ini_budget.f90

!MNH_LIC Copyright 1994-2014 CNRS, Meteo-France and Universite Paul Sabatier
!MNH_LIC This is part of the Meso-NH software governed by the CeCILL-C licence
!MNH_LIC version 1. See LICENSE, CeCILL-C_V1-en.txt and CeCILL-C_V1-fr.txt  
!MNH_LIC for details. version 1.
!-----------------------------------------------------------------
!--------------- special set of characters for RCS information
!-----------------------------------------------------------------
! $Source$ $Revision$
! masdev4_8 budget 2008/06/20 10:08:26
!-----------------------------------------------------------------
!     ######################
      MODULE MODI_INI_BUDGET
!     ###################### 
INTERFACE
      SUBROUTINE INI_BUDGET(KLUOUT, HLUOUT,PTSTEP,KSV,KRR,            &
      ONUMDIFU,ONUMDIFTH,ONUMDIFSV,                                   &
      OHORELAX_UVWTH,OHORELAX_RV,OHORELAX_RC,OHORELAX_RR,             &
      OHORELAX_RI,OHORELAX_RS, OHORELAX_RG, OHORELAX_RH,OHORELAX_TKE, & 
      OHORELAX_SV,OVE_RELAX,OCHTRANS,ONUDGING,ODRAGTREE,              &
      HRAD,HDCONV,HSCONV,HTURB,HTURBDIM,HCLOUD                        )
!
INTEGER,         INTENT(IN) :: KLUOUT   ! Logical unit number for prints
CHARACTER (LEN=*), INTENT(IN) :: HLUOUT ! name of output listing
REAL, INTENT(IN) :: PTSTEP              ! time step
INTEGER, INTENT(IN) :: KSV              ! number of scalar variables
INTEGER, INTENT(IN) :: KRR              ! number of moist variables
LOGICAL, INTENT(IN) :: ONUMDIFU         ! switch to activate the numerical
                                        ! diffusion for momentum
LOGICAL, INTENT(IN) :: ONUMDIFTH        ! for meteorological scalar variables
LOGICAL, INTENT(IN) :: ONUMDIFSV        ! for tracer scalar variables
LOGICAL, INTENT(IN) :: OHORELAX_UVWTH  ! switch for the
                       ! horizontal relaxation for U,V,W,TH
LOGICAL, INTENT(IN) :: OHORELAX_RV     ! switch for the
                       ! horizontal relaxation for Rv
LOGICAL, INTENT(IN) :: OHORELAX_RC     ! switch for the
                       ! horizontal relaxation for Rc
LOGICAL, INTENT(IN) :: OHORELAX_RR     ! switch for the
                       ! horizontal relaxation for Rr
LOGICAL, INTENT(IN) :: OHORELAX_RI     ! switch for the
                       ! horizontal relaxation for Ri
LOGICAL, INTENT(IN) :: OHORELAX_RS     ! switch for the
                       ! horizontal relaxation for Rs
LOGICAL, INTENT(IN) :: OHORELAX_RG     ! switch for the
                       ! horizontal relaxation for Rg
LOGICAL, INTENT(IN) :: OHORELAX_RH     ! switch for the
                       ! horizontal relaxation for Rh
LOGICAL, INTENT(IN) :: OHORELAX_TKE    ! switch for the
                       ! horizontal relaxation for tke
LOGICAL,DIMENSION(:),INTENT(IN):: OHORELAX_SV     ! switch for the
                       ! horizontal relaxation for scalar variables
LOGICAL, INTENT(IN) :: OVE_RELAX        ! switch to activate the vertical 
                                        ! relaxation
LOGICAL, INTENT(IN) :: OCHTRANS         ! switch to activate convective 
                                        !transport for SV
LOGICAL, INTENT(IN) :: ONUDGING         ! switch to activate nudging
LOGICAL, INTENT(IN) :: ODRAGTREE        ! switch to activate vegetation drag
CHARACTER (LEN=*), INTENT(IN) :: HRAD   ! type of the radiation scheme
CHARACTER (LEN=*), INTENT(IN) :: HDCONV ! type of the deep convection scheme
CHARACTER (LEN=*), INTENT(IN) :: HSCONV ! type of the deep convection scheme
CHARACTER (LEN=*), INTENT(IN) :: HTURB  ! type of the turbulence scheme
CHARACTER (LEN=*), INTENT(IN) :: HTURBDIM! dimensionnality of the turbulence 
                                        ! scheme
CHARACTER (LEN=*), INTENT(IN) :: HCLOUD ! type of microphysical scheme
!
      END SUBROUTINE INI_BUDGET
!
END INTERFACE
!
END MODULE MODI_INI_BUDGET
!
!
!
