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!MNH_LIC Copyright 1994-2022 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.
!-----------------------------------------------------------------
! ##########################
MODULE MODI_RESOLVED_CLOUD
! ##########################
INTERFACE
SUBROUTINE RESOLVED_CLOUD ( HCLOUD, HACTCCN, HSCONV, HMF_CLOUD, &
KRR, KSPLITR, KSPLITG, KMI, KTCOUNT, &
HLBCX, HLBCY, TPFILE, HRAD, HTURBDIM, &
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OSUBG_COND, OSIGMAS, HSUBG_AUCV, &
PTSTEP, PZZ, PRHODJ, PRHODREF, PEXNREF, &
PPABST, PTHT, PRT, PSIGS, PSIGQSAT, PMFCONV, &
PTHM, PRCM, PPABSM, &
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PW_ACT,PDTHRAD, PTHS, PRS, PSVT, PSVS, PSRCS, PCLDFR,&
PCIT, OSEDIC, OACTIT, OSEDC, OSEDI, &
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ORAIN, OWARM, OHHONI, OCONVHG, &
! PINPRC,PINPRC3D,PINPRR,PINPRR3D, PEVAP3D, &
! PINPRS,PINPRS3D,PINPRG,PINPRG3D,PINPRH,PINPRH3D, &
PINPRC,PINPRR,PINPRR3D, PEVAP3D, &
PINPRS,PINPRG,PINPRH, &
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PSOLORG,PMI, &
! PSPEEDC, PSPEEDR, PSPEEDS, PSPEEDG, PSPEEDH, &
PINDEP, PSUPSAT, PNACT, PNPRO,PSSPRO, PRAINFR, &
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PHLC_HRC, PHLC_HCF, PHLI_HRI, PHLI_HCF, &
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PSEA,PTOWN )
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USE MODD_IO, ONLY: TFILEDATA
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!
CHARACTER(LEN=4), INTENT(IN) :: HCLOUD ! kind of cloud
CHARACTER(LEN=4), INTENT(IN) :: HACTCCN ! kind of CCN activation scheme
! paramerization
CHARACTER(LEN=4), INTENT(IN) :: HSCONV ! Shallow convection scheme
CHARACTER(LEN=4), INTENT(IN) :: HMF_CLOUD! Type of statistical cloud
INTEGER, INTENT(IN) :: KRR ! Number of moist variables
INTEGER, INTENT(IN) :: KSPLITR ! Number of small time step
! integrations for rain sedimendation
INTEGER, INTENT(IN) :: KSPLITG ! Number of small time step
! integrations for ice sedimendation
INTEGER, INTENT(IN) :: KMI ! Model index
INTEGER, INTENT(IN) :: KTCOUNT ! Temporal loop counter
CHARACTER(LEN=4), DIMENSION(2), INTENT(IN) :: HLBCX,HLBCY ! X and Y-direc. LBC type
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TYPE(TFILEDATA), INTENT(INOUT):: TPFILE ! Output file
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CHARACTER(len=4), INTENT(IN) :: HRAD ! Radiation scheme name
CHARACTER(len=4), INTENT(IN) :: HTURBDIM ! Dimensionality of the
! turbulence scheme
LOGICAL, INTENT(IN) :: OSUBG_COND ! Switch for Subgrid Cond.
LOGICAL, INTENT(IN) :: OSIGMAS ! Switch for Sigma_s:
! use values computed in CONDENSATION
! or that from turbulence scheme
CHARACTER(LEN=4), INTENT(IN) :: HSUBG_AUCV
! Kind of Subgrid autoconversion method
REAL, INTENT(IN) :: PTSTEP ! Time step :XTSTEP in namelist
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PZZ ! Height (z)
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODJ !Dry density * Jacobian
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODREF! Reference dry air density
REAL, DIMENSION(:,:,:), INTENT(IN) :: PEXNREF ! Reference Exner function
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABST ! abs. pressure at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PTHT ! Theta at time t
REAL, DIMENSION(:,:,:,:), INTENT(INOUT):: PRT ! Moist variables at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PSIGS ! Sigma_s at time t
REAL, INTENT(IN) :: PSIGQSAT! coeff applied to qsat variance contribution
REAL, DIMENSION(:,:,:), INTENT(IN) :: PMFCONV ! convective mass flux
REAL, DIMENSION(:,:,:), INTENT(IN) :: PTHM ! Theta at time t-Dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABSM ! Pressure time t-Dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRCM ! Cloud water m.r. at time t-Dt
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PW_ACT ! W for CCN activation
REAL, DIMENSION(:,:,:), INTENT(IN) :: PDTHRAD! THeta RADiative Tendancy
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PTHS ! Theta source
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PRS ! Moist variable sources
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PSVT ! Scalar variable at time t
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PSVS ! Scalar variable sources
!
!
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSRCS ! Second-order flux
! s'rc'/2Sigma_s2 at time t+1
! multiplied by Lambda_3
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCLDFR! Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCIT ! Pristine ice number
! concentration at time t
LOGICAL, INTENT(IN) :: OSEDIC! Switch to activate the
! cloud droplet sedimentation
! for ICE3
LOGICAL, INTENT(IN) :: OACTIT ! Switch to activate the
! activation through temp.
! evolution in C2R2 and KHKO
LOGICAL, INTENT(IN) :: OSEDC ! Switch to activate the
! cloud droplet sedimentation
! for C2R2 or KHKO
LOGICAL, INTENT(IN) :: OSEDI ! Switch to activate the
! cloud crystal sedimentation
LOGICAL, INTENT(IN) :: ORAIN ! Switch to activate the
! raindrop formation
LOGICAL, INTENT(IN) :: OWARM ! Control of the rain formation
! by slow warm microphysical
! processes
LOGICAL, INTENT(IN) :: OHHONI! enable haze freezing
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LOGICAL, INTENT(IN) :: OCONVHG! Switch for conversion from
! hail to graupel
REAL, DIMENSION(:,:,:), INTENT(IN) :: PCF_MF! Convective Mass Flux Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRC_MF! Convective Mass Flux liquid mixing ratio
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRI_MF! Convective Mass Flux solid mixing ratio
!
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRC ! Cloud instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRR ! Rain instant precip
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRR3D ! sed flux of precip
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PEVAP3D ! evap profile
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRS ! Snow instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRG ! Graupel instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRH ! Hail instant precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRC3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRS3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRG3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRH3D ! sed flux of precip
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PSOLORG ![%] solubility fraction of soa
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PMI
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDC ! Cloud sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDR ! Rain sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDS ! Snow sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDG ! Graupel sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDH ! Hail sedimentation speed
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINDEP ! Cloud instant deposition
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PSUPSAT !sursat
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PNACT !concentrtaion d'aérosols activés au temps t
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PNPRO !concentrtaion d'aérosols activés au temps t
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PSSPRO !sursat
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PRAINFR ! Rain fraction
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REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLC_HRC !HighLow liquid content
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLC_HCF !HighLow liquid cloud fraction
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLI_HRI !HighLow ice content
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLI_HCF !HighLow ice clous fraction
REAL, DIMENSION(:,:), OPTIONAL, INTENT(IN) :: PSEA ! Land Sea mask
REAL, DIMENSION(:,:), OPTIONAL, INTENT(IN) :: PTOWN ! Town fraction
!
