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CALL ICE4_SEDIMENTATION_SPLIT(IIB, IIE, KIT, IJB, IJE, KJT, IKB, IKE, IKTB, IKTE, KKT, KKL, &
&PTSTEP, KRR, OSEDIC, LDEPOSC, XVDEPOSC, PDZZ, &
&PRHODREF, PPABST, PTHT, PRHODJ, &
&PRCS, PRCT, PRRS, PRRT, PRIS, PRIT, PRSS, PRST, PRGS, PRGT,&
&PINPRC, PINDEP, PINPRR, ZINPRI, PINPRS, PINPRG, &
&PSEA=PSEA, PTOWN=PTOWN, &
&PFPR=PFPR)
ENDIF
!$acc kernels
PINPRS(:,:) = PINPRS(:,:) + ZINPRI(:,:)
!$acc end kernels
!We correct negativities with conservation
!SPLI algorith uses a time-splitting. Inside the loop a temporary m.r. is used.
! It is initialized with the m.r. at T and is modified by two tendencies:
! sedimentation tendency and an external tendency which represents all other
! processes (mainly advection and microphysical processes). If both tendencies
! are negative, sedimentation can remove a specie at a given sub-timestep. From
! this point sedimentation stops for the remaining sub-timesteps but the other tendency
! will be still active and will lead to negative values.
! We could prevent the algorithm to not consume too much a specie, instead we apply
! a correction here.
CALL CORRECT_NEGATIVITIES(KIT, KJT, KKT, KRR, PRVS, PRCS, PRRS, &
&PRIS, PRSS, PRGS, &
&PTHS, ZZ_LVFACT, ZZ_LSFACT, PRHS)
ELSEIF(HSEDIM=='NONE') THEN
ELSE
call Print_msg( NVERB_FATAL, 'GEN', 'RAIN_ICE_RED', 'no sedimentation scheme for HSEDIM='//HSEDIM )
END IF
!
!* 2.2 budget storage
!
ESCOBAR Juan
committed
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if ( lbudget_rc .and. osedic ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prcs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RC), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_rr ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prrs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RR), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_ri ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = pris(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RI), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_rs ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prss(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RS), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_rg ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prgs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RG), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_rh ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prhs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RH), 'SEDI', ZTEMP_BUD(:,:,:) )
end if
!If osedic=T and ldeposc=T, DEPO is in fact mixed and stored with the SEDI source term
!(a warning is printed in ini_budget in that case)
ESCOBAR Juan
committed
if ( lbudget_rc .and. ldeposc .and. .not.osedic) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prcs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RC), 'DEPO', ZTEMP_BUD(:,:,:) )
end if
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ENDIF
!
!-------------------------------------------------------------------------------
!
!* 3. PACKING
! --------
! optimization by looking for locations where
! the microphysical fields are larger than a minimal value only !!!
!
#ifndef MNH_OPENACC
IMICRO=COUNTJV(ODMICRO(:,:,:), I1(:), I2(:), I3(:))
#else
CALL COUNTJV_DEVICE(ODMICRO(:,:,:),I1(:),I2(:),I3(:),IMICRO)
#endif
!Packing
GTEST=.false.
IF(HSUBG_AUCV_RC=='PDF ' .AND. CSUBG_PR_PDF=='SIGM') GTEST=.true.
!$acc kernels
IF(IMICRO>0) THEN
DO JL=1, IMICRO
ZRVT(JL) = PRVT(I1(JL),I2(JL),I3(JL))
ZRCT(JL) = PRCT(I1(JL),I2(JL),I3(JL))
ZRRT(JL) = PRRT(I1(JL),I2(JL),I3(JL))
ZRIT(JL) = PRIT(I1(JL),I2(JL),I3(JL))
ZRST(JL) = PRST(I1(JL),I2(JL),I3(JL))
ZRGT(JL) = PRGT(I1(JL),I2(JL),I3(JL))
ZCIT(JL) = PCIT(I1(JL),I2(JL),I3(JL))
ZCF(JL) = PCLDFR(I1(JL),I2(JL),I3(JL))
ZRHODREF(JL) = PRHODREF(I1(JL),I2(JL),I3(JL))
ZTHT(JL) = PTHT(I1(JL),I2(JL),I3(JL))
ZPRES(JL) = PPABST(I1(JL),I2(JL),I3(JL))
ZEXN(JL) = PEXN(I1(JL),I2(JL),I3(JL))
ZHLC_HCF(JL) = PHLC_HCF(I1(JL),I2(JL),I3(JL))
ZHLC_HRC(JL) = PHLC_HRC(I1(JL),I2(JL),I3(JL))
ZHLC_LRC(JL) = ZRCT(JL) - ZHLC_HRC(JL)
ZHLI_HCF(JL) = PHLI_HCF(I1(JL),I2(JL),I3(JL))
ZHLI_HRI(JL) = PHLI_HRI(I1(JL),I2(JL),I3(JL))
ZHLI_LRI(JL) = ZRIT(JL) - ZHLI_HRI(JL)
IF(ZRCT(JL)>0.) THEN
ZHLC_LCF(JL) = ZCF(JL)- ZHLC_HCF(JL)
ELSE
ZHLC_LCF(JL)=0.