!     #################################################################
      SUBROUTINE INI_BUDGET(KLUOUT, HLUOUT,PTSTEP,KSV,KRR,            &
      ONUMDIFU,ONUMDIFTH,ONUMDIFSV,                                   &
      OHORELAX_UVWTH,OHORELAX_RV,OHORELAX_RC,OHORELAX_RR,             &
      OHORELAX_RI,OHORELAX_RS, OHORELAX_RG, OHORELAX_RH,OHORELAX_TKE, & 
      OHORELAX_SV,OVE_RELAX,OCHTRANS,ONUDGING,ODRAGTREE,              &
      HRAD,HDCONV,HSCONV,HTURB,HTURBDIM,HCLOUD                        )
!     #################################################################
!
!!****  *INI_BUDGET* - routine to initialize the parameters for the budgets
!!
!!    PURPOSE
!!    -------
!       The purpose of this routine is to set or compute the parameters used
!     by the MESONH budgets. Names of files for budget recording are processed 
!     and storage arrays are initialized.               
!
!!**  METHOD
!!    ------
!!      The essential of information is passed by modules. The choice of budgets 
!!    and processes set by the user as integers is converted in "actions" 
!!    readable  by the subroutine BUDGET under the form of string characters. 
!!    For each complete process composed of several elementary processes, names 
!!    of elementary processes are concatenated in order to have an explicit name
!!    in the comment of the recording file for budget. 
!!
!!      
!!    EXTERNAL
!!    --------   
!!      None
!!
!!    IMPLICIT ARGUMENTS
!!    ------------------ 
!!      Module MODD_PARAMETERS: JPBUMAX,JPBUPROMAX
!!
!!      Module MODD_CONF: CCONF        
!!
!!      Module MODD_DYN:  XSEGLEN 
!!
!!
!!    REFERENCE
!!    ---------
!!      Book2 of documentation (routine INI_BUDGET)
!!      
!!
!!    AUTHOR
!!    ------
!!	P. Hereil      * Meteo France *
!!
!!    MODIFICATIONS
!!    -------------
!!      Original        01/03/95 
!!      J. Stein        25/06/95  put the sources in phase with the code
!!      J. Stein        20/07/95  reset to FALSE of all the switches when
!!                                CBUTYPE /= MASK or CART
!!      J. Stein        26/06/96  add the new sources + add the increment between
!!                                2 active processes
!!      J.-P. Pinty     13/12/96  Allowance of multiple SVs
!!      J.-P. Pinty     11/01/97  Includes deep convection ice and forcing processes
!!      J.-P. Lafore    10/02/98  Allocation of the RHODJs for budget
!!      V. Ducrocq      04/06/99  //  
!!      N. Asencio      18/06/99  // MASK case : delete KIMAX and KJMAX arguments,
!!                                GET_DIM_EXT_ll initializes the dimensions of the
!!                                extended local domain.
!!                                LBU_MASK and XBUSURF are allocated on the extended
!!                                local domain.
!!                                add 3 local variables IBUDIM1,IBUDIM2,IBUDIM3
!!                                to define the dimensions of the budget arrays
!!                                in the different cases CART and MASK
!!      J.-P. Pinty     23/09/00  add budget for C2R2
!!      V. Masson       18/11/02  add budget for 2way nesting
!!      O.Geoffroy      03/2006   Add KHKO scheme
!!      J.-P. Pinty     22/04/97  add the explicit hail processes
!!      C.Lac           10/08/07  Add ADV for PPM without contribution
!!                                of each direction
!!      C. Barthe       19/11/09  Add atmospheric electricity
!!      C.Lac           01/07/11  Add vegetation drag        
!!      P. Peyrille, M. Tomasini : include in the forcing term the 2D forcing
!!                                terms in term 2DFRC search for modif PP . but Not very clean! 
!!      C .Lac          27/05/14    add negative corrections for chemical species
!!      C.Lac           29/01/15  Correction for NSV_USER
!-------------------------------------------------------------------------------
!
!*       0.    DECLARATIONS
!              ------------ 
!
USE MODE_FM
!
USE MODD_PARAMETERS
USE MODD_BUDGET
USE MODD_DYN
USE MODD_CONF
USE MODD_PARAM_ICE
USE MODD_PARAM_C2R2
USE MODD_ELEC_DESCR, ONLY : LINDUCTIVE
USE MODD_2D_FRC
!
USE MODE_ll
USE MODE_IO_ll
!
IMPLICIT NONE
!
!*       0.1   declarations of argument
!
!