END SUBROUTINE RESOLVED_CLOUD
END INTERFACE
END MODULE MODI_RESOLVED_CLOUD
!
! ##########################################################################
SUBROUTINE RESOLVED_CLOUD ( HCLOUD, HACTCCN, HSCONV, HMF_CLOUD, &
KRR, KSPLITR, KSPLITG, KMI, KTCOUNT, &
HLBCX, HLBCY, TPFILE, HRAD, HTURBDIM, &
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OSUBG_COND, OSIGMAS, HSUBG_AUCV, &
PTSTEP, PZZ, PRHODJ, PRHODREF, PEXNREF, &
PPABST, PTHT, PRT, PSIGS, PSIGQSAT, PMFCONV, &
PTHM, PRCM, PPABSM, &
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PW_ACT,PDTHRAD, PTHS, PRS, PSVT, PSVS, PSRCS, PCLDFR,&
PCIT, OSEDIC, OACTIT, OSEDC, OSEDI, &
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ORAIN, OWARM, OHHONI, OCONVHG, &
! PINPRC,PINPRC3D,PINPRR,PINPRR3D, PEVAP3D, &
! PINPRS,PINPRS3D,PINPRG,PINPRG3D,PINPRH,PINPRH3D, &
PINPRC,PINPRR,PINPRR3D, PEVAP3D, &
PINPRS,PINPRG,PINPRH, &
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PSOLORG,PMI, &
! PSPEEDC, PSPEEDR, PSPEEDS, PSPEEDG, PSPEEDH, &
PINDEP, PSUPSAT, PNACT, PNPRO,PSSPRO, PRAINFR, &
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PHLC_HRC, PHLC_HCF, PHLI_HRI, PHLI_HCF, &
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PSEA,PTOWN )
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! ##########################################################################
!
!!**** * - compute the resolved clouds and precipitation
!!
!! PURPOSE
!! -------
!! The purpose of this routine is to compute the microphysical sources
!! related to the resolved clouds and precipitation
!!
!!
!!** METHOD
!! ------
!! The main actions of this routine is to call the routines computing the
!! microphysical sources. Before that:
!! - it computes the real absolute pressure,
!! - negative values of the current guess of all mixing ratio are removed.
!! This is done by a global filling algorithm based on a multiplicative
!! method (Rood, 1987), in order to conserved the total mass in the
!! simulation domain.
!! - Sources are transformed in physical tendencies, by removing the
!! multiplicative term Rhod*J.
!! - External points values are filled owing to the use of cyclic
!! l.b.c., in order to performe computations on the full domain.
!! After calling to microphysical routines, the physical tendencies are
!! switched back to prognostic variables.
!!
!!
!! EXTERNAL
!! --------
!! Subroutine SLOW_TERMS: Computes the explicit microphysical sources
!! Subroutine FAST_TERMS: Performs the saturation adjustment for l
!! Subroutine RAIN_ICE : Computes the explicit microphysical sources for i
!! Subroutine ICE_ADJUST: Performs the saturation adjustment for i+l
!! MIN_ll,SUM3D_ll : distributed functions equivalent to MIN and SUM
!!
!!
!! IMPLICIT ARGUMENTS
!! ------------------
!! Module MODD_PARAMETERS : contains declarations of parameter variables
!! JPHEXT : Horizontal external points number
!! JPVEXT : Vertical external points number
!! Module MODD_CST
!! XP00 ! Reference pressure
!! XRD ! Gaz constant for dry air
!! XCPD ! Cpd (dry air)
!!
!! REFERENCE
!! ---------
!!
!! Book1 and book2 of documentation ( routine RESOLVED_CLOUD )
!!
!! AUTHOR
!! ------
!! E. Richard * Laboratoire d'Aerologie*
!!
!! MODIFICATIONS
!! -------------
!! Original 21/12/94
!! Modifications: June 8, 1995 ( J.Stein )
!! Cleaning to improve efficienty and clarity
!! in agreement with the MESO-NH coding norm
!! March 1, 1996 ( J.Stein )
!! store the cloud fraction
!! March 18, 1996 ( J.Stein )
!! check that ZMASSPOS /= 0
!! Oct. 12, 1996 ( J.Stein )
!! remove the negative values correction
!! for the KES2 case
!! Modifications: Dec 14, 1995 (J.-P. Pinty)
!! Add the mixed-phase option
!! Modifications: Jul 01, 1996 (J.-P. Pinty)
!! Change arg. list in routine FAST_TERMS
!! Modifications: Jan 27, 1997 (J.-P. Pinty)
!! add W and SV in arg. list
!! Modifications: March 23, 98 (E.Richard)
!! correction of negative value based on
!! rv+rc+ri and thetal or thetail conservation
!! Modifications: April 08, 98 (J.-P. Lafore and V. Ducrocq )
!! modify the correction of negative values
!! Modifications: June 08, 00 (J.-P. Pinty and J.-M. Cohard)
!! add the C2R2 scheme
!! Modifications: April 08, 01 (J.-P. Pinty)
!! add the C3R5 scheme
!! Modifications: July 21, 01 (J.-P. Pinty)
!! Add OHHONI and PW_ACT (for haze freezing)
!! Modifications: Sept 21, 01 (J.-P. Pinty)
!! Add XCONC_CCN limitation
!! Modifications: Nov 21, 02 (J.-P. Pinty)
!! Add ICE4 and C3R5 options
!! June, 2005 (V. Masson)
!! Technical change in interface for scalar arguments
!! Modifications : March, 2006 (O.Geoffroy)
!! Add KHKO scheme
!! Modifications : March 2013 (O.Thouron)
!! Add prognostic supersaturation
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!! July, 2015 (O.Nuissier/F.Duffourg) Add microphysics diagnostic for
!! aircraft, ballon and profiler
!! J.Escobar : 15/09/2015 : WENO5 & JPHEXT <> 1
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!! M.Mazoyer : 04/2016 : Temperature radiative tendency used for
!! activation by cooling (OACTIT)
!! 10/2016 M.Mazoyer New KHKO output fields
!! 10/2016 (C.Lac) Add droplet deposition
!! S.Riette : 11/2016 : ice_adjust before and after rain_ice
!! ICE3/ICE4 modified, old version under LRED=F
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! P. Wautelet 05/2016-04/2018: new data structures and calls for I/O
! P. Wautelet 01/02/2019: ZRSMIN is now allocatable (instead of size of XRTMIN which was sometimes not allocated)
! C. Lac 02/2019: add rain fraction as an output field
! P. Wautelet 23/07/2019: OpenACC: move data creations from resolved_cloud to modeln and optimize updates
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! P. Wautelet 02/2020: use the new data structures and subroutines for budgets
! B. Vie 03/2020: LIMA negativity checks after turbulence, advection and microphysics budgets
! B. Vie 03/03/2020: use DTHRAD instead of dT/dt in Smax diagnostic computation
! P. Wautelet 11/06/2020: bugfix: correct ZSVS array indices
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! P. Wautelet 11/06/2020: bugfix: add "Non local correction for precipitating species" for ICE4
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! P. Wautelet + Benoit Vié 06/2020: improve removal of negative scalar variables + adapt the corresponding budgets
! P. Wautelet 23/06/2020: remove ZSVS and ZSVT to improve code readability
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! P. Wautelet 30/06/2020: move removal of negative scalar variables to Sources_neg_correct
! P. Wautelet 30/06/2020: remove non-local corrections
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! B. Vie 06/2020: add prognostic supersaturation for LIMA
!-------------------------------------------------------------------------------
!
