!namelist

 $MODEL_GRIDS

   ! Simulation title (64 chars)

   EXPNME   = 'RCE Run Test',

!   RUNTYPE  = 'INITIAL',    ! Type of run: MAKESFC, INITIAL, HISTORY,
!   RUNTYPE  = 'MAKESFC',    !              MAKEVFILE, MEMORY, or ERROR
!   RUNTYPE  = 'MAKEVFILE',
   RUNTYPE  = 'HISTORY',

   TIMEUNIT = 'h',          ! 'h','m','s' - Time units of TIMMAX, TIMSTR

   TIMMAX   = 500.,           ! Final time of simulation

!  Start of simulation or ISAN processing

   IMONTH1  = 01,           ! Month
   IDATE1   = 01,           ! Day
   IYEAR1   = 2012,         ! Year
   ITIME1   = 0000,         ! GMT of model TIME = 0.

! Grid specifications

   NGRIDS   = 2,            ! Number of grids to run
 
   NNXP     = 3000,802,      ! Number of x gridpoints
   NNYP     = 200,482,      ! Number of y gridpoints
   NNZP     = 65,128,        ! Number of z gridpoints
   NZG      = 11,11,           ! Number of soil layers
   NZS      = 1,1,           ! Maximum number of snow layers
 
   NXTNEST  = 0,1,      ! Grid number which is the next coarser grid

! Coarse grid specifications

   IF_ADAP  = 0,
   
   IHTRAN   = 0,              ! 0-Cartesian, 1-Polar stereo, 2-Lambert-conformal
   DELTAX   = 1000.,
   DELTAY   = 1000.,          ! X and Y grid spacing

   DELTAZ   = 70.,            ! Z grid spacing (set to 0. to use ZZ)
   DZRAT    = 1.05,           ! Vertical grid stretch ratio
   DZMAX    = 750.,          ! Maximum delta Z for vertical stretch
 
   ZZ       = 0.0,            ! Vertical levels if DELTAZ = 0
     20.0,      46.0,      80.0,     120.0,     165.0,
    220.0,     290.0,     380.0,     480.0,     590.0,
    720.0,     870.0,    1030.0,    1200.0,    1380.0,
   1595.0,    1850.0,    2120.0,    2410.0,    2715.0,
   3030.0,    3400.0,    3840.0,    4380.0,    5020.0,
   5800.0,    6730.0,    7700.0,    8700.0,    9700.0,
  10700., 11700., 12700., 13700., 14700., 15700., 16700.,
  17700., 18700., 19700.,
 
   DTLONG   = 3.,          ! Coarse grid long timestep
   NACOUST  = 3,           ! Small timestep ratio
   IDELTAT  = 0,           ! =0 - constant timesteps
                           ! >0 - initial computation <0 - variable

   ! Nest ratios between this grid and the next coarser grid.
   NSTRATX  = 1,4,         ! x-direction
   NSTRATY  = 1,4,         ! y-direction
   NNDTRAT  = 1,2,         ! Time

   NESTZ1   = 2,                     ! Contort coarser grids if negative
   NSTRATZ1 = 2,2,2,2,2,2,2,2,2,2, 
              2,2,2,2,2,2,2,2,2,2,
              2,2,2,2,2,2,2,2,2,2,
              2,2,2,2,2,2,2,2,2,2,
              2,2,2,2,2,2,2,2,2,2,
              2,2,2,2,2,2,2,2,2,2,
              2,2,2,2,2,
   NESTZ2   = 0,                     ! Contort coarser grids if negative
   NSTRATZ2 = 1,1, !

                            
   POLELAT  = 10.01,10.01,         ! If polar, latitude/longitude of pole point
   POLELON  = -40.01,-40.01,        ! If lambert, lat/lon of grid origin (x=y=0.)

   STDLAT1  = 10.,10.,          ! If polar, unused
   STDLAT2  = -40.,-40.,          ! If lambert, standard latitudes of projection
                            ! stdlat1 must be <= stdlat2 (not working yet)
   
   ! Grid point on the next coarser nest where the lower southwest
   !  corner of this nest will start.
   !  If NINEST or NJNEST = 0, use CENTLAT/CENTLON
   
   NINEST   = 1,2351,0,0,           ! i-point
   NJNEST   = 1,41,0,0,           ! j-point
   NKNEST   = 1,1,1,1,           ! k-point

   CENTLAT =   10.,10., ! Center lat/lon of grids, may or
   CENTLON =  -40.,-40., ! may not be same as pole point
 
   NNSTTOP  = 1,1,           ! Flag (0-no or 1-yes) if this
   NNSTBOT  = 1,1,           ! Nest goes the top or bottom of the
                                 !  coarsest nest.

   GRIDU    = 0.,       ! u-component for moving grids
   GRIDV    = 0.,       ! v-component for moving grids
                                 !  (not working again!)
 
