!----------------------------------------------------------------------- ! !NCEP_MESO:MODEL_LAYER: INERTIAL GRAVITY WAVE ADJUSTMENT ! !----------------------------------------------------------------------- #include "nmm_loop_basemacros.h" #include "nmm_loop_macros.h" #define DATA_CALLS_INCLUDED !----------------------------------------------------------------------- ! MODULE MODULE_IGWAVE_ADJUST ! !----------------------------------------------------------------------- USE MODULE_MODEL_CONSTANTS, only: R_d, p608 ! USE MODULE_EXCHANGE USE MODULE_MPP,ONLY: MYPE USE MODULE_WRF_ERROR ! USE MODULE_TIMERS ! this one creates a name conflict at compile time !----------------------------------------------------------------------- !*** !*** SPECIFY THE NUMBER OF TIMES TO SMOOTH THE VERTICAL VELOCITY !*** AND THE NUMBER OF ROWS FROM THE NORTHERN AND SOUTHERN EDGES !*** OF THE GLOBAL DOMAIN BEYOND WHICH THE SMOOTHING DOES NOT GO !*** FOR SUBROUTINE PDTE ! INTEGER :: KSMUD=0,LNSDT=7 ! !----------------------------------------------------------------------- ! CONTAINS ! !*********************************************************************** SUBROUTINE PFDHT(NTSD,LAST_TIME,PT,DETA1,DETA2,PDTOP,RES,FIS & & ,HYDRO,SIGMA,FIRST,DX,DY & & ,HBM2,VBM2,VBM3 & & ,FDIV,FCP,WPDAR,DFL,CPGFU,CPGFV & & ,PD,PDSL,T,Q,U,V,CWM,OMGALF,PINT,DWDT & & ,RTOP,DIV,FEW,FNS,FNE,FSE & & ,IHE,IHW,IVE,IVW & & ,IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE) !*********************************************************************** !$$$ SUBPROGRAM DOCUMENTATION BLOCK ! . . . ! SUBPROGRAM: PFDHT DIVERGENCE/HORIZONTAL OMEGA-ALPHA ! PRGRMMR: JANJIC ORG: W/NP22 DATE: 93-10-28 ! ! ABSTRACT: ! PFDHT CALCULATES THE PRESSURE GRADIENT FORCE, UPDATES THE ! VELOCITY COMPONENTS DUE TO THE EFFECT OF THE PRESSURE GRADIENT ! AND CORIOILS FORCES, COMPUTES THE DIVERGENCE INCLUDING THE ! MODIFICATION PREVENTING GRAVITY WAVE GRID SEPARATION, AND ! CALCULATES THE HORIZONTAL PART OF THE OMEGA-ALPHA TERM. ! (THE PART PROPORTIONAL TO THE ADVECTION OF MASS ALONG ! COORDINATE SURFACES). ! ! PROGRAM HISTORY LOG: ! 87-06-?? JANJIC - ORIGINATOR ! 95-03-25 BLACK - CONVERSION FROM 1-D TO 2-D IN HORIZONTAL ! 96-03-29 BLACK - ADDED EXTERNAL EDGE ! 98-10-30 BLACK - MODIFIED FOR DISTRIBUTED MEMORY ! 02-02-01 BLACK - REWRITTEN FOR WRF CODING STANDARDS ! 04-02-17 JANJIC - REMOVED UPDATE OF TEMPERATURE ! 04-11-23 BLACK - THREADED ! 05-12-09 BLACK - CONVERTED FROM IKJ TO IJK ! ! USAGE: CALL PFDHT FROM MAIN PROGRAM SOLVE_RUNSTREAM ! INPUT ARGUMENT LIST: ! ! OUTPUT ARGUMENT LIST: ! ! OUTPUT FILES: ! NONE ! ! SUBPROGRAMS CALLED: ! ! UNIQUE: NONE ! ! LIBRARY: NONE ! ! ATTRIBUTES: ! LANGUAGE: FORTRAN 90 ! MACHINE : IBM SP !$$$ !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- IMPLICIT NONE !----------------------------------------------------------------------- LOGICAL,INTENT(IN) :: FIRST,HYDRO INTEGER,INTENT(IN) :: SIGMA ! INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE ! INTEGER, DIMENSION(JMS:JME),INTENT(IN) :: IHE,IHW,IVE,IVW ! INTEGER,INTENT(IN) :: NTSD LOGICAL,INTENT(IN) :: LAST_TIME ! REAL,INTENT(IN) :: CPGFV,DY,PDTOP,PT ! REAL,DIMENSION(KMS:KME-1),INTENT(IN) :: DETA1,DETA2 ! REAL,DIMENSION(KMS:KME),INTENT(IN) :: DFL ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: CPGFU,DX,FCP,FDIV & & ,PD,FIS,RES,WPDAR & & ,HBM2,VBM2,VBM3 ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(IN) :: CWM,DWDT & & ,Q,T ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(IN) :: PINT ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: DIV & & ,OMGALF & & ,RTOP,U,V ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(OUT) :: FEW,FNS & & ,FNE,FSE ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(OUT) :: PDSL ! !----------------------------------------------------------------------- !*** LOCAL VARIABLES !