!* 0. DECLARATIONS
! ------------
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USE MODD_CH_AEROSOL, ONLY: LORILAM
USE MODD_DUST, ONLY: LDUST
use modd_cst, only: xcpd, xrd, xp00, xrholw
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USE MODD_DUST , ONLY: LDUST
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USE MODD_IO, ONLY: TFILEDATA
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USE MODD_NSV, ONLY: NSV_C1R3END, NSV_C2R2BEG, NSV_C2R2END, &
NSV_LIMA_BEG, NSV_LIMA_END, NSV_LIMA_CCN_FREE, NSV_LIMA_IFN_FREE, &
NSV_LIMA_NC, NSV_LIMA_NI, NSV_LIMA_NR
USE MODD_PARAM_C2R2, ONLY: LSUPSAT
USE MODD_PARAMETERS, ONLY: JPHEXT, JPVEXT
USE MODD_PARAM_ICE, ONLY: CSEDIM, LADJ_BEFORE, LADJ_AFTER, CFRAC_ICE_ADJUST, LRED
USE MODD_PARAM_LIMA, ONLY: LADJ, LCOLD, LPTSPLIT, LSPRO, NMOD_CCN, NMOD_IFN, NMOD_IMM
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USE MODD_RAIN_ICE_DESCR, ONLY: XRTMIN
USE MODD_SALT, ONLY: LSALT
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USE MODD_TURB_n, ONLY: CSUBG_AUCV_RI, CCONDENS, CLAMBDA3, CSUBG_MF_PDF
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USE MODE_ll
USE MODE_MPPDB
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#ifdef MNH_OPENACC
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USE MODE_MSG
#endif
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use mode_sources_neg_correct, only: Sources_neg_correct
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use mode_sum_ll, only: MIN_ll, SUM3D_ll
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#if defined(MNH_BITREP) || defined(MNH_BITREP_OMP)
USE MODI_BITREP
#endif
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USE MODI_C2R2_ADJUST
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USE MODI_GET_HALO
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USE MODI_KHKO_NOTADJUST
USE MODI_LIMA_ADJUST
USE MODI_LIMA_ADJUST_SPLIT
USE MODI_LIMA_NOTADJUST
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USE MODI_RAIN_C2R2_KHKO
USE MODI_RAIN_ICE_RED
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#ifdef MNH_OPENACC
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USE MODI_SHUMAN_DEVICE
#endif
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USE MODI_SLOW_TERMS
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#ifdef MNH_OPENACC
USE MODE_MNH_ZWORK, ONLY: MNH_MEM_GET, MNH_MEM_POSITION_PIN, MNH_MEM_RELEASE
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#endif
!
IMPLICIT NONE
!
!* 0.1 Declarations of dummy arguments :
!
!
!
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CHARACTER(LEN=4), INTENT(IN) :: HCLOUD ! kind of cloud paramerization
CHARACTER(LEN=4), INTENT(IN) :: HACTCCN ! kind of CCN activation scheme
CHARACTER(LEN=4), INTENT(IN) :: HSCONV ! Shallow convection scheme
CHARACTER(LEN=4), INTENT(IN) :: HMF_CLOUD! Type of statistical cloud
INTEGER, INTENT(IN) :: KRR ! Number of moist variables
INTEGER, INTENT(IN) :: KSPLITR ! Number of small time step
! integrations for rain sedimendation
INTEGER, INTENT(IN) :: KSPLITG ! Number of small time step
! integrations for ice sedimendation
INTEGER, INTENT(IN) :: KMI ! Model index
INTEGER, INTENT(IN) :: KTCOUNT ! Temporal loop counter
CHARACTER(LEN=4), DIMENSION(2), INTENT(IN) :: HLBCX,HLBCY ! X and Y-direc. LBC type
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TYPE(TFILEDATA), INTENT(INOUT):: TPFILE ! Output file
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CHARACTER(len=4), INTENT(IN) :: HRAD ! Radiation scheme name
CHARACTER(len=4), INTENT(IN) :: HTURBDIM ! Dimensionality of the
! turbulence scheme
LOGICAL, INTENT(IN) :: OSUBG_COND ! Switch for Subgrid Cond.
LOGICAL, INTENT(IN) :: OSIGMAS ! Switch for Sigma_s:
! use values computed in CONDENSATION
! or that from turbulence scheme
CHARACTER(LEN=4), INTENT(IN) :: HSUBG_AUCV
! Kind of Subgrid autoconversion method
REAL, INTENT(IN) :: PTSTEP ! Time step :XTSTEP in namelist
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PZZ ! Height (z)
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODJ !Dry density * Jacobian
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRHODREF! Reference dry air density
REAL, DIMENSION(:,:,:), INTENT(IN) :: PEXNREF ! Reference Exner function
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABST ! abs. pressure at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PTHT ! Theta at time t
REAL, DIMENSION(:,:,:,:), INTENT(INOUT):: PRT ! Moist variables at time t
REAL, DIMENSION(:,:,:), INTENT(IN) :: PSIGS ! Sigma_s at time t
REAL, INTENT(IN) :: PSIGQSAT! coeff applied to qsat variance contribution
REAL, DIMENSION(:,:,:), INTENT(IN) :: PMFCONV ! convective mass flux
REAL, DIMENSION(:,:,:), INTENT(IN) :: PTHM ! Theta at time t-Dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PPABSM ! Pressure time t-Dt
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRCM ! Cloud water m.r. at time t-Dt
!
!
REAL, DIMENSION(:,:,:), INTENT(IN) :: PW_ACT ! W for CCN activation
REAL, DIMENSION(:,:,:), INTENT(IN) :: PDTHRAD! THeta RADiative Tendancy
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PTHS ! Theta source
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PRS ! Moist variable sources
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PSVT ! Scalar variable at time t
REAL, DIMENSION(:,:,:,:), INTENT(INOUT) :: PSVS ! Scalar variable sources
!
!
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSRCS ! Second-order flux
! s'rc'/2Sigma_s2 at time t+1
! multiplied by Lambda_3
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCLDFR! Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PCIT ! Pristine ice number
! concentration at time t
LOGICAL, INTENT(IN) :: OSEDIC! Switch to activate the
! cloud droplet sedimentation
! for ICE3
LOGICAL, INTENT(IN) :: OACTIT ! Switch to activate the
! activation through temp.