 $END
 
 $MODEL_FILE_INFO

! Variable initialization input

   INITIAL  = 3,             ! Initial fields - 1=horiz.homogeneous, 
                             !                  2=init from varfile
                             !                  3=init from HFILIN


!  ------ Analysis nudging parameters -----------------------------------
   NUD_TYPE = 0,             ! =1 - nudge from history files(1-way nest)
                             ! =2 - nudge from varfiles
                             ! =0 - no analysis nudging
                             
   VARFPFX  = '/home/mattigel/rce.aero,new/var', ! Varfile prefix
   VWAIT1   = 0.,            ! wait between each VFILE check (s)
   VWAITTOT = 0.,            ! total wait before giving up on a VFILE (s)
   
   NUD_HFILE = './a-A-2012-01-15-230000-head.txt', 
            ! Header file name for history nudging files (only prefix is used)
                             
   NUDLAT   = 5,             ! Number of points in lateral bnd region
   TNUDLAT  = 900.,          ! Nudging time scale(s) at lateral boundary
   TNUDCENT = 0.,            ! Nudging time scale(s) in center of domain
   TNUDTOP  = 0.,           ! Nudging time scale (s) at top of domain
   ZNUDTOP  = 0.,        ! Nudging at top of domain above height(m)
   
   WT_NUDGE_GRID =  1., 1., 0.7, 0.5, ! Relative nudging weights for active grids
                                       ! =0., turns off nudging for that grid

                             ! These weights will multiply the base timescales
                             !   to determine full nudging weight. 
                             !   (Timescales)/(WT_NUDGE_*) 
                             !    must be larger than DTLONG
   WT_NUDGE_UV = 1.,         ! Anal nudging weight for u and v
   WT_NUDGE_TH = 1.,         ! Anal nudging weight for theta
   WT_NUDGE_PI = 1.,         ! Anal nudging weight for pi
   WT_NUDGE_RT = 1.,         ! Anal nudging weight for r_tot
   
!-------------------------------------------------------------------------

!----------- Condensate nudging ------------------------------------------
   NUD_COND    = 0,          ! Only nudge total water where condensate
                             !   exists (from previous history files)
   COND_HFILE = './zhist/a-H-2001-07-21-000000-head.txt', 
            ! Header file name for cond nudging history files (only prefix is used)
   TCOND_BEG=0., 
   TCOND_END=21600.,                    ! Model time start and end of cond nudging (sec)
   T_NUDGE_RC = 3600.,                  ! Cond nudging timescale for r_total
   WT_NUDGEC_GRID =  1., 0.8, 0.7, 0.5, ! Relative nudging weights for active grids
                                        ! =0., turns off nudging for that grid
!-------------------------------------------------------------------------

!--------- Observation Data Assimilation (ODA) ---------------------------------
   IF_ODA = 0,                            ! Flag to turn on oda 
   ODA_UPAPREFIX = './zobs/dp-r',          ! File prefix for upper air obs
   ODA_SFCPREFIX = './zobs/dt-s',          ! File prefix for surface obs
   
   FRQODA=300.,                           ! Frequency of obs analysis
   TODABEG=0., 
   TODAEND=99999999.,         ! Model time start and end of oda (sec)

   TNUDODA= 900.,                         ! Nudging timescale for each grid
   WT_ODA_GRID =  1., 0.8, 0.7, 0.5,      ! Relative nudging weights for active grids
                                          ! =0., turns off nudging for that grid

   WT_ODA_UV = 1.,         ! ODA nudging weight for u and v
   WT_ODA_TH = 1.,         ! ODA nudging weight for theta
   WT_ODA_PI = 1.,         ! ODA nudging weight for pi
   WT_ODA_RT = 1.,         ! ODA nudging weight for r_tot
      
  ! Following are radii that affect the "smoothness" of the analyzed fields
  !     The SFCE and UPAE are the radii where the affect falls off to e**(-2)
  !     The SFC0 and UPA0 are the radii where the affect falls off to 0
  !     Values are grid dependent.
   
   RODA_SFCE = 50000.,100.,100.,100.,
   RODA_SFC0 = 100000.,100000.,100000.,100000.,
   RODA_UPAE = 100000.,200.,200.,200.,
   RODA_UPA0 = 200000.,2000.,2000.,2000.,
   
   RODA_HGT = 3000.,3000.,3000.,3000.,  ! Height at which transition from SFC radii 
                                        !   to UPA radii occurs
   
   RODA_ZFACT = 100.,100.,100.,100.,    ! Vertical factor related to dx/dz
   
   ! - Time interpolate limit (TIL)- if the future-past obs time 
   !    is > this limit, do not use to interpolate
   !
   ! - Time extrapolate limit (TEL)- if past/future obs is greater than TIL,
   !    but less than TEL, use the obs
   
