 2010-10-23_05:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.11046 s
 
 Begin timestep 2010-10-23_05:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52873 s
 
 Begin timestep 2010-10-23_05:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.52864 s
 
 Begin timestep 2010-10-23_05:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.63051 s
 
 Begin timestep 2010-10-23_05:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50670 s
 
 Begin timestep 2010-10-23_05:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.49360 s
 
 Begin timestep 2010-10-23_05:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.14414 s
 
 Begin timestep 2010-10-23_05:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.15869 s
 
 Begin timestep 2010-10-23_05:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.82454 s
 
 Begin timestep 2010-10-23_05:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61310 s
 
 Begin timestep 2010-10-23_05:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.82502 s
 
 Begin timestep 2010-10-23_05:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.40294 s
 
 Begin timestep 2010-10-23_05:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74903 s
 
 Begin timestep 2010-10-23_05:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50609 s
 
 Begin timestep 2010-10-23_05:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.11172 s
 
 Begin timestep 2010-10-23_05:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.53095 s
 
 Begin timestep 2010-10-23_05:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70214 s
 
 Begin timestep 2010-10-23_05:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57334 s
 
 Begin timestep 2010-10-23_05:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.48649 s
 
 Begin timestep 2010-10-23_05:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.32500 s
 
 Begin timestep 2010-10-23_05:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.22311 s
 
 Begin timestep 2010-10-23_05:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.57106 s
 
 Begin timestep 2010-10-23_05:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.11322 s
 
 Begin timestep 2010-10-23_05:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.29571 s
 
 Begin timestep 2010-10-23_05:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.78938 s
 
 Begin timestep 2010-10-23_06:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 12.8908 s
 
 Begin timestep 2010-10-23_06:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.50148 s
 
 Begin timestep 2010-10-23_06:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19166 s
 
 Begin timestep 2010-10-23_06:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.61367 s
 
 Begin timestep 2010-10-23_06:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.27113 s
 
 Begin timestep 2010-10-23_06:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.55528 s
 
 Begin timestep 2010-10-23_06:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54452 s
 
 Begin timestep 2010-10-23_06:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75363 s
 
 Begin timestep 2010-10-23_06:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.06001 s
 
 Begin timestep 2010-10-23_06:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68557 s
 
 Begin timestep 2010-10-23_06:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.54664 s
 
 Begin timestep 2010-10-23_06:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.10561 s
 
 Begin timestep 2010-10-23_06:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75332 s
 
 Begin timestep 2010-10-23_06:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.83379 s
 
 Begin timestep 2010-10-23_06:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.47083 s
 
 Begin timestep 2010-10-23_06:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.46956 s
 
 Begin timestep 2010-10-23_06:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51109 s
 
 Begin timestep 2010-10-23_06:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67903 s
 
 Begin timestep 2010-10-23_06:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64943 s
 
 Begin timestep 2010-10-23_06:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.11460 s
 
 Begin timestep 2010-10-23_06:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.74384 s
 
 Begin timestep 2010-10-23_06:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67355 s
 
 Begin timestep 2010-10-23_06:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.31200 s
 
 Begin timestep 2010-10-23_06:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51957 s
 
 Begin timestep 2010-10-23_06:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.24256 s
 
 Begin timestep 2010-10-23_06:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68308 s
 
 Begin timestep 2010-10-23_06:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.27680 s
 
 Begin timestep 2010-10-23_06:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64727 s
 
 Begin timestep 2010-10-23_06:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67881 s
 
 Begin timestep 2010-10-23_06:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.87741 s
 
 Begin timestep 2010-10-23_06:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.15481 s
 
 Begin timestep 2010-10-23_06:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.27719 s
 
 Begin timestep 2010-10-23_06:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56720 s
 
 Begin timestep 2010-10-23_06:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.07846 s
 
 Begin timestep 2010-10-23_06:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.23673 s
 
 Begin timestep 2010-10-23_06:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66651 s
 
 Begin timestep 2010-10-23_06:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68435 s
 
 Begin timestep 2010-10-23_06:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75374 s
 
 Begin timestep 2010-10-23_06:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.30936 s
 
 Begin timestep 2010-10-23_06:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.23037 s
 
 Begin timestep 2010-10-23_06:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.56684 s
 
 Begin timestep 2010-10-23_06:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.19292 s
 
 Begin timestep 2010-10-23_06:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.60535 s
 
 Begin timestep 2010-10-23_06:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.17118 s
 
 Begin timestep 2010-10-23_06:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.79575 s
 
 Begin timestep 2010-10-23_06:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71458 s
 
 Begin timestep 2010-10-23_06:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26064 s
 
 Begin timestep 2010-10-23_06:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.13866 s
 
 Begin timestep 2010-10-23_06:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69397 s
 
 Begin timestep 2010-10-23_06:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62011 s
 
 Begin timestep 2010-10-23_06:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20194 s
 