! evolution in C2R2 and KHKO
LOGICAL, INTENT(IN) :: OSEDC ! Switch to activate the
! cloud droplet sedimentation
LOGICAL, INTENT(IN) :: OSEDI ! Switch to activate the
! cloud crystal sedimentation
LOGICAL, INTENT(IN) :: ORAIN ! Switch to activate the
! raindrop formation
LOGICAL, INTENT(IN) :: OWARM ! Control of the rain formation
! by slow warm microphysical
! processes
LOGICAL, INTENT(IN) :: OHHONI! enable haze freezing
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LOGICAL, INTENT(IN) :: OCONVHG! Switch for conversion from
! hail to graupel
REAL, DIMENSION(:,:,:), INTENT(IN) :: PCF_MF! Convective Mass Flux Cloud fraction
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRC_MF! Convective Mass Flux liquid mixing ratio
REAL, DIMENSION(:,:,:), INTENT(IN) :: PRI_MF! Convective Mass Flux solid mixing ratio
!
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRC ! Cloud instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRR ! Rain instant precip
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRR3D ! sed flux of precip
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PEVAP3D ! evap profile
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRS ! Snow instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRG ! Graupel instant precip
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINPRH ! Hail instant precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRC3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRS3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRG3D ! sed flux of precip
! REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PINPRH3D ! sed flux of precip
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PSOLORG ![%] solubility fraction of soa
REAL, DIMENSION(:,:,:,:), INTENT(IN) :: PMI
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDC ! Cloud sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDR ! Rain sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDS ! Snow sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDG ! Graupel sedimentation speed
! REAL, DIMENSION(:,:,:), INTENT(OUT) :: PSPEEDH ! Hail sedimentation speed
REAL, DIMENSION(:,:), INTENT(INOUT) :: PINDEP ! Cloud instant deposition
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PSUPSAT !sursat
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PNACT !concentrtaion d'aérosols activés au temps t
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PNPRO !concentrtaion d'aérosols activés au temps t
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PSSPRO !sursat
REAL, DIMENSION(:,:,:), INTENT(OUT) :: PRAINFR ! Rain fraction
RODIER Quentin
committed
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLC_HRC !HighLow liquid content
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLC_HCF !HighLow liquid cloud fraction
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLI_HRI !HighLow ice content
REAL, DIMENSION(:,:,:), INTENT(INOUT) :: PHLI_HCF !HighLow ice clous fraction
REAL, DIMENSION(:,:), OPTIONAL, INTENT(IN) :: PSEA ! Land Sea mask
REAL, DIMENSION(:,:), OPTIONAL, INTENT(IN) :: PTOWN ! Town fraction
!* 0.2 Declarations of local variables :
!
INTEGER :: JRR,JSV ! Loop index for the moist and scalar variables
INTEGER :: IIB ! Define the physical domain
INTEGER :: IIE !
INTEGER :: IJB !
INTEGER :: IJE !
WAUTELET Philippe
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INTEGER :: IKA,IKB !
INTEGER :: IKE !
INTEGER :: IKU
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INTEGER :: IKL
INTEGER :: IINFO_ll ! return code of parallel routine
INTEGER :: JI,JJ,JK,JL
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#ifndef MNH_OPENACC
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZDZZ
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZEXN
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZZZ
#else
ESCOBAR Juan
committed
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZDZZ
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZEXN
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZZZ
WAUTELET Philippe
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#endif
! REAL :: ZMASSTOT ! total mass for one water category
! ! including the negative values
! REAL :: ZMASSPOS ! total mass for one water category
! ! after removing the negative values
! REAL :: ZRATIO ! ZMASSTOT / ZMASSCOR
!
INTEGER :: ISVBEG ! first scalar index for microphysics
INTEGER :: ISVEND ! last scalar index for microphysics
WAUTELET Philippe
committed
#ifndef MNH_OPENACC
WAUTELET Philippe
committed
REAL, DIMENSION(:), ALLOCATABLE :: ZRSMIN ! Minimum value for tendencies
WAUTELET Philippe
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LOGICAL, DIMENSION(:,:,:), ALLOCATABLE :: LLMICRO ! mask to limit computation
REAL, DIMENSION(:,:,:,:), ALLOCATABLE :: ZFPR
#else
REAL, DIMENSION(:), POINTER , CONTIGUOUS :: ZRSMIN ! Minimum value for tendencies
ESCOBAR Juan
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LOGICAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: LLMICRO ! mask to limit computation
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REAL, DIMENSION(:,:,:,:), POINTER , CONTIGUOUS :: ZFPR
WAUTELET Philippe
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#endif
LOGICAL :: GWEST,GEAST,GNORTH,GSOUTH
! BVIE work array waiting for PINPRI
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#ifndef MNH_OPENACC
REAL, DIMENSION(:,:), ALLOCATABLE :: ZINPRI
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZICEFR
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZPRCFR
REAL, DIMENSION(:,:,:), ALLOCATABLE :: ZTHSSTEP
REAL, DIMENSION(:,:,:,:), ALLOCATABLE :: ZRSSTEP
#else
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committed
REAL, DIMENSION(:,:), POINTER , CONTIGUOUS :: ZINPRI
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZICEFR
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZPRCFR
ESCOBAR Juan
committed
REAL, DIMENSION(:,:,:), POINTER , CONTIGUOUS :: ZTHSSTEP
REAL, DIMENSION(:,:,:,:), POINTER , CONTIGUOUS :: ZRSSTEP
WAUTELET Philippe
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#endif
ESCOBAR Juan
committed
!
INTEGER :: JIU,JJU,JKU
ESCOBAR MUNOZ Juan
committed
LOGICAL :: GCLOUD_C2R2_CLOUD_C3R5_CLOUD_KHKO_CLOUD_LIMA
!------------------------------------------------------------------------------
!
ESCOBAR MUNOZ Juan
committed
GCLOUD_C2R2_CLOUD_C3R5_CLOUD_KHKO_CLOUD_LIMA = &
HCLOUD=='C2R2' .OR. HCLOUD=='C3R5' .OR. HCLOUD=='KHKO' .OR. HCLOUD=='LIMA'
!
WAUTELET Philippe
committed
! IN variables
!
!$acc data present( PRHODJ, PZZ, PRHODREF, PEXNREF, PPABST, PTHT, PSIGS, PSIGQSAT, &
!$acc & PMFCONV, PTHM, PPABSM, PRCM, PW_ACT, PDTHRAD, &
!$acc & PCF_MF, PRC_MF, PRI_MF, &
!$acc & PSOLORG, PMI, PSEA, PTOWN, &
WAUTELET Philippe
committed
!
! INOUT variables
!
!$acc & PTHS, PRT, PRS, PSVT, PSVS, PCLDFR, PCIT, &
!$acc & PINPRC, PINPRR, PINPRR3D, PEVAP3D, PINPRS, PINPRG, PINPRH, PINDEP, &
!$acc & PSUPSAT, PNACT, PNPRO, PSSPRO, PHLC_HRC, PHLC_HCF, PHLI_HRI, PHLI_HCF, &
WAUTELET Philippe
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!
! OUT variables
!
!$acc & PSRCS, PRAINFR )
WAUTELET Philippe
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! !$acc & copyin( XRTMIN )
WAUTELET Philippe
committed
!* 1. PRELIMINARY COMPUTATIONS
! ------------------------
!