   ODA_SFC_TIL=21600.,
   ODA_SFC_TEL=900.,
   ODA_UPA_TIL=43200.,
   ODA_UPA_TEL=21600.,
!------------------------------------------------------------------------   

!----- Cumulus inversion tendency input -----
   IF_CUINV = 0,
   CU_PREFIX = './zmicro/t5-C-',
   
   TNUDCU=900.,
   WT_CU_GRID=1., 1., 1., 1.,
      
   TCU_BEG=0., 
   TCU_END=7200.,
   CU_TEL=3600.,
   CU_TIL=21600.,
!------------------------------------------------------------------------   

! History start (if RUNTYPE='HISTORY')

   HFILIN   = './a-A-2012-01-15-230000-head.txt',
                             ! Input state file name
 
! Analysis file input for assimilation (currently LEAF variables)

   IPASTIN   = 0,            ! Initialize various fields from analysis file?
                             !  1=yes, 0=no
   PASTFN    = '/home/smsaleeb/data.storm/a-A-2007-02-11-060000-head.txt',
                             ! Input analysis file name

!------------------------------------------------------------------------
   ICLOBBER = 0,             ! 0=stop if files exist, 1=overwite files
!------------------------------------------------------------------------

!  Analysis file output
 
   IOUTPUT  =  1,             ! 0-no files, 1-write files
   AFILEPREF  = '/home/cjmcgee/RCE_runfinal/output/statefile_',  
                              ! File prefix for all analysis files
                              !   state,mean,lite,both
                              
!------------------------------------------------------------------------
   FRQSTATE   = 0.,3.,         ! "state" file write frequency
   
                              !  can be different for each grid
                              !  works best if grids are multiples of each other
   FRQSTATE_KEEP   =    0.,   ! If > 0., frequency at which "state" files will be 
                              !  kept. Others will be written, but deleted on
                              !  the subsequent write. 
                              !  Intended to be a mutiple of and >= FRQSTATE
!-----------------------------------------------------------------------
   FRQLITE  = 0.,0.,            ! Frequency for "lite" files
                             !   = 0 : no lite files
   XLITE    = '/0:0/',       ! nums>0 are absolute grid indexes (not yet)
   YLITE    = '/0:0/',       ! nums<0 count in from the domain edges (not yet)
   ZLITE    = '/0:0/',       ! nums=0 are domain edges (not yet)
   
   NLITE_VARS=0,
   LITE_VARS='UP','VP','WP','THETA',
!   LITE_VARS= 'GLAT','GLON','TOPT','TOPTA','PATCH_AREA',
!        'NUCCLDR','NUCCLDC','NUCICER','NUCICEC','INUCHOMR',
!        'INUCHOMC','INUCCONTR','INUCCONTC','INUCIFNR','INUCIFNC',
!        'INUCHAZR','INUCHAZC','VAPLIQ','VAPICE','VAPCLD',
!        'VAPRAIN','VAPPRIS','VAPSNOW','VAPAGGR','VAPGRAU',
!        'VAPHAIL','VAPDRIZ','MELTICE','MELTPRIS','MELTSNOW',
!        'MELTAGGR','MELTGRAU','MELTHAIL','CLD2RAIN','RIMECLD',
!        'RIMECLDSNOW','RIMECLDAGGR','RIMECLDGRAU','RIMECLDHAIL','RAIN2ICE',
!        'RAIN2PR','RAIN2SN','RAIN2AG','RAIN2GR','RAIN2HA',
!        'RAIN2HA_XTRA','ICE2RAIN','AGGREGATE','AGGRSELFPRIS','AGGRSELFSNOW',
!        'AGGRPRISSNOW',
!-----------------------------------------------------------------------
   
   AVGTIM   = 0.,            ! Averaging time for analysis variables
                             !   must be abs(AVGTIM) <= FRQANL
                             !   > 0 : averaging is centered at FRQANL
                             !   < 0 : averaging ends at FRQANL
                             !   = 0 : no averaged files
   FRQMEAN  = 0.,            ! Frequency for "averaged" files
!-----------------------------------------------------------------------
   FRQBOTH  = 0.,0.,            ! Frequency for Both ("averaged"/"lite") files

! Printed output controls
 
   FRQPRT   = 0.,3.,          ! Printout frequency
   INITFLD  = 0,             ! Initial field print flag 0=no prnt,1=prnt
 
! Input topography variables

   TOPFILES = './toph', ! Path and prefix for topo files. 
   SFCFILES = './sfch', ! Path and prefix for surface files. 
   SSTFPFX  = './ssth', ! Path and prefix for sst files
   NDVIFPFX = './zndh',  ! Path and prefix for ndni files

   ITOPTFLG = 2,2,          ! 2 - Fill data in "leaf3_init"
   ISSTFLG  = 2,2,           ! 0 - Interpolate from coarser grid
   IVEGTFLG = 2,2,          ! 1 - Read from standard Lat/Lon data file
   ISOILFLG = 2,2,           ! 
   NDVIFLG  = 2,2,           ! 
   