INTEGER,         INTENT(IN) :: KLUOUT   ! Logical unit number for prints
CHARACTER (LEN=*), INTENT(IN) :: HLUOUT ! name of output listing
REAL, INTENT(IN) :: PTSTEP              ! time step
INTEGER, INTENT(IN) :: KSV              ! number of scalar variables
INTEGER, INTENT(IN) :: KRR              ! number of moist variables
LOGICAL, INTENT(IN) :: ONUMDIFU         ! switch to activate the numerical
                                        ! diffusion for momentum
LOGICAL, INTENT(IN) :: ONUMDIFTH        ! for meteorological scalar variables
LOGICAL, INTENT(IN) :: ONUMDIFSV        ! for tracer scalar variables
LOGICAL, INTENT(IN) :: OHORELAX_UVWTH  ! switch for the
                       ! horizontal relaxation for U,V,W,TH
LOGICAL, INTENT(IN) :: OHORELAX_RV     ! switch for the
                       ! horizontal relaxation for Rv
LOGICAL, INTENT(IN) :: OHORELAX_RC     ! switch for the
                       ! horizontal relaxation for Rc
LOGICAL, INTENT(IN) :: OHORELAX_RR     ! switch for the
                       ! horizontal relaxation for Rr
LOGICAL, INTENT(IN) :: OHORELAX_RI     ! switch for the
                       ! horizontal relaxation for Ri
LOGICAL, INTENT(IN) :: OHORELAX_RS     ! switch for the
                       ! horizontal relaxation for Rs
LOGICAL, INTENT(IN) :: OHORELAX_RG     ! switch for the
                       ! horizontal relaxation for Rg
LOGICAL, INTENT(IN) :: OHORELAX_RH     ! switch for the
                       ! horizontal relaxation for Rh
LOGICAL, INTENT(IN) :: OHORELAX_TKE    ! switch for the
                       ! horizontal relaxation for tke
LOGICAL,DIMENSION(:),INTENT(IN):: OHORELAX_SV     ! switch for the
                       ! horizontal relaxation for scalar variables
LOGICAL, INTENT(IN) :: OVE_RELAX        ! switch to activate the vertical 
                                        ! relaxation
LOGICAL, INTENT(IN) :: OCHTRANS         ! switch to activate convective 
                                        !transport for SV
LOGICAL, INTENT(IN) :: ONUDGING         ! switch to activate nudging
LOGICAL, INTENT(IN) :: ODRAGTREE        ! switch to activate vegetation drag
CHARACTER (LEN=*), INTENT(IN) :: HRAD   ! type of the radiation scheme
CHARACTER (LEN=*), INTENT(IN) :: HDCONV ! type of the deep convection scheme
CHARACTER (LEN=*), INTENT(IN) :: HSCONV ! type of the shallow convection scheme
CHARACTER (LEN=*), INTENT(IN) :: HTURB  ! type of the turbulence scheme
CHARACTER (LEN=*), INTENT(IN) :: HTURBDIM! dimensionnality of the turbulence 
                                        ! scheme
CHARACTER (LEN=*), INTENT(IN) :: HCLOUD ! type of microphysical scheme
!
!*       0.2   declarations of local variables
!                                                     
INTEGER, DIMENSION(JPBUMAX,JPBUPROMAX+1) :: IPROACTV      ! switches set by the
                                                          ! user for process 
                                                          ! activation
INTEGER :: JI, JJ, JK , JJJ                               ! loop indices
INTEGER :: IIMAX_ll, IJMAX_ll ! size of the physical global domain
INTEGER :: ITEN                                           ! tens for CBURECORD
INTEGER :: IPROC                                          ! counter for processes
INTEGER :: IIU, IJU                                       ! size along x and y directions
                                                          ! of the extended subdomain
INTEGER :: IBUDIM1                                        ! first dimension of the budget arrays
                                                          ! = NBUIMAX in CART case
                                                          ! = NBUKMAX in MASK case
INTEGER :: IBUDIM2                                        ! second dimension of the budget arrays
                                                          ! = NBUJMAX in CART case
                                                          ! = NBUWRNB in MASK case
INTEGER :: IBUDIM3                                        ! third dimension of the budget arrays
                                                          ! = NBUKMAX in CART case
                                                          ! = NBUMASK in MASK case
LOGICAL :: GERROR                                         ! switch for error in
                                                          ! budget specifcation
CHARACTER(LEN=7), DIMENSION(JPBUMAX) :: YEND_COMMENT      ! last part of comment
                                                          ! for budgets records
CHARACTER(LEN=6), DIMENSION(JPBUMAX,JPBUPROMAX) :: YWORK2 ! used for 
                                                          ! concatenattion of  
                                                          ! comments for budgets
CHARACTER(LEN=40)                  :: YSTRING
INTEGER                            :: ILEN
INTEGER :: JSV               ! loop indice for the SVs
INTEGER :: IBUPROCNBR_SV_MAX ! Max number of processes for the SVs
INTEGER :: ILAST_PROC_NBR    ! Index of the last process number
INTEGER :: IINFO_ll ! return status of the interface routine
INTEGER :: IRESP   ! Return code of FM-routines
! 
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!
!!! the lines below must be update as soon as MODD_BUDGET is updated
!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!-------------------------------------------------------------------------------
!
!*       1.    COMPUTE BUDGET VARIABLES
!              ------------------------
!
NBUSTEP = NINT (XBULEN / PTSTEP)
NBUTSHIFT=0
!
!  common dimension for all CBUTYPE values
!