IF (MPPDB_INITIALIZED) THEN
!Check all IN arrays
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CALL MPPDB_CHECK(PZZ,"RESOLVED_CLOUD beg:PZZ")
CALL MPPDB_CHECK(PRHODJ,"RESOLVED_CLOUD beg:PRHODJ")
CALL MPPDB_CHECK(PRHODREF,"RESOLVED_CLOUD beg:PRHODREF")
CALL MPPDB_CHECK(PEXNREF,"RESOLVED_CLOUD beg:PEXNREF")
CALL MPPDB_CHECK(PPABST,"RESOLVED_CLOUD beg:PPABST")
CALL MPPDB_CHECK(PTHT,"RESOLVED_CLOUD beg:PTHT")
CALL MPPDB_CHECK(PSIGS,"RESOLVED_CLOUD beg:PSIGS")
CALL MPPDB_CHECK(PMFCONV,"RESOLVED_CLOUD beg:PMFCONV")
CALL MPPDB_CHECK(PTHM,"RESOLVED_CLOUD beg:PTHM")
CALL MPPDB_CHECK(PPABSM,"RESOLVED_CLOUD beg:PPABSM")
CALL MPPDB_CHECK(PRCM,"RESOLVED_CLOUD beg:PRCM")
CALL MPPDB_CHECK(PW_ACT,"RESOLVED_CLOUD beg:PW_ACT")
CALL MPPDB_CHECK(PDTHRAD,"RESOLVED_CLOUD beg:PDTHRAD")
CALL MPPDB_CHECK(PCF_MF,"RESOLVED_CLOUD beg:PCF_MF")
CALL MPPDB_CHECK(PRC_MF,"RESOLVED_CLOUD beg:PRC_MF")
CALL MPPDB_CHECK(PRI_MF,"RESOLVED_CLOUD beg:PRI_MF")
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! CALL MPPDB_CHECK(PSOLORG,"RESOLVED_CLOUD beg:PSOLORG")
! CALL MPPDB_CHECK(PMI,"RESOLVED_CLOUD beg:PMI")
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IF (PRESENT(PSEA)) CALL MPPDB_CHECK(PSEA,"RESOLVED_CLOUD beg:PSEA")
IF (PRESENT(PTOWN)) CALL MPPDB_CHECK(PTOWN,"RESOLVED_CLOUD beg:PTOWN")
!Check all INOUT arrays
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CALL MPPDB_CHECK(PRT,"RESOLVED_CLOUD beg:PRT")
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CALL MPPDB_CHECK(PTHS,"RESOLVED_CLOUD beg:PTHS")
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CALL MPPDB_CHECK(PRS, "RESOLVED_CLOUD beg:PRS")
CALL MPPDB_CHECK(PSVT,"RESOLVED_CLOUD beg:PSVT")
CALL MPPDB_CHECK(PSVS,"RESOLVED_CLOUD beg:PSVS")
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CALL MPPDB_CHECK(PCLDFR,"RESOLVED_CLOUD beg:PCLDFR")
CALL MPPDB_CHECK(PCIT,"RESOLVED_CLOUD beg:PCIT")
CALL MPPDB_CHECK(PINPRC,"RESOLVED_CLOUD beg:PINPRC")
CALL MPPDB_CHECK(PINPRR,"RESOLVED_CLOUD beg:PINPRR")
CALL MPPDB_CHECK(PINPRR3D,"RESOLVED_CLOUD beg:PINPRR3D")
CALL MPPDB_CHECK(PEVAP3D,"RESOLVED_CLOUD beg:PEVAP3D")
CALL MPPDB_CHECK(PINPRS,"RESOLVED_CLOUD beg:PINPRS")
CALL MPPDB_CHECK(PINPRG,"RESOLVED_CLOUD beg:PINPRG")
CALL MPPDB_CHECK(PINPRH,"RESOLVED_CLOUD beg:PINPRH")
CALL MPPDB_CHECK(PINDEP,"RESOLVED_CLOUD beg:PINDEP")
CALL MPPDB_CHECK(PSUPSAT,"RESOLVED_CLOUD beg:PSUPSAT")
CALL MPPDB_CHECK(PNACT,"RESOLVED_CLOUD beg:PNACT")
CALL MPPDB_CHECK(PNPRO,"RESOLVED_CLOUD beg:PNPRO")
CALL MPPDB_CHECK(PSSPRO,"RESOLVED_CLOUD beg:PSSPRO")
CALL MPPDB_CHECK(PHLC_HRC,"RESOLVED_CLOUD beg:PHLC_HRC")
CALL MPPDB_CHECK(PHLC_HCF,"RESOLVED_CLOUD beg:PHLC_HCF")
CALL MPPDB_CHECK(PHLI_HRI,"RESOLVED_CLOUD beg:PHLI_HRI")
CALL MPPDB_CHECK(PHLI_HCF,"RESOLVED_CLOUD beg:PHLI_HCF")
END IF
!
ESCOBAR Juan
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JIU = size(PZZ, 1 )
JJU = size(PZZ, 2 )
JKU = size(PZZ, 3 )
!
#ifndef MNH_OPENACC
allocate ( LLMICRO ( JIU,JJU,JKU ) )
allocate ( ZDZZ ( JIU,JJU,JKU ) )
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if ( hcloud == 'ICE3' .or. hcloud == 'ICE4' ) then
allocate ( ZEXN ( JIU,JJU,JKU ) )
allocate ( ZFPR ( JIU,JJU,JKU,KRR ) )
else
allocate ( ZEXN ( 0,0,0 ) )
allocate ( ZFPR ( 0,0,0,0 ) )
end if
if ( hcloud == 'LIMA' .and. lptsplit ) then
allocate( ZICEFR ( JIU,JJU,JKU ) )
allocate( ZPRCFR ( JIU,JJU,JKU ) )
else
allocate( ZICEFR (0, 0, 0) )
allocate( ZPRCFR (0, 0, 0) )
end if
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allocate ( ZZZ ( JIU,JJU,JKU ) )
allocate ( ZINPRI ( JIU,JJU ) )
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allocate ( ZTHSSTEP ( SIZE(PTHS,1), SIZE(PTHS,2), SIZE(PTHS,3) ) )
allocate ( ZRSSTEP ( SIZE(PRS,1), SIZE(PRS,2), SIZE(PRS,3), SIZE(PRS,4) ) )
IF (HCLOUD(1:3)=='ICE' .AND. LRED) THEN
allocate( ZRSMIN(SIZE( XRTMIN )) )
ELSE
allocate( ZRSMIN(0) )
END IF
ESCOBAR Juan
committed
#else
!Pin positions in the pools of MNH memory
CALL MNH_MEM_POSITION_PIN()
CALL MNH_MEM_GET( LLMICRO ,JIU,JJU,JKU )
CALL MNH_MEM_GET( ZDZZ ,JIU,JJU,JKU )
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if ( hcloud == 'ICE3' .or. hcloud == 'ICE4' ) then
CALL MNH_MEM_GET( ZEXN ,JIU,JJU,JKU )
CALL MNH_MEM_GET( ZFPR ,JIU,JJU,JKU,KRR )
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else
CALL MNH_MEM_GET( ZEXN ,0,0,0 )
CALL MNH_MEM_GET( ZFPR ,0,0,0,0 )
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committed
end if
if ( hcloud == 'LIMA' .and. lptsplit ) then
CALL MNH_MEM_GET( ZICEFR ,JIU,JJU,JKU )
CALL MNH_MEM_GET( ZPRCFR ,JIU,JJU,JKU )
WAUTELET Philippe
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else
CALL MNH_MEM_GET( ZICEFR ,0,0,0 )
CALL MNH_MEM_GET( ZPRCFR ,0,0,0 )
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end if
CALL MNH_MEM_GET( ZZZ ,JIU,JJU,JKU )
CALL MNH_MEM_GET( ZINPRI ,JIU,JJU )
CALL MNH_MEM_GET( ZTHSSTEP , SIZE(PTHS,1), SIZE(PTHS,2), SIZE(PTHS,3) )
CALL MNH_MEM_GET( ZRSSTEP , SIZE(PRS,1), SIZE(PRS,2), SIZE(PRS,3), SIZE(PRS,4) )
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IF (HCLOUD(1:3)=='ICE' .AND. LRED) THEN
CALL MNH_MEM_GET( ZRSMIN, SIZE( XRTMIN ) )
ELSE
CALL MNH_MEM_GET( ZRSMIN, 0 )
END IF
WAUTELET Philippe
committed
!$acc data present( LLMICRO, ZDZZ, ZEXN, ZFPR, ZICEFR, ZPRCFR, ZZZ, ZINPRI, ZTHSSTEP, ZRSSTEP, ZRSMIN )
#endif
CALL GET_INDICE_ll (IIB,IJB,IIE,IJE)
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IKA=1
IKB=1+JPVEXT
IKE=SIZE(PZZ,3) - JPVEXT
IKU=SIZE(PZZ,3)
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!