   NOFILFLG = 2,2,           ! 2 - Fill data in "leaf3_init"
                                 ! 0 - Interpolate from coarser grid   
 
   IUPDNDVI  = 0,             ! 0 - No update of NDVI values during run
   IUPDSST  = 0,              ! 0 - No update of SST values during run
                              ! 1 - Update values during run
 
                             ! The following only apply for IxxxxFLG=1
   ITOPTFN  = '/home/mattigel/sfctypehdf5/DEM30s-h5/EL',
              '/home/mattigel/sfctypehdf5/DEM30s-h5/EL',
              '/home/mattigel/sfctypehdf5/DEM30s-h5/EL',
              '/home/mattigel/sfctypehdf5/DEM30s-h5/EL',
   ISSTFN   = '/home/mattigel/sfctypehdf5/sst-h5/S',
              '/home/mattigel/sfctypehdf5/sst-h5/S',
              '/home/mattigel/sfctypehdf5/sst-h5/S',
              '/home/mattigel/sfctypehdf5/sst-h5/S',
   IVEGTFN  = '/home/mattigel/sfctypehdf5/ogedata-h5/GE',
              '/home/mattigel/sfctypehdf5/ogedata-h5/GE',
              '/home/mattigel/sfctypehdf5/ogedata-h5/GE',
              '/home/mattigel/sfctypehdf5/ogedata-h5/GE',
   ISOILFN  = '/home/mattigel/sfctypehdf5/FAOdata-h5/FAO',
              '/home/mattigel/sfctypehdf5/FAOdata-h5/FAO',
              '/home/mattigel/sfctypehdf5/FAOdata-h5/FAO',
              '/home/mattigel/sfctypehdf5/FAOdata-h5/FAO',
   NDVIFN   = '/home/mattigel/sfctypehdf5/ndvi-h5/',           
              '/home/mattigel/sfctypehdf5/ndvi-h5/',
              '/home/mattigel/sfctypehdf5/ndvi-h5/',
              '/home/mattigel/sfctypehdf5/ndvi-h5/',    
 
! Topography scheme

   ITOPSFLG = 1,1,           ! 0 = Average Orography
                                 ! 1 = Silhouette Orography
                                 ! 2 = Envelope Orography
                                 ! 3 = Reflected Envelope Orography

   TOPTENH  = 0,0,       ! For ITOPSFLG=1, Weighting of topo
                                 !   silhouette averaging 
                                 ! For ITOPSFLG=2 or 3, Reflected Envelope
                                 !   and Envelope Orography enhancement factor
                                 
   TOPTWVL  = 4.,4.,       ! Topo wavelength cutoff in filter 
                                
! Surface Roughness scheme

   IZ0FLG   = 0,0,           ! 0 = Use veg, bare soil and water surface
                                 ! 1 = Also use subgrid scale topography
   Z0MAX    = 5.,5.,       ! Max zo for IZ0FLG=1
   Z0FACT   = 0.005,0.005,             ! Subgrid scale orograhic roughness factor
   
! Microphysics collection tables

   MKCOLTAB = 1,             ! Make table: 0 = no, 1 = yes
   COLTABFN = './ct.rce',
                             ! Filename to read or write

 $END
 
 $MODEL_OPTIONS

   NADDSC   = 0,             ! Number of additional scalar species

! Numerical schemes
 
   ICORFLG  = 0,             ! Coriolis flag/2D v-component  -  0=off, 1=on

   IBND     = 4,             ! Lateral boundary condition flags
   JBND     = 4,             ! 1-Klemp/Wilhelmson, 2-Klemp/Lilly, 3-Orlanski
                             !  4-cyclic
   CPHAS    = 20.,           ! Phase speed if IBND or JBND = 1
   LSFLG    = 0,             ! Large-scale gradient flag for variables other than
                             !  normal velocity:
                             !  0 = zero gradient inflow and outflow
                             !  1 = zero gradient inflow, radiative b.c. outflow
                             !  2 = constant inflow, radiative b.c. outflow
                             !  3 = constant inflow and outflow
   NFPT     = 4,             ! Rayleigh friction - number of points from the top
   DISTIM   = 400.,           !                   - dissipation time scale
 
! Radiation parameters
 
   ISWRTYP  = 3,             ! Shortwave radiation type
   ILWRTYP  = 3,             ! Longwave radiation type
                             !    0-none, 2-Mahrer/Pielke, 1-Chen, 3-Harrington
   RADFRQ   = 300.,         ! Freq. of radiation tendency update (s)
   LONRAD   = 0,             ! Longitudinal variation of shortwave  
                             !    (0-no, 1-yes)
 