ENDIF
IF(ZRIT(JL)>0.) THEN
ZHLI_LCF(JL) = ZCF(JL)- ZHLI_HCF(JL)
ELSE
ZHLI_LCF(JL)=0.
ENDIF
ENDDO
IF(GEXT_TEND) THEN
DO JL=1, IMICRO
ZEXT_RV(JL) = PRVS(I1(JL),I2(JL),I3(JL)) - ZRVT(JL)*ZINV_TSTEP
ZEXT_RC(JL) = PRCS(I1(JL),I2(JL),I3(JL)) - ZRCT(JL)*ZINV_TSTEP
ZEXT_RR(JL) = PRRS(I1(JL),I2(JL),I3(JL)) - ZRRT(JL)*ZINV_TSTEP
ZEXT_RI(JL) = PRIS(I1(JL),I2(JL),I3(JL)) - ZRIT(JL)*ZINV_TSTEP
ZEXT_RS(JL) = PRSS(I1(JL),I2(JL),I3(JL)) - ZRST(JL)*ZINV_TSTEP
ZEXT_RG(JL) = PRGS(I1(JL),I2(JL),I3(JL)) - ZRGT(JL)*ZINV_TSTEP
ZEXT_TH(JL) = PTHS(I1(JL),I2(JL),I3(JL)) - ZTHT(JL)*ZINV_TSTEP
!The th tendency is not related to a mixing ratio change, there is no exn/exnref issue here
ENDDO
ENDIF
!IF(HSUBG_AUCV_RC=='PDF ' .AND. CSUBG_PR_PDF=='SIGM') THEN
IF (GTEST) THEN
DO JL=1, IMICRO
ZSIGMA_RC(JL) = PSIGS(I1(JL),I2(JL),I3(JL))*2.
ENDDO
ELSE !useful when doing calls to MPPDB_CHECK
ZSIGMA_RC(:) = XUNDEF
ENDIF
IF(KRR==7) THEN
DO JL=1, IMICRO
ZRHT(JL) = PRHT(I1(JL),I2(JL),I3(JL))
ENDDO
IF(GEXT_TEND) THEN
DO JL=1, IMICRO
ZEXT_RH(JL) = PRHS(I1(JL),I2(JL),I3(JL)) - ZRHT(JL)*ZINV_TSTEP
ENDDO
ENDIF
ELSE
ZRHT(:)=0.
IF(GEXT_TEND) ZEXT_RH(:)=0.
ENDIF
IF(LBU_ENABLE) THEN
ZTOT_RVHENI(:)=0.
ZTOT_RCHONI(:)=0.
ZTOT_RRHONG(:)=0.
ZTOT_RVDEPS(:)=0.
ZTOT_RIAGGS(:)=0.
ZTOT_RIAUTS(:)=0.
ZTOT_RVDEPG(:)=0.
ZTOT_RCAUTR(:)=0.
ZTOT_RCACCR(:)=0.
ZTOT_RREVAV(:)=0.
ZTOT_RCRIMSS(:)=0.
ZTOT_RCRIMSG(:)=0.
ZTOT_RSRIMCG(:)=0.
ZTOT_RIMLTC(:)=0.
ZTOT_RCBERI(:)=0.
ZTOT_RHMLTR(:)=0.
ZTOT_RSMLTG(:)=0.
ZTOT_RCMLTSR(:)=0.
ZTOT_RRACCSS(:)=0.
ZTOT_RRACCSG(:)=0.
ZTOT_RSACCRG(:)=0.
ZTOT_RICFRRG(:)=0.
ZTOT_RRCFRIG(:)=0.
ZTOT_RICFRR(:)=0.
ZTOT_RCWETG(:)=0.
ZTOT_RIWETG(:)=0.
ZTOT_RRWETG(:)=0.
ZTOT_RSWETG(:)=0.
ZTOT_RCDRYG(:)=0.
ZTOT_RIDRYG(:)=0.
ZTOT_RRDRYG(:)=0.
ZTOT_RSDRYG(:)=0.
ZTOT_RWETGH(:)=0.
ZTOT_RGMLTR(:)=0.
ZTOT_RCWETH(:)=0.
ZTOT_RIWETH(:)=0.
ZTOT_RSWETH(:)=0.
ZTOT_RGWETH(:)=0.
ZTOT_RRWETH(:)=0.
ZTOT_RCDRYH(:)=0.
ZTOT_RIDRYH(:)=0.
ZTOT_RSDRYH(:)=0.
ZTOT_RRDRYH(:)=0.
ZTOT_RGDRYH(:)=0.
ZTOT_RDRYHG(:)=0.
ENDIF
ENDIF
!$acc end kernels
!-------------------------------------------------------------------------------
!
!* 4. LOOP
! ----
!
!Maximum number of iterations
!We only count real iterations (those for which we *compute* tendencies)
!acc kernels
INB_ITER_MAX=NMAXITER
IF(XTSTEP_TS/=0.)THEN
INB_ITER_MAX=MAX(1, INT(PTSTEP/XTSTEP_TS)) !At least the number of iterations needed for the time-splitting
ZTSTEP=PTSTEP/INB_ITER_MAX
INB_ITER_MAX=MAX(NMAXITER, INB_ITER_MAX) !For the case XMRSTEP/=0. at the same time
ENDIF
!acc end kernels
!$acc kernels
IITER(:)=0
ZTIME(:)=0. ! Current integration time (all points may