----------------------------------------------------------------------- ! INTEGER :: I,J,K ! REAL :: SLP_STD=101300.0 ! REAL :: APELP,DFI,DCNEK,DCSEK,DPFNEK,DPFSEK,DPNEK,DPSEK & & ,EDIV,FIUP,PRSFRC,PVNEK,PVSEK,RTOPP,VM ! REAL,DIMENSION(ITS-5:ITE+5,JTS-5:JTE+5) :: ADPDNE,ADPDSE & & ,ADPDX,ADPDY,APEL & & ,CNE,CSE,DFDZ,DPDE & & ,DPFEW,DPFNS & & ,FILO,FIM,HM & & ,PCEW,PCNE,PCNS,PCSE & & ,PCXC,PEW,PNE,PNS & & ,PPNE,PPSE,PSE & & ,RDPD,RDPDX,RDPDY & & ,TEW,TNE,TNS,TSE & & ,UDY,VDX ! !----------------------------------------------------------------------- !*********************************************************************** ! ! ! CSE CSE ------- 1 ! * * ! * * ! ******* * ******* * ! * * * * * * ! CNE * * CNE * * ! TEW----------OMGALF----------TEW ------- 0 ! CSE * * CSE * * ! * * * * * * ! ******* * ******* * ! * * ! * * ! CNE CNE ------- -1 ! ! ! ! !*********************************************************************** ! ! CSE ------- 2 ! * ! * ! * ! * ! CNE*****TNS ------- 1 ! CSE | * ! | * ! | * ! | * ! | CNE ! OMGALF ------- 0 ! | CSE ! | * ! | * ! | * ! CNE | * ! CSE*****TNS ------- -1 ! * ! * ! * ! * ! CNE ------- -2 ! !*********************************************************************** !----------------------------------------------------------------------- !*** PREPARATORY CALCULATIONS !----------------------------------------------------------------------- ! call hpm_start('PFDHT') ! !$omp parallel do DO K=KMS,KME DO J=JMS,JME DO I=IMS,IME OMGALF(I,J,K)=0. DIV(I,J,K)=0. ENDDO ENDDO ENDDO ! !$omp parallel do DO J=JMS,JME DO I=IMS,IME PDSL(I,J)=0. ENDDO ENDDO ! !$omp parallel do DO J=JTS-5,JTE+5 DO I=ITS-5,ITE+5 ADPDNE(I,J)=0. ADPDSE(I,J)=0. ADPDX(I,J)=0. ADPDY(I,J)=0. APEL(I,J)=0. CNE (I,J)=0. CSE (I,J)=0. DFDZ(I,J)=0. DPDE(I,J)=0. DPFEW(I,J)=0. DPFNS(I,J)=0. FILO(I,J)=0. FIM (I,J)=0. HM (I,J)=0. PCEW(I,J)=0. PCNE(I,J)=0. PCNS(I,J)=0. PCSE(I,J)=0. PCXC(I,J)=0. PEW (I,J)=0. PNE (I,J)=0. PNS (I,J)=0. PPNE(I,J)=0. PPSE(I,J)=0. PSE (I,J)=0. RDPD(I,J)=0. RDPDX(I,J)=0. RDPDY(I,J)=0. TEW (I,J)=0. TNE (I,J)=0. TNS (I,J)=0. TSE (I,J)=0. UDY (I,J)=0. VDX (I,J)=0. ENDDO ENDDO ! IF(SIGMA==1)THEN !$omp parallel do DO J=MYJS_P4,MYJE_P4 DO I=MYIS_P4,MYIE_P4 FILO(I,J)=FIS(I,J) PDSL(I,J)=PD(I,J) ENDDO ENDDO ELSE !$omp parallel do DO J=MYJS_P4,MYJE_P4 DO I=MYIS_P4,MYIE_P4 FILO(I,J)=0.0 PDSL(I,J)=RES(I,J)*PD(I,J) ENDDO ENDDO ENDIF ! PRSFRC=PDTOP/(SLP_STD-PT) ! !----------------------------------------------------------------------- ! !*** MAIN VERTICAL INTEGRATION LOOP ! !----------------------------------------------------------------------- !$omp parallel do & !$omp& private(adpdne,adpdse,adpdx,adpdy, & !$omp& apel,cne,cse,dcnek,dcsek,dfdz,dpde,dpfew,dpfnek, & !$omp& dpfns,dpfsek,dpnek,ediv,few,fne,fns,fse,hm, & !$omp& pcew,pcne,pcns,pcse,pcxc,pew,pne,pns,ppne,ppse, & !$omp& pse,pvnek,pvsek,rdpd,rdpdx,rdpdy,tew,tne,tns,tse, & !$omp& udy,vdx,vm) !----------------------------------------------------------------------- ! main_integration : DO K=KTS,KTE ! !----------------------------------------------------------------------- ! !----------------------------------------------------------------------- !*** INTEGRATE THE GEOPOTENTIAL !----------------------------------------------------------------------- ! DO J=MYJS_P4,MYJE_P4 DO I=MYIS_P4,MYIE_P4 ! HM(I,J)=HBM2(I,J) ! APELP=(PINT(I,J,K+1)+PINT(I,J,K))*0.5 RTOPP=(Q(I,J,K)*P608-CWM(I,J,K)+1.)*T(I,J,K)*R_D/APELP DFI=RTOPP*(DETA1(K)*PDTOP+DETA2(K)*PDSL(I,J)) ! APEL(I,J)=APELP RTOP(I,J,K)=RTOPP DFDZ(I,J)=RTOPP ! FIUP=FILO(I,J)+DFI FIM(I,J)=FILO(I,J)+FIUP ! if(i==154.and.j==096)then ! write(0,10281)k,q(i,j,k),cwm(i,j,k),t(i,j,k),apelp,pdsl(i,j) 10281 format(' k=',i2,' q=',z8,' cwm=',z8,' t=',z8,' apelp=',z8,' pdsl=',z8) ! endif FILO(I,J)=FIUP ! ENDDO ENDDO ! !