 Begin timestep 2010-10-23_06:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68150 s
 
 Begin timestep 2010-10-23_06:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.16889 s
 
 Begin timestep 2010-10-23_06:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.49033 s
 
 Begin timestep 2010-10-23_06:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.46454 s
 
 Begin timestep 2010-10-23_06:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72417 s
 
 Begin timestep 2010-10-23_06:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62405 s
 
 Begin timestep 2010-10-23_06:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.37528 s
 
 Begin timestep 2010-10-23_06:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.59282 s
 
 Begin timestep 2010-10-23_06:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.62627 s
 
 Begin timestep 2010-10-23_07:00:00
 --- time to run the LW radiation scheme L_RADLW =T
 --- time to run the SW radiation scheme L_RADSW =T
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 12.8179 s
 
 Begin timestep 2010-10-23_07:01:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.77267 s
 
 Begin timestep 2010-10-23_07:02:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.93864 s
 
 Begin timestep 2010-10-23_07:03:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.82688 s
 
 Begin timestep 2010-10-23_07:04:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.01637 s
 
 Begin timestep 2010-10-23_07:05:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.81642 s
 
 Begin timestep 2010-10-23_07:06:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.14830 s
 
 Begin timestep 2010-10-23_07:07:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66386 s
 
 Begin timestep 2010-10-23_07:08:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72385 s
 
 Begin timestep 2010-10-23_07:09:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20815 s
 
 Begin timestep 2010-10-23_07:10:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.15608 s
 
 Begin timestep 2010-10-23_07:11:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.81723 s
 
 Begin timestep 2010-10-23_07:12:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.35791 s
 
 Begin timestep 2010-10-23_07:13:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.91710 s
 
 Begin timestep 2010-10-23_07:14:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.43886 s
 
 Begin timestep 2010-10-23_07:15:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.96586 s
 
 Begin timestep 2010-10-23_07:16:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.17867 s
 
 Begin timestep 2010-10-23_07:17:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.28195 s
 
 Begin timestep 2010-10-23_07:18:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.92092 s
 
 Begin timestep 2010-10-23_07:19:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.66530 s
 
 Begin timestep 2010-10-23_07:20:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72151 s
 
 Begin timestep 2010-10-23_07:21:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.14286 s
 
 Begin timestep 2010-10-23_07:22:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.93218 s
 
 Begin timestep 2010-10-23_07:23:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.51538 s
 
 Begin timestep 2010-10-23_07:24:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.80809 s
 
 Begin timestep 2010-10-23_07:25:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.26617 s
 
 Begin timestep 2010-10-23_07:26:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.88678 s
 
 Begin timestep 2010-10-23_07:27:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.79033 s
 
 Begin timestep 2010-10-23_07:28:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.64729 s
 
 Begin timestep 2010-10-23_07:29:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.87585 s
 
 Begin timestep 2010-10-23_07:30:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.05361 s
 
 Begin timestep 2010-10-23_07:31:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.99889 s
 
 Begin timestep 2010-10-23_07:32:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.70192 s
 
 Begin timestep 2010-10-23_07:33:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.94113 s
 
 Begin timestep 2010-10-23_07:34:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.68118 s
 
 Begin timestep 2010-10-23_07:35:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.28365 s
 
 Begin timestep 2010-10-23_07:36:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.03473 s
 
 Begin timestep 2010-10-23_07:37:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.42247 s
 
 Begin timestep 2010-10-23_07:38:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.30385 s
 
 Begin timestep 2010-10-23_07:39:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.32532 s
 
 Begin timestep 2010-10-23_07:40:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.30608 s
 
 Begin timestep 2010-10-23_07:41:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.76991 s
 
 Begin timestep 2010-10-23_07:42:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.97062 s
 
 Begin timestep 2010-10-23_07:43:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.67749 s
 
 Begin timestep 2010-10-23_07:44:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.76654 s
 
 Begin timestep 2010-10-23_07:45:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.76046 s
 
 Begin timestep 2010-10-23_07:46:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.71262 s
 
 Begin timestep 2010-10-23_07:47:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.69368 s
 
 Begin timestep 2010-10-23_07:48:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.77244 s
 
 Begin timestep 2010-10-23_07:49:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75874 s
 
 Begin timestep 2010-10-23_07:50:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.83934 s
 
 Begin timestep 2010-10-23_07:51:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.82482 s
 
 Begin timestep 2010-10-23_07:52:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.75403 s
 
 Begin timestep 2010-10-23_07:53:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.20247 s
 
 Begin timestep 2010-10-23_07:54:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.83853 s
 
 Begin timestep 2010-10-23_07:55:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.73405 s
 
 Begin timestep 2010-10-23_07:56:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.28317 s
 
 Begin timestep 2010-10-23_07:57:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.37174 s
 
 Begin timestep 2010-10-23_07:58:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 4.14144 s
 
