!
!
!##################################################################
!##################################################################
!######                                                      ######
!######                SUBROUTINE INITPARA                   ######
!######                                                      ######
!######                     Developed by                     ######
!######     Center for Analysis and Prediction of Storms     ######
!######                University of Oklahoma                ######
!######                                                      ######
!##################################################################
!##################################################################
!


SUBROUTINE initpara(nx,ny,nz,nstyps) 7,270
!
!-----------------------------------------------------------------------
!
!  PURPOSE:
!
!  Initialize the model control parameters. Most of them are read in
!  from an input file.
!
!-----------------------------------------------------------------------
!
!  AUTHOR: Ming Xue
!
!  3/17/1991.
!
!  MODIFICATION HISTORY:
!
!  5/02/92 (M. Xue)
!    Added full documentation.
!
!  5/25/92 (M. Xue)
!    Reworked to provide a friendly user interface for control
!    parameter input, and write out a log file.
!
!  6/04/92 (M. Xue)
!    Further facelift.
!
!  8/03/92 (M. Xue)
!    The grid scale in the formula of divergecne damping coefficient
!    is changed from (dx*dy*dz)**(2/3) to min(dx,dy,dz)**2.
!    This will affect the results as compared with previous runs.
!    Added output control parameter input etc.
!
!  4/16/93 (M. Xue and H. Jin)
!    Added parameter inputs that are related to terrain.
!
!  9/20/93 (A. Sathye and M. Xue)
!    Changed to the NAMELIST input format.
!
!  9/27/93 (M. Xue)
!    For non-stretched case, dzmin is set to dz. For 2-d mode,
!    appropriate LBC's are automatially set to periodic B.C.
!
!  12/3/93 (M. Xue)
!    Added parameters for automatical grid translation.
!
!  2/12/94 (Yuhe Liu)
!    Added parameters for surface energy budget model.
!
!  10/26/94 (Y. Liu)
!    Add lbcopt to namelist &boundary_condition_options for the
!    lateral boundary condition option.
!
!  12/12/94 (Y. Liu)
!    Changed default values of variables in namelists to the same as
!    in User's Guide and corrected the log file output.
!
!  12/22/94 (Y. Liu)
!    Added more parameters into the namelist blocks, including
!    ubar0 and vbar0 in initialization, and strhtune in grid.
!
!  01/28/95 (G. Bassett)
!    Added new parameter, buoyopt, to input namelist &initialization.
!
!  08/24/95 (K. Brewster)
!    Changed informative opening message to tell user about namelist.
!
!  2/2/96 (Donghai Wang & yuhe Liu)
!    Added parameters for map projection factor.
!
!  3/26/96 (Yuhe Liu)
!    Added a namelist, &radiation, and parameters for radiation.
!
!  4/2/96  (Donghai Wang, X. Song and M. Xue)
!    Added parameters for implicit treatment of vertical mixing.
!
!  5/7/96  (Donghai Wang and M. Xue)
!    Added a parameter for Rayleigh damping.
!
!  7/31/96 (Ming Xue and Yuhe Liu)
!    Added the isotropic option for divergence damping. Parameter
!    divdmpnd changed to divdmpndh for horizontal and divdmpndv for
!    vertical.
!
!  3/23/97 (Ming Xue)
!    Parameter scmixfctr added to namelist block computational_mixing.
!
!  3/23/97 (Ming Xue)
!    Modifications made so that the program will complete reading in
!    input parameters and check their validity even when error is
!    encountered before it stops at the end of this subroutine.
!
!  7/27/97 (Dan Weber)
!    Added fftopt to the list of specified parameters.
!
!  10/21/97 (Donghai Wang)
!    Added two parameters,buoy2nd and rhofctopt.
!
!  04/15/98 (Donghai Wang)
!    Added a new fraction factor for Kain-Fritsch scheme.
!
!  08/31/98 (K. Brewster)
!    Added nudging NAMELIST to version 4.4.
!
!  1999/10/21 (Gene Bassett)
!    Separated the reading in from the computation of derived variables
!    (since some values were not being set when reading was aborted due
!    to namelist read errors).
!
!  2000/04/13 (Gene Bassett)
!    Added dumping options for HDF formats.
!
!  2000/04/24 (Gene Bassett)
!    Update message passing version and added grid_dims &
!    message_passing namelist blocks.
!
!-----------------------------------------------------------------------
!
!  INPUT:
!
!    nx       Number of grid points in the x-direction
!    ny       Number of grid points in the y-direction
!    nz       Number of grid points in the z-direction
!
!  OUTPUT:
!
!    Control parameters defined in include files.
!
!-----------------------------------------------------------------------
!
!  Variable Declarations. (Local Variables)
!
!-----------------------------------------------------------------------
!
  IMPLICIT NONE

  INTEGER :: nx,ny,nz      ! The number of grid points in 3 dimensions.
  INTEGER :: nstyps        ! Maximum number of soil types per grid point.
!
!-----------------------------------------------------------------------
!
!  Misc. local variables:
!
!-----------------------------------------------------------------------
!
  REAL :: wrmax            ! Maximun value of canopy moisture
  INTEGER :: i

  INTEGER :: lenstr      ! Length of a string
  LOGICAL :: iexist      ! Flag set by inquire statement for file
                         ! existence
  REAL :: temr
  REAL :: dtsml0,dtsfc0    ! Temporary variable

  CHARACTER (LEN=19) :: initime  ! Real time in form of 'year-mo-dy:hr:mn:ss'

  INTEGER :: unum          ! unit number for reading in namelist
  PARAMETER (unum=5)
  CHARACTER (LEN=80) :: inputfile
  INTEGER :: lenfil

!
!-----------------------------------------------------------------------
!
!  Include files:
!
!-----------------------------------------------------------------------
!
!
!-----------------------------------------------------------------------
!
!  Global constants and parameters, most of them specify the
!  model run options.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'globcst.inc'
  INCLUDE 'soilcst.inc'
  INCLUDE 'nudging.inc'
  INCLUDE 'radcst.inc'
!
!-----------------------------------------------------------------------
!
!  Grid and map parameters.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'grid.inc'
!
!-----------------------------------------------------------------------
!
!  Control parameters defining the boundary condition types.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'bndry.inc'
!
!-----------------------------------------------------------------------
!
!  Universal physical constants such as gas constants.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'phycst.inc'
!
!-----------------------------------------------------------------------
!
!  External boundary parameters and variables.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'exbc.inc'
!
!-----------------------------------------------------------------------
!
!  Message passing parameters.
!
!-----------------------------------------------------------------------
!
  INCLUDE 'mp.inc'
!
!-----------------------------------------------------------------------
!
!  namelist Declarations:
!
!-----------------------------------------------------------------------
!
!
!-----------------------------------------------------------------------
!
!  Define the namelist, &arpsagr, for ARPS AGR. Not used by other programs
!  except for ARPSagr. Included here to avoid problem on e.g., Cray's
!  when reading arps.input.
!
!-----------------------------------------------------------------------
!
  NAMELIST /grid_dims/ nx,ny,nz

  NAMELIST /message_passing/ nproc_x,nproc_y,max_fopen

  INCLUDE 'agricst.inc'
  INCLUDE 'nodal.inc'
  NAMELIST /arpsagr/  runold, rstime,                                   &
                      levfix, intrat, intratt,                          &
                      intrpodr, kcheck,                                 &
                      verbose1, verbose2, verbose3,                     &
                      verbose4, verbose5, verbose6,                     &
                      rstart,rstdump,grdsrt,                            &
                      nfinelv, ngrdnew,                                 &
                      ixc,jyc,ixln,jyln,gangle

  NAMELIST /comment_lines/ nocmnt, cmnt

  NAMELIST /jobname/ runname

  NAMELIST /model_configuration/ runmod

  NAMELIST /initialization/ initime,initopt,inibasopt,viniopt,ubar0,    &
            vbar0,pt0opt,ptpert0,pt0radx,pt0rady,pt0radz,pt0ctrx,       &
            pt0ctry,pt0ctrz,rstinf,inifmt,inifile,inigbf,sndfile,       &
            soilinitopt,soiltintv,timeopt

  NAMELIST /nudging/ nudgopt,ndstart,ndstop,ndintvl,ndgain,incrfnam,    &
                     nudgu,nudgv,nudgw,nudgp,nudgpt,nudgqv,             &
                     nudgqc,nudgqr,nudgqi,nudgqs,nudgqh,incrfmt

  NAMELIST /equation_formulation/ buoyopt,buoy2nd,rhofctopt,bsnesq,     &
            peqopt

  NAMELIST /terrain/ ternopt,mntopt,hmount,mntwidx,mntwidy,             &
            mntctrx,mntctry,terndta,ternfmt

  NAMELIST /grid/ dx,dy,dz,strhopt,dzmin,zrefsfc,dlayer1,dlayer2,       &
            strhtune,zflat,ctrlat,ctrlon

  NAMELIST /projection/ mapproj, trulat1,trulat2,trulon, sclfct,        &
            mpfctopt,mptrmopt,maptest

  NAMELIST /timestep/ dtbig,tstart,tstop

  NAMELIST /acoustic_wave/csopt,csfactr,csound,dtsml,vimplct,           &
            ptsmlstp,tacoef

  NAMELIST /numerics/ madvopt, sadvopt,fctorderopt,fctadvptprt

  NAMELIST /boundary_condition_options/ lbcopt, wbc,ebc,sbc,nbc,        &
            tbc,fftopt,bbc, rbcopt,c_phase,rlxlbc,pdetrnd

  NAMELIST /exbcpara/exbcname,tinitebd,tintvebd,                        &
            ngbrz,brlxhw,cbcdmp,cbcmix,exbcfmt

  NAMELIST /coriolis_force/ coriopt,coriotrm

  NAMELIST /turbulence/tmixopt,trbisotp,tkeopt,trbvimp,tmixvert,        &
            alfcoef,tmixcst, prantl, kmlimit

  NAMELIST /computational_mixing/                                       &
            cmix2nd,cfcm2h,cfcm2v,cmix4th,cfcm4h,cfcm4v,scmixfctr,      &
            cmix_opt

  NAMELIST /divergence_damping/ divdmp,divdmpndh, divdmpndv

  NAMELIST /rayleigh_damping/ raydmp,cfrdmp,zbrdmp

  NAMELIST /asselin_time_filter/ flteps

  NAMELIST /microphysics/ mphyopt,moist, cnvctopt,kffbfct,              &
            wcldbs,confrq,qpfgfrq,idownd

  NAMELIST /radiation/ radopt, radstgr, rlwopt, dtrad, raddiag

  NAMELIST /surface_physics/ sfcphy,landwtr,cdhwtropt,                  &
            cdmlnd,cdmwtr,cdhlnd,cdhwtr,cdqlnd,cdqwtr,                  &
            pbldopt,pbldpth0,lsclpbl0,tqflxdis,dtqflxdis,               &
            smthflx,numsmth,sfcdiag

  NAMELIST /soil_ebm/ sfcdat,soilinit,dtsfc,                            &
            styp,vtyp,lai0,roufns0,veg0,ptslnd0,ptswtr0,                &
            tsoil0,wetsfc0,wetdp0,wetcanp0,snowdpth0,                   &
            tsprt,t2prt,wgrat,w2rat,                                    &
            sfcdtfl,soilinfl,sfcfmt,soilfmt,nstyp

  NAMELIST /grdtrans/cltkopt,grdtrns,umove,vmove,chkdpth,               &
            twindow,tceltrk,tcrestr

  NAMELIST /history_dump/ hdmpopt,hdmpfmt,grbpkbit,thisdmp,             &
            tstrtdmp,numhdmp,hdmptim,istager,hdfcompr

  NAMELIST /output/ dirname,tfmtprt,exbcdmp,extdadmp,                   &
            grdout,basout,varout,mstout,rainout,prcout,                 &
            iceout,tkeout, trbout,sfcout,landout,totout,                &
            radout,flxout,                                              &
            qcexout,qrexout,qiexout,qsexout,qhexout,                    &
            trstout,tmaxmin,tenergy,imgopt,                             &
            timgdmp,pltopt,tplots,filcmprs,readyfl,                     &
            sfcdmp,soildmp,terndmp

  NAMELIST /debug/ lvldbg

  REAL :: dh
  INTEGER :: err_no
  DATA err_no /0/

  INTEGER :: ip
  INTEGER ebcsv,wbcsv,nbcsv,sbcsv

!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
!  Beginning of executable code...
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!-----------------------------------------------------------------------
!
!  Set the ARPS version number, which will be printed in the log
!  file in the comment line. The string can be up to 20 character long.
!
!-----------------------------------------------------------------------

  arpsversion = 'ARPS 5.0'
!
!-----------------------------------------------------------------------
!
!  Now we begin to read in the values of parameters:
!
!-----------------------------------------------------------------------
!