----------------------------------------------------------------------- ! DO J=MYJS_P4,MYJE_P4 DO I=MYIS_P4,MYIE_P4 DPDE(I,J)=DETA1(K)*PDTOP+DETA2(K)*PDSL(I,J) ENDDO ENDDO ! DO J=MYJS,MYJE DO I=MYIS,MYIE RDPD(I,J)=1./DPDE(I,J) ENDDO ENDDO ! DO J=MYJS1_P3,MYJE1_P3 DO I=MYIS_P3,MYIE_P3 ADPDX(I,J)=DPDE(I+IVW(J),J)+DPDE(I+IVE(J),J) ADPDY(I,J)=DPDE(I,J+1)+DPDE(I,J-1) RDPDX(I,J)=1./ADPDX(I,J) RDPDY(I,J)=1./ADPDY(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- !*** DIAGONAL CONTRIBUTIONS TO PRESSURE GRADIENT FORCE !----------------------------------------------------------------------- ! DO J=MYJS_P3,MYJE1_P3 DO I=MYIS_P3,MYIE_P3 ADPDNE(I,J)=DPDE(I+IHE(J),J+1)+DPDE(I,J) PNE(I,J)=(FIM (I+IHE(J),J+1)-FIM (I,J)) & & *(DWDT(I+IHE(J),J+1,K)+DWDT(I,J,K)) PPNE(I,J)=PNE(I,J)*ADPDNE(I,J) CNE(I,J)=(DFDZ(I+IHE(J),J+1)+DFDZ(I,J))*2. & & *(APEL(I+IHE(J),J+1)-APEL(I,J)) PCNE(I,J)=CNE(I,J)*ADPDNE(I,J) ENDDO ENDDO ! DO J=MYJS1_P3,MYJE_P3 DO I=MYIS_P3,MYIE_P3 ADPDSE(I,J)=DPDE(I+IHE(J),J-1)+DPDE(I,J) PSE(I,J)=(FIM (I+IHE(J),J-1)-FIM (I,J)) & & *(DWDT(I+IHE(J),J-1,K)+DWDT(I,J,K)) ! if(i==154.and.j==096.and.k==kte)then ! write(0,58391)PSE(I,J),FIM(I+IHE(J),J-1),FIM(I,J),DWDT(I+IHE(J),J-1,K),DWDT(I,J,K),ihe(j) 58391 format(' pse=',z8,' fim=',2(1x,z8),' dwdt=',2(1x,z8),' ihe=',i2) ! endif PPSE(I,J)=PSE(I,J)*ADPDSE(I,J) CSE(I,J)=(DFDZ(I+IHE(J),J-1)+DFDZ(I,J))*2. & & *(APEL(I+IHE(J),J-1)-APEL(I,J)) PCSE(I,J)=CSE(I,J)*ADPDSE(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- !*** CONTINUITY EQUATION MODIFICATION !----------------------------------------------------------------------- ! DO J=MYJS1_P1,MYJE1_P1 DO I=MYIS_P1,MYIE_P1 ! if(i==155.and.j==096.and.k==kte)then ! write(0,72451)PNE(I+IVW(J),J),PNE(I,J-1),PSE(I+IVW(J),J),PSE(I,J+1),ivw(j) ! write(0,72452)CNE(I+IVW(J),J),CNE(I,J-1),CSE(I+IVW(J),J),CSE(I,J+1) 72451 format(' pne=',2(1x,z8),' pse=',2(1x,z8),' ivw=',i2) 72452 format(' cne=',2(1x,z8),' cse=',2(1x,z8)) ! endif PCXC(I,J)=VBM3(I,J)* & & (PNE(I+IVW(J),J)+CNE(I+IVW(J),J) & & +PSE(I+IVW(J),J)+CSE(I+IVW(J),J) & & -PNE(I,J-1)-CNE(I,J-1) & & -PSE(I,J+1)-CSE(I,J+1)) ENDDO ENDDO ! !----------------------------------------------------------------------- ! DO J=MYJS2,MYJE2 DO I=MYIS1,MYIE1 ! if(i==155.and.j==095.and.k==kte)then ! write(0,76501)deta1(k),deta2(k),prsfrc,wpdar(i,j),ihe(j),ihw(j) ! write(0,76502)PCXC(I+IHE(J),J),PCXC(I,J+1),PCXC(I+IHW(J),J),PCXC(I,J-1) 76501 format(' deta1=',z8,' deta2=',z8,' prsfrc=',z8,' wpdar=',z8,' ihe=',i2,' ihw=',i2) 76502 format(' pcxc=',4(1x,z8)) ! endif DIV(I,J,K)=(DETA1(K)*PRSFRC & & +DETA2(K)*(1.-PRSFRC))*WPDAR(I,J) & & *(PCXC(I+IHE(J),J)-PCXC(I,J+1) & & +PCXC(I+IHW(J),J)-PCXC(I,J-1)) ENDDO ENDDO ! !----------------------------------------------------------------------- !*** LATITUDINAL AND LONGITUDINAL PRESSURE FORCE COMPONENTS !----------------------------------------------------------------------- ! DO J=MYJS1_P2,MYJE1_P2 DO I=MYIS_P2,MYIE_P3 DPNEK=PNE(I+IVW(J),J)+PNE(I,J-1) DPSEK=PSE(I+IVW(J),J)+PSE(I,J+1) PEW(I,J)=DPNEK+DPSEK PNS(I,J)=DPNEK-DPSEK DCNEK=CNE(I+IVW(J),J)+CNE(I,J-1) DCSEK=CSE(I+IVW(J),J)+CSE(I,J+1) PCEW(I,J)=(DCNEK+DCSEK)*ADPDX(I,J) PCNS(I,J)=(DCNEK-DCSEK)*ADPDY(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- ! IF(.NOT.FIRST)THEN ! Skip at timestep 0 ! !----------------------------------------------------------------------- !*** UPDATE U AND V FOR PRESSURE GRADIENT FORCE !----------------------------------------------------------------------- ! DO J=MYJS2_P2,MYJE2_P2 DO I=MYIS_P2,MYIE1_P2 DPFNEK=((PPNE(I+IVW(J),J)+PPNE(I,J-1)) & & +(PCNE(I+IVW(J),J)+PCNE(I,J-1))) DPFNEK=DPFNEK+DPFNEK DPFSEK=((PPSE(I+IVW(J),J)+PPSE(I,J+1)) & & +(PCSE(I+IVW(J),J)+PCSE(I,J+1))) DPFSEK=DPFSEK+DPFSEK DPFEW(I,J)=DPFNEK+DPFSEK DPFNS(I,J)=DPFNEK-DPFSEK ENDDO ENDDO ! !----------------------------------------------------------------------- ! DO J=MYJS2_P3,MYJE2_P3 DO I=MYIS_P2,MYIE1_P2 VM=VBM2(I,J) U(I,J,K)=(((DPFEW(I,J)+PCEW(I,J))*RDPDX(I,J) & & +PEW(I,J))*CPGFU(I,J))*VM+U(I,J,K) V(I,J,K)=(((DPFNS(I,J)+PCNS(I,J))*RDPDY(I,J) & & +PNS(I,J))*CPGFV)*VM+V(I,J,K) ENDDO ENDDO ! !