IF (LBU_KCP) THEN
  NBUKMAX = 1
ELSE
  NBUKMAX = NBUKH - NBUKL +1
END IF
!
IF (CBUTYPE=='CART') THEN              ! cartesian case only
!
  NBUWRNB = NINT (XBUWRI / XBULEN)  ! only after NBUWRNB budget periods, we write the
                                    ! result on the FM_FILE   
  IF (LBU_ICP) THEN 
    NBUIMAX_ll = 1
  ELSE
    NBUIMAX_ll = NBUIH - NBUIL +1
  END IF
  IF (LBU_JCP) THEN 
    NBUJMAX_ll = 1
  ELSE
    NBUJMAX_ll = NBUJH - NBUJL +1
  END IF
!
  CALL GET_INTERSECTION_ll(NBUIL,NBUJL,NBUIH,NBUJH, &
      NBUSIL,NBUSJL,NBUSIH,NBUSJH,"PHYS",IINFO_ll)
  IF ( IINFO_ll /= 1 ) THEN ! 
    IF (LBU_ICP) THEN 
      NBUIMAX = 1
    ELSE
      NBUIMAX = NBUSIH - NBUSIL +1
    END IF
    IF (LBU_JCP) THEN 
      NBUJMAX = 1
    ELSE
      NBUJMAX =  NBUSJH - NBUSJL +1
    END IF
  ELSE ! the intersection is void 
    CBUTYPE='SKIP'  ! no budget on this processor       
    NBUIMAX = 0     ! in order to allocate void arrays
    NBUJMAX = 0
  ENDIF
! three first dimensions of budget arrays in cart and skip cases
   IBUDIM1=NBUIMAX
   IBUDIM2=NBUJMAX
   IBUDIM3=NBUKMAX
! these variables are not be used 
   NBUMASK=-1
!
ELSEIF (CBUTYPE=='MASK') THEN          ! mask case only 
!
  LBU_ENABLE=.TRUE.
  NBUWRNB = NINT (XBUWRI / XBULEN)  ! only after NBUWRNB budget periods, we write the
                                    ! result on the FM_FILE
  NBUTIME = 1

  CALL GET_DIM_EXT_ll ('B', IIU,IJU)
  ALLOCATE( LBU_MASK( IIU ,IJU, NBUMASK) )
  LBU_MASK(:,:,:)=.FALSE.
  ALLOCATE( XBUSURF( IIU, IJU, NBUMASK, NBUWRNB) )
  XBUSURF(:,:,:,:) = 0.
!
! three first dimensions of budget arrays in mask case
!  the order of the dimensions are the order expected in WRITE_DIACHRO routine:
!  x,y,z,time,mask,processus  and in this case x and y are missing
!  first dimension of the arrays : dimension along K
!  second dimension of the arrays : number of the budget time period
!  third dimension of the arrays : number of the budget masks zones
  IBUDIM1=NBUKMAX
  IBUDIM2=NBUWRNB
  IBUDIM3=NBUMASK
! these variables are not used in this case
  NBUIMAX=-1
  NBUJMAX=-1
! the beginning and the end along x and y direction : global extended domain
 ! get dimensions of the physical global domain
   CALL GET_GLOBALDIMS_ll (IIMAX_ll,IJMAX_ll)
   NBUIL=1
   NBUIH=IIMAX_ll + 2 * JPHEXT
   NBUJL=1 
   NBUJH=IJMAX_ll + 2 * JPHEXT
   
!
ELSE                      ! default case
!
  LBU_ENABLE=.FALSE.
  NBUIMAX = -1
  NBUJMAX = -1
  LBU_RU = .FALSE.
  LBU_RV = .FALSE.
  LBU_RW = .FALSE.
  LBU_RTH= .FALSE.
  LBU_RTKE= .FALSE.
  LBU_RRV= .FALSE.
  LBU_RRC= .FALSE.
  LBU_RRR= .FALSE.
  LBU_RRI= .FALSE.
  LBU_RRS= .FALSE.
  LBU_RRG= .FALSE.
  LBU_RRH= .FALSE.
  LBU_RSV= .FALSE.
!
! three first dimensions of budget arrays in default case
  IBUDIM1=0
  IBUDIM2=0
  IBUDIM3=0
!
END IF  
!
!
!-------------------------------------------------------------------------------
!
!*       2.    ALLOCATE MEMORY FOR BUDGET ARRAYS AND INITIALIZE
!              ------------------------------------------------
!
ALLOCATE( NBUPROCNBR(JPBUMAX) )
ALLOCATE( NBUPROCCTR(JPBUMAX) )
ALLOCATE( CBUACTION(JPBUMAX, JPBUPROMAX) )
ALLOCATE( CBUCOMMENT(JPBUMAX, JPBUPROMAX) )
ALLOCATE( CBURECORD(JPBUMAX, JPBUPROMAX) )
NBUPROCCTR(:) = 0
NBUCTR_ACTV(:) = 0
NBUPROCNBR(:) = 0
CBUACTION(:,:) = 'OF' 
CBURECORD(:,:) = ' '
CBUCOMMENT(:,:) = ' '
LBU_BEG =.TRUE. 