!
!-----------------------------------------------------------------------
!
!  Set up the default values for all the variables to be read in
!  using the namelist method. In case the user does not specify a
!  particular value, this value will be used.
!
!-----------------------------------------------------------------------
!
  nx = 67
  ny = 67
  nz = 35

  nproc_x = 1
  nproc_y = 1
  max_fopen = 1

  nocmnt = 10

  cmnt(1) = ' '
  cmnt(2) = 'A zero perturbation run                    '
  cmnt(3) = ' '
  cmnt(4) = ' '
  cmnt(5) = ' '
  cmnt(6) = ' '
  cmnt(7) = ' '
  cmnt(8) = ' '
  cmnt(9) = ' '
  cmnt(10) =' '

  runname = 'may20'

  runmod = 1

  initime = '1977-05-20.21:00:00'
  timeopt = 0
  initopt = 1
  inibasopt = 1
  viniopt = 1
  pt0opt  = 1

  ubar0   = 0.0
  vbar0   = 0.0

  ptpert0 = 4.0
  pt0radx = 10000.0
  pt0rady = 10000.0
  pt0radz =  1500.0
  pt0ctrx = 32000.0
  pt0ctry = 32000.0
  pt0ctrz =  1500.0

  rstinf  = 'may20.rst003600'
  inifmt  = 1
  inifile = 'may20.bin003600'
  inigbf  = 'may20.bingrdbas'
  sndfile = 'may20.snd'

  soilinitopt = 0
  soiltintv   = 0.0

  nudgopt  = 0
  ndstart  = 0.
  ndstop   = 0.
  ndintvl  = 600.
  ndgain   = 1.9
  incrfnam = 'nudge.spam'
  incrfmt  = 0
  nudgu    = 1
  nudgv    = 1
  nudgw    = 1
  nudgp    = 1
  nudgpt   = 1
  nudgqv   = 1
  nudgqc   = 0
  nudgqr   = 0
  nudgqi   = 0
  nudgqs   = 0
  nudgqh   = 0

  ternopt = 0
  mntopt =  1
  hmount =  0.0
  mntwidx = 1.0E4
  mntwidy = 1.0E4
  mntctrx = 1.0E4
  mntctry = 1.0E4
  terndta ='arpstern.data'
  ternfmt = 0

  dx = 1000.0
  dy = 1000.0
  dz =  500.0

  strhopt  = 0
  dzmin    = 500.0
  zrefsfc  =   0.0
  dlayer1  =   0.0
  dlayer2  =   1.0E5
  strhtune =   1.0
  zflat    =   1.0E5

  ctrlat  =  35.0
  ctrlon  = -100.0

  mapproj  = 0
  trulat1  =   30.0
  trulat2  =   60.0
  trulon   = -100.0
  sclfct   =    1.0
  mpfctopt = 1
  mptrmopt = 1
  maptest  = 0

  dtbig = 6.0
  tstart= 0.0
  tstop = 3600.0

  vimplct  = 1
  ptsmlstp = 0
  csopt    = 1
  csfactr  =   0.5
  csound   = 150.0
  tacoef   =   0.6
  dtsml    =   1.0

  buoyopt   = 1
  buoy2nd   = 1
  rhofctopt = 1
  bsnesq    = 0
  peqopt    = 1

  madvopt  = 1
  sadvopt  = 1
  fctorderopt=1
  fctadvptprt=1

  lbcopt = 1
  wbc = 4
  ebc = 4
  sbc = 4
  nbc = 4
  tbc = 1
  fftopt = 2
  bbc = 1
  rbcopt  = 1
  c_phase = 30.0
  rlxlbc  =  0.0
  pdetrnd = 0

  radopt  = 0
  radstgr = 1
  rlwopt  = 1
  dtrad   = 600.0
  raddiag = 1

  moist    = 0
  mphyopt  = 0
  cnvctopt = 0
  kffbfct  = 0.0
  ice      = 0
  wcldbs   = 0.005
  confrq   = 600.0
  qpfgfrq  = 120.0
  idownd   = 1

  sfcphy   = 0
  landwtr  = 1
  cdhwtropt= 0
  cdmlnd   = 3.0E-3
  cdmwtr   = 1.0E-3
  cdhlnd   = 3.0E-3
  cdhwtr   = 1.0E-3
  cdqlnd   = 2.1E-3
  cdqwtr   = 0.7E-3
  pbldopt  = 0
  pbldpth0 = 1400.0
  lsclpbl0 = 0.15
  sflxdis  = 0
  tqflxdis = 0
  dtqflxdis= 200.0
  smthflx  = 0
  numsmth  = 1
  sfcdiag  = 0

  sfcdat  = 1
  nstyp  = 4
  styp    = 3
  vtyp    = 10
  lai0    = 0.31
  roufns0 = 0.1
  veg0    = 0.0
  sfcdtfl = 'arpssfc.data'
  sfcfmt  = 0

  soilinit = 1
  ptslnd0  = 300.16
  ptswtr0  = 288.16
  tsoil0   = 297.16
  wetsfc0  = 0.0
  wetdp0   = 0.0
  wetcanp0 = 0.0
  snowdpth0 = 0
  soilinfl = 'may20.soilinit'
  soilfmt  = 0

  dtsfc = 10.0

  coriopt = 0
  coriotrm= 0

  tmixopt  = 2
  trbisotp = 1
  tkeopt   = 1
  trbvimp  = 0
  tmixvert = 1
  alfcoef  = 0.25
  prantl   = 1.0
  tmixcst  = 0.0
  kmlimit  = 0.5

  cmix2nd = 1
  cfcm2h  = 0.0
  cfcm2v  = 1.0E-3
  cmix4th = 1
  cfcm4h  = 1.0E-3
  cfcm4v  = 0.0
  scmixfctr = 1.0
  cmix_opt = 0

  divdmp    = 1
  divdmpndh = 0.05
  divdmpndv = 0.05

  tmaxmin  = 60.0
  tenergy  = 360000.0
  imgopt   = 0
  timgdmp  = 60.0
  pltopt   = 0
  tplots   = 1800.0
  filcmprs = 1
  readyfl = 0

  raydmp = 0
  cfrdmp = 1./300.
  zbrdmp = 10000.0

  flteps = 0.10

  cltkopt = 0
  grdtrns = 0
  umove = 0.0
  vmove = 0.0
  chkdpth = 2500.0
  twindow = 33333
  tceltrk  = 120.0
  tcrestr  = 1800.0

  lvldbg = 0

  hdmpopt  = 1
  hdmpfmt  = 10
  grbpkbit = 16
  hdfcompr = 0
  thisdmp  = 3600.0
  tstrtdmp = 0.0
  numhdmp  = 1
  DO i=1,numhdmp
    hdmptim(i) = 0.
  END DO
  istager = 0

  dirname  = ' '
  tfmtprt  = 3600.0
  exbcdmp  = 0
  extdadmp = 0
  grdout   = 0
  basout   = 0
  varout   = 1
  mstout   = 1
  rainout  = 0
  prcout   = 0
  iceout   = 0
  totout   = 1
  tkeout   = 0
  trbout   = 0
  sfcout   = 0
  snowout  = 0
  landout  = 0
  radout   = 0
  flxout   = 0

  qcexout = 0
  qrexout = 0
  qiexout = 0
  qsexout = 0
  qhexout = 0

  sfcdmp   = 0
  soildmp  = 0
  terndmp  = 0

  trstout  = 3600.0

  exbcname = 'arpsexbc'
  tinitebd = '1977-05-20.15:00:00'
  tintvebd = 10800
  ngbrz    = 5
  brlxhw   = 2.3
  cbcdmp   = 0.0033333333
  cbcmix   = 1.0E-3
  exbcfmt  = 0

  mgrid = 1
!
!-----------------------------------------------------------------------
!
!  Initialize message passing processors.
!
!-----------------------------------------------------------------------
!
  ! Non-MPI defaults:
  mp_opt = 0
  myproc = 0
  loc_x = 1
  loc_y = 1

!
!-----------------------------------------------------------------------
!
!      Initialize the processors for an MPI job.
!
!-----------------------------------------------------------------------
!
 
  CALL mpinit_proc

  IF (myproc == 0)THEN

  WRITE(6,'(/ 16(/5x,a)//)')                                            &
     '###############################################################', &
     '###############################################################', &
     '#####                                                     #####', &
     '#####                      Welcome to                     #####', &
     '#####                                                     #####', &
     '#####   The Advanced Regional Prediction System  (ARPS)   #####', &
     '#####                                                     #####', &
     '#####                     Version 5.0                     #####', &
     '#####                                                     #####', &
     '#####                     Developed by                    #####', &
     '#####     Center for Analysis and Prediction of Storms    #####', &
     '#####                University of Oklahoma               #####', &
     '#####                                                     #####', &
     '###############################################################', &
     '###############################################################'

  WRITE(6,'(5(/5x,a),/6(/5x,a)/)')                                      &
      'The model begins by reading a number of control parameters,',    &
      'which are specified in namelist format through the standard',    &
      'input stream (unit 5).  See the ARPS Users Guide and the',       &
      'sample input file, arps.input, for guidance on specifying',      &
      'these parameters',                                               &
      'At the end of all parameter input, a log file is produced',      &
      'which can be directly used as the input file when you want',     &
      'to replicate the same job. This file is named runnam.log.nn',    &
      'where runnam is a standard prefix for all output files that',    &
      'are produced by this job and nn is a number appended to the',    &
      'file name when file runnam.log.nn-1 already exists.'
  END IF

!
!-----------------------------------------------------------------------
!
!  Read in grid dimensions.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,grid_dims, END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block grid_dims sucessfully read.'
  END IF

  CALL mpupdatei(nx,1)
  CALL mpupdatei(ny,1)
  CALL mpupdatei(nz,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i5)') "nx =",nx
  WRITE(6,'(5x,a,i5)') "ny =",ny
  WRITE(6,'(5x,a,i5)') "nz =",nz
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in message passing options.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,message_passing, END=100)

  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block message_passing sucessfully read.'
  END IF

  CALL mpupdatei(nproc_x,1)
  CALL mpupdatei(nproc_y,1)
  CALL mpupdatei(max_fopen,1)

  nproc_x_in = nproc_x
  nproc_y_in = nproc_y

  IF (myproc == 0)THEN

  WRITE(6,'(5x,a,i4)')                                                  &
      "Number of processors in the x-direction is:",nproc_x
  WRITE(6,'(5x,a,i4)')                                                  &
      "Number of processors in the y-direction is:",nproc_y
  WRITE(6,'(5x,a,i4)')                                                  &
      "Maximum number of files open:",max_fopen

  END IF

  ! Note that for MP version nx & ny here are global values.  They will
  ! be reassigned to their per-processor value below.

  IF (mp_opt > 0) THEN

    IF (nx /= nproc_x*int((nx-3)/nproc_x)+3) THEN
      nx = nproc_x*int((nx-3)/nproc_x+0.9999999999999) + 3
      IF (myproc == 0) THEN
        WRITE (6,*) "WARNING: adjusting nx to fit on ",nproc_x," processors:"
        WRITE(6,'(5x,a,i5)') "   new nx =",nx
      ENDIF
    ENDIF
    IF (ny /= nproc_y*int((ny-3)/nproc_y)+3) THEN
      ny = nproc_y*int((ny-3)/nproc_y+0.9999999999999) + 3
      IF (myproc == 0) THEN
        WRITE (6,*) "WARNING: adjusting ny to fit on ",nproc_y," processors:"
        WRITE(6,'(5x,a,i5)') "   new ny =",ny
      ENDIF
    ENDIF

  ELSE

    nproc_x = 1
    nproc_y = 1
    nprocs = 1
    max_fopen = 1

  ENDIF
!
!-----------------------------------------------------------------------
!
!  Initialize message passing variables.
!
!-----------------------------------------------------------------------
!
  CALL mpinit_var

!-----------------------------------------------------------------------
!  Read in agri name list block - not used by single grid arps run 
!-----------------------------------------------------------------------

  IF (myproc == 0) READ (unum,arpsagr, END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block arpsagr sucessfully read.'
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in some comment lines on this job and the name of
!  this run designated by a string at least 6 character long.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,comment_lines, END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block comment_lines sucessfully read.'
  END IF
  CALL mpupdatei(nocmnt,1)
  CALL mpupdatec(cmnt,80*nocmnt)

  IF (myproc == 0) READ (unum,jobname,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block jobname sucessfully read.'
  END IF
  CALL mpupdatec(runname,80)

  IF (myproc == 0)THEN
  WRITE(6,'(/5x,a,a)') 'The name of this run is: ', runname
  END IF
!
!-----------------------------------------------------------------------
!
!  Find out the number of characters to be used to construct file
!  names.
!
!-----------------------------------------------------------------------
!
  CALL gtlfnkey( runname, lfnkey )
!
!-----------------------------------------------------------------------
!
!  Read in the parameter that controls the model run mode:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,model_configuration,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block model_configuration sucessfully read.'
  END IF
  CALL mpupdatei(runmod,1)

  IF (myproc == 0)THEN
  WRITE (6,'(/5x,a,i4)') 'The run mode is: ', runmod
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in control parameter INITOPT for model initialization
!
!  INITOPT = 1, Self initialization (e.g. specify perturbation using
!                 analytical functions),
!            = 2, Restart run, initialize the model using previous
!                 model output,
!            = 3, Initialize the model using external input data file.
!
!  For options 2 and 3, the names of input files need to be provided.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,initialization,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block initialization sucessfully read.'
  END IF
  CALL mpupdatec(initime,19)
  CALL mpupdatei(initopt,1)
  CALL mpupdatei(inibasopt,1)
  CALL mpupdatei(viniopt,1)
  CALL mpupdater(ubar0,1)
  CALL mpupdater(vbar0,1)
  CALL mpupdatei(pt0opt,1)
  CALL mpupdater(ptpert0,1)
  CALL mpupdater(pt0radx,1)
  CALL mpupdater(pt0rady,1)
  CALL mpupdater(pt0radz,1)
  CALL mpupdater(pt0ctrx,1)
  CALL mpupdater(pt0ctry,1)
  CALL mpupdater(pt0ctrz,1)
  CALL mpupdatec(rstinf,128)
  CALL mpupdatei(inifmt,1)
  CALL mpupdatec(inifile,128)
  CALL mpupdatec(inigbf,128)
  CALL mpupdatec(sndfile,128)
  CALL mpupdatei(soilinitopt,1)
  CALL mpupdater(soiltintv,1)
  CALL mpupdatei(timeopt,1)

  READ (initime, '(i4.4,1x,i2.2,1x,i2.2,1x,i2.2,1x,i2.2,1x,i2.2)' )     &
       year,month,day,hour,minute,second

  IF (myproc == 0)THEN
  WRITE(6,'(a,a,i4.4,a,i2.2,a,i2.2,a,i2.2,a,i2.2,a,i2.2)')              &
      '     The initial local time for this run is ',                   &
      '     year-mo-dy:hr:mn:ss = ',                                    &
      year,'-',month,'-',day,'.',hour,':',minute,':',second

  WRITE(6,'(5x,a,i4/)') 'Perturbation option was ', pt0opt

  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'The magnitude of the initial perturbation is ', ptpert0,' K.'