! Cumulus parameterization parameters
 
   NNQPARM  = 0,0,0,0,       ! Convective param flag (0-off, 1-Kuo, 2-Kain-Fritsch) 
   CONFRQ   = 1200.,         ! Frequency of conv param. updates (s)
   WCLDBS   = .01,          ! Vertical motion needed at cloud base for
                             !    to trigger convection (Kuo)
 
! Surface layer and soil parameterization
 
   NPATCH   = 2,             ! Number of patches per grid cell (min=2)
                       
   NVEGPAT  = 1,             ! Number of patches per grid cell to be 
                             !    filled from
                             ! vegetation files 
                             !    (min of 1, max of NPATCH-1)
                       
   ISFCL    = 1,             ! Surface layer/soil/veg model
                             !  0-specified surface layer gradients
                             !  1-soil/vegetation model

   NVGCON   = 0,             ! Vegetation type (see below)
   
   !  0  Ocean                       ! 11  Tundra
   !  1  Lakes, rivers, streams      ! 12  Evergreen shrub                      
   !  2  Ice cap/glacier             ! 13  Deciduous shrub
   !  3  Desert, bare soil           ! 14  Mixed woodland
   !  4  Evergreen needleleaf tree   ! 15  Crop/mixed farming, C3 grassland
   !  5  Deciduous needleleaf tree   ! 16  Irrigated crop
   !  6  Deciduous broadleaf tree    ! 17  Bog or marsh
   !  7  Evergreen broadleaf tree    ! 18  Wooded grassland 
   !  8  Short grass                 ! 19  Urban and built up
   !  9  Tall grass                  ! 20  Wetland evergreen broadleaf tree
   ! 10  Semi-desert                 ! 21  Very urban
 
   PCTLCON  = 0.,            ! Constant land % if for all domain
   NSLCON   = 1,             ! Constant soil type if for all domain

   !   1 -- sand             2 -- loamy sand      3 -- sandy loam
   !   4 -- silt loam        5 -- loam            6 -- sandy clay loam
   !   7 -- silty clay loam  8 -- clay loam       9 -- sandy clay
   !  10 -- silty clay      11 -- clay           12 -- peat

   ZROUGH   = .01,           ! Constant roughness if for all domain
   ALBEDO   = .2,            ! Constant albedo if not running soil model
   SEATMP   = 300.,          ! Constant water surface temperature

   DTHCON   = -10.,            ! Constant sfc layer  temp grad for no soil
   DRTCON   = 0.,            ! Constant sfc layer moist grad for no soil
   
   SLZ      = -.50,-.40,-.30,-.25,-.20,-.16,-.12,-.09,-.06,-.03,-.01,
                             ! Soil grid levels

   SLMSTR   = 0.35,0.35,0.35,0.35,0.35,0.35,0.35,0.35,0.35,0.35,0.35,
                             ! Initial soil moisture

   STGOFF   = 5.,5.,5.,5.,3.5,2.,.5,-1.,-1.5,-1.8,-2.,
                             ! Initial soil temperature offset
                             !  from lowest atmospheric level
!--------------------------------------------------------------------------

!----- Urban canopy parameterization --------------------------------

   IF_URBAN_CANOPY =0,

!-------------------------------------------------------------------------
 
!--------- Eddy diffusion coefficient parameters -----------------------
 
   IDIFFK  = 2,2,        ! K flag:
                             !  1 - Horiz deform/Vert Mellor-Yamada
                             !  2 - Anisotropic deformormation
                             !      (horiz & vert differ)
                             !  3 - Isotropic deformation 
                             !      (horiz and vert same)
                             !  4 - Deardorff TKE (horiz and vert same)
                             !  5 - Silvia's TKE-l scheme(horiz and vert same)
                             !  6 - Silvia's TKE-eps scheme(horiz and vert same)
   IHORGRAD = 1,1,             !  1 - horiz grad frm decomposed sigma grad
                             !  2 - true horizontal gradient. 
                             !      Non-conserving, but allows small DZ
   CSX     = .2,.2,          ! Deformation horiz. K's coefficient
   CSZ     = .2,.2,          ! Deformation vert. K's coefficient
   XKHKM   = 3.,3.,          ! Ratio of horiz K_h to K_m for deformation
   ZKHKM   = 3.,3.,          ! Ratio of vert K_h to K_m for deformation
   AKMIN   = 0.2,1.0,     ! Ratio of minimum horizontal eddy
                             !    viscosity coefficientto typical value
                             !    from deformation K

!------Bubble Simulation--------------------------------------------------
   IBUBBLE = 3,              ! Bubble initialization: 0 = off    
                             ! 1=square bubble, 2=gaussian bubble
                             ! 3=random perturbations (user adjust ruser.f90)
   IBDXIA  = 25,             ! DX start grid point
   IBDXIZ  = 30,            ! DX end grid point
   IBDYJA  = 25,            ! DY start grid point
   IBDYJZ  = 30,            ! DY end grid point
   IBDZK1  = 2,              ! Lower k level
   IBDZK2  = 16,             ! Upper k level
   BTHP    = 2.0,            ! Theta-il perturbation(K) (THP + BTHP)
   BRTP    = 0.0,            ! Mixing ratio perturbation (RTP * (1 + BRTP)