!
!-------------------------------------------------------------------------------
!
!*       3.    INITALIZE VARIABLES
!              -------------------
!
IPROACTV(:,:) = 3
IPROACTV(:,4) = 1
IPROACTV(:,JPBUPROMAX+1) = 0
GERROR=.FALSE.
YWORK2(:,:) = ' '
YEND_COMMENT(:) = ' '
!
!                        Budget of RU
IF (LBU_RU) THEN
  IPROC=4
  IPROACTV(1,IPROC) = NASSEU
  IPROC=IPROC+1
  IF( NMODEL>1 ) IPROACTV(1,IPROC) = NNESTU
  IPROC=IPROC+1
  IF( LFORCING ) IPROACTV(1,IPROC)  = NFRCU
  IPROC=IPROC+1
  IF( ONUDGING ) IPROACTV(1,IPROC)  = NNUDU
  IPROC=IPROC+1
  IF ( .NOT. LCARTESIAN ) THEN
    IPROACTV(1,IPROC) = NCURVU 
  ELSE
    IPROACTV(1,IPROC) = 4
  END IF
  IPROC=IPROC+1
  IF ( LCORIO ) THEN  
    IPROACTV(1,IPROC) = NCORU 
  ELSE
    IPROACTV(1,IPROC) = 4
  END IF
  IPROC=IPROC+1
  IF ( ONUMDIFU ) IPROACTV(1,IPROC) = NDIFU
  IPROC=IPROC+1
  IF ( OHORELAX_UVWTH .OR. OVE_RELAX ) THEN   
    IPROACTV(1,IPROC) = NRELU 
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(1,IPROC) = 4
    ELSE
      IPROACTV(1,IPROC) = 3
    END IF
  END IF
  IPROC=IPROC+1
  IF( ODRAGTREE ) IPROACTV(1,IPROC)  = NDRAGU
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' ) IPROACTV(1,IPROC) = NVTURBU
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' .AND. HTURBDIM == '3DIM' ) THEN
    IPROACTV(1,IPROC) = NHTURBU 
  ELSE
    IF ( HTURB /= 'NONE' ) THEN
      IPROACTV(1,IPROC) = 4
    ELSE
      IPROACTV(1,IPROC) = 3
    END IF
  END IF 
  IPROC=IPROC+1
  IF ( HSCONV == 'EDKF' ) IPROACTV(1,IPROC) = NMAFLU
  IPROC=IPROC+1
  IPROACTV(1,IPROC) = NADVU
  IPROC=IPROC+1
  IPROACTV(1,IPROC) = NPRESU 
!
  YWORK2(1,1) = 'INIF_'
  YWORK2(1,2) = 'ENDF_'
  YWORK2(1,3) = 'AVEF_'
  IPROC=4
  YWORK2(1,IPROC) = 'ASSE_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'NEST_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'FRC_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'NUD_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'CURV_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'COR_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'DIF_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'REL_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'DRAG_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'VTURB_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'HTURB_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'MAFL_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'ADV_'
  IPROC=IPROC+1
  YWORK2(1,IPROC) = 'PRES_'
!
  YEND_COMMENT(1) = 'BU_RU'
  NBUPROCNBR(1) = 3
!
  CBUACTION(1,1) = 'IG'
  CBUACTION(1,2) = 'CC'
  CBUACTION(1,3) = 'ES'
!  
  DO JJ=1,3
    CBUCOMMENT(1,JJ) = ADJUSTL( ADJUSTR( YWORK2(1,JJ) ) // &
                                ADJUSTL( YEND_COMMENT(1) ) )
  END DO
!
END IF
!