  WRITE(6,'(5x,a,3e10.3,a,/5x,a,a,/5x,a,e10.3,a,e10.3,a,e10.3,a)')      &
      'The input radii of the thermal bubble are ',                     &
      pt0radx, pt0rady, pt0radz,' (m)',                                 &
      'in x, y and z direction recpectively, and the center is ',       &
      'located at','x=',pt0ctrx,' y=',pt0ctry,' z=',pt0ctrz,            &
      ' (m).'
  END IF
!
!-----------------------------------------------------------------------
!
!  Input data files for initialization:
!
!-----------------------------------------------------------------------
!
  lenstr = 80
  CALL strlnth( rstinf, lenstr)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
      'The two time level restart data to be read in is ',              &
      rstinf(1:lenstr)

  WRITE(6,'(5x,a,i4)')                                                  &
      'The history dump type restart data format was ',inifmt
  END IF

  lenstr = 80
  CALL strlnth( inifile, lenstr)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
      'The t-depedent history dump format restart data to be read is ', &
      inifile(1:lenstr)
  END IF

  lenstr = 80
  CALL strlnth( inigbf, lenstr)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a,a)')                                                 &
      'The base state/grid history dump ',                              &
      'format restart data to be read is ', inigbf(1:lenstr)
  END IF
!
!-----------------------------------------------------------------------
!
!  Input the environmental sounding.
!
!-----------------------------------------------------------------------
!
  lenstr = 80
  CALL strlnth( sndfile, lenstr )
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
       'Sounding file to be used is ', sndfile(1:lenstr)
  END IF
!
!-----------------------------------------------------------------------
!
!  Read the nudging options.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,nudging,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block nudging sucessfully read.'
  END IF
  CALL mpupdatei(nudgopt,1)
  CALL mpupdater(ndstart,1)
  CALL mpupdater(ndstop,1)
  CALL mpupdater(ndintvl,1)
  CALL mpupdater(ndgain,1)
  CALL mpupdatec(incrfnam,132)
  CALL mpupdatei(nudgu,1)
  CALL mpupdatei(nudgv,1)
  CALL mpupdatei(nudgw,1)
  CALL mpupdatei(nudgp,1)
  CALL mpupdatei(nudgpt,1)
  CALL mpupdatei(nudgqv,1)
  CALL mpupdatei(nudgqc,1)
  CALL mpupdatei(nudgqr,1)
  CALL mpupdatei(nudgqi,1)
  CALL mpupdatei(nudgqs,1)
  CALL mpupdatei(nudgqh,1)
  CALL mpupdatei(incrfmt,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
        'The nudging assimilation option was ',nudgopt

  WRITE(6,'(5x,a,f9.2)') 'Nudging assimilation start: ',ndstart

  WRITE(6,'(5x,a,f9.2)') 'Nudging assimilation stop: ',ndstop

  WRITE(6,'(5x,a,f9.2)') 'Nudging assimilation interval: ',ndintvl

  WRITE(6,'(5x,a,f9.2)') 'Nudging assimilation gain: ',ndgain

  END IF
  lenstr = 80
  CALL strlnth( incrfnam, lenstr)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
      'The nudging increment file is ',incrfnam(1:lenstr)
  END IF
!
!-----------------------------------------------------------------------
!
!  Specify the types of terrain option:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,terrain,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block terrain sucessfully read.'
  END IF
  CALL mpupdatei(ternopt,1)
  CALL mpupdatei(mntopt,1)
  CALL mpupdater(hmount,1)
  CALL mpupdater(mntwidx,1)
  CALL mpupdater(mntwidy,1)
  CALL mpupdater(mntctrx,1)
  CALL mpupdater(mntctry,1)
  CALL mpupdatec(terndta,128)
  CALL mpupdatei(ternfmt,1)

  IF (myproc == 0)THEN

  WRITE(6,'(5x,a,i4)') 'The mountain type option was ', mntopt

  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'The height of mountain is ', hmount,' (m).'

  WRITE(6,'(5x,a,2e10.3,a,/5x,a,a,/5x,a,e10.3,a,e10.3,a)')              &
      'The input half-width of bell-shaped mountain are ',              &
      mntwidx, mntwidy, ' (m)',                                         &
      'in x and y direction recpectively, and the center is ',          &
      'located at','x=',mntctrx,' y=',mntctry,' (m).'
  WRITE(6,'(5x,a,i4)') 'The terrain option was ', ternopt
  END IF

  lenstr = 80
  CALL strlnth( terndta, lenstr)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
      'The terrain data file is ',terndta(1:lenstr)

  WRITE(6,'(5x,a,i4)') 'The terrain data file format is ', ternfmt
  END IF
!
!-----------------------------------------------------------------------
!
!  Input horizontal grid size
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,grid,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block grid sucessfully read.'
  END IF
  CALL mpupdater(dx,1)
  CALL mpupdater(dy,1)
  CALL mpupdater(dz,1)
  CALL mpupdatei(strhopt,1)
  CALL mpupdater(dzmin,1)
  CALL mpupdater(zrefsfc,1)
  CALL mpupdater(dlayer1,1)
  CALL mpupdater(dlayer2,1)
  CALL mpupdater(strhtune,1)
  CALL mpupdater(zflat,1)
  CALL mpupdater(ctrlat,1)
  CALL mpupdater(ctrlon,1)

  IF( strhopt == 0.AND.dzmin /= dz ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
         'For non-stretched case, dzmin was reset to dz.'
  END IF
    dzmin = dz
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input dx was',dx,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input dy was ',dy,' meters'

  WRITE(6,'(5x,a,i4)') 'The stretch option was ', strhopt

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input dz was ',dz,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input ctrlat was ',ctrlat,' degree North'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input ctrlon was ',ctrlon,' degree East'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'dzmin is ',dzmin,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'zrefsfc is ',zrefsfc ,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'dlayer1 is ',dlayer1 ,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'dlayer2 is ',dlayer2 ,' meters'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'zflat   is ',zflat   ,' meters'
  END IF
!
!-----------------------------------------------------------------------
!
!  Input map projection parameters
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,projection,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block projection sucessfully read.'
  END IF
  CALL mpupdatei(mapproj,1)
  CALL mpupdater(trulat1,1)
  CALL mpupdater(trulat2,1)
  CALL mpupdater(trulon,1)
  CALL mpupdater(sclfct,1)
  CALL mpupdatei(mpfctopt,1)
  CALL mpupdatei(mptrmopt,1)
  CALL mpupdatei(maptest,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
       'Input mapproj was ',mapproj

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input trulat1 was ',trulat1,' degree North'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input trulat2 was ',trulat2,' degree North'

  WRITE(6,'(5x,a,f10.3)')                                               &
      'The latitude of the center of the model domain was ',ctrlat

  WRITE(6,'(5x,a,f10.3)')                                               &
      'The longitude of the center of the model domain was ',ctrlon

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'Input trulon was ',trulon,' degree East'

  WRITE(6,'(5x,a,e15.5)')                                               &
       'Input sclfct was ',sclfct

  WRITE(6,'(5x,a,i5)')                                                  &
       'The option for map factor was ', mpfctopt

  WRITE(6,'(5x,a,i5)')                                                  &
       'The option for map factor term in u and v advection was ',      &
       mptrmopt
  END IF

  IF (myproc == 0) READ (unum,timestep,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block timestep sucessfully read.'
  END IF
  CALL mpupdater(dtbig,1)
  CALL mpupdater(tstart,1)
  CALL mpupdater(tstop,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The big timestep was ',dtbig,' seconds.'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The model startup time was ',tstart, ' seconds.'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The termination time was ',tstop, ' seconds.'
  END IF

  IF (myproc == 0) READ (unum,acoustic_wave,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block acoustic_wave sucessfully read.'
  END IF
  CALL mpupdatei(csopt,1)
  CALL mpupdater(csfactr,1)
  CALL mpupdater(csound,1)
  CALL mpupdater(dtsml,1)
  CALL mpupdatei(vimplct,1)
  CALL mpupdatei(ptsmlstp,1)
  CALL mpupdater(tacoef,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)') 'The sound speed option was ',csopt

  WRITE(6,'(5x,a,f10.3)')                                               &
       'The reduction factr for sound speed was ', csfactr

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The constant sound speed was ', csound,' m/s.'

  WRITE(6,'(5x,a,a,i5)')                                                &
       'The vertical implicit integration option for ',                 &
       'w and p equations was ', vimplct

  WRITE(6,'(5x,a,a,i5)')                                                &
       'The option for potential temperature equation integration',     &
       'was ', ptsmlstp

  WRITE(6,'(5x,a,a,f10.3)')                                             &
       'The time average coefficient for vertically ',                  &
       'implicit solver was ', tacoef

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The input small timestep was ',dtsml,' seconds.'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
       'The actual small time step size to be used is ',                &
       dtsml,' seconds.'
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in parameters related to equation formaulation
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,equation_formulation,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block equation_formulation sucessfully read.'
  END IF
  CALL mpupdatei(buoyopt,1)
  CALL mpupdatei(buoy2nd,1)
  CALL mpupdatei(rhofctopt,1)
  CALL mpupdatei(bsnesq,1)
  CALL mpupdatei(peqopt,1)

  IF ( buoyopt == 0 ) THEN
  IF (myproc == 0)THEN
    WRITE(6,*) 'WARNING: buoyancy terms turned off by',                 &
               'selecting buoyopt=0.'
  END IF
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a,i5)')                                                &
       'The option for pressure equation formulation',                  &
       'was ',peqopt
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in parameters related to numerical schemes
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,numerics,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block numerics sucessfully read.'
  END IF
  CALL mpupdatei(madvopt,1)
  CALL mpupdatei(sadvopt,1)
  CALL mpupdatei(fctorderopt,1)
  CALL mpupdatei(fctadvptprt,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i5)')                                                  &
       'The option for momentum advection was ', madvopt

  IF( madvopt < 1 .OR. madvopt > 3 ) THEN
    WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                     &
        'Input value of madvopt= ', madvopt,' was invalid.',            &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  WRITE(6,'(5x,a,i5)')                                                  &
       'The option for scalar   advection was ', sadvopt

  IF( sadvopt < 1 .OR. sadvopt > 5 ) THEN
    WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                     &
        'Input value of sadvopt= ', sadvopt,' was invalid.',            &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF( fctorderopt /= 1 .AND. fctorderopt /= 2 ) THEN
    WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                     &
        'Input value of fctorderopt= ', fctorderopt,' was invalid.',    &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF( fctadvptprt < 0 .OR. fctadvptprt > 2 ) THEN
    WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                     &
        'Input value of fctadvptprt= ', fctadvptprt,' was invalid.',    &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF(sadvopt == 4.AND.ptsmlstp == 1.AND.fctadvptprt /= 1) THEN
    WRITE(6,'(2(/5x,a))')                                               &
        'When sadvopt=4, and ptsmlstp=1, fctadvptprt has to be 1',      &
        'fctadvptprt reset to 1'

    fctadvptprt = 1

  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input boundary condition control parameters:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,boundary_condition_options,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block boundary_condition_options sucessfully read.'
  END IF
  CALL mpupdatei(lbcopt,1)
  CALL mpupdatei(wbc,1)
  CALL mpupdatei(ebc,1)
  CALL mpupdatei(sbc,1)
  CALL mpupdatei(nbc,1)
  CALL mpupdatei(tbc,1)
  CALL mpupdatei(fftopt,1)
  CALL mpupdatei(bbc,1)
  CALL mpupdatei(rbcopt,1)
  CALL mpupdater(c_phase,1)
  CALL mpupdater(rlxlbc,1)
  CALL mpupdatei(pdetrnd,1)
!
!-----------------------------------------------------------------------
!
!  For 2-D or 1-D runs, appropriate boundary conditions are
!  automatically set to periodic.
!
!-----------------------------------------------------------------------
!
  IF( runmod == 2 .OR. runmod == 4 ) THEN
    IF( nbc /= 2 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i2)') 'nbc reset to 2 for runmod=',runmod
  END IF
      nbc = 2
    END IF

    IF( sbc /= 2 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i2)') 'sbc reset to 2 for runmod=',runmod
  END IF
      sbc = 2
    END IF
  END IF

  IF( runmod == 3 .OR. runmod == 4 ) THEN
    IF( wbc /= 2 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i2)') 'wbc reset to 2 for runmod=',runmod
  END IF
      wbc = 2
    END IF
    IF( ebc /= 2 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i2)') 'ebc reset to 2 for runmod=',runmod
  END IF
      ebc = 2
    END IF
  END IF

  IF ( lbcopt == 1 .AND.                                                &
         (wbc == 5 .OR. ebc == 5 .OR. sbc == 5 .OR. nbc == 5) ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a/5x,a,4(/5x,a,i2),2(/5x,a))')                         &
        'The lateral boundary conditions was set to internal ',         &
        'determined, but one of them was set to external forced.',      &
        'wbc = ',wbc,'  ebc = ',ebc,'  sbc = ',sbc,'  nbc = ',nbc,      &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  ELSE IF ( lbcopt == 2 ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a/5x,a)')                                              &
        'The lateral boundary conditions was set to external forced.',  &
        'All lateral boundary conditions will be reset to 5 accordingly.'
  END IF
    wbc = 5
    ebc = 5
    sbc = 5
    nbc = 5
  ELSE IF( lbcopt /= 1 ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                     &
        'Input value of lbcopt = ', lbcopt,' was invalid.',             &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF

  IF ( ebc == 3 .OR. wbc == 3 ) THEN
    ebc = 3
    wbc = 3
  END IF

  IF ( nbc == 3 .OR. sbc == 3 ) THEN
    nbc = 3
    sbc = 3
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a, 4(/5x,i3,a))')                                        &
       'The boundary options are:',                                     &
       wbc,' for  west boundary,',ebc,' for  east boundary,',           &
       sbc,' for south boundary,',nbc,' for north boundary.'


  IF ( vimplct == 1 .AND. (tbc == 2 .OR. bbc == 2) ) THEN
    WRITE(6,'(5x,a/5x,a,2(/5x,a,i2),2(/5x,a))')                         &
        'The small time step integration scheme was set to implicit ',  &
        'which is not valid to periodic vertical boundary conditions.', &
        'tbc = ',tbc,'  bbc = ',bbc,                                    &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  WRITE(6,'(5x,a, /2(5x,i3,a))')                                        &
       'The boundary options are:',                                     &
       tbc,' for top boundary,',bbc,' for bottom boundary.'