IKL = 1
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GWEST = ( HLBCX(1) /= 'CYCL' .AND. LWEST_ll() )
GEAST = ( HLBCX(2) /= 'CYCL' .AND. LEAST_ll() )
GSOUTH = ( HLBCY(1) /= 'CYCL' .AND. LSOUTH_ll() )
GNORTH = ( HLBCY(2) /= 'CYCL' .AND. LNORTH_ll() )
IF (HCLOUD == 'C2R2' .OR. HCLOUD == 'KHKO') THEN
ISVBEG = NSV_C2R2BEG
ISVEND = NSV_C2R2END
ELSE IF (HCLOUD == 'C3R5') THEN
ISVBEG = NSV_C2R2BEG
ISVEND = NSV_C1R3END
ELSE IF (HCLOUD == 'LIMA') THEN
ISVBEG = NSV_LIMA_BEG
ISVEND = NSV_LIMA_END
ISVEND = -1
IF (HCLOUD(1:3)=='ICE' .AND. LRED) THEN
WAUTELET Philippe
committed
!$acc kernels
ZRSMIN(:) = XRTMIN(:) / PTSTEP
!$acc end kernels
WAUTELET Philippe
committed
END IF
!
!* 2. TRANSFORMATION INTO PHYSICAL TENDENCIES
! ---------------------------------------
!
ESCOBAR MUNOZ Juan
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!$acc kernels present_cr(PTHS,PRS,PRHODJ,PSVS)
PTHS(:,:,:) = PTHS(:,:,:) / PRHODJ(:,:,:)
ESCOBAR Juan
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!
DO CONCURRENT ( JI=1:JIU,JJ=1:JJU,JK=1:JKU ,JRR = 1:KRR )
PRS(JI,JJ,JK,JRR) = PRS(JI,JJ,JK,JRR) / PRHODJ(JI,JJ,JK)
END DO ! CONCURRENT
ESCOBAR MUNOZ Juan
committed
IF (GCLOUD_C2R2_CLOUD_C3R5_CLOUD_KHKO_CLOUD_LIMA) THEN
Juan Escobar
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DO CONCURRENT ( JI=1:JIU , JJ=1:JJU,JK=1:JKU , JSV=ISVBEG:ISVEND )
PSVS(JI,JJ,JK,JSV) = PSVS(JI,JJ,JK,JSV) / PRHODJ(JI,JJ,JK)
ENDDO
ENDIF
!
! complete the lateral boundaries to avoid possible problems
!
ESCOBAR MUNOZ Juan
committed
!dir$ concurrent
PTHS(JI,:,:) = PTHS(IIB,:,:)
PTHS(IIE+JI,:,:) = PTHS(IIE,:,:)
PTHS(:,JI,:) = PTHS(:,IJB,:)
PTHS(:,IJE+JI,:) = PTHS(:,IJE,:)
!
PRS(JI,:,:,:) = PRS(IIB,:,:,:)
PRS(IIE+JI,:,:,:) = PRS(IIE,:,:,:)
PRS(:,JI,:,:) = PRS(:,IJB,:,:)
PRS(:,IJE+JI,:,:) = PRS(:,IJE,:,:)
!
! complete the physical boundaries to avoid some computations
!
WAUTELET Philippe
committed
IF(GWEST ) PRT(:IIB-1,:,:,2:) = 0.0
IF(GEAST ) PRT(IIE+1:,:,:,2:) = 0.0
IF(GSOUTH ) PRT(:,:IJB-1,:,2:) = 0.0
IF(GNORTH ) PRT(:,IJE+1:,:,2:) = 0.0
ESCOBAR MUNOZ Juan
committed
IF (GCLOUD_C2R2_CLOUD_C3R5_CLOUD_KHKO_CLOUD_LIMA) THEN
PSVS(JI, :, :, ISVBEG:ISVEND) = PSVS(IIB, :, :, ISVBEG:ISVEND)
PSVS(IIE+JI, :, :, ISVBEG:ISVEND) = PSVS(IIE, :, :, ISVBEG:ISVEND)
PSVS(:, JI, :, ISVBEG:ISVEND) = PSVS(:, IJB, :, ISVBEG:ISVEND)
PSVS(:, IJE+JI, :, ISVBEG:ISVEND) = PSVS(:, IJE, :, ISVBEG:ISVEND)
! complete the physical boundaries to avoid some computations
!
WAUTELET Philippe
committed
IF(GWEST ) PSVT(:IIB-1, :, :, ISVBEG:ISVEND) = 0.0
IF(GEAST ) PSVT(IIE+1:, :, :, ISVBEG:ISVEND) = 0.0
IF(GSOUTH ) PSVT(:, :IJB-1, :, ISVBEG:ISVEND) = 0.0
IF(GNORTH ) PSVT(:, IJE+1:, :, ISVBEG:ISVEND) = 0.0
ENDIF
!
! complete the vertical boundaries
!
PTHS(:,:,IKB-1) = PTHS(:,:,IKB)
PTHS(:,:,IKE+1) = PTHS(:,:,IKE)
!
PRS(:,:,IKB-1,:) = PRS(:,:,IKB,:)
PRS(:,:,IKE+1,:) = PRS(:,:,IKE,:)
!
PRT(:,:,IKB-1,:) = PRT(:,:,IKB,:)
PRT(:,:,IKE+1,:) = PRT(:,:,IKE,:)
!