!----- Microphysics ------------------------------------------------------

   LEVEL   = 3,              ! Moisture complexity level

   IMBUDGET = 2,             ! Micro budgets: 0=Off,1=partial,2=all,3=all+dust

   IRIME   = 0,              !   0 - Bulk riming, 1 - bin riming 
   IPLAWS  = 0,              !   0 - Original 4.3 Power Laws
                             !   1 - New Power Laws (R.Carver,Mitchell 1996)
 
   ICLOUD  = 5,              ! Microphysics flags
   IDRIZ   = 5,              !-------------------
   IRAIN   = 5,              !  1 - diagnostic concen.
   IPRIS   = 6,              !  2 - specified mean diameter
   ISNOW   = 5,              !  3 - specified y-intercept
   IAGGR   = 5,              !  4 - specified concentration
   IGRAUP  = 5,              !  5 - prognostic concentration
   IHAIL   = 5,

   ICCNLEV = 0,              ! Aerosol treatment level
                             !-------------------
                             ! 0 = no source or sink
                             ! 1 = nucleation + deposition sink
                             ! 2 = same as 1 + evaporation regeneration
                             ! 3 = same as 2 + dust mass tracking and
                             !     surface mass accumulation

   IIFN = 2,                 ! Ice Nuclei treatment level
                             !-------------------
                             ! 0 = no ice nuclei
                             ! 1 = Meyers formula (pparm)
                             ! 2 = DeMott(2010) procedure

   IAERORAD  = 0,            ! Aerosol-Radiation Model
                             ! 0 = Off, 1 = On

! Hydrometeor parameters     ! Microphysics parameters
                             ! -----------------------
   CPARM   = 100.e6,           ! Characteristic diameter, # concentration
   DPARM   = .1e6,           !   or y-intercept
   RPARM   = 1e-3,           !
   PPARM   = 1e5,            ! If ICLOUD = 5+, Set CCN,GCCN aerosol
   SPARM   = 1e-3,           !   concentration in mic_init.f90
   APARM   = 1e-3,           ! If IPRIS  = 5+, PPARM = Max # IFN (#/kg)
   GPARM   = 1e-3,           ! For ICLOUD or IPRIS >= 5
   HPARM   = 3e-3,           !   (5 = 3D homogeneous 6 = vertical profile)

! Aerosol initial maximum concentrations (#/cm3)
   CCN_MAX    = 100.,       ! CCN
   GCCN_MAX   = 0.,       ! Giant-CCN
   DUST1_MAX  = 0.,        ! Small Dust Mode
   DUST2_MAX  = 0.,         ! Large Dust Mode
   SALTF_MAX  = 0.,        ! Film Sea Salt
   SALTJ_MAX  = 0.,          ! Jet Sea Salt
   SALTS_MAX  = 0.,       ! Spume Sea Salt

! Salt and Dust parameters   ! See mic_init.f90 for 3D dust concentration
                             ! ------------------------------------------
   ISALT   = 0,              ! Sea Salt: 0=off, 1=userset, 2=saltmodel
   IDUST   = 0,              ! Dust: 0=off, 1=userset 2=dustmodel
                             ! If IDUST=2 values below are over-ridden

   GNU     = 2.,2.,2.,2.,2.,2.,2.,2., ! Gamma shape parms for
                                      ! cld rain pris snow aggr graup hail
!-----------------------------------------------------------------------------

 $END
 
 $MODEL_SOUND

!-----------------------------------
! Sounding specification
!-----------------------------------
 
! Flags for how sounding is specified
 
   IPSFLG   = 1,             ! Specifies what is in PS array
                             !  0-pressure(mb) 1-heights(m) 
                             !  PS(1)=sfc press(mb)
 
   ITSFLG   = 2,             ! Specifies what is in TS array
                             !  0-temp(C) 1-temp(K) 2-pot. temp(K)

   IRTSFLG  = 2,             ! Specifies what is in RTS array
                             !  0-dew pnt.(C) 1-dew pnt.(K) 
                             !  2-mix rat(g/kg) 
                             !  3-relative humidity in %, 
                             !  4-dew pnt depression(K)
 
   IUSFLG   = 0,             ! Specifies what is in US and VS arrays
                             ! 0-u,v component(m/s) 
                             ! 1-umoms-direction, vmoms-speed
 