  WRITE(6,'(5x,a, /2(5x,i3,a))')                                        &
       'The upper boundary fft transform option is: ', fftopt

  IF( vimplct == 0.AND.tbc == 4)THEN
    WRITE(6,'(5x,a,/5x,a,/5x,a,2(/5x,a))')                              &
        'The upper radiation condition boundary option was chosen and', &
        'is not compatible with the vertically explicit option',        &
        'reset tbc or vimplct',                                         &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF( tbc == 4.AND.inibasopt == 2)THEN
    WRITE(6,'(5x,a,/5x,a,4(/5x,a))')                                    &
        'The upper radiation boundary condition option was chosen ',    &
        'with a neutral environment.  This upper radiation ',           &
        'is not compatible with a neutral base state. ',                &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF
!
!-----------------------------------------------------------------------
!
!  Input radiation lateral boundary condition options:
!
!-----------------------------------------------------------------------
!
  IF( rbcopt < 1.OR.rbcopt > 5 ) THEN
    WRITE(6,'(1x,a,/1x,a,i3,a,2(5x,a))')                                &
        'Only option rbcopt=1,2,3,4 is available in current version.',  &
        'The input was ',rbcopt,', Please reset rbcopt and rerun ARPS.', &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  WRITE(6,'(5x,a,i4)')                                                  &
       'The radiation boundary condition option was',rbcopt

  WRITE(6,'(5x,a,/5x,a,f13.6)')                                         &
       'The constant gravity phase speed used by radiation ',           &
       'lateral boundary condition option 2 was ',c_phase

  WRITE(6,'(5x,a,f13.6)')                                               &
       'The relaxation coefficient used at the inflow boundaries is'    &
        ,rlxlbc

!  IF ( initopt.ne.1 .and. lbcopt.ne.1 ) THEN
!    pdetrnd = 0
!  ENDIF

  WRITE(6,'(5x,a,i4)')                                                  &
       'Option for pressure detrending was', pdetrnd
  END IF
!
!-----------------------------------------------------------------------
!
!  Input external boundary condition control parameters:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,exbcpara)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block exbcpara sucessfully read.'
  END IF
  CALL mpupdatec(exbcname,80)
  CALL mpupdatec(tinitebd,19)
  CALL mpupdatei(tintvebd,1)
  CALL mpupdatei(ngbrz,1)
  CALL mpupdatei(brlxhw,1)
  CALL mpupdatei(cbcdmp,1)
  CALL mpupdatei(cbcmix,1)
  CALL mpupdatei(exbcfmt,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a9)')                                                  &
      'The initial external boundary time string was ',tinitebd

  WRITE(6,'(5x,a,i10)')                                                 &
      'The time interval to update external boundary conditions was ',  &
      tintvebd

  WRITE(6,'(5x,a,i10)')                                                 &
      'The number of boundary relaxation zone grids was ', ngbrz

  WRITE(6,'(5x,a,e15.8)')                                               &
      'The real grid number where BC relaxation is half weighted was ', &
      brlxhw

  WRITE(6,'(5x,a,e15.8)')                                               &
      'The magnitude of the boundary relaxation damping was ',cbcdmp

  WRITE(6,'(5x,a,e15.8)')                                               &
      'The magnitude of the boundary computational mixing was ',cbcmix

  WRITE(6,'(5x,a,i4)')                                                  &
      'The external boundary file format was ', exbcfmt
  END IF
!
!-----------------------------------------------------------------------
!
!  Coriolis parameters:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,coriolis_force,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block coriolis_force sucessfully read.'
  END IF
  CALL mpupdatei(coriopt,1)
  CALL mpupdatei(coriotrm,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)') 'The Coriolis term option was ', coriopt

  WRITE (6,'(5x,a,i4)') 'The flag for Coriolis formulation was',        &
                          coriotrm
  END IF
!
!-----------------------------------------------------------------------
!
!  Input parameters for turbulent mixing.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,turbulence,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block turbulence sucessfully read.'
  END IF
  CALL mpupdatei(tmixopt,1)
  CALL mpupdatei(trbisotp,1)
  CALL mpupdatei(tkeopt,1)
  CALL mpupdatei(trbvimp,1)
  CALL mpupdatei(tmixvert,1)
  CALL mpupdater(alfcoef,1)
  CALL mpupdater(tmixcst,1)
  CALL mpupdater(prantl,1)
  CALL mpupdater(kmlimit,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)') 'The turbulence option was ', tmixopt

  WRITE (6,'(5x,a,i4)') 'The isotropic turbulence option was ',         &
         trbisotp

  WRITE (6,'(5x,a,i4)') 'The 1.5 order TKE option was ', tkeopt

  WRITE (6,'(5x,a,i4)')                                                 &
        'The implicit treatment of vertical mixing option was',         &
         trbvimp

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The parameter coeff was ', alfcoef

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The nondimensional turbulent prandtl number was ', prantl

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The constant mixing coeff was ', tmixcst

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The parameter used to limit km was ', kmlimit
  END IF

  IF (trbvimp == 0) alfcoef=1.0

  IF (tmixopt == 4 .AND. (tkeopt <= 0 .OR. tkeopt >= 4) ) THEN
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a,i3,2(/5x,a))')                                      &
        'tkeopt should be 1, 2, or 3 for tmixopt=4, input was=',tkeopt, &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF
!
!-----------------------------------------------------------------------
!
!  Input control parameters for computational mixing
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,computational_mixing,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block computational_mixing sucessfully read.'
  END IF
  CALL mpupdatei(cmix2nd,1)
  CALL mpupdater(cfcm2h,1)
  CALL mpupdater(cfcm2v,1)
  CALL mpupdatei(cmix4th,1)
  CALL mpupdater(cfcm4h,1)
  CALL mpupdater(cfcm4v,1)
  CALL mpupdater(scmixfctr,1)
  CALL mpupdatei(cmix_opt,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
      'The second order computational mixing option was ',cmix2nd

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The coeff for second order horizontal mixing was ',cfcm2h

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The coeff for second order vertical mixing was ',cfcm2v

  WRITE(6,'(5x,a,i4)')                                                  &
      'The fourth order computational mixing option was ',cmix4th

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The coeff for fourth order horizontal mixing was ',cfcm4h

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The coeff for fourth order vertical mixing was ',cfcm4v

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The c-mixing reduction factor for scalars was ',scmixfctr

  WRITE(6,'(5x,a,i4)')                                               &
      'The c-mix monotonic option was ',cmix_opt

  IF( cmix2nd /= 0 .AND. cfcm2h > 0.125/dtbig ) THEN
    WRITE(6,'(5x,a,a,2(/5x,a))')                                        &
        'Value of cfcm2h was too large. ',                              &
        'It has to be less than 1/(8*dtbig).',                          &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
    CALL arpsstop('arpsstop called from INITPARA with cdcm2h selection',1)
  END IF

  IF( cmix2nd /= 0 .AND. cfcm2v > 0.125/dtbig ) THEN
    WRITE(6,'(5x,a,a,2(/5x,a))')                                        &
        'Value of cfcm2v was too large. ',                              &
        'It has to be less than 1/(8*dtbig).',                          &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF( cmix4th /= 0 .AND. cfcm4h > 0.125/dtbig ) THEN
    WRITE(6,'(5x,a,a,2(/5x,a))')                                        &
        'Value of cfcm4h was too large. ',                              &
        'It has to be less than 1/(8*dtbig).',                          &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF

  IF( cmix4th /= 0 .AND. cfcm4v > 0.125/dtbig ) THEN
    WRITE(6,'(5x,a,a,2(/5x,a))')                                        &
        'Value of cfcm4v was too large. ',                              &
        'It has to be less than 1/(8*dtbig).',                          &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input controls for divergence damping on acoustic waves
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,divergence_damping,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block divergence_damping sucessfully read.'
  END IF
  CALL mpupdatei(divdmp,1)
  CALL mpupdater(divdmpndh,1)
  CALL mpupdater(divdmpndv,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)')                                                 &
      'The acoustic wave damping option was ', divdmp

  WRITE (6,'(5x,a,f10.3,a,f10.3,a)')                                    &
      'The non-dimensional divergence damping coeff was ',              &
      divdmpndh, ' for horizontal and ',                                &
      divdmpndv, ' for vertical'
  END IF
!
!-----------------------------------------------------------------------
!
!  Rayleigh damping parameters:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,rayleigh_damping,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block rayleigh_damping sucessfully read.'
  END IF
  CALL mpupdatei(raydmp,1)
  CALL mpupdater(cfrdmp,1)
  CALL mpupdater(zbrdmp,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)') 'The rayleigh damping option was ',raydmp

  WRITE(6,'(5x,a,e15.5)') 'The rayleigh damping coeff was ',cfrdmp

  WRITE(6,'(5x,a,e15.5)')                                               &
      'The altitude of base of rayleigh damping was ',zbrdmp

  IF ( raydmp == 2 .AND. lbcopt /= 2 ) THEN
    WRITE (6,'(5x,a,i3,/5x,a,a,2(/5x,a))')                              &
        'You can use raydmp=2 only when lbcopt=2. lbcopt=', lbcopt,     &
        'had been chosen. Please reset raydmp or lbcopt in the',        &
        'input file.',                                                  &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
    CALL arpsstop('arpsstop called from INITPARA with raydmp/lbcopt     &
         & selection',1)
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Robert-Asselin time filter coefficient:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,asselin_time_filter,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')                                                        &
      'Namelist block asselin_time_filter sucessfully read.'
  END IF
  CALL mpupdater(flteps,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,e15.5)')                                               &
      'The non-dimensional coeff of asselin time filter was ',flteps
  END IF
!
!-----------------------------------------------------------------------
!
!  Input the control parameters for microphysics parameterizations
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,microphysics,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block microphysics sucessfully read.'
  END IF
  CALL mpupdatei(mphyopt,1)
  CALL mpupdatei(moist,1)
  CALL mpupdatei(cnvctopt,1)
  CALL mpupdater(kffbfct,1)
  CALL mpupdater(wcldbs,1)
  CALL mpupdater(confrq,1)
  CALL mpupdater(qpfgfrq,1)
  CALL mpupdatei(idownd,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)') 'The microphysics option was ', mphyopt

  WRITE (6,'(5x,a,i4)') 'The moist phyics option was ', moist

  WRITE (6,'(5x,a,i4)')                                                 &
      'The convective cumulus option was ',cnvctopt

  WRITE (6,'(5x,a,f15.5)')                                              &
      'The K-F rainwater feedback option was ',kffbfct

  WRITE (6,'(5x,a,f10.5)') 'The vertical motion was ', wcldbs

  WRITE (6,'(5x,a,f10.5)')                                              &
      'The frequency of conv. para. updated in seconds was',confrq

  WRITE (6,'(5x,a,f10.5)')                                              &
      'The frequency of grid  para. updated in seconds was',qpfgfrq

  WRITE (6,'(5x,a,i4)') 'The downdraft flag was ', idownd

  IF ( moist == 0 .AND. cnvctopt == 1 ) THEN
    WRITE (6,'(5x,a/5x,a,a,2(/5x,a))')                                  &
        'Since cnvctopt = 1, ',                                         &
        'moist has to be set to 1 in order to use cumulus physics',     &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
    CALL arpsstop('arpsstop called from INITPARA with moist/cnvctopt    &
         & selection',1)
  END IF

  IF ( cnvctopt == 1 .AND. mphyopt /= 0 ) THEN
    WRITE (6,'(5x,a/5x,a,a,2(/5x,a))')                                  &
        'Use cnvctopt=2 if you wish to use',                            &
        'both cumulus parameterization and microphysics.',              &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
    err_no = err_no + 1
  END IF
  END IF

  IF ( mphyopt < 0 .OR. mphyopt > 4 ) THEN
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a/5x,a/5x,a)')                                        &
        'No option for mphyopt > 4.',                                   &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  ELSE IF ( mphyopt == 2 .OR. mphyopt == 3 ) THEN
    ice = 1
  ELSE
    ice = 0
  END IF
!
!-----------------------------------------------------------------------
!
!  Input the control parameters for radiation parameterizations
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,radiation,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block radiation sucessfully read.'
  END IF
  CALL mpupdatei(radopt,1)
  CALL mpupdatei(radstgr,1)
  CALL mpupdatei(rlwopt,1)
  CALL mpupdater(dtrad,1)
  CALL mpupdatei(raddiag,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)')                                                 &
      'The radiation phyics option was ', radopt

  WRITE (6,'(5x,a,i4)')                                                 &
      'The radiation staggering option was ', radstgr

  WRITE (6,'(5x,a,i4)')                                                 &
      'The option for longwave schemes was ', rlwopt

  WRITE (6,'(5x,a,f10.5)')                                              &
      'The Time interval to update the radiation forcing was ', dtrad

  WRITE (6,'(5x,a,i4)')                                                 &
      'The radiation diagnostic output option was ', raddiag
  END IF

  nradstp = nint( dtrad/dtbig )
  IF( nradstp /= 0 ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i6,a)')                                              &
        'Radiation physics will be calculated every ', nradstp,         &
        ' time steps'
  END IF
    dtrad = dtbig*nradstp
  ELSE
    nradstp = -1
    radopt  = 0
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Radiation physics is switched off.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input surface physics options
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,surface_physics,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)') 'Namelist block surface_physics sucessfully read.'
  END IF
  CALL mpupdatei(sfcphy,1)
  CALL mpupdatei(landwtr,1)
  CALL mpupdatei(cdhwtropt,1)
  CALL mpupdater(cdmlnd,1)
  CALL mpupdater(cdmwtr,1)
  CALL mpupdater(cdhlnd,1)
  CALL mpupdater(cdhwtr,1)
  CALL mpupdater(cdqlnd,1)
  CALL mpupdater(cdqwtr,1)
  CALL mpupdatei(pbldopt,1)
  CALL mpupdater(pbldpth0,1)
  CALL mpupdater(lsclpbl0,1)
  CALL mpupdatei(tqflxdis,1)
  CALL mpupdater(dtqflxdis,1)
  CALL mpupdatei(smthflx,1)
  CALL mpupdatei(numsmth,1)
  CALL mpupdatei(sfcdiag,1)

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)') 'The surface physics option was ', sfcphy

  WRITE (6,'(5x,a,i4)') 'The land/water option was ', landwtr

  WRITE (6,'(5x,a,i4)')                                                 &
      'The constant water cdh option was ', cdhwtropt

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for momentun over land was ',      &
      cdmlnd

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for momentun over water was ',     &
      cdmwtr

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for heat over land was ',          &
      cdhlnd

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for heat over water was ',         &
      cdhwtr

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for moisture over land was ',      &
      cdqlnd

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified drag coeff for moisture over water was ',     &
      cdqwtr

  WRITE (6,'(5x,a,i3)')                                                 &
      'The option for determining PBL depth was ', pbldopt

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The user specified PBL depth was ', pbldpth0

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The PBL length scale ', lsclpbl0

  WRITE (6,'(5x,a,i4)') 'The flux distribution option was ',            &
                         sflxdis
  END IF

  IF ( sfcphy == 0 ) THEN
    sflxdis = 0
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a/5x,a)')                                             &
        'When sfcphy=0, there is no surface flux to be distributed.',   &
        ' Set sflxdis=0.'
  END IF
  ELSE IF ( sflxdis < 0 .OR. sflxdis > 3 ) THEN
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a,/5x,a,/5x,a)')                                      &
        'The options for sflxdis must be between 0 and 3.',             &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)')                                                 &
      'The heat and moisture distribution option was ',tqflxdis
  END IF

  IF ( sfcphy == 0 ) THEN
    tqflxdis = 0
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a/5x,a)')                                             &
        'When sfcphy=0, there is no surface flux to be distributed.',   &
        ' Set tqflxdis=0.'
  END IF
  ELSE IF ( tqflxdis < 0 .OR. tqflxdis > 2 ) THEN
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a,/5x,a,/5x,a))')                                     &
        'The options for tqflxdis must be 0, 1, or 2.',                 &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF

  IF( tqflxdis /= 0 .AND. sflxdis /= 0 ) THEN
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a,/5x,a,/5x,a,/5x,a)')                                &
        'Options tqflxdis and sflxdis should not be turned on at the',  &
        'same time. Please turn one of them off',                       &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF

  IF ( smthflx >= 0 ) THEN
    numsmth = MAX( 1, numsmth )
  END IF

  IF ( radopt == 0 .AND. (sfcphy == 3 .OR. sfcphy == 4) ) THEN
    radopt = 1
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a/5x,a/5x,a,i2)')                                     &
        'Since soil-vegetation process was switched on, we must',       &
        'compute the surface radiation flux for energy balance.',       &
        'radopt was reset to 1 in INITPARA.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input soil and vegetation parameters
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,soil_ebm,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block soil_ebm sucessfully read.'
  END IF