!                        Budget of RV
IF (LBU_RV) THEN
  IPROC=4
  IPROACTV(2,IPROC) = NASSEV
  IPROC=IPROC+1 
  IF( NMODEL>1 ) IPROACTV(2,IPROC) = NNESTV
  IPROC=IPROC+1 
  IF( LFORCING ) IPROACTV(2,IPROC)  = NFRCV
  IPROC=IPROC+1 
  IF( ONUDGING ) IPROACTV(2,IPROC)  = NNUDV
  IPROC=IPROC+1
  IF ( .NOT. LCARTESIAN ) THEN
    IPROACTV(2,IPROC) = NCURVV 
  ELSE
    IPROACTV(2,IPROC) = 4
  END IF
  IPROC=IPROC+1 
  IF ( LCORIO ) THEN  
    IPROACTV(2,IPROC) = NCORV 
  ELSE
    IPROACTV(2,IPROC) = 4
  END IF
  IPROC=IPROC+1 
  IF ( ONUMDIFU ) IPROACTV(2,IPROC) = NDIFV
  IPROC=IPROC+1 
  IF ( OHORELAX_UVWTH .OR. OVE_RELAX ) THEN   
    IPROACTV(2,IPROC) = NRELV 
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(2,IPROC) = 4
    ELSE
      IPROACTV(2,IPROC) = 3
    END IF
  END IF
  IPROC=IPROC+1
  IF( ODRAGTREE ) IPROACTV(2,IPROC)  = NDRAGV
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' ) IPROACTV(2,IPROC) = NVTURBV
  IPROC=IPROC+1 
  IF ( HTURB /= 'NONE' .AND. HTURBDIM == '3DIM' ) THEN
    IPROACTV(2,IPROC) = NHTURBV 
  ELSE
    IF ( HTURB /= 'NONE' ) THEN
      IPROACTV(2,IPROC) = 4
    ELSE
      IPROACTV(2,IPROC) = 3
    END IF
  END IF 
  IPROC=IPROC+1 
  IF ( HSCONV == 'EDKF' ) IPROACTV(2,IPROC) = NMAFLV
  IPROC=IPROC+1 
  IPROACTV(2,IPROC) = NADVV 
  IPROC=IPROC+1
  IPROACTV(2,IPROC) = NPRESV 
!
  YWORK2(2,1) = 'INIF_'
  YWORK2(2,2) = 'ENDF_'
  YWORK2(2,3) = 'AVEF_'
  IPROC=4
  YWORK2(2,IPROC) = 'ASSE_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'NEST_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'FRC_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'NUD_'
  IPROC=IPROC+1
  YWORK2(2,IPROC) = 'CURV_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'COR_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'DIF_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'REL_'
  IPROC=IPROC+1
  YWORK2(2,IPROC) = 'DRAG_' 
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'VTURB_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'HTURB_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'MAFL_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'ADV_'
  IPROC=IPROC+1 
  YWORK2(2,IPROC) = 'PRES_'
!
  YEND_COMMENT(2) = 'BU_RV'
  NBUPROCNBR(2) = 3
!
  CBUACTION(2,1) = 'IG'
  CBUACTION(2,2) = 'CC'
  CBUACTION(2,3) = 'ES'
!  
  DO JJ=1,3
    CBUCOMMENT(2,JJ) = ADJUSTL( ADJUSTR( YWORK2(2,JJ) ) // &
                                ADJUSTL( YEND_COMMENT(2) ) )
  END DO
!
END IF
!
!                        Budget of RW
IF (LBU_RW) THEN
  IPROC=4
  IPROACTV(3,IPROC) = NASSEW 
  IPROC=IPROC+1
  IF( NMODEL>1 ) IPROACTV(3,IPROC) = NNESTW
  IPROC=IPROC+1
  IF( LFORCING ) IPROACTV(3,IPROC)  = NFRCW
  IPROC=IPROC+1
  IF( ONUDGING ) IPROACTV(3,IPROC)  = NNUDW
  IPROC=IPROC+1
  IF ( .NOT. LCARTESIAN ) THEN
    IPROACTV(3,IPROC) = NCURVW 
  ELSE
    IPROACTV(3,IPROC) = 4
  END IF
  IPROC=IPROC+1
  IF ( LCORIO ) THEN  
    IPROACTV(3,IPROC) = NCORW 
  ELSE
    IPROACTV(3,IPROC) = 4
  END IF
  IPROC=IPROC+1 
  IF ( ONUMDIFU ) IPROACTV(3,IPROC) = NDIFW
  IPROC=IPROC+1
  IF ( OHORELAX_UVWTH .OR. OVE_RELAX ) THEN   
    IPROACTV(3,IPROC) = NRELW 
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(3,IPROC) = 4
    ELSE
      IPROACTV(3,IPROC) = 3
    END IF
  END IF
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' ) IPROACTV(3,IPROC) = NVTURBW
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' .AND. HTURBDIM == '3DIM' ) THEN
    IPROACTV(3,IPROC) = NHTURBW 
  ELSE
    IF ( HTURB /= 'NONE' ) THEN
      IPROACTV(3,IPROC) = 4
    ELSE
      IPROACTV(3,IPROC) = 3
    END IF
  END IF 
  IPROC=IPROC+1
  IPROACTV(3,IPROC) = NGRAVW
  IPROC=IPROC+1
  IPROACTV(3,IPROC) = NADVW 
  IPROC=IPROC+1
  IPROACTV(3,IPROC) = NPRESW 
!
  YWORK2(3,1) = 'INIF_'
  YWORK2(3,2) = 'ENDF_'
  YWORK2(3,3) = 'AVEF_'
  IPROC=4
  YWORK2(3,IPROC) = 'ASSE_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'NEST_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'FRC_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'NUD_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'CURV_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'COR_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'DIF_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'REL_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'VTURB_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'HTURB_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'GRAV_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'ADV_'
  IPROC=IPROC+1
  YWORK2(3,IPROC) = 'PRES_'
!