----------------------------------------------------------------------- ! ENDIF !End of IF block executed for FIRST equal to .FALSE. ! !----------------------------------------------------------------------- !----------------------------------------------------------------------- ! IF(.NOT.LAST_TIME)THEN !Do not execute block at last timestep ! !----------------------------------------------------------------------- !*** LATITUDINAL AND LONGITUDINAL FLUXES AND OMEGA-ALPHA COMPONENTS !----------------------------------------------------------------------- ! DO J=MYJS1_P2,MYJE1_P2 DO I=MYIS_P2,MYIE_P3 UDY(I,J)=DY*U(I,J,K) FEW(I,J,K)=UDY(I,J)*ADPDX(I,J) TEW(I,J)=UDY(I,J)*PCEW(I,J) VDX(I,J)=DX(I,J)*V(I,J,K) ! if(i==178.and.j==003.and.k==53)then ! write(0,77601)udy(i,j),dy,u(i,j,k) 77601 format(' udy=',z8,' dy=',z8,' u=',z8) ! endif FNS(I,J,K)=VDX(I,J)*ADPDY(I,J) TNS(I,J)=VDX(I,J)*PCNS(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- !*** DIAGONAL FLUXES AND DIAGONALLY AVERAGED WIND !----------------------------------------------------------------------- ! DO J=MYJS1_P1,MYJE2_P1 DO I=MYIS_P1,MYIE1_P1 PVNEK=(UDY(I+IHE(J),J)+VDX(I+IHE(J),J)) & & +(UDY(I,J+1)+VDX(I,J+1)) FNE(I,J,K)=PVNEK*ADPDNE(I,J) ! if(i==178.and.j==003.and.k==53)then ! write(0,33781)fne(i,j,k),dpde(i+ihe(j),j+1),dpde(i,j),ihe(j) ! write(0,33782)udy(i+ihe(j),j),udy(i,j+1),vdx(i+ihe(j),j),vdx(i,j+1) 33781 format(' fne=',z8,' dpdne=',2(1x,z8),' ihe=',i2) 33782 format(' udy=',2(1x,z8),' vdx=',2(1x,z8)) ! endif TNE(I,J)=PVNEK*PCNE(I,J)*2. ENDDO ENDDO ! DO J=MYJS2_P1,MYJE1_P1 DO I=MYIS_P1,MYIE1_P1 PVSEK=(UDY(I+IHE(J),J)-VDX(I+IHE(J),J)) & & +(UDY(I,J-1)-VDX(I,J-1)) FSE(I,J,K)=PVSEK*ADPDSE(I,J) TSE(I,J)=PVSEK*PCSE(I,J)*2. ENDDO ENDDO ! !----------------------------------------------------------------------- !*** HORIZONTAL PART OF OMEGA-ALPHA & DIVERGENCE !----------------------------------------------------------------------- ! DO J=MYJS2,MYJE2 DO I=MYIS1,MYIE1 OMGALF(I,J,K)=(TEW(I+IHE(J),J)+TEW(I+IHW(J),J) & & +TNS(I,J+1) +TNS(I,J-1) & & +TNE(I,J) +TNE(I+IHW(J),J-1) & & +TSE(I,J) +TSE(I+IHW(J),J+1)) & & *RDPD(I,J)*FCP(I,J)*HM(I,J) ! ! if(i==178.and.j==003.and.k==53)then ! write(0,36311)div(i,j,k),fdiv(i,j),ihe(j),ihw(j) ! write(0,36312)FEW(I+IHE(J),J,K),FEW(I+IHW(J),J,K),FNS(I,J+1,K),FNS(I,J-1,K) ! write(0,36313)FNE(I,J,K),FNE(I+IHW(J),J-1,K),FSE(I,J,K),FSE(I+IHW(J),J+1,K) 36311 format(' PFDHT div=',z8,' fdiv=',z8,' ihe=',i2,' ihw=',i2) 36312 format(' few=',2(1x,z8),' fns=',2(1x,z8)) 36313 format(' fne=',2(1x,z8),' fse=',2(1x,z8)) ! endif EDIV=(FEW(I+IHE(J),J,K) +FNS(I,J+1,K) & +FNE(I,J,K) +FSE(I,J,K) & -(FEW(I+IHW(J),J,K) +FNS(I,J-1,K) & +FNE(I+IHW(J),J-1,K)+FSE(I+IHW(J),J+1,K)))*FDIV(I,J) ! DIV(I,J,K)=(EDIV+DIV(I,J,K))*HM(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- ! ENDIF !End block to skip execution at last timestep ! !----------------------------------------------------------------------- ! ENDDO main_integration ! !----------------------------------------------------------------------- ! call hpm_stop('PFDHT') !----------------------------------------------------------------------- ! END SUBROUTINE PFDHT ! !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- SUBROUTINE PDTE( & #ifdef DM_PARALLEL & GRID,MYPE,MPI_COMM_COMP, & #endif & NTSD,DT,PT,ETA2,RES,HYDRO,HBM2 & & ,PD,PDSL,PDSLO & & ,PETDT,DIV,PSDT & & ,IHE,IHW,IVE,IVW & & ,IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE) !*********************************************************************** !$$$ SUBPROGRAM DOCUMENTATION BLOCK ! . . . ! SUBPROGRAM: PDTE SURFACE PRESSURE TENDENCY CALC ! PRGRMMR: JANJIC ORG: W/NP2 DATE: 96-07-?? ! ! ABSTRACT: ! PDTE VERTICALLY INTEGRATES THE MASS FLUX DIVERGENCE TO ! OBTAIN THE SURFACE PRESSURE TENDENCY AND VERTICAL VELOCITY ON ! THE LAYER INTERFACES. THEN IT UPDATES THE HYDROSTATIC SURFACE ! PRESSURE AND THE NONHYDROSTATIC PRESSURE. ! ! PROGRAM HISTORY LOG: ! 