   HS       = 0.,

   PS       =  1008.0,    72.0,   298.0,   528.0,   763.0,
               1003.0,  1248.0,  1499.0,  1756.0,  2019.0,
               2290.0,  2568.0,  2854.0,  3148.0,  3451.0,
               3763.0,  4085.0,  4418.0,  4763.0,  5120.0,
               5492.0,  5880.0,  6283.0,  6705.0,  7146.0,
               7610.0,  8098.0,  8612.0,  9155.0,  9733.0,
              10350.0, 11011.0, 11724.0, 12499.0, 13351.0,
              14298.0, 15373.0, 16626.0, 18249.0, 21186.0,
              31193.0, 

   TS       =   301.8,   301.6,   301.6,   302.0,   302.7,
                303.6,   304.6,   305.8,   307.3,   308.5,
                310.0,   311.5,   312.9,   314.6,   316.0,
                317.2,   318.9,   320.5,   321.9,   324.1,
                326.9,   328.9,   330.9,   333.0,   335.1,
                337.5,   339.6,   340.9,   343.0,   345.0,
                346.7,   348.1,   349.5,   350.9,   352.2,
                354.0,   356.8,   360.9,   416.1,   480.8,
                786.6, 

   RTS      =   18.60,   17.00,   16.60,   15.80,   14.90,
                13.90,   12.80,   11.90,   11.30,   10.30,
                 9.84,    8.95,    8.11,    7.31,    6.78,
                 6.28,    6.12,    5.60,    5.16,    3.96,
                 3.09,    2.10,    1.35,    1.22,    0.81,
                 0.80,    0.56,    0.45,    0.31,    0.23,
                 0.12,    0.08,    0.05,    0.03,    0.02,
                 0.01,   0.004,   0.001,   0.005,   0.001,
                0.006, 

   US       =     0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,


   VS       =     0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,     0.0,     0.0,     0.0,     0.0,
                  0.0,
 
 $END
 
 
 $MODEL_PRINT

!-----------------------------------
! Specifies the fields to be printed during the simulation
!-----------------------------------

   NPLT     = 0,            ! Number of fields printed at each time
                            !   for various cross-sections (limit of 50)
                            
   IPLFLD   = 'RC','RC','TOTPRE',
                            ! Field names - see table below
                            
!   PLFMT(1)  = '0PF7.3',   ! Format spec. if default is unacceptable

   IXSCTN    = 1,1,3,3,3,3,
                            ! Cross-section type (1=XZ, 2=YZ, 3=XY)

   ISBVAL    = 25,25,2,2,2,2,2,
                            ! Grid-point slab value for third direction
 
  ! The following variables can also be set in the  namelist:  IAA,
  ! IAB, JOA, JOB, NAAVG, NOAVG, PLTIT, PLCONLO, PLCONHI, and PLCONIN.
 
!     'UP'    - UP(M/S)     'RC'   - RC(G/KG)    'PCPT' - TOTPRE
!     'VP'    - VP(M/S)     'RR'   - RR(G/KG)    'TKE'  - TKE
!     'WP'    - WP(CM/S)    'RP'   - RP(G/KG)    'HSCL' - HL(M)
!     'PP'   - PRS(MB)      'RA'   - RA(G/KG)    'VSCL' - VL(M)
!     'THP'  - THP(K)
!     'THETA'- THETA(K)     'RL'   - RL(G/KG)    'TG'   - TG (K)
!     'THVP' - THV'(K)      'RI'   - RI(G/KG)    'SLM'  - SLM (PCT)
!     'TV'   - TV(K)        'RCOND'- RD(G/KG)    'CONPR'- CON RATE
!     'RT'   - RT(G/KG)     'CP'   - NPRIS       'CONP' - CON PCP
!     'RV'   - RV(G/KG)     'RTP'  - RT'(G/KG)   'CONH' - CON HEAT
!                                                'CONM' - CON MOIS
!     'THIL' - Theta-il (K) 'TEMP' - temperature (K)
!     'TVP'  - Tv' (K)      'THV'  - Theta-v     (K)
!     'RELHUM'-relative humidity (%)           'SPEED'- wind speed (m/s)
!     'FTHRD'- radiative flux convergence (??)
!     'MICRO'- GASPRC
!     'Z0'   - Z0 (M)       'ZI'   - ZI (M)      'ZMAT' - ZMAT (M)
!     'USTARL'-USTARL(M/S)  'USTARW'-USTARW(M/S) 'TSTARL'-TSTARL (K)
!     'TSTARW'-TSTARW(K)    'RSTARL'-RSTARL(G/G) 'RSTARW'-RSTARW(G/G)
!     'UW'   - UW  (M*M/S*S)                     'VW'   - VW (M*M/S*S)
!     'WFZ'  - WFZ (M*M/S*S)                     'TFZ'  - TFZ (K*M/S)
!     'QFZ'  - QFZ (G*M/G*S)                     'RLONG'- RLONG
!     'RSHORT'-RSHORT

 $END

 $ISAN_CONTROL
 
+!-----------------------------------
! Isentropic control 
!-----------------------------------
 