  YEND_COMMENT(3) = 'BU_RW'
  NBUPROCNBR(3) = 3
!
  CBUACTION(3,1) = 'IG'
  CBUACTION(3,2) = 'CC'
  CBUACTION(3,3) = 'ES'
!  
  DO JJ=1,3
    CBUCOMMENT(3,JJ) = ADJUSTL( ADJUSTR( YWORK2(3,JJ) ) // &
                                ADJUSTL( YEND_COMMENT(3) ) )
  END DO
!
END IF
!
!                        Budget of RTH
IF (LBU_RTH) THEN
  IPROC=4
  IPROACTV(4,IPROC) = NASSETH 
  IPROC=IPROC+1
  IF( NMODEL>1 ) IPROACTV(4,IPROC) = NNESTTH
  IPROC=IPROC+1
  IF( LFORCING ) IPROACTV(4,IPROC)  = NFRCTH
  IPROC=IPROC+1
  IF( L2D_ADV_FRC ) IPROACTV(4,IPROC)  = N2DADVTH
  IPROC=IPROC+1
  IF( L2D_REL_FRC ) IPROACTV(4,IPROC)  = N2DRELTH
  IPROC=IPROC+1
  IF( ONUDGING ) IPROACTV(4,IPROC)  = NNUDTH
  IPROC=IPROC+1
  IF ( KRR > 0 ) THEN
    IF(.NOT.L1D) IPROACTV(4,IPROC) = NPREFTH
  ELSE
    IPROACTV(4,IPROC) = 4
  END IF
  IPROC=IPROC+1
  IF ( ONUMDIFTH ) IPROACTV(4,IPROC) = NDIFTH
  IPROC=IPROC+1
  IF ( OHORELAX_UVWTH .OR. OVE_RELAX ) THEN   
    IPROACTV(4,IPROC) = NRELTH
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(4,IPROC) = 4
    ELSE
      IPROACTV(4,IPROC) = 3
    END IF
  END IF
  IPROC=IPROC+1
  IF ( HRAD /= 'NONE' ) IPROACTV(4,IPROC) = NRADTH
  IPROC=IPROC+1
  IF ( HDCONV /= 'NONE' .OR. HSCONV == 'KAFR') IPROACTV(4,IPROC) = NDCONVTH
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' ) IPROACTV(4,IPROC) = NVTURBTH
  IPROC=IPROC+1
  IF ( HTURB /= 'NONE' .AND. HTURBDIM == '3DIM' ) THEN
    IPROACTV(4,IPROC) = NHTURBTH
  ELSE
    IF ( HTURB /= 'NONE' ) THEN
      IPROACTV(4,IPROC) = 4
    ELSE
      IPROACTV(4,IPROC) = 3
    END IF
  END IF 
  IPROC=IPROC+1
  IF (HTURB /= 'NONE')     IPROACTV(4,IPROC) = NDISSHTH
  IPROC=IPROC+1
  IF ( HSCONV == 'EDKF' ) IPROACTV(4,IPROC) = NMAFLTH
  IPROC=IPROC+1
  IPROACTV(4,IPROC) = NADVTH
  IPROC=IPROC+1
  IF (HCLOUD /= 'NONE')     IPROACTV(4,IPROC) = NNEGATH
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE' .OR. HCLOUD == 'C2R2' .OR. HCLOUD == 'KHKO' ) &
      IPROACTV(4,IPROC) = NHENUTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NHONTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NSFRTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NDEPSTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NDEPGTH 
  IPROC=IPROC+1
  IF (((HCLOUD(1:3) == 'ICE') .AND. LWARM) .OR. ((HCLOUD == 'C2R2' &
   .OR. HCLOUD == 'KHKO') .AND. LRAIN) .OR. HCLOUD(1:3) == 'KES')             &
        IPROACTV(4,IPROC) = NREVATH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NRIMTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NACCTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NCFRZTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NWETGTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NDRYGTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NGMLTTH
  IPROC=IPROC+1
  IF (HCLOUD == 'ICE4') IPROACTV(4,IPROC) = NWETHTH
  IPROC=IPROC+1
  IF (HCLOUD == 'ICE4') IPROACTV(4,IPROC) = NHMLTTH
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NIMLTTH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NBERFITH 
  IPROC=IPROC+1
  IF (HCLOUD(1:3) == 'ICE') IPROACTV(4,IPROC) = NCDEPITH 
  IPROC=IPROC+1
  IF (HCLOUD == 'C2R2' .OR. HCLOUD == 'KHKO' .OR. HCLOUD(1:3) == 'KES' .OR.   &
      HCLOUD == 'REVE')   IPROACTV(4,IPROC) = NCONDTH                     
!