87-06-?? JANJIC - ORIGINATOR ! 95-03-25 BLACK - CONVERSION FROM 1-D TO 2-D IN HORIZONTAL ! 96-05-?? JANJIC - ADDED NONHYDROSTATIC EFFECTS & MERGED THE ! PREVIOUS SUBROUTINES PDTE & PDNEW ! 00-01-03 BLACK - DISTRIBUTED MEMORY AND THREADS ! 01-02-23 BLACK - CONVERTED TO WRF FORMAT ! 01-04-11 BLACK - REWRITTEN FOR WRF CODING STANDARDS ! 04-02-17 JANJIC - MOVED UPDATE OF T DUE TO OMEGA-ALPHA TERM ! AND UPDATE OF PINT TO NEW ROUTINE VTOA ! 04-11-23 BLACK - THREADED ! 05-12-09 BLACK - CONVERTED FROM IKJ TO IJK ! ! USAGE: CALL PDTE FROM SUBROUTINE SOLVE_RUNSTREAM ! INPUT ARGUMENT LIST: ! ! OUTPUT ARGUMENT LIST: ! ! OUTPUT FILES: ! NONE ! ! SUBPROGRAMS CALLED: ! ! UNIQUE: NONE ! ! LIBRARY: NONE ! ! ATTRIBUTES: ! LANGUAGE: FORTRAN 90 ! MACHINE : IBM SP !$$$ !*********************************************************************** #ifdef DM_PARALLEL USE module_domain, ONLY: DOMAIN USE MODULE_DM, ONLY : LOCAL_COMMUNICATOR & ,MYTASK,NTASKS,NTASKS_X & ,NTASKS_Y & ,wrf_dm_sum_real & ,wrf_dm_sum_integer USE MODULE_COMM_DM, only: HALO_NMM_E_sub #endif !----------------------------------------------------------------------- IMPLICIT NONE !----------------------------------------------------------------------- #ifdef DM_PARALLEL TYPE (DOMAIN) :: GRID INTEGER,INTENT(IN) :: MYPE,MPI_COMM_COMP #endif !----------------------------------------------------------------------- LOGICAL,INTENT(IN) :: HYDRO ! INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE & ,IMS,IME,JMS,JME,KMS,KME & ,ITS,ITE,JTS,JTE,KTS,KTE ! INTEGER,DIMENSION(JMS:JME),INTENT(IN) :: IHE,IHW,IVE,IVW ! INTEGER,INTENT(IN) :: NTSD ! REAL,INTENT(IN) :: DT,PT ! REAL,DIMENSION(KMS:KME),INTENT(IN) :: ETA2 ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: RES,HBM2 ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: DIV ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(INOUT) :: PD,PDSL ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: PETDT ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(OUT) :: PDSLO,PSDT ! !----------------------------------------------------------------------- !*** LOCAL VARIABLES !----------------------------------------------------------------------- ! INTEGER :: I,IHH,IHL,IX,J,JHH,JHL,JX,K,KS,NSMUD INTEGER :: MY_IS_GLB,MY_IE_GLB,MY_JS_GLB,MY_JE_GLB INTEGER :: LOC_NPTS, GLB_NPTS #ifdef DM_PARALLEL INTEGER :: IPS,IPE,JPS,JPE,KPS,KPE,IRET #endif !#ifdef DEREF_KLUDGE !! SEE http://www.mmm.ucar.edu/wrf/WG2/topics/deref_kludge.htm ! INTEGER :: SM31,EM31,SM32,EM32,SM33,EM33 ! INTEGER :: SM31X,EM31X,SM32X,EM32X,SM33X,EM33X ! INTEGER :: SM31Y,EM31Y,SM32Y,EM32Y,SM33Y,EM33Y !#endif ! REAL :: PETDTL, TASK_CHANGE, GLOBAL_CHANGE, GLOBAL_CHANGE_WRF ! REAL,DIMENSION(ITS-5:ITE+5,JTS-5:JTE+5) :: HBMS,PNE,PRET,PSE ! !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- !#include "deref_kludge.h" ! DO J=JMS,JME DO I=IMS,IME PDSLO(I,J)=0. ENDDO ENDDO ! MY_IS_GLB=ITS MY_IE_GLB=ITE MY_JS_GLB=JTS MY_JE_GLB=JTE ! !----------------------------------------------------------------------- !*** VERTICALLY INTEGRATE THE HORIZONTAL DIVERGENCE !----------------------------------------------------------------------- ! LOC_NPTS=0 !$omp parallel do & !$omp& private(i,j,k) DO K=KTE-1,KTS,-1 DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 DIV(I,J,K)=DIV(I,J,K+1)+DIV(I,J,K) if (K .eq. KTS) then LOC_NPTS=LOC_NPTS+1 endif ENDDO ENDDO ENDDO #ifdef DM_PARALLEL GLB_NPTS=wrf_dm_sum_integer(LOC_NPTS) #else GLB_NPTS=LOC_NPTS #endif ! !----------------------------------------------------------------------- !*** COMPUTATION OF PRESSURE TENDENCY !----------------------------------------------------------------------- ! !$omp parallel do & !$omp& private(i,j) DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 PSDT(I,J)=-DIV(I,J,KTS) PDSLO(I,J)=PDSL(I,J) ENDDO ENDDO !