   ISZSTAGE   = 1,        ! Main switches for isentropic-sigz
   IVRSTAGE   = 1,        !    "varfile" processing
    
   ISAN_INC = 0300,         ! ISAN processing increment (hhmm)
                            !    range controlled by TIMMAX, 
                            !    IYEAR1,...,ITIME1

   GUESS1ST = 'PRESS',      ! Type of first guess input- 'PRESS', 'RAMS'

   I1ST_FLG = 2,            ! What to do if first guess file should be
                            !  used but does not exist.
                            !  1=I know it may not be there, 
                            !        skip this data time
                            !  2=I screwed up, stop the run
                            !  3=interpolate first guess file from 
                            !    nearest surrounding times, stop if unable
                            !     (not yet available)

   IUPA_FLG = 3,            ! UPA-upper air, SFC-surface
   ISFC_FLG = 3,            ! What to do if other data files should be
                            !  uesed, but does not exist.
                            !  1 = I know it may not be there, 
                            !      skip this data time
                            !  2 = I screwed up, stop the run
                            !  3 = Try to continue processing anyway

! Input data file prefixes

   IAPR    = '/home/mattigel/data.07Feb11/dprep/dp-p', ! Input press level dataset
   IARAWI  = ' ', ! Archived rawindsonde file name
   IASRFCE = ' ', ! Archived surface obs file name

! File names and dispose flags 

   VARPFX    = '/home/mattigel/data.07Feb11/rams6/varf/var',  ! isan file names prefix
   IOFLGISZ  = 0,           ! Isen-sigz file flag: 0 = no write, 1 = write
   IOFLGVAR  = 1,           ! Var file flag: 0 = no write, 1 = write

 $END
 
 $ISAN_ISENTROPIC
 
!-----------------------------------
! Isentropic and sigma-z processing 
!-----------------------------------

!-----------------------------------
! Specify isentropic levels
!-----------------------------------

   NISN     = 43,           ! Number of isentropic levels
   LEVTH    = 280,282,284,286,288,290,292,294,296,298,300,303,306,309,312,
              315,318,321,324,327,330,335,340,345,350,355,360,380,400,420,
              440,460,480,500,520,540,570,600,630,670,700,750,800,
              
!-----------------------------------
! Analyzed grid information:
!-----------------------------------

   NIGRIDS  = 4,            ! Number of RAMS grids to analyze

   TOPSIGZ  = 20000.,       ! Sigma-z coordinates to about this height

   HYBBOT   = 4000.,        ! Bottom (m) of blended sigma-z/isentropic 
                            !    layer in varfiles
   HYBTOP   = 6000.,        ! Top (m) of blended sigma-z/isentropic layr

   SFCINF   = 1000.,        ! Vert influence of sfc observation analysis

   SIGZWT   = 1.,           ! Weight for sigma-z data in varfile: 
                            !  0.= no sigz data, 
                            !  1.=full weight from surface to HYBBOT

   NFEEDVAR = 1,            ! 1=feed back nested grid varfile, 0=don't

!-----------------------------------
! Observation number limits:
!-----------------------------------

   MAXSTA   = 150,          ! maximum number of rawindsondes 
                            !    (archived + special)
   MAXSFC   = 1000,         ! maximum number of surface observations

   NOTSTA   = 0,            ! Number of stations to be excluded
   NOTID    = 'r76458',     ! Station ID's to be excluded
                            !  Prefix with 'r' for rawindsonde, 
                            !              's' for surface

   USED_FILE = 'none',      ! Filename prefix to output stations actually
                            !   used in the analysis

   IOBSWIN = 1800,          ! Window (seconds) around analysis time. Obs
                            !   outside this window will not be used.

   STASEP   = .1,           ! Minimum sfc station separation in degrees.
                            !    Any surface obs within this distance
                            !    of another obs will be thrown out
                            !    unless it has less missing data, 
                            !    in which case the other obs will be
                            !    thrown out.


   IGRIDFL  = 3,            ! Grid flag=0 if no grid point, only obs
                            !           1 if all grid point data and obs
                            !           2 if partial grid point and obs
                            !           3 if only grid data
                            !           4 all data... fast


   GRIDWT   = .01,.01,.01,.01, ! Relative weight for the gridded press data
                            !   compared to the observational data in 
                            !   the objective analysis


   GOBSEP   = 5.,           ! Grid-observation separation (degrees)
   GOBRAD   = 5.,           ! Grid-obs proximity radius (degrees)

   WVLNTH   = 900.,900.,900.,900., ! Used in S. Barnes objective analysis.
                            !   Wavelength in km to be retained to the
                            !   RESPON % from the data to the upper air 
                            !   grids.
   SWVLNTH  = 300.,300.,300.,300.,  ! Wavelength for surface objective analysis

   RESPON   = .9,.9,.9,.9,  ! Percentage of amplitude to be retained.

 $END