 Begin timestep 2010-10-23_07:59:00
 --- time to run the LW radiation scheme L_RADLW =F
 --- time to run the SW radiation scheme L_RADSW =F
 --- time to run the convection scheme L_CONV    =T
 --- time to apply limit to accumulated rainc and rainnc L_ACRAIN   =F
 --- time to apply limit to accumulated radiation diags. L_ACRADT   =F
 --- time to calculate additional physics_diagnostics               =F
  split dynamics-transport integration 3
  Timing for integration step: 3.72170 s
 
 ********************************************************
    Finished running the atmosphere core
 ********************************************************
 
 
  Timer information:
     Globals are computed across all threads and processors
 
  Columns:
     total time: Global max of accumulated time spent in timer
     calls: Total number of times this timer was started / stopped.
     min: Global min of time spent in a single start / stop
     max: Global max of time spent in a single start / stop
     avg: Global max of average time spent in a single start / stop
     pct_tot: Percent of the timer at level 1
     pct_par: Percent of the parent timer (one level up)
     par_eff: Parallel efficiency, global average total time / global max total time
 
 
    timer_name                                            total       calls        min            max            avg      pct_tot   pct_par     par_eff
  1 total time                                        1993.13672         1     1992.90088     1993.13672     1993.02087   100.00       0.00       1.00
  2  initialize                                         95.54269         1       95.52011       95.54269       95.53520     4.79       4.79       1.00
  2  time integration                                 1886.50586       480        2.98989       13.36809        3.92978    94.65      94.65       1.00
  3   physics driver                                   339.35925       480        0.34099       10.32944        0.56252    17.03      17.99       0.80
  4    calc_cldfraction                                  0.05855         8        0.00396        0.00808        0.00520     0.00       0.02       0.71
  4    driver_sfclayer                                   5.00511       480        0.00404        0.02044        0.00730     0.25       1.47       0.70
  5     Monin-Obukhov                                    2.27078       480        0.00220        0.01238        0.00354     0.11      45.37       0.75
  4    Noah                                              7.07590       480        0.00044        0.01843        0.00360     0.36       2.09       0.24
  4    PBL Scheme                                       93.64388       480        0.09058        0.36453        0.15005     4.70      27.59       0.77
  5     YSU                                             71.62688       480        0.06085        0.19704        0.10241     3.59      76.49       0.69
  4    GWDO_YSU                                          9.58290       480        0.00933        0.02514        0.01396     0.48       2.82       0.70
  4    New_Tiedtke                                     181.61658       480        0.14933        0.48278        0.27623     9.11      53.52       0.73
  3   atm_rk_integration_setup                           6.08478       480        0.00820        0.02289        0.01056     0.31       0.32       0.83
  3   atm_compute_moist_coefficients                     7.43831       480        0.01366        0.02527        0.01478     0.37       0.39       0.95
  3   physics_get_tend                                 139.47939       480        0.03677        9.47241        0.16438     7.00       7.39       0.57
  3   atm_compute_vert_imp_coefs                        13.75036      1440        0.00667        0.01336        0.00908     0.69       0.73       0.95
  3   atm_compute_dyn_tend                             345.40854      4320        0.06232        0.13934        0.07799    17.33      18.31       0.98
  3   small_step_prep                                   19.16738      4320        0.00319        0.00723        0.00415     0.96       1.02       0.94
  3   atm_advance_acoustic_step                         85.19913      5760        0.01073        0.02778        0.01420     4.27       4.52       0.96
  3   atm_divergence_damping_3d                         10.51393      5760        0.00118        0.00370        0.00174     0.53       0.56       0.95
  3   atm_recover_large_step_variables                  74.68459      4320        0.00998        0.02761        0.01618     3.75       3.96       0.94
  3   atm_compute_solve_diagnostics                    164.95970      4320        0.02446        0.07456        0.03695     8.28       8.74       0.97
  3   atm_rk_dynamics_substep_finish                    12.56450      1440        0.00258        0.02231        0.00809     0.63       0.67       0.93
  3   atm_advance_scalars                              109.26821       960        0.10787        0.15221        0.11118     5.48       5.79       0.98
  3   atm_advance_scalars_mono                         161.95395       480        0.20581        1.38240        0.26476     8.13       8.58       0.78
  3   atm_rk_reconstruct                                 2.03465       480        0.00267        0.00688        0.00388     0.10       0.11       0.92
  3   microphysics                                     212.14264       480        0.22965        0.55882        0.35699    10.64      11.25       0.81
  4    WSM6                                            167.80885       480        0.17512        0.41821        0.27953     8.42      79.10       0.80
  3   mpas update GPU data on host                       0.00181       480        0.00000        0.00004        0.00000     0.00       0.00       0.76
 
 -----------------------------------------
 Total log messages printed:
    Output messages =                 5046
    Warning messages =                   3
    Error messages =                     0
    Critical error messages =            0
 -----------------------------------------
 Logging complete.  Closing file at 2020/03/04 16:17:09