----------------------------------------------------------------------- DO J=JMS,JME DO I=IMS,IME PDSL(I,J)=0. ENDDO ENDDO ! !$omp parallel do & !$omp& private(i,j) TASK_CHANGE=0. DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 PD(I,J)=PSDT(I,J)*DT+PD(I,J) PRET(I,J)=PSDT(I,J)*RES(I,J) PDSL(I,J)=PD(I,J)*RES(I,J) TASK_CHANGE=TASK_CHANGE+abs(PSDT(I,J)*108./DT) ! .01*10800/dt (hPa/3 h) ENDDO ENDDO #ifdef DM_PARALLEL GLOBAL_CHANGE_WRF=wrf_dm_sum_real(TASK_CHANGE)/GLB_NPTS #else GLOBAL_CHANGE_WRF=TASK_CHANGE/GLB_NPTS #endif grid%avgPchg=global_change_wrf ! NOTE: These below messages are moved to frame/module_integrate.F, ! and are merged with the timing information. #ifdef DM_PARALLEL ! if ( MYPE == 0 ) then ! write(wrf_err_message,*) 'avg global change (hPa/3h): ', GLOBAL_CHANGE_WRF ! call wrf_debug(1,wrf_err_message) ! endif #else ! write(wrf_err_message,*) 'avg global change (hPa/3h): ', GLOBAL_CHANGE_WRF ! call wrf_debug(1,wrf_err_message) #endif ! !----------------------------------------------------------------------- !*** COMPUTATION OF PETDT !----------------------------------------------------------------------- ! !$omp parallel do & !$omp& private(i,j,k) DO K=KTE-1,KTS,-1 DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 PETDT(I,J,K)=-(PRET(I,J)*ETA2(K+1)+DIV(I,J,K+1)) & & *HBM2(I,J) ENDDO ENDDO ENDDO ! !----------------------------------------------------------------------- !*** SMOOTHING VERTICAL VELOCITY ALONG BOUNDARIES !----------------------------------------------------------------------- ! nonhydrostatic_smoothing: IF(.NOT.HYDRO.AND.KSMUD.GT.0)THEN ! NSMUD=KSMUD ! DO J=MYJS,MYJE DO I=MYIS,MYIE HBMS(I,J)=HBM2(I,J) ENDDO ENDDO ! JHL=LNSDT JHH=JDE-JHL+1 ! !$omp parallel do & !$omp& private(i,ihh,ihl,ix,j,jx) DO J=JHL,JHH IF(J.GE.MY_JS_GLB.AND.J.LE.MY_JE_GLB)THEN IHL=JHL/2+1 IHH=IDE-IHL+MOD(J,2) ! DO I=IHL,IHH IF(I.GE.MY_IS_GLB.AND.I.LE.MY_IE_GLB)THEN IX=I ! -MY_IS_GLB+1 JX=J ! -MY_JS_GLB+1 HBMS(IX,JX)=0. ENDIF ENDDO ! ENDIF ENDDO ! !----------------------------------------------------------------------- !*** !*** SMOOTH THE VERTICAL VELOCITY !*** !----------------------------------------------------------------------- ! DO KS=1,NSMUD ! !----------------------------------------------------------------------- ! !*** PNE AT H(I,J) LIES BETWEEN (I,J) AND THE H POINT TO THE NE. !*** PSE AT H(I,J) LIES BETWEEN (I,J) AND THE H POINT TO THE SE. ! !$omp parallel do & !$omp& private(i,j,k,petdtl,pne,pse) ! DO K=KTS+1,KTE ! DO J=MYJS_P1,MYJE1_P1 DO I=MYIS_P1,MYIE1_P1 PNE(I,J)=PETDT(I+IHE(J),J+1,K)-PETDT(I,J,K) ENDDO ENDDO ! DO J=MYJS1_P1,MYJE_P1 DO I=MYIS_P1,MYIE1_P1 PSE(I,J)=PETDT(I+IHE(J),J-1,K)-PETDT(I,J,K) ENDDO ENDDO ! DO J=MYJS2,MYJE2 DO I=MYIS1,MYIE1 PETDTL=(PNE(I,J)-PNE(I+IHW(J),J-1) & & +PSE(I,J)-PSE(I+IHW(J),J+1))*HBM2(I,J) PETDT(I,J,K)=PETDTL*HBMS(I,J)*0.125+PETDT(I,J,K) ENDDO ENDDO ! ENDDO ! #ifdef DM_PARALLEL ! IPS=ITS;IPE=ITE;JPS=JTS;JPE=JTE;KPS=KTS;KPE=KTE # include "HALO_NMM_E.inc" #endif !----------------------------------------------------------------------- ! ENDDO ! End of smoothing loop ! !----------------------------------------------------------------------- ! ENDIF nonhydrostatic_smoothing ! !----------------------------------------------------------------------- ! END SUBROUTINE PDTE ! !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- SUBROUTINE VTOA( & & NTSD,DT,PT,ETA2 & & ,HBM2,EF4T & & ,T,DWDT,RTOP,OMGALF & & ,PINT,DIV,PSDT,RES & & ,IHE,IHW,IVE,IVW & & ,IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE) !*********************************************************************** !$$$ SUBPROGRAM DOCUMENTATION BLOCK ! . . . ! SUBPROGRAM: VTOA OMEGA-ALPHA ! PRGRMMR: JANJIC ORG: W/NP2 DATE: 04-02-17 ! ! ABSTRACT: ! VTOA UPDATES THE NONHYDROSTATIC PRESSURE AND ADDS THE ! CONTRIBUTION OF THE OMEGA-ALPHA TERM OF THE THERMODYNAMIC ! EQUATION. ALSO, THE OMEGA-ALPHA TERM IS COMPUTED FOR DIAGNOSTICS. ! ! PROGRAM HISTORY LOG: ! 