ESCOBAR MUNOZ Juan
committed
IF (GCLOUD_C2R2_CLOUD_C3R5_CLOUD_KHKO_CLOUD_LIMA) THEN
PSVS(:,:,IKB-1,ISVBEG:ISVEND) = PSVS(:,:,IKB,ISVBEG:ISVEND)
PSVS(:,:,IKE+1,ISVBEG:ISVEND) = PSVS(:,:,IKE,ISVBEG:ISVEND)
PSVT(:,:,IKB-1,ISVBEG:ISVEND) = PSVT(:,:,IKB,ISVBEG:ISVEND)
PSVT(:,:,IKE+1,ISVBEG:ISVEND) = PSVT(:,:,IKE,ISVBEG:ISVEND)
!$acc end kernels
!
!* 3. REMOVE NEGATIVE VALUES
! ----------------------
!
!* 3.1 Non local correction for precipitating species (Rood 87)
!
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! IF ( HCLOUD == 'KESS' &
! .OR. HCLOUD == 'ICE3' .OR. HCLOUD == 'ICE4' &
! .OR. HCLOUD == 'C2R2' .OR. HCLOUD == 'C3R5' &
! .OR. HCLOUD == 'KHKO' .OR. HCLOUD == 'LIMA' ) THEN
! !
! DO JRR = 3,KRR
! SELECT CASE (JRR)
! CASE(3,5,6,7) ! rain, snow, graupel and hail
!
! IF ( MIN_ll( PRS(:,:,:,JRR), IINFO_ll) < 0.0 ) THEN
! !
! ! compute the total water mass computation
! !
! ZMASSTOT = MAX( 0. , SUM3D_ll( PRS(:,:,:,JRR), IINFO_ll ) )
! !
! ! remove the negative values
! !
! PRS(:,:,:,JRR) = MAX( 0., PRS(:,:,:,JRR) )
! !
! ! compute the new total mass
! !
! ZMASSPOS = MAX(XMNH_TINY,SUM3D_ll( PRS(:,:,:,JRR), IINFO_ll ) )
! !
! ! correct again in such a way to conserve the total mass
! !
! ZRATIO = ZMASSTOT / ZMASSPOS
! PRS(:,:,:,JRR) = PRS(:,:,:,JRR) * ZRATIO
! !
! END IF
! END SELECT
! END DO
! END IF
!
!* 3.2 Adjustement for liquid and solid cloud
!
WAUTELET Philippe
committed
! Remove non-physical negative values (unnecessary in a perfect world) + corresponding budgets
call Sources_neg_correct( hcloud, 'NEGA', krr, ptstep, ppabst, ptht, prt, pths, prs, psvs, prhodj )
!
!* 3.4 Limitations of Na and Nc to the CCN max number concentration
!
! Commented by O.Thouron 03/2013
!IF ((HCLOUD == 'C2R2' .OR. HCLOUD == 'C3R5' .OR. HCLOUD == 'KHKO') &
! .AND.(XCONC_CCN > 0)) THEN
! IF ((HACTCCN /= 'ABRK')) THEN
! ZSVT(:,:,:,1) = MIN( ZSVT(:,:,:,1),XCONC_CCN )
! ZSVT(:,:,:,2) = MIN( ZSVT(:,:,:,2),XCONC_CCN )
! ZSVS(:,:,:,1) = MIN( ZSVS(:,:,:,1),XCONC_CCN )
! ZSVS(:,:,:,2) = MIN( ZSVS(:,:,:,2),XCONC_CCN )
! END IF
!END IF
!
!
!-------------------------------------------------------------------------------
!
SELECT CASE ( HCLOUD )
CASE ('REVE')
WAUTELET Philippe
committed
#ifdef MNH_OPENACC
WAUTELET Philippe
committed
CALL PRINT_MSG(NVERB_FATAL,'GEN','RESOLVED_CLOUD','REVE not yet implemented')
!
!* 4. REVERSIBLE MICROPHYSICAL SCHEME
! -------------------------------
!
CALL FAST_TERMS ( KRR, KMI, HRAD, HTURBDIM, &
HSCONV, HMF_CLOUD, OSUBG_COND, PTSTEP, &
PCF_MF,PRC_MF, &
PRVT=PRT(:,:,:,1), PRCT=PRT(:,:,:,2), &
PRVS=PRS(:,:,:,1), PRCS=PRS(:,:,:,2), &
PTHS=PTHS, PSRCS=PSRCS, PCLDFR=PCLDFR )
!
CASE ('KESS')
WAUTELET Philippe
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#ifdef MNH_OPENACC
CALL PRINT_MSG(NVERB_WARNING,'GEN','RESOLVED_CLOUD','KESS being implemented')
!
!* 5. KESSLER MICROPHYSICAL SCHEME
! ----------------------------
!
!
!* 5.1 Compute the explicit microphysical sources
!
CALL SLOW_TERMS ( KSPLITR, PTSTEP, KMI, HSUBG_AUCV, &
PZZ, PRHODJ, PRHODREF, PCLDFR, &
PTHT, PRT(:,:,:,1), PRT(:,:,:,2), PRT(:,:,:,3), PPABST, &
PTHS, PRS(:,:,:,1), PRS(:,:,:,2), PRS(:,:,:,3), &
PINPRR, PINPRR3D, PEVAP3D )
!
!* 5.2 Perform the saturation adjustment
!
CALL FAST_TERMS ( KRR, KMI, HRAD, HTURBDIM, &
HSCONV, HMF_CLOUD, OSUBG_COND, PTSTEP, &
PCF_MF,PRC_MF, &
PRVT=PRT(:,:,:,1), PRCT=PRT(:,:,:,2), &
PRVS=PRS(:,:,:,1), PRCS=PRS(:,:,:,2), PRRS=PRS(:,:,:,3), &
PTHS=PTHS, PSRCS=PSRCS, PCLDFR=PCLDFR )
!
!
Gaelle Tanguy
committed
CASE ('C2R2','KHKO')
WAUTELET Philippe
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#ifdef MNH_OPENACC
WAUTELET Philippe
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CALL PRINT_MSG(NVERB_FATAL,'GEN','RESOLVED_CLOUD','C2R2//KHKO not yet implemented')
Gaelle Tanguy
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!* 7. 2-MOMENT WARM MICROPHYSICAL SCHEME C2R2 or KHKO
! ---------------------------------------
!
!
!* 7.1 Compute the explicit microphysical sources
!
!
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CALL RAIN_C2R2_KHKO ( HCLOUD, OACTIT, OSEDC, ORAIN, KSPLITR, PTSTEP, KMI, &
WAUTELET Philippe
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TPFILE, PZZ, PRHODJ, PRHODREF, PEXNREF, &
PPABST, PTHT, PRT(:,:,:,1), PRT(:,:,:,2), PRT(:,:,:,3), &
PTHM, PRCM, PPABSM, &
Gaelle Tanguy
committed
PW_ACT,PDTHRAD,PTHS, PRS(:,:,:,1),PRS(:,:,:,2),PRS(:,:,:,3), &
PSVT(:,:,:,NSV_C2R2BEG), PSVT(:,:,:,NSV_C2R2BEG+1), &
PSVT(:,:,:,NSV_C2R2BEG+2), PSVS(:,:,:,NSV_C2R2BEG), &
PSVS(:,:,:,NSV_C2R2BEG+1), PSVS(:,:,:,NSV_C2R2BEG+2), &
PINPRC, PINPRR, PINPRR3D, PEVAP3D , &
PSVT(:,:,:,:), PSOLORG, PMI, HACTCCN, &
WAUTELET Philippe
committed
PINDEP, PSUPSAT, PNACT )
!
!
!* 7.2 Perform the saturation adjustment
!
IF (LSUPSAT) THEN
WAUTELET Philippe
committed
CALL KHKO_NOTADJUST (KRR, KTCOUNT,TPFILE, HRAD, &
PTSTEP, PRHODJ, PPABSM, PPABST, PRHODREF, PZZ, &
PTHT,PRT(:,:,:,1),PRT(:,:,:,2),PRT(:,:,:,3), &
PTHS,PRS(:,:,:,1),PRS(:,:,:,2),PRS(:,:,:,3), &
PSVS(:,:,:,NSV_C2R2BEG+1), PSVS(:,:,:,NSV_C2R2BEG), &
PSVS(:,:,:,NSV_C2R2BEG+3), PCLDFR, PSRCS, PNPRO, PSSPRO )
CALL C2R2_ADJUST ( KRR,TPFILE, HRAD, &
WAUTELET Philippe
committed
HTURBDIM, OSUBG_COND, PTSTEP, &
PRHODJ, PSIGS, PPABST, &
PTHS=PTHS, PRVS=PRS(:,:,:,1), PRCS=PRS(:,:,:,2), &
PCNUCS=PSVS(:,:,:,NSV_C2R2BEG), &
PCCS=PSVS(:,:,:,NSV_C2R2BEG+1), &
PSRCS=PSRCS, PCLDFR=PCLDFR, PRRS=PRS(:,:,:,3) )
!
END IF
!
CASE ('ICE3')
!
!* 9. MIXED-PHASE MICROPHYSICAL SCHEME (WITH 3 ICE SPECIES)
! -----------------------------------------------------
!
ESCOBAR MUNOZ Juan
committed
#if !defined(MNH_BITREP) && !defined(MNH_BITREP_OMP)
ZEXN(:,:,:)= (PPABST(:,:,:)/XP00)**(XRD/XCPD)
#else
ESCOBAR MUNOZ Juan
committed
DO CONCURRENT ( JI=1:JIU,JJ=1:JJU,JK=1:JKU )
ZEXN(JI,JJ,JK)= BR_POW( PPABST(JI,JJ,JK)/XP00, XRD/XCPD )
ENDDO
#endif
!$acc end kernels
!* 9.1 Compute the explicit microphysical sources
!
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! ALLOCATE(ZRSSTEP,MOLD=PRS)
! ALLOCATE(ZRSSTEP(SIZE(PRS,1),SIZE(PRS,2),SIZE(PRS,3),SIZE(PRS,4)))
! ALLOCATE(ZTHSSTEP,MOLD=PTHS)
! ALLOCATE(ZTHSSTEP(SIZE(PTHS,1),SIZE(PTHS,2),SIZE(PTHS,3)))
!$acc kernels present(ZTHSSTEP,PTHS,ZRSSTEP,PRS,ZDZZ,PZZ)
ZTHSSTEP(:,:,:) = PTHS(:,:,:) * PTSTEP
ZRSSTEP (:,:,:,:) = PRS (:,:,:,:) * PTSTEP
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!
WAUTELET Philippe
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ZDZZ(:,:,1:IKB-1) = 0.
DO JK=IKB,IKE
ZDZZ(:,:,JK)=PZZ(:,:,JK+1)-PZZ(:,:,JK)
ENDDO
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ZDZZ(:,:,IKE+1:) = 0.
!$acc end kernels
WAUTELET Philippe
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#ifndef MNH_OPENACC
ZZZ(:,:,:) = MZF( PZZ(:,:,:) )
WAUTELET Philippe
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CALL MZF_DEVICE( PZZ, ZZZ )
IF(LRED .AND. LADJ_BEFORE) THEN
RODIER Quentin
committed
CALL ICE_ADJUST (1, IKU, 1, KRR, CFRAC_ICE_ADJUST, CCONDENS, CLAMBDA3, &
'ADJU', OSUBG_COND, OSIGMAS, CSUBG_MF_PDF, &
PTSTEP, PSIGQSAT, &
PRHODJ, PEXNREF, PRHODREF, PSIGS, PMFCONV, PPABST, ZZZ, &
ZEXN, PCF_MF, PRC_MF, PRI_MF, &
PRV=ZRSSTEP(:,:,:,1), PRC=ZRSSTEP(:,:,:,2), &
PRVS=PRS(:,:,:,1), PRCS=PRS(:,:,:,2), &
PTH=ZTHSSTEP, PTHS=PTHS, PSRCS=PSRCS, PCLDFR=PCLDFR, &
PRR=ZRSSTEP(:,:,:,3), &
PRI=ZRSSTEP(:,:,:,4), PRIS=PRS(:,:,:,4), &
PRS=ZRSSTEP(:,:,:,5), &
PRG=ZRSSTEP(:,:,:,6), &
RODIER Quentin
committed
PHLC_HRC=PHLC_HRC, PHLC_HCF=PHLC_HCF, &
PHLI_HRI=PHLI_HRI, PHLI_HCF=PHLI_HCF )
ENDIF
IF (LRED) THEN
!$acc kernels
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!$acc loop independent
DO CONCURRENT( JI = 1 : JIU, JJ = 1 : JJU, JK = 1 : JKU )
LLMICRO(JI,JJ,JK)=PRT(JI,JJ,JK,2)>XRTMIN(2) .OR. &
PRT(JI,JJ,JK,3)>XRTMIN(3) .OR. &
PRT(JI,JJ,JK,4)>XRTMIN(4) .OR. &
PRT(JI,JJ,JK,5)>XRTMIN(5) .OR. &
PRT(JI,JJ,JK,6)>XRTMIN(6) .OR. &
PRS(JI,JJ,JK,2)>ZRSMIN(2) .OR. &
PRS(JI,JJ,JK,3)>ZRSMIN(3) .OR. &
PRS(JI,JJ,JK,4)>ZRSMIN(4) .OR. &
PRS(JI,JJ,JK,5)>ZRSMIN(5) .OR. &
PRS(JI,JJ,JK,6)>ZRSMIN(6)
END DO
RODIER Quentin
committed
CALL RAIN_ICE_RED (SIZE(PTHT, 1), SIZE(PTHT, 2), SIZE(PTHT, 3), COUNT(LLMICRO), &
OSEDIC, CSEDIM, HSUBG_AUCV, CSUBG_AUCV_RI, &
OWARM,IKA,IKU,IKL, &
PTSTEP, KRR, LLMICRO, ZEXN, &
ZDZZ, PRHODJ, PRHODREF, PEXNREF, PPABST, PCIT,PCLDFR,&
RODIER Quentin
committed
PHLC_HRC, PHLC_HCF, PHLI_HRI, PHLI_HCF, &