  YWORK2(4,1) = 'INIF_'
  YWORK2(4,2) = 'ENDF_'
  YWORK2(4,3) = 'AVEF_'
  IPROC=4
  YWORK2(4,IPROC) = 'ASSE_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'NEST_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'FRC_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = '2DADV_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = '2DREL_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'NUD_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'PREF_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DIF_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'REL_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'RAD_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DCONV_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'VTURB_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'HTURB_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DISSH_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'MAFL_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'ADV_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'NEGA_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'HENU_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'HON_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'SFR_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DEPS_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DEPG_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'REVA_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'RIM_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'ACC_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'CFRZ_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'WETG_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'DRYG_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'GMLT_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'WETH_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'HMLT_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'IMLT_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'BERFI_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'CDEPI_'
  IPROC=IPROC+1
  YWORK2(4,IPROC) = 'COND_'
!
  YEND_COMMENT(4) = 'BU_RTH'
  NBUPROCNBR(4) = 3
!
  CBUACTION(4,1) = 'IG'
  CBUACTION(4,2) = 'CC'
  CBUACTION(4,3) = 'ES'
!  
  DO JJ=1,3
    CBUCOMMENT(4,JJ) = ADJUSTL( ADJUSTR( YWORK2(4,JJ) ) // &
                                ADJUSTL( YEND_COMMENT(4) ) )
  END DO
!
END IF
!
!                        Budget of RTKE
IF (LBU_RTKE) THEN
  IPROC=4
  IPROACTV(5,IPROC) = NASSETKE 
  IPROC=IPROC+1
  IF( LFORCING ) IPROACTV(5,IPROC)  = NFRCTKE
  IPROC=IPROC+1
  IF ( ONUMDIFTH ) IPROACTV(5,IPROC) = NDIFTKE
  IPROC=IPROC+1
  IF ( OHORELAX_TKE ) THEN
    IPROACTV(5,IPROC) = NRELTKE
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(5,IPROC) = 4
    ELSE
      IPROACTV(5,IPROC) = 3
    END IF
  END IF
  IPROC=IPROC+1
  IF( ODRAGTREE ) IPROACTV(5,IPROC)  = NDRAGTKE
  IPROC=IPROC+1
  IPROACTV(5,IPROC) = NDPTKE 
  IPROC=IPROC+1
  IPROACTV(5,IPROC) = NTPTKE  
  IPROC=IPROC+1
  IPROACTV(5,IPROC) = NDISSTKE 
  IPROC=IPROC+1 
  IPROACTV(5,IPROC) = NTRTKE  
  IPROC=IPROC+1
  IPROACTV(5,IPROC) = NADVTKE
!
  YWORK2(5,1) = 'INIF_'
  YWORK2(5,2) = 'ENDF_'
  YWORK2(5,3) = 'AVEF_'
  IPROC=4
  YWORK2(5,IPROC) = 'ASSE_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'FRC_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'DIF_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'REL_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'DRAG_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'DP_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'TP_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'DISS_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'TR_'
  IPROC=IPROC+1
  YWORK2(5,IPROC) = 'ADV_'
!
  YEND_COMMENT(5) = 'BU_RTKE'
  NBUPROCNBR(5) = 3
!
  CBUACTION(5,1) = 'IG'
  CBUACTION(5,2) = 'CC'
  CBUACTION(5,3) = 'ES'
!  
  DO JJ=1,3
    CBUCOMMENT(5,JJ) = ADJUSTL( ADJUSTR( YWORK2(5,JJ) ) // &
                                ADJUSTL( YEND_COMMENT(5) ) )
  END DO
!
END IF
!
!                        Budget of RRV
IF (LBU_RRV) THEN
  IPROC=4
  IPROACTV(6,IPROC) = NASSERV
  IPROC=IPROC+1 
  IF( NMODEL>1 ) IPROACTV(6,IPROC) = NNESTRV
  IPROC=IPROC+1
  IF( LFORCING ) IPROACTV(6,IPROC)  = NFRCRV
  IPROC=IPROC+1
  IF( L2D_ADV_FRC ) IPROACTV(6,IPROC)  = N2DADVRV
  IPROC=IPROC+1
  IF( L2D_REL_FRC ) IPROACTV(6,IPROC)  = N2DRELRV
  IPROC=IPROC+1 
  IF( ONUDGING ) IPROACTV(6,IPROC)  = NNUDRV
  IPROC=IPROC+1 
  IF ( ONUMDIFTH ) IPROACTV(6,IPROC) = NDIFRV
  IPROC=IPROC+1 
  IF ( OHORELAX_RV .OR. OVE_RELAX ) THEN  
    IPROACTV(6,IPROC) = NRELRV
  ELSE
    IF(OVE_RELAX .OR. OHORELAX_UVWTH .OR. OHORELAX_RV .OR.                 &
     OHORELAX_RC .OR. OHORELAX_RR .OR. OHORELAX_RI .OR. OHORELAX_RS .OR.   &
     OHORELAX_RG .OR. OHORELAX_RH .OR. OHORELAX_TKE .OR. ANY(OHORELAX_SV)) THEN
      IPROACTV(6,IPROC) = 4
    ELSE
      IPROACTV(6,IPROC) = 3