04-02-17 JANJIC - SEPARATED FROM ORIGINAL PDTEDT ROUTINE ! 04-11-23 BLACK - THREADED ! ! INPUT ARGUMENT LIST: ! ! OUTPUT ARGUMENT LIST: ! ! OUTPUT FILES: ! NONE ! ! SUBPROGRAMS CALLED: ! ! UNIQUE: NONE ! ! LIBRARY: NONE ! ! ATTRIBUTES: ! LANGUAGE: FORTRAN 90 ! MACHINE : IBM SP !$$$ !*********************************************************************** !----------------------------------------------------------------------- IMPLICIT NONE INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE & ,IMS,IME,JMS,JME,KMS,KME & ,ITS,ITE,JTS,JTE,KTS,KTE ! INTEGER,DIMENSION(JMS:JME),INTENT(IN) :: IHE,IHW,IVE,IVW ! INTEGER,INTENT(IN) :: NTSD ! REAL,INTENT(IN) :: DT,EF4T,PT ! REAL,DIMENSION(KMS:KME),INTENT(IN) :: ETA2 ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: HBM2,PSDT,RES ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(IN) :: DIV,DWDT & & ,RTOP ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: OMGALF,T ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: PINT ! !----------------------------------------------------------------------- !*** LOCAL VARIABLES !----------------------------------------------------------------------- ! INTEGER :: I,J,K ! REAL,DIMENSION(ITS-5:ITE+5,JTS-5:JTE+5) :: PRET,TPM ! REAL :: DWDTP,RHS,TPMP ! !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- !*** PREPARATIONS !----------------------------------------------------------------------- ! !$omp parallel do & !$omp& private(i,j) DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 PINT(I,J,KTE+1)=PT TPM(I,J)=PT+PINT(I,J,KTE) PRET(I,J)=PSDT(I,J)*RES(I,J) ENDDO ENDDO ! !----------------------------------------------------------------------- !*** KINETIC ENERGY GENERATION TERMS IN T EQUATION !----------------------------------------------------------------------- ! !$omp parallel do & !$omp& private(dwdtp,i,j,rhs,tpmp) DO J=MYJS,MYJE DO I=MYIS,MYIE DWDTP=DWDT(I,J,KTE) TPMP=PINT(I,J,KTE)+PINT(I,J,KTE-1) ! RHS=-DIV(I,J,KTE)*RTOP(I,J,KTE)*DWDTP*EF4T OMGALF(I,J,KTE)=OMGALF(I,J,KTE)+RHS T(I,J,KTE)=OMGALF(I,J,KTE)*HBM2(I,J)+T(I,J,KTE) PINT(I,J,KTE)=PRET(I,J)*(ETA2(KTE+1)+ETA2(KTE))*DWDTP*DT & & +TPM(I,J)-PINT(I,J,KTE+1) ! TPM(I,J)=TPMP ENDDO ENDDO !----------------------------------------------------------------------- !$omp parallel do & !$omp& private(dwdtp,i,j,k,rhs,tpmp) DO K=KTE-1,KTS+1,-1 DO J=MYJS,MYJE DO I=MYIS,MYIE DWDTP=DWDT(I,J,K) TPMP=PINT(I,J,K)+PINT(I,J,K-1) ! RHS=-(DIV(I,J,K+1)+DIV(I,J,K))*RTOP(I,J,K)*DWDTP*EF4T OMGALF(I,J,K)=OMGALF(I,J,K)+RHS T(I,J,K)=OMGALF(I,J,K)*HBM2(I,J)+T(I,J,K) PINT(I,J,K)=PRET(I,J)*(ETA2(K+1)+ETA2(K))*DWDTP*DT & & +TPM(I,J)-PINT(I,J,K+1) ! TPM(I,J)=TPMP ENDDO ENDDO ENDDO !----------------------------------------------------------------------- !$omp parallel do & !$omp& private(dwdtp,i,j,rhs) DO J=MYJS,MYJE DO I=MYIS,MYIE ! DWDTP=DWDT(I,J,KTS) ! ! if(i==77.and.j==53)then ! write(0,28361)t(i,j,kts),omgalf(i,j,kts),rtop(i,j,kts),dwdtp ! write(0,28362)div(i,j,kts),div(i,j,kts+1),ef4t 28361 format(' t=',z8,' omgalf=',z8,' rtop=',z8,' dwdtp=',z8) 28362 format(' div=',2(1x,z8),' ef4t=',z8) ! endif RHS=-(DIV(I,J,KTS+1)+DIV(I,J,KTS))*RTOP(I,J,KTS)*DWDTP*EF4T OMGALF(I,J,KTS)=OMGALF(I,J,KTS)+RHS T(I,J,KTS)=OMGALF(I,J,KTS)*HBM2(I,J)+T(I,J,KTS) PINT(I,J,KTS)=PRET(I,J)*(ETA2(KTS+1)+ETA2(KTS))*DWDTP*DT & & +TPM(I,J)-PINT(I,J,KTS+1) ENDDO ENDDO !----------------------------------------------------------------------- ! END SUBROUTINE VTOA ! !----------------------------------------------------------------------- !*********************************************************************** SUBROUTINE DDAMP(NTSD,DT,DETA1,DETA2,PDSL,PDTOP,DIV,HBM2 & & ,T,U,V,DDMPU,DDMPV & & ,IHE,IHW,IVE,IVW & & ,IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE) !*********************************************************************** !