  CALL mpupdatei(sfcdat,1)
  CALL mpupdatei(soilinit,1)
  CALL mpupdater(dtsfc,1)
  CALL mpupdatei(styp,1)
  CALL mpupdatei(vtyp,1)
  CALL mpupdater(lai0,1)
  CALL mpupdater(roufns0,1)
  CALL mpupdater(veg0,1)
  CALL mpupdater(ptslnd0,1)
  CALL mpupdater(ptswtr0,1)
  CALL mpupdater(tsoil0,1)
  CALL mpupdater(wetsfc0,1)
  CALL mpupdater(wetdp0,1)
  CALL mpupdater(wetcanp0,1)
  CALL mpupdater(snowdpth0,1)
  CALL mpupdater(tsprt,1)
  CALL mpupdater(t2prt,1)
  CALL mpupdater(wgrat,1)
  CALL mpupdater(w2rat,1)
  CALL mpupdatec(sfcdtfl,128)
  CALL mpupdatec(soilinfl,128)
  CALL mpupdatei(sfcfmt,1)
  CALL mpupdatei(soilfmt,1)
  CALL mpupdatei(nstyp,1)

  nstyp = MAX(1,nstyp)
  nstyps = nstyp

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,i4)')                                                 &
       'The surface data input option was ',sfcdat

  WRITE (6,'(5x,a,i4)')                                                 &
       'The surface initial data input option was ',soilinit
  END IF

  IF ( sfcphy == 0 ) THEN
    sfcdat = 1
    soilinit = 1
    landwtr = 0
    sfcdiag = 0
  IF (myproc == 0)THEN
    WRITE (6,'(5x,a/5x,a/5x,a)')                                        &
        'Since sfcphy = 0, sfcdat and soilinit are set to 1 and',       &
        'landwtr to 0 to avoid reading the surface data.',              &
        'Diagnostics printing is turned off.'
  END IF
  END IF

  IF (myproc == 0)THEN
  WRITE (6,'(5x,a,f10.3)')                                              &
       'The time step for surface energy budget model was ',dtsfc

  WRITE (6,'(5x,a,i4)') 'The surface soil type is ',styp

  WRITE (6,'(5x,a,i4)') 'The surface vegtation type is ',vtyp

  WRITE (6,'(5x,a,f10.3)') 'The leaf area index is ', lai0

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The user specified land surface roughness was ', roufns0

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The user specified vegetation fraction was ', veg0

  WRITE (6,'(5x,a,a,f10.3)')                                            &
       'The initial ground level soil potential temperature ',          &
       'over land is ',ptslnd0

  WRITE (6,'(5x,a,a,f10.3)')                                            &
       'The initial ground level soil potential temperature ',          &
       'over water is ',ptswtr0

  WRITE (6,'(5x,a,f10.3)')                                              &
       'The initial deep ground temperature is ',tsoil0

  WRITE (6,'(5x,a,f10.3)') 'The surface soil moisture is ',wetsfc0

  WRITE (6,'(5x,a,f10.3)') 'The deep soil moisture is ',wetdp0

  WRITE (6,'(5x,a,f10.3)') 'The canopy moisture is ',wetcanp0

  WRITE (6,'(5x,a,f10.3)') 'The snow depth is ',snowdpth0

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The offset of tsfc from surface air temperature is ',tsprt

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The offset of tsoil from surface air temperature is ',t2prt

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The saturation ratio of surface soil moisture is ',wgrat

  WRITE (6,'(5x,a,f10.3)')                                              &
      'The saturation ratio of deep soil moisture is ',w2rat
  END IF

  lenstr = 80
  CALL strlnth( sfcdtfl, lenstr )
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
       'Surface data file to be used is ', sfcdtfl(1:lenstr)

  WRITE (6,'(5x,a,i4)')                                                 &
       'The surface data file format was ',sfcfmt
  END IF

  lenstr = 80
  CALL strlnth( soilinfl, lenstr )
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,a)')                                                   &
       'Soil data file to be used is ', soilinfl(1:lenstr)

  WRITE (6,'(5x,a,i4)')                                                 &
       'The soil data file format was ',soilfmt
  END IF

  IF ( sfcphy /= 0 ) THEN

    dtsfc = MIN( dtsfc, dtbig )
    dtsfc0 = dtsfc
    nsfcst = nint(dtbig/dtsfc)
    dtsfc  = dtbig/nsfcst

    IF ( dtsfc > dtsfc0 ) THEN
      nsfcst = nsfcst + 1
      dtsfc = dtbig/nsfcst
  IF (myproc == 0)THEN
      WRITE(6,'(/a,1x,f10.4,a)')                                        &
          '     The actual surface model time step to be used is ',     &
           dtsfc, ' seconds'
  END IF
    END IF

    IF (styp <= 0 .OR. styp >= 14) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                   &
          'The input styp =',styp, 'not acceptable.',                   &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF (vtyp <= 0 .OR. vtyp >= 15) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i3,a,2(/5x,a))')                                   &
          'The input vtyp =',vtyp, 'not acceptable.',                   &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( lai0 < 0.0 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f6.2,a,2(/5x,a))')                                 &
          'The input lai0=',lai0, 'not acceptable.',                    &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( roufns0 < 0.0 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f6.2,a,2(/5x,a))')                                 &
          'The input roufns0=',roufns0, 'not acceptable.',              &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( veg0 < 0.0 .OR. veg0 > 1.0 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f6.2,a,2(/5x,a))')                                 &
          'The input veg0=',veg0, 'not acceptable.',                    &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( ptslnd0 < 173.13 .OR. ptslnd0 > 373.16 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                                &
          'The input ptslnd0=',ptslnd0, 'not acceptable.',              &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( ptswtr0 < 173.13 .OR. ptswtr0 > 373.16 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                                &
          'The input ptswtr0=',ptswtr0, 'not acceptable.',              &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( tsoil0 < 173.13 .OR. tsoil0 > 373.16 ) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                                &
          'The input tsoil0=',tsoil0, 'not acceptable.',                &
          'Program will try to complete reading in input parameters, ', &
          'but will stop at the end of subroutine INITPARA.'
  END IF
      err_no = err_no + 1
    END IF

    IF ( styp == 12 ) THEN
      ptslnd0  = MIN( ptslnd0, 273.16 )
      tsoil0   = MIN( tsoil0, 273.16 )
      wetsfc0  = 0.
      wetdp0   = 0.
      wetcanp0 = 0.
  IF (myproc == 0)THEN
      WRITE(6,'(/a/a/a)')                                               &
          '     The soil type is ice.',                                 &
          '     The soil temperatures are set to ice point 273.16 K.',  &
          '     And the moisture variables are set to 0.'
  END IF
    ELSE IF ( styp == 13 ) THEN
      wetsfc0  = 1.
      wetdp0   = 1.
      wetcanp0 = 1.
  IF (myproc == 0)THEN
      WRITE(6,'(/a/a)')                                                 &
          '     The soil type is water.',                               &
          '     The moisture variables are set to 1.'
  END IF
    ELSE
      IF (wetsfc0 < 0.0 .OR. wetsfc0 > 1.0) THEN
  IF (myproc == 0)THEN
        WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                              &
            'The input wetsfc0=',wetsfc0, 'not acceptable.',            &
            'Program will try to complete reading in input parameters, ', &
            'but will stop at the end of subroutine INITPARA.'
  END IF
        err_no = err_no + 1
      ELSE IF ( wetsfc0 > wsat(styp) ) THEN
        wetsfc0 = wsat(styp)
  IF (myproc == 0)THEN
        WRITE(6,'(/a/a,f10.4)')                                         &
            '     The input wetsfc0 is greater than the saturated value', &
            '     and actually adjusted to the saturated value: ',      &
             wetsfc0
  END IF
      END IF

      IF (wetdp0 < 0.0 .OR. wetdp0 > 1.0) THEN
  IF (myproc == 0)THEN
        WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                              &
            'The input wetdp0=',wetdp0, 'not acceptable.',              &
            'Program will try to complete reading in input parameters, ', &
            'but will stop at the end of subroutine INITPARA.'
  END IF
        err_no = err_no + 1
      ELSE IF ( wetdp0 > wsat(styp) ) THEN
        wetdp0 = wsat(styp)
  IF (myproc == 0)THEN
        WRITE(6,'(/a/a,f10.4)')                                         &
            '     The input wetdp0 is greater than the saturated value ', &
            '     and actually adjusted to the saturated value: ',wetdp0
  END IF
      END IF

      wgrat = MAX( 0.0, MIN(1.0,wgrat) )
      w2rat = MAX( 0.0, MIN(1.0,w2rat) )

      wrmax = .2*veg0*lai0
      IF (wetcanp0 < 0.0 .OR. wetcanp0 > 1.0) THEN
  IF (myproc == 0)THEN
        WRITE(6,'(5x,a,f10.5,a,2(/5x,a))')                              &
            'The input wetcanp0=',wetcanp0, 'not acceptable.',          &
            'Program will try to complete reading in input parameters, ', &
            'but will stop at the end of subroutine INITPARA.'
  END IF
        err_no = err_no + 1
      ELSE IF ( wetcanp0 > wrmax ) THEN
        wetcanp0 = wrmax
  IF (myproc == 0)THEN
        WRITE(6,'(/a/a,f10.4)')                                         &
            '     The input wetcanp0 is greater than the maximun value ', &
            '     and actually adjusted to the maximun value: ',wetcanp0
  END IF
      END IF

    END IF

  END IF

  nstyps = MAX(1,nstyps)
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i5)') "nstyps =",nstyps
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in parameters for automatic grid translation.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,grdtrans,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block grdtrans sucessfully read.'
  END IF
  CALL mpupdatei(cltkopt,1)
  CALL mpupdatei(grdtrns,1)
  CALL mpupdater(umove,1)
  CALL mpupdater(vmove,1)
  CALL mpupdater(chkdpth,1)
  CALL mpupdater(twindow,1)
  CALL mpupdater(tceltrk,1)
  CALL mpupdater(tcrestr,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i10)') 'Cell tracking option was ',cltkopt
  WRITE(6,'(5x,a,i10)') 'The grid translation option was ',grdtrns
  END IF

  IF( grdtrns == 2 .AND. cltkopt == 0 ) THEN
    cltkopt = 1
  IF (myproc == 0)THEN
    WRITE(6,'((5x,a)/)')                                                &
        'Since grdtrns =2, cltkopt was reset to 1.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Ground-relative domain translation speed:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,f10.3)')                                               &
       'The domain translation speed in x was ', umove

  WRITE(6,'(5x,a,f10.3)')                                               &
       'The domain translation speed in y was ', vmove


  WRITE(6,'(5x,a,f10.3)')                                               &
      'The depth of domain to check for grid translation was',chkdpth
  WRITE(6,'(5x,a,f10.3)')                                               &
      'The time window for updating umove and vmove was ',twindow

  WRITE(6,'(5x,a,f10.3)') 'Cell tracking interval was ', tceltrk

  END IF
  IF( tceltrk > 0.0 .AND. tceltrk < dtbig ) THEN
    nceltrk = 1
  ELSE
    nceltrk = nint(tceltrk/dtbig)
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i6,a)')                                                &
       'Cell-tracking routine will be called every', nceltrk,           &
       ' time steps.'

  WRITE(6,'(5x,a,f10.3)') 'Cell restore time was ', tcrestr
  END IF
!
!-----------------------------------------------------------------------
!
!  Read in namelist &history_dump
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,history_dump,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block history_dump sucessfully read.'
  END IF
  CALL mpupdatei(hdmpopt,1)
  CALL mpupdatei(hdmpfmt,1)
  CALL mpupdatei(grbpkbit,1)
  CALL mpupdater(thisdmp,1)
  CALL mpupdater(tstrtdmp,1)
  CALL mpupdatei(numhdmp,1)
  CALL mpupdater(hdmptim,numhdmp)
  CALL mpupdatei(istager,1)
  CALL mpupdatei(hdfcompr,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)') 'The history dump option was ',hdmpopt

  WRITE(6,'(5x,a,i4)') 'The history dump format was ',hdmpfmt

  END IF
  IF( hdmpfmt < 0 .OR. hdmpfmt > 11) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i4,a,2(/5x,a))')                                     &
        'The option hdmpfmt=', hdmpfmt, ' not valid.',                  &
        'Program will try to complete reading in input parameters, ',   &
        'but will stop at the end of subroutine INITPARA.'
  END IF
    err_no = err_no + 1
  END IF

!  IF( hdmpfmt.eq.10 .and. nz.ge.256 ) THEN
!    write(6,'(5x,a/5x,a)')
!    :  'The GRIB format can only handle number of vertical levels',
!    :  'less than 256 (8-bits). Reset hdmpfmt to 1 (binary format)'
!    hdmpfmt = 1
!  ENDIF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i6)')                                                  &
       'Number of bits in packing GRIB dump data was ',grbpkbit

  WRITE(6,'(5x,a,i4)')                                                  &
       'HDF4 compression option was ',hdfcompr

  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'The history dump time interval was ',thisdmp,' seconds '

  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'The history dump starting time was ',tstrtdmp,' seconds '
  END IF

  IF ( hdmpopt == 2 ) THEN

    IF(numhdmp > 0) THEN
      DO i=1,numhdmp
        hdmpstp(i) = nint(hdmptim(i)/dtbig)
      END DO

      nhisdmp = 1
  IF (myproc == 0)THEN
      WRITE(6,'(5x,i3,a,a)') numhdmp,                                   &
          ' history data dumps will be produced at',                    &
          ' the following time steps:'
      WRITE(6,'(5x,10i6)') (hdmpstp(i),i=1,numhdmp)
  END IF
    ELSE
      nhisdmp = -1
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a)')                                                 &
          'History data dump is switched off.'
  END IF
    END IF

  ELSE

    hdmpopt  = 1
    nhisdmp  = nint(thisdmp/dtbig)
    nstrtdmp = nint(tstrtdmp/dtbig)

    thisdmp  = nhisdmp*dtbig
    tstrtdmp = nstrtdmp*dtbig

    IF(nhisdmp > 0) THEN
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,i6,a,i6,a/5x,a,a)')                                &
          'History data dumps will be produced every ', nhisdmp,        &
          ' time steps after the first ',nstrtdmp,' time steps ',       &
          'where tttttt (if any) stands for the time of the data ',     &
          'in seconds.'
  END IF
    ELSE
      nhisdmp = -1
  IF (myproc == 0)THEN
      WRITE(6,'(5x,a)')                                                 &
          'History data dump is switched off.'
  END IF
    END IF

  END IF
!
!-----------------------------------------------------------------------
!
!  Read in namelist &output
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,output,END=100)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block output sucessfully read.'
  END IF
  CALL mpupdatec(dirname,128)
  CALL mpupdater(tfmtprt,1)
  CALL mpupdatei(exbcdmp,1)
  CALL mpupdatei(extdadmp,1)
  CALL mpupdatei(grdout,1)
  CALL mpupdatei(basout,1)
  CALL mpupdatei(varout,1)
  CALL mpupdatei(mstout,1)
  CALL mpupdatei(rainout,1)
  CALL mpupdatei(prcout,1)
  CALL mpupdatei(iceout,1)
  CALL mpupdatei(tkeout,1)
  CALL mpupdatei(trbout,1)
  CALL mpupdatei(sfcout,1)
  CALL mpupdatei(landout,1)
  CALL mpupdatei(totout,1)
  CALL mpupdatei(radout,1)
  CALL mpupdatei(flxout,1)
  CALL mpupdatei(qcexout,1)
  CALL mpupdatei(qrexout,1)
  CALL mpupdatei(qiexout,1)
  CALL mpupdatei(qsexout,1)
  CALL mpupdatei(qhexout,1)
  CALL mpupdatei(trstout,1)
  CALL mpupdater(tmaxmin,1)
  CALL mpupdater(tenergy,1)
  CALL mpupdatei(imgopt,1)
  CALL mpupdater(timgdmp,1)
  CALL mpupdatei(pltopt,1)
  CALL mpupdater(tplots,1)
  CALL mpupdatei(filcmprs,1)
  CALL mpupdatei(readyfl,1)
  CALL mpupdatei(sfcdmp,1)
  CALL mpupdatei(soildmp,1)
  CALL mpupdatei(terndmp,1)

  IF (myproc == 0)THEN
  WRITE(6,'(/5x,a,f10.3,a)')                                            &
      'Formatted printout time interval was ',tfmtprt,' seconds.'
  END IF

  nfmtprt =  nint(tfmtprt/dtbig)

  IF( nfmtprt /= 0) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i6,a)')                                              &
        'Formatted printing is done every ', nfmtprt,' time steps.'
  END IF
  ELSE
    nfmtprt = -1
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Formatted printing is switched off.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input model output parameters:
!
!  First, give the name of the directory into which output files
!  will be written:
!
!-----------------------------------------------------------------------
!
  ldirnam = 80
  CALL strlnth( dirname, ldirnam)

  IF( ldirnam == 0 ) THEN
    dirname = '.'
    ldirnam=1
  END IF

  IF( dirname(1:ldirnam) /= ' ') THEN
!
!-----------------------------------------------------------------------
!
!  Check if the specified output directory exists, if not,
!  abort the job.
!
!-----------------------------------------------------------------------
!
    INQUIRE(FILE=dirname(1:ldirnam),EXIST=iexist)

    IF( .NOT.iexist ) THEN

  IF (myproc == 0)THEN
      WRITE(6,'(5x,a,2(/5x,a))')                                        &
          'Specified output directory '//dirname(1:ldirnam)//           &
          ' not found.',                                                &
          'It was created by the program.'
  END IF

      CALL unixcmd( 'mkdir -p '//dirname(1:ldirnam) )

!      write(6,'(5x,a,4(/5x,a))')
!    :      'Specified output directory '//dirname(1:ldirnam)//
!    :      ' not found.',
!    :      'Please create it before starting the model.',
!    :      'Program will try to complete reading in input parameters, ',
!    :      'but will stop at the end of subroutine INITPARA.'
!        err_no = err_no + 1
    END IF

  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Output files will be in directory '//dirname(1:ldirnam)//'.'
  END IF

  ELSE

  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Output files will be in the current work directory.'
  END IF

  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
      'The flag to dump out ARPS array into EXBC fields was ',exbcdmp
  END IF

  IF ( lbcopt /= 2 ) THEN
    extdadmp = 0
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i4)')                                                &
        'The flag to dump out EXBC array into ARPS history file was ',  &
        extdadmp
  END IF
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
      'The flag to dump out ARPS surface data files was ',sfcdmp
  WRITE(6,'(5x,a,i4)')                                                  &
      'The flag to dump out ARPS soil data files was ',soildmp
  WRITE(6,'(5x,a,i4)')                                                  &
      'The flag to dump out an ARPS terrain data file was ',terndmp
  END IF
!
!-----------------------------------------------------------------------
!
!  Set the control parameters for the output of selected fields.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
       'The input grid coordinate dump option was ', grdout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input base state array dump option was ', basout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input mass-velocity array dump option was ', varout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input non-ice water array dump option was ',mstout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input rain array dump option was ', rainout
  END IF
  rainout = rainout * mstout

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
      'The input precipitation rates array dump option was ',prcout
  END IF
  prcout = prcout * mstout

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)')                                                  &
      'The input ice array dump option was ', iceout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input TKE dump option was ', tkeout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The input eddy mixing coeff dump option was ', trbout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The soil variable dump option was ', sfcout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The surface property array dump option was ', landout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The radiation arrays dump option was ', radout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The surface fluxes dump option was ', flxout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The qc EXBC dump option was ', qcexout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The qr EXBC dump option was ', qrexout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The qi EXBC dump option was ', qiexout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The qs EXBC dump option was ', qsexout

  WRITE(6,'(5x,a,i4)')                                                  &
      'The qh EXBC dump option was ', qhexout
  END IF
!
!-----------------------------------------------------------------------
!
!  Input restart data dump time:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a)')                                                     &
       'Specify the time interval between restart data dumps (s):'

  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'Time interval between restart dumps was ',trstout,' seconds '
  END IF

  nrstout =  nint(trstout/dtbig)
  IF( nrstout > 0) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,/5x,a,i6,a,/5x,a)')                                  &
        'Restart data files '//runname(1:lfnkey)//'.rsttttttt',         &
        'will be produced every ', nrstout,' time steps',               &
        'where tttttt stands for the time of the data in seconds.'
  END IF
  ELSE
    nrstout = -1
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Restart data dump is switched off.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input parameters for maximum and minimum statistics calculations:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,f10.3,a)')                                             &
      'Interval between max/min calucations was ',tmaxmin,' seconds '
  END IF

  nmaxmin = nint(tmaxmin/dtbig)

  IF( tmaxmin > 0.0 .AND. tmaxmin < dtbig ) THEN
    nmaxmin = 1
  ELSE
    nmaxmin = nint(tmaxmin/dtbig)
  END IF

  IF(nmaxmin /= 0)THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i6,a,/5x,a/)')                                       &
        'Max. min. statistics are calculated every ', nmaxmin,          &
        ' time steps.',                                                 &
        'and the results are written into file '//runname(1:lfnkey)     &
        //'.maxmin '
  END IF
  ELSE
    nmaxmin = -1
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Max. min. statistics calcualtions are switched off.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  Input parameter for energy/ptprt variance statistics calculations:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,f10.3)')                                               &
      'Interval between energy stats calculations was ',tenergy
  END IF

  nenergy = nint(tenergy/dtbig)

  IF(nenergy /= 0)THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i6,a,/5x,a)')                                        &
        'Energy statistics are calculated every',nenergy,' time steps.', &
        'and the results are written into file '//                      &
        runname(1:lfnkey)//'.eng '
  END IF
  ELSE
    nenergy = -1
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a)')                                                   &
        'Energy statistics calculations are switched off.'
  END IF
  END IF
!
!-----------------------------------------------------------------------
!
!  More output control parameters, for HDF imgage generation, cell-
!  tracking calls and graphic plotting.
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)') 'Image dump option was ',imgopt

  WRITE(6,'(5x,a,f10.3)') 'Image dump interval was ',timgdmp
  END IF

  IF( timgdmp == 0.0) THEN
    imgopt = 0
    nimgdmp = 1
  ELSE IF( timgdmp > 0.0 .AND. timgdmp < dtbig ) THEN
    nimgdmp = 1
  ELSE
    nimgdmp = nint(timgdmp/dtbig)
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i6,a)')                                                &
       'HDF images will be produced every ', nimgdmp,' time steps.'

  WRITE(6,'(5x,a,i4)') 'Plotting option was ', pltopt

  WRITE(6,'(5x,a,f10.3)') 'Plotting interval was ', tplots
  END IF

  nplots  = nint(tplots /dtbig)
  IF(nplots > 0)THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,a,i6,a)')                                              &
        'Plotting routine will be called every',nplots,' time steps.'
  END IF
  ELSE
    nplots = -1
  END IF

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i6)')                                                  &
       'File compression option was ',filcmprs
  END IF
!
!-----------------------------------------------------------------------
!
!  Input debug information print controls:
!
!-----------------------------------------------------------------------
!
  IF (myproc == 0) READ (unum,debug)
  IF (myproc == 0)THEN
  WRITE(6,'(a)')'Namelist block debug sucessfully read.'
  END IF
  CALL mpupdatei(lvldbg,1)

  IF (myproc == 0)THEN
  WRITE(6,'(5x,a,i4)') 'The debug printing level was ', lvldbg
  END IF

  GO TO 102
!
!-----------------------------------------------------------------------
!
!  Print out the input parameters.
!  Write out a log file of model parameters which can be used as
!  the input file to re-run the model.
!
!-----------------------------------------------------------------------
!

  100  CONTINUE
  IF (myproc == 0)THEN
  CALL wrtcomment('Error reading NAMELIST file. Default values used',1)
  END IF

  102  CONTINUE

!
!-----------------------------------------------------------------------
!
!  Compute derived variables.
!
!-----------------------------------------------------------------------
!
  ebc_global = ebc
  wbc_global = wbc
  nbc_global = nbc
  sbc_global = sbc

  IF (mp_opt > 0) THEN  ! Convert from global to processor specific values.
    nx = (nx - 3)/nproc_x + 3
    ny = (ny - 3)/nproc_y + 3
    IF (myproc == 0) WRITE(6,'(5x,a,i5)') "   Processor nx =",nx
    IF (myproc == 0) WRITE(6,'(5x,a,i5)') "   Processor ny =",ny

    IF (loc_x /= 1) wbc = 0
    IF (loc_x /= nproc_x) ebc = 0
    IF (loc_y /= 1) sbc = 0
    IF (loc_y /= nproc_y) nbc = 0
  END IF

  IF( initopt == 2 ) THEN
    restrt = 1
  ELSE
    restrt = 0
  END IF

  CALL julday( year, month, day, jday )         ! Get the Julian day

  nudgstp=1
  temr = ndintvl/dtbig
  nudgstp=MAX(nint(temr),1)
  ndintvl=dtbig*nudgstp
  temr = (ndstop-ndstart)/ndintvl
  ndscale=ndgain/MAX(nint(temr),1)

  IF ( mapproj == 0 ) THEN
    mpfctopt = 0
  END IF
  mptrmopt = mptrmopt * mpfctopt
  latitud = ctrlat
  longitud= ctrlon
  IF ( mapproj == 0 ) THEN
    trulat1 = ctrlat
    trulat2 = ctrlat
    trulon  = ctrlon
  END IF

  dtsml0 = dtsml
  nsmstp = MAX( 1, nint(2.0*dtbig/dtsml) )
  dtsml  = 2.0*dtbig/nsmstp
  IF (dtsml > dtsml0) THEN
    nsmstp = nsmstp + 1
    dtsml  = 2.0*dtbig/nsmstp
  END IF

  dxinv = 1.0/dx
  dyinv = 1.0/dy
  dzinv = 1.0/dz

  xl = (nx-3)*dx
  yl = (ny-3)*dy
  zh = (nz-3)*dz

  IF( ternopt /= 0 .OR. strhopt /= 0 ) THEN
    crdtrns = 1
  ELSE
    crdtrns = 0
  END IF

  cbcmixh = cbcmix * dx*dy

  IF( runmod == 2 ) THEN
    dh = dx
  ELSE IF( runmod == 3 ) THEN
    dh = dy
  ELSE
    dh = SQRT(dx*dy)
  END IF

  cfcmh2 = cfcm2h * dh*dh
  cfcmh4 = cfcm4h * dh**4
  cfcmv2 = cfcm2v * dz*dz
  cfcmv4 = cfcm4v * dz**4

  IF ( divdmp == 1 ) THEN    ! isotropic, cdvdmph=cdvdmpv

    IF ( runmod == 1 ) THEN
      temr = MIN(dx,dy,dzmin)
    ELSE IF( runmod == 2 ) THEN
      temr = MIN(dx,dzmin)
    ELSE IF( runmod == 3 ) THEN
      temr = MIN(dy,dzmin)
    ELSE IF( runmod == 4 ) THEN
      temr = dzmin
    END IF

    cdvdmph = divdmpndh * temr **2 / dtsml
    cdvdmpv = cdvdmph

  ELSE IF ( divdmp == 2 ) THEN

    IF ( runmod == 1 ) THEN
      temr = MIN( SQRT(dx*dy), 5000.0 )
    ELSE IF( runmod == 2 ) THEN
      temr = MIN( dx, 5000.0 )
    ELSE IF( runmod == 3 ) THEN
      temr = MIN( dy, 5000.0 )
    ELSE IF( runmod == 4 ) THEN
      temr = dzmin
    END IF

    cdvdmph = divdmpndh * temr**2 / dtsml
    cdvdmpv = divdmpndv * dzmin **2 / dtsml

  END IF

  IF( err_no /= 0 ) THEN
  IF (myproc == 0)THEN
    WRITE(6,'(5x,i4,a,/5x,a,/5x,a,a)')                                  &
        err_no, ' fatal errors found with the input parameters.',       &
        'Please check the ARPS input parameters carefully.',            &
        'The values of parameters you have used can be found',          &
        ' in the log file.'
  END IF
    CALL arpsstop('arpsstop called from INITPARA with an option',1)
  END IF

  RETURN
END SUBROUTINE initpara
!
!
!##################################################################
!##################################################################
!######                                                      ######
!######                SUBROUTINE PRTLOG                     ######
!######                                                      ######
!######                     Developed by                     ######
!######     Center for Analysis and Prediction of Storms     ######
!######                University of Oklahoma                ######
!######                                                      ######
!##################################################################
!##################################################################
!


SUBROUTINE prtlog(nx,ny,nz,nunit) 4,6
!
!-----------------------------------------------------------------------
!
!  PURPOSE:
!
!  Print a log file compatible in the namelist format
!
!-----------------------------------------------------------------------
!
!  AUTHOR: Adwait Sathye
!  9/15/93
!
!-----------------------------------------------------------------------
!

!
!-----------------------------------------------------------------------
!
!  Variable Declarations.
!
!-----------------------------------------------------------------------
!
  IMPLICIT NONE

  INTEGER :: nx,ny,nz      ! The number of grid points in 3 directions
  INTEGER :: nunit         ! The I/O unit to be used for the log file output
!
!-----------------------------------------------------------------------
!
!  Misc. local variables:
!
!-----------------------------------------------------------------------
!
  CHARACTER (LEN=80) :: logfn
  INTEGER :: llogfn
  INTEGER :: logfunt
  INTEGER :: istat
  INTEGER :: lenstr,i,j,ncmnt
!
!
!-----------------------------------------------------------------------
!
!  Include files
!
!-----------------------------------------------------------------------
!
  INCLUDE 'globcst.inc'
  INCLUDE 'grid.inc'          ! Grid parameters
  INCLUDE 'bndry.inc'
  INCLUDE 'phycst.inc'
  INCLUDE 'exbc.inc'
  INCLUDE 'nudging.inc'
  INCLUDE 'mp.inc'            ! Message passing parameters.
  INCLUDE 'agricst.inc'
  INCLUDE 'nodal.inc'
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
!  Beginning of executable code...
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
!-----------------------------------------------------------------------
!
!  Write out a log file in namelist format which can be used as
!  the input file for replicating this run.
!
!  First get a name for the log file:
!
!-----------------------------------------------------------------------
!
  IF( nunit == 6 ) THEN

    logfunt = 6
    WRITE(logfunt,'(///2x,a,i3//)')                                     &
        'PRINT OUT OF MODEL PARAMETERS FOR GRID ',mgrid

  ELSE

    CALL gtlogfn(runname(1:lfnkey), mgrid, nestgrd, logfn, llogfn)

    CALL getunit( logfunt )

    OPEN (UNIT=logfunt, FILE=trim(logfn(1:llogfn)),STATUS='new',        &
          IOSTAT=istat)

    IF(istat /= 0) THEN

      WRITE(6,'(/3x,a)')'Error in opening log file ',logfn(1:llogfn)
      WRITE(6,'(3x,a/)')'Job stopped in subroutine INITPARA.'
      CALL arpsstop('arpsstop called from PRTLOG with opening log file' &
                     ,1)

    END IF

  END IF
!
!-----------------------------------------------------------------------
!
!  Construct a namelist input file in the namelog file. default
!  format used by the write function for namelist is to write all the
!  data in a single line, as opposed to a single value per line.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(1x,a)') '&grid_dims'
  WRITE (logfunt, '(3x,a,i4,a)')    'nx = ', nx,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'ny = ', ny,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nz = ', nz,  ','
  WRITE (logfunt, '(1x,a)') '/'

  WRITE (logfunt, '(1x,a)') '&message_passing'
  WRITE (logfunt, '(3x,a,i4,a)') 'nproc_x   = ', nproc_x,   ','
  WRITE (logfunt, '(3x,a,i4,a)') 'nproc_y   = ', nproc_y,   ','
  WRITE (logfunt, '(3x,a,i4,a)') 'max_fopen = ', max_fopen, ','
  WRITE (logfunt, '(1x,a)') '/'

  nxc = nx ! Base grid dimensions in ARPS AGR 
  nyc = ny ! Base grid dimensions in ARPS AGR 
  nzc = nz ! Base grid dimensions in ARPS AGR 

  WRITE (logfunt, '(1x,a)') '&arpsagr'
  WRITE (logfunt, '(3x,a,i4,a)')    'levfix = ', levfix,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    '  intrat = ', intrat,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    '  intratt= ', intratt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'intrpodr= ', intrpodr,  ','
  WRITE (logfunt, '(3x,a,i10,a)')   'kcheck  = ', kcheck,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose1= ', verbose1,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose2= ', verbose2,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose3= ', verbose3,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose4= ', verbose4,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose5= ', verbose5,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'verbose6= ', verbose6,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'rstart  = ', rstart  ,  ','
  WRITE (logfunt,'(3x,a,a,a)')      'runold = ''', trim(runold), ''','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'rstime    = ',rstime, ','
  WRITE (logfunt, '(3x,a,l7,a)')     'rstdump = ', rstdump ,  ','
  WRITE (logfunt, '(3x,a,l7,a)')     'grdsrt  = ', grdsrt  ,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nfinelv = ', nfinelv, ','

  DO i=1,nfinelv
    WRITE (logfunt, '(5x,a,i3.3,a,i3,a)')'ngrdnew(',i,') =',ngrdnew(nfinelv),','
    DO j=1,ngrdnew(nfinelv)
      WRITE (logfunt,'(7x,a,i3.3,a,i3.3,a,f10.3,a)')'ixc(',j,',',i,') =',ixc(j,i),','
      WRITE (logfunt,'(7x,a,i3.3,a,i3.3,a,f10.3,a)')'jyc(',j,',',i,') =',jyc(j,i),','
      WRITE (logfunt,'(7x,a,i3.3,a,i3.3,a,f10.3,a)')'ixln(',j,',',i,') =',ixln(j,i),','
      WRITE (logfunt,'(7x,a,i3.3,a,i3.3,a,f10.3,a)')'jyln(',j,',',i,') =',jyln(j,i),','
      WRITE (logfunt,'(7x,a,i3.3,a,i3.3,a,f10.3,a)')'gangle(',j,',',i,') =',gangle(j,i),','
    ENDDO
  ENDDO
  WRITE (logfunt, '(1x,a)') '/'

  ncmnt = MAX( 1, MIN(9,nocmnt) )

  WRITE (logfunt, '(1x,a)') '&comment_lines'
  WRITE (logfunt, '(3x,a,i4,a)') 'nocmnt    = ', ncmnt , ','

  WRITE (cmnt(ncmnt),'(a,i4,a,i4,a,i4,a,a)')                            &
                    ' nx =',nx,', ny =',ny,', nz =',nz,                 &
                    ' ',arpsversion

  DO i=1,ncmnt
    WRITE (logfunt,'(3x,a,i2.2,a,a,a)')                                 &
         'cmnt(',i,')  = ''', trim(cmnt(i)), ''','
  END DO

  WRITE (logfunt, '(1x,a)') '/'
!
!-----------------------------------------------------------------------
!
!  Write the jobname namelist values into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)') '&jobname'
  WRITE (logfunt,'(3x,a,a,a)') 'runname   = ''', trim(runname), ''','
  WRITE (logfunt, '(1x,a)') '/'
!
!-----------------------------------------------------------------------
!
!  Write the model config namelist values into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)') '&model_configuration'
  WRITE (logfunt, '(3x,a,i4,a)') 'runmod    = ', runmod, ','
  WRITE (logfunt, '(1x,a)') '/'
!
!-----------------------------------------------------------------------
!
!  Write the initialization namelist values into the namelist logfile
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')    '&initialization'
  WRITE (logfunt, '(3x,a,i4.4,a,i2.2,a,i2.2,a,i2.2,a,i2.2,a,i2.2,a)')   &
                   'initime   = ''', year,'-',month,'-',day,'.',        &
                               hour,':',minute,':',second, ''','
  WRITE (logfunt, '(3x,a,i4,a)')    'timeopt   = ', timeopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'initopt   = ', initopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'inibasopt = ', inibasopt,','
  WRITE (logfunt, '(3x,a,i4,a)')    'viniopt   = ', viniopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'soilinitopt = ',soilinitopt,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'soiltintv   = ',soiltintv,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ubar0     = ', ubar0,    ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'vbar0     = ', vbar0,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'pt0opt    = ', pt0opt,   ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ptpert0   = ', ptpert0,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0radx   = ', pt0radx,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0rady   = ', pt0rady,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0radz   = ', pt0radz,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0ctrx   = ', pt0ctrx,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0ctry   = ', pt0ctry,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pt0ctrz   = ', pt0ctrz,  ','

  WRITE (logfunt, '(3x,a,a,a)') 'sndfile   = ''', trim(sndfile), ''','
  WRITE (logfunt,'(3x,a,a,a)')  'rstinf    = ''', trim(rstinf), ''','
  WRITE (logfunt, '(3x,a,i4,a)')'inifmt    = ', inifmt, ','
  WRITE (logfunt, '(3x,a,a,a)') 'inifile   = ''', trim(inifile), ''','
  WRITE (logfunt, '(3x,a,a,a)') 'inigbf    = ''', trim(inigbf),  ''','
  WRITE (logfunt, '(1x,a)')     '/'
!
!-----------------------------------------------------------------------
!
!  Write the nudging namelist values into the namelist logfile
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')    '&nudging'
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgopt   = ', nudgopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ndstart   = ', ndstart,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ndstop    = ', ndstop,   ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ndintvl   = ', ndintvl,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ndgain    = ', ndgain,   ','
  WRITE (logfunt, '(3x,a,a,a)')     'incrfnam = ''', trim(incrfnam), ''','
  WRITE (logfunt, '(3x,a,i4,a)')    'incrfmt   = ', incrfmt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgu     = ', nudgu,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgv     = ', nudgv,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgw     = ', nudgw,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgp     = ', nudgp,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgpt    = ', nudgpt,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqv    = ', nudgqv,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqc    = ', nudgqc,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqr    = ', nudgqr,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqi    = ', nudgqi,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqs    = ', nudgqs,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nudgqh    = ', nudgqh,   ','
  WRITE (logfunt, '(1x,a)')      '/'
!
!-----------------------------------------------------------------------
!
!  Write the terrain namelist values into the namelist logfile
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&terrain'
  WRITE (logfunt, '(3x,a,i4,a)')    'ternopt   = ', ternopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'mntopt    = ', mntopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'hmount    = ', hmount,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'mntwidx   = ', mntwidx, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'mntwidy   = ', mntwidy, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'mntctrx   = ', mntctrx, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'mntctry   = ', mntctry, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'ternfmt   = ', ternfmt, ','
  WRITE (logfunt, '(3x,a,a,a)')     'terndta  = ''', trim(terndta), ''','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the grid namelist values into the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&grid'
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dx        = ', dx,       ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dy        = ', dy,       ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dz        = ', dz,       ','
  WRITE (logfunt, '(3x,a,i4,a)')    'strhopt   = ', strhopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dzmin     = ', dzmin,    ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'zrefsfc   = ', zrefsfc,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dlayer1   = ', dlayer1,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dlayer2   = ', dlayer2,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'strhtune  = ', strhtune, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'zflat     = ', zflat,    ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ctrlat    = ', ctrlat,   ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ctrlon    = ', ctrlon,   ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the map projection namelist values into the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&projection'
  WRITE (logfunt, '(3x,a,i4,a)')    'mapproj   = ',mapproj, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'trulat1   = ',trulat1, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'trulat2   = ',trulat2, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'trulon    = ',trulon,  ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'sclfct    = ',sclfct,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'mpfctopt  = ',mpfctopt,','
  WRITE (logfunt, '(3x,a,i4,a)')    'mptrmopt  = ',mptrmopt,','
  WRITE (logfunt, '(3x,a,i4,a)')    'maptest   = ',maptest, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the timestep namelist values into the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '×tep'
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dtbig     = ', dtbig, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tstart    = ', tstart,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tstop     = ', tstop, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the acoustic_wave namelist values into the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&acoustic_wave'
  WRITE (logfunt, '(3x,a,i4,a)')    'vimplct   = ', vimplct, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'ptsmlstp  = ', ptsmlstp,','
  WRITE (logfunt, '(3x,a,i4,a)')    'csopt     = ', csopt,   ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'csfactr   = ', csfactr, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'csound    = ', csound,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tacoef    = ', tacoef,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dtsml     = ', dtsml,   ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write out equation formulation related parameters
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&equation_formulation'
  WRITE (logfunt, '(3x,a,i4,a)')    'buoyopt   = ', buoyopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'buoy2nd   = ', buoy2nd,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'rhofctopt = ', rhofctopt,','
  WRITE (logfunt, '(3x,a,i4,a)')    'bsnesq    = ', bsnesq,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'peqopt    = ', peqopt,   ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write out numerics related parameters
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&numerics'
  WRITE (logfunt, '(3x,a,i4,a)')    'madvopt   = ', madvopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'sadvopt   = ', sadvopt, ','
  WRITE (logfunt, '(3x,a,i3,a)')    'fctorderopt= ',fctorderopt, ','
  WRITE (logfunt, '(3x,a,i3,a)')    'fctadvptprt= ',fctadvptprt, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write all the boundary conditions in the namelist format into
!  the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&boundary_condition_options'
  WRITE (logfunt, '(3x,a,i4,a)')    'lbcopt    = ', lbcopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'wbc       = ', wbc_global,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'ebc       = ', ebc_global,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'sbc       = ', sbc_global,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'nbc       = ', nbc_global,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'tbc       = ', tbc,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'fftopt    = ', fftopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'bbc       = ', bbc,    ','
  WRITE (logfunt, '(3x,a,i4,a)')    'rbcopt    = ', rbcopt, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'c_phase   = ', c_phase,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'rlxlbc    = ', rlxlbc ,','
  WRITE (logfunt, '(3x,a,i4,a)')    'pdetrnd   = ', pdetrnd,','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the exbcpara namelist value into the log file.
!
!-----------------------------------------------------------------------
!
  lenstr = 80
  CALL strlnth( exbcname, lenstr)

  WRITE (logfunt, '(/1x,a)')      '&exbcpara'
  WRITE (logfunt, '(3x,a)')                                             &
                      'exbcname  = '''//exbcname(1:lenstr)//''','
  WRITE (logfunt, '(3x,a)')     'tinitebd  = '''//tinitebd//''','
  WRITE (logfunt, '(3x,a,i10,a)')   'tintvebd  = ', tintvebd, ','
  WRITE (logfunt, '(3x,a,i10,a)')   'ngbrz     = ', ngbrz,    ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'brlxhw    = ', brlxhw,   ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cbcdmp    = ', cbcdmp,   ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cbcmix    = ', cbcmix,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'exbcfmt   = ', exbcfmt,  ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the coriolis force namelist values into the logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')   '&coriolis_force'
  WRITE (logfunt, '(3x,a,i4,a)') 'coriopt   = ', coriopt, ','
  WRITE (logfunt, '(3x,a,i4,a)') 'coriotrm  = ', coriotrm,','
  WRITE (logfunt, '(1x,a)')    '/'
!
!-----------------------------------------------------------------------
!
!  Write the turbulence namelist values into the namelist logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&turbulence'
  WRITE (logfunt, '(3x,a,i4,a)')    'tmixopt   = ', tmixopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'trbisotp  = ', trbisotp,','
  WRITE (logfunt, '(3x,a,i4,a)')    'tkeopt    = ', tkeopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'trbvimp   = ', trbvimp, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'tmixvert  = ', tmixvert,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'alfcoef   = ', alfcoef, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'prantl    = ', prantl,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tmixcst   = ', tmixcst, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'kmlimit   = ', kmlimit, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write a computational_mixing namelist values into the logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&computational_mixing'
  WRITE (logfunt, '(3x,a,i4,a)')    'cmix2nd   = ', cmix2nd,','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cfcm2h    = ', cfcm2h, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cfcm2v    = ', cfcm2v, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'cmix4th   = ', cmix4th,','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cfcm4h    = ', cfcm4h, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cfcm4v    = ', cfcm4v, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'scmixfctr = ', scmixfctr, ','
  WRITE (logfunt, '(3x,a,i4,a)') 'cmix_opt = ', cmix_opt, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Calculate divdmpnd and write the divergence namelist data into
!  the namelist log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&divergence_damping'
  WRITE (logfunt, '(3x,a,i4,a)')    'divdmp    = ', divdmp,   ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'divdmpndh = ', divdmpndh,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'divdmpndv = ', divdmpndv,','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the rayleigh_damping namelist values into the logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&rayleigh_damping'
  WRITE (logfunt, '(3x,a,i4,a)')    'raydmp    = ', raydmp, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'cfrdmp    = ', cfrdmp, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'zbrdmp    = ', zbrdmp, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the asselin_time_filter namelist data into the logfile.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&asselin_time_filter'
  WRITE (logfunt, '(3x,a,f16.4,a)') 'flteps    = ', flteps, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the microphysics namelist values into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      'µphysics'
  WRITE (logfunt, '(3x,a,i4,a)')    'moist     = ', moist,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'mphyopt   = ', mphyopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'cnvctopt  = ', cnvctopt,','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'kffbfct   = ', kffbfct, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'wcldbs    = ', wcldbs,  ','
  WRITE (logfunt, '(3x,a,e15.4,a)') 'confrq    = ', confrq,  ','
  WRITE (logfunt, '(3x,a,e15.4,a)') 'qpfgfrq   = ', qpfgfrq, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'idownd    = ', idownd,  ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the radiation namelist values into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&radiation'
  WRITE (logfunt, '(3x,a,i4,a)')    'radopt    = ', radopt,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'radstgr   = ', radstgr, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'rlwopt    = ', rlwopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dtrad     = ', dtrad,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'raddiag   = ', raddiag, ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the surface physics namelist values into the namelist
!  log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&surface_physics'
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcphy    = ', sfcphy, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'landwtr   = ', landwtr,','
  WRITE (logfunt, '(3x,a,i4,a)')    'cdhwtropt = ', cdhwtropt,','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdmlnd    = ', cdmlnd, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdmwtr    = ', cdmwtr, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdhlnd    = ', cdhlnd, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdhwtr    = ', cdhwtr, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdqlnd    = ', cdqlnd, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'cdqwtr    = ', cdqwtr, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'pbldopt   = ', pbldopt,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'pbldpth0  = ', pbldpth0,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'lsclpbl0  = ', lsclpbl0,','
!  write (logfunt, '(3x,a,i4,a)')    'sflxdis   = ', sflxdis,','
  WRITE (logfunt, '(3x,a,i4,a)')    'tqflxdis  = ', tqflxdis,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'dtqflxdis = ', dtqflxdis,','
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcdiag   = ', sfcdiag,','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the surface energy budget model (EBM) namelist values into
!  the namelist log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&soil_ebm'
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcdat    = ', sfcdat,   ','
  WRITE (logfunt, '(3x,a,i4,a)')    'styp      = ', styp,     ','
  WRITE (logfunt, '(3x,a,i4,a)')    'vtyp      = ', vtyp,     ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'lai0      = ', lai0,     ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'roufns0   = ', roufns0,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'veg0      = ', veg0,     ','

  lenstr = 80
  CALL strlnth( sfcdtfl,lenstr )
  WRITE (logfunt, '(3x,a,a,a)')                                         &
                       'sfcdtfl   = ''', sfcdtfl(1:lenstr), ''','
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcfmt    = ', sfcfmt,   ','

  WRITE (logfunt, '(3x,a,i4,a)')    'soilinit  = ', soilinit, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ptslnd0   = ', ptslnd0,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'ptswtr0   = ', ptswtr0,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tsoil0    = ', tsoil0,   ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'wetsfc0   = ', wetsfc0,  ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'wetdp0    = ', wetdp0,   ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'wetcanp0  = ', wetcanp0, ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'snowdpth0 = ', snowdpth0,','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'tsprt     = ', tsprt,    ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 't2prt     = ', t2prt,    ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'wgrat     = ', wgrat,    ','
  WRITE (logfunt, '(3x,a,e15.5,a)') 'w2rat     = ', w2rat,    ','

  lenstr = 80
  CALL strlnth( soilinfl,lenstr )
  WRITE (logfunt, '(3x,a,a,a)')                                         &
                      'soilinfl  = ''', soilinfl(1:lenstr), ''','
  WRITE (logfunt, '(3x,a,i4,a)')    'soilfmt   = ',soilfmt,   ','

  WRITE (logfunt, '(3x,a,f16.4,a)') 'dtsfc     = ', dtsfc,    ','

  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Parameters for automatic grid translation.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&grdtrans'
  WRITE (logfunt, '(3x,a,i4,a)')    'cltkopt   =',cltkopt,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tceltrk   =',tceltrk,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tcrestr   =',tcrestr,','
  WRITE (logfunt, '(3x,a,i4,a)')    'grdtrns   =',grdtrns,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'umove     =',umove,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'vmove     =',vmove,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'twindow   =',twindow,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'chkdpth   =',chkdpth,','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the history_dump namelist data into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&history_dump'

  WRITE (logfunt, '(3x,a,i4,a)')    'hdmpopt   = ', hdmpopt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'hdmpfmt   = ', hdmpfmt, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'grbpkbit  = ', grbpkbit,','
  WRITE (logfunt, '(3x,a,i4,a)')    'hdfcompr  = ', hdfcompr,','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'thisdmp   = ', thisdmp, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tstrtdmp  = ', tstrtdmp,','
  WRITE (logfunt, '(3x,a,i4,a)')    'numhdmp   = ', numhdmp, ','
  IF ( numhdmp > 0 ) THEN
    DO i=1,numhdmp
      WRITE (logfunt, '(3x,a,i3.3,a,f16.4,a)')                          &
                              'hdmptim(',i,') = ', hdmptim(i),','
    END DO
  END IF
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the output namelist data into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&output'

  WRITE (logfunt, '(3x,a)')                                             &
                 'dirname   = '''//dirname(1:ldirnam)//''','

  WRITE (logfunt, '(3x,a,i4,a)')    'exbcdmp   = ', exbcdmp, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'extdadmp  = ', extdadmp,','
  WRITE (logfunt, '(3x,a,i4,a)')    'filcmprs  = ', filcmprs,','
  WRITE (logfunt, '(3x,a,i4,a)')    'basout    = ', basout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'grdout    = ', grdout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'varout    = ', varout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'mstout    = ', mstout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'iceout    = ', iceout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'tkeout    = ', tkeout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'trbout    = ', trbout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcout    = ', sfcout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'rainout   = ', rainout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'prcout    = ', prcout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'landout   = ', landout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'radout    = ', radout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'flxout    = ', flxout,  ','
  WRITE (logfunt, '(3x,a,i4,a)')    'qcexout   = ', qcexout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'qrexout   = ', qrexout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'qiexout   = ', qiexout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'qsexout   = ', qsexout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'qhexout   = ', qhexout, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'sfcdmp    = ',  sfcdmp, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'soildmp   = ', soildmp, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'terndmp   = ', terndmp, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tfmtprt   = ', tfmtprt, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'trstout   = ', trstout, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tmaxmin   = ', tmaxmin, ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tenergy   = ', tenergy, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'imgopt    = ', imgopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'timgdmp   = ', timgdmp, ','
  WRITE (logfunt, '(3x,a,i4,a)')    'pltopt    = ', pltopt,  ','
  WRITE (logfunt, '(3x,a,f16.4,a)') 'tplots    = ', tplots,  ','
  WRITE (logfunt, '(1x,a)')       '/'
!
!-----------------------------------------------------------------------
!
!  Write the debug namelist value into the log file.
!
!-----------------------------------------------------------------------
!
  WRITE (logfunt, '(/1x,a)')      '&debug'
  WRITE (logfunt, '(3x,a,i4,a)')    'lvldbg    = ', lvldbg, ','
  WRITE (logfunt, '(1x,a)')       '/'

  IF( logfunt /= 6 ) THEN

    CLOSE(UNIT=logfunt)
    CALL retunit( logfunt )

    WRITE(6,'(/3x,a,a,a/)')                                             &
         'Log file ',logfn(1:llogfn),' was produced for this job.'

  END IF

  RETURN
END SUBROUTINE prtlog
!
!##################################################################
!##################################################################
!######                                                      ######
!######                SUBROUTINE SETGRD                     ######
!######                                                      ######
!######                     Developed by                     ######
!######     Center for Analysis and Prediction of Storms     ######
!######                University of Oklahoma                ######
!######                                                      ######
!##################################################################
!##################################################################
!


SUBROUTINE setgrd( nx,ny, x, y ) 2,4
!
!-----------------------------------------------------------------------
!
!  PURPOSE:
!
!  Set up the ARPS model grid.
!
!  The structure of this program is as follows:
!
!  1. Get the map projection information.
!     (call subroutine setmapr)
!
!  2. Get the absolute coordinates of the model grid origin on map
!     grid with the origin at north pole.
!     (call subroutine lltoxy)
!
!  3. Set up the model origin.
!     (call subroutine setorig)
!
!-----------------------------------------------------------------------
!
!  AUTHOR: Yuhe Liu
!  1/26/94
!
!  MODIFICATIONS:
!
!  7/15/94
!  Change the model grid reference point from the southwest corner to
!  the center of model domain.
!
!  9/10/94 (Weygandt & Y. Lu)
!  Cleaned up documentation.
!
!-----------------------------------------------------------------------
!
!  INPUT:
!
!    nx       Number of grid points for the model
!             grid in the east-west direction.
!    ny       Number of grid points for the model
!             grid in the north-south direction.
!
!  OUTPUT:
!
!    x        Analysis grid points in the e-w direction
!             (in grid units)
!    y        Analysis grid points in the n-s direction
!             (in grid units)
!
!-----------------------------------------------------------------------
!

!
!-----------------------------------------------------------------------
!
!  Variable Declarations.
!
!-----------------------------------------------------------------------
!
  IMPLICIT NONE

  INTEGER :: nx                ! Number of model grid points
                               ! in the east-west direction.
  INTEGER :: ny                ! Number of model grid points
                               ! in the north-south direction
  REAL :: x   (nx)             ! 2-D model grid points east-west
                               ! direction (model grid units)
  REAL :: y   (ny)             ! 2-D model grid points north-south
                               ! direction (model grid units)
!
!-----------------------------------------------------------------------
!
!  Include files: globcst.inc phycst.inc
!
!  dx       Model grid spacing in the x-direction east-west
!           (meters)
!  dy       Analysis grid spacing in the y-direction north-south
!           (meters)
!
!  ctrlat   Latitude of the center of the model grid (deg. N)
!  ctrlon   Longitude of the center of the model grid (deg. E)
!
!  mapproj  type of map projection used to setup the model grid.
!           mapproj = 1  Polar Stereographic projection
!                   = 2  Mercator projection
!                   = 3  Lambert
!  trulat1  The 1st real true latitude of map projection.
!  trulat2  The 2nd real true latitude of map projection.
!  trulon   Real true longitude of map projection.
!  sclfct   Map scale factor (eg. sclfct=1/1000000)
!
!-----------------------------------------------------------------------
!
  INCLUDE 'globcst.inc'
  INCLUDE 'grid.inc'          ! Grid parameters
  INCLUDE 'phycst.inc'
  INCLUDE 'mp.inc'            ! Message passing parameters.
!
!-----------------------------------------------------------------------
!
!  Misc. local variables:
!
!-----------------------------------------------------------------------
!
  INTEGER :: i,j
  REAL :: alatpro(2)
  REAL :: sclf
  REAL :: dxscl             ! Model x-direction grid spacing
                            ! normalized by the map scale
                            ! dxscl=dx/sclf
  REAL :: dyscl             ! Model y-direction grid spacing
                            ! normalized by the map scale
                            ! dyscl=dy/sclf
  REAL :: ctrx, ctry, swx, swy

  REAL :: xsub0, ysub0

!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
!  Beginning of executable code...
!
!@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@@
!
  alatpro(1) = trulat1
  alatpro(2) = trulat2

  IF( sclfct /= 1.0) THEN
    sclf  = 1.0/sclfct
    dxscl = dx*sclf
    dyscl = dy*sclf
  ELSE
    sclf  = 1.0
    dxscl = dx
    dyscl = dy
  END IF

  xsub0 = dx * (nx-3) * (loc_x-1)
  ysub0 = dy * (ny-3) * (loc_y-1)
!
!-----------------------------------------------------------------------
!
!  Note IMPORTANT!!!!: dx and dy are in meters...and the grid is
!  oriented so that the y-axis line through the true longitude of
!  a map projection runs along a longitude line towards
!  the northpole and the x-axis is perpendicular to the y-axis.
!  Create the x,y grid in grid meters (multiplied by sclf), the
!  origin is the southwest corner of the model physical domain as
!  translated from the center point specified by user
!  (ctrlat/ctrlon).
!
!-----------------------------------------------------------------------
!
  CALL setmapr( mapproj,sclf,alatpro,trulon )
                               ! set up parameters for map projection

!
!-----------------------------------------------------------------------
!
!  Find the absolute coordinate (ctrx,ctry) of point (ctrlat,ctrlon)
!  in the latitude-longitude space.
!
!-----------------------------------------------------------------------
!
  CALL lltoxy( 1,1, ctrlat,ctrlon, ctrx, ctry )
!
!-----------------------------------------------------------------------
!
!  Translate the center point to the first physical point, i.e.,
!  the origin of the model grid.
!
!-----------------------------------------------------------------------
!
!     swx = ctrx - (float(nx-3)/2.) * dxscl
!     swy = ctry - (float(ny-3)/2.) * dyscl
  swx = ctrx - (FLOAT(nproc_x*(nx-3))/2.) * dxscl
  swy = ctry - (FLOAT(nproc_y*(ny-3))/2.) * dyscl

  CALL setorig( 1, swx, swy)
                               ! set up the model origin to the coord.

  xgrdorg = 0.0
  ygrdorg = 0.0
!
!-----------------------------------------------------------------------
!
!  Calculate the rest of the model grid points in earth meters*sclf
!
!-----------------------------------------------------------------------
!
  DO i=1,nx

!       x(i) = dxscl * (i-2)
    x(i) = sclf*xsub0 + dxscl * (i-2)

  END DO

  DO j=1,ny

!       y(j) = dyscl * (j-2)
    y(j) = sclf*ysub0 + dyscl * (j-2)

  END DO

  CALL setcornerll(nx,ny,x,y)

  RETURN
END SUBROUTINE setgrd