$$$ SUBPROGRAM DOCUMENTATION BLOCK ! . . . ! SUBPROGRAM: DDAMP DIVERGENCE DAMPING ! PRGRMMR: JANJIC ORG: W/NP22 DATE: 94-03-08 ! ! ABSTRACT: ! DDAMP MODIFIES THE WIND COMPONENTS SO AS TO REDUCE THE ! HORIZONTAL DIVERGENCE. ! ! PROGRAM HISTORY LOG: ! 87-08-?? JANJIC - ORIGINATOR ! 95-03-25 BLACK - CONVERSION FROM 1-D TO 2-D IN HORIZONTAL ! 95-03-28 BLACK - ADDED EXTERNAL EDGE ! 98-10-30 BLACK - MODIFIED FOR DISTRIBUTED MEMORY ! 01-03-12 BLACK - CONVERTED TO WRF STRUCTURE ! 04-11-18 BLACK - THREADED ! 05-12-09 BLACK - CONVERTED FROM IKJ TO IJK ! ! USAGE: CALL DDAMP FROM SUBROUTINE SOLVE_RUNSTREAM ! ! INPUT ARGUMENT LIST: ! ! OUTPUT ARGUMENT LIST: ! ! OUTPUT FILES: ! NONE ! ! SUBPROGRAMS CALLED: ! ! UNIQUE: NONE ! ! LIBRARY: NONE ! ! ATTRIBUTES: ! LANGUAGE: FORTRAN 90 ! MACHINE : IBM SP !$$$ !*********************************************************************** !----------------------------------------------------------------------- IMPLICIT NONE !----------------------------------------------------------------------- ! INTEGER,INTENT(IN) :: IDS,IDE,JDS,JDE,KDS,KDE & & ,IMS,IME,JMS,JME,KMS,KME & & ,ITS,ITE,JTS,JTE,KTS,KTE ! INTEGER,DIMENSION(JMS:JME),INTENT(IN) :: IHE,IHW,IVE,IVW ! INTEGER,INTENT(IN) :: NTSD ! REAL,INTENT(IN) :: DT,PDTOP ! REAL,DIMENSION(KMS:KME-1),INTENT(IN) :: DETA1,DETA2 ! REAL,DIMENSION(IMS:IME,JMS:JME),INTENT(IN) :: DDMPU,DDMPV & & ,HBM2,PDSL ! REAL,DIMENSION(IMS:IME,JMS:JME,KMS:KME),INTENT(INOUT) :: DIV,T & & ,U,V ! !----------------------------------------------------------------------- !*** LOCAL VARIABLES !----------------------------------------------------------------------- ! INTEGER :: I,J,K ! REAL :: FCIM,FCXM,RDPDX,RDPDY ! REAL,DIMENSION(ITS-5:ITE+5,JTS-5:JTE+5) :: DIVE,DPDE,PDE & & ,XDIVX,XDIVY ! !----------------------------------------------------------------------- !*********************************************************************** !----------------------------------------------------------------------- ! !$omp parallel do & !$omp& private(i,j) DO J=JTS-5,JTE+5 DO I=ITS-5,ITE+5 PDE(I,J)=0. DPDE(I,J)=0. XDIVX(I,J)=0. XDIVY(I,J)=0. ENDDO ENDDO ! !----------------------------------------------------------------------- ! FCXM=1. ! !$omp parallel do !$omp& private(i,j) DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 PDE (I,J)=PDSL(I,J)+PDTOP DIVE(I,J)=0. ENDDO ENDDO ! DO K=KTS,KTE !$omp parallel do & !$omp& private(i,j) DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P2,MYIE_P2 DIVE(I,J)=DIV(I,J,K)*HBM2(I,J)+DIVE(I,J) ENDDO ENDDO ENDDO ! !$omp parallel do & !$omp& private(i,j,rdpdx,rdpdy,fcxm) DO J=MYJS2,MYJE2 DO I=MYIS1_P1,MYIE1_P1 RDPDX=DDMPU(I,J)*FCXM & & /(PDE(I+IVW(J),J) +PDE(I+IVE(J),J)) RDPDY=DDMPV(I,J)*FCXM & & /(PDE(I ,J-1)+PDE(I ,J+1)) ! XDIVX(I,J)=(DIVE(I+IVE(J),J )-DIVE(I+IVW(J),J ))*RDPDX XDIVY(I,J)=(DIVE(I ,J+1)-DIVE(I ,J-1))*RDPDY ENDDO ENDDO ! !----------------------------------------------------------------------- ! FCIM=1. ! !$omp parallel do & !$omp& private(dpde,i,j,k,rdpdx,rdpdy,fcim) ! fcim_loop: DO K=KTS,KTE ! !----------------------------------------------------------------------- ! DO J=MYJS_P2,MYJE_P2 DO I=MYIS_P1,MYIE_P1 DPDE(I,J)=DETA1(K)*PDTOP+DETA2(K)*PDSL(I,J) DIV(I,J,K)=DIV(I,J,K)*HBM2(I,J) ENDDO ENDDO ! DO J=MYJS2,MYJE2 DO I=MYIS1_P1,MYIE1_P1 RDPDX=DDMPU(I,J)*FCIM & & /(DPDE(I+IVW(J),J) +DPDE(I+IVE(J),J)) RDPDY=DDMPV(I,J)*FCIM & & /(DPDE(I ,J-1)+DPDE(I ,J+1)) U(I,J,K)=((DIV(I+IVE(J),J,K )-DIV(I+IVW(J),J,K ))*RDPDX & & +XDIVX(I,J))+U(I,J,K) V(I,J,K)=((DIV(I ,J+1,K)-DIV(I ,J-1,K))*RDPDY & & +XDIVY(I,J))+V(I,J,K) ENDDO ENDDO ! !----------------------------------------------------------------------- ! ENDDO fcim_loop ! !----------------------------------------------------------------------- ! END SUBROUTINE DDAMP ! !----------------------------------------------------------------------- ! END MODULE MODULE_IGWAVE_ADJUST ! !-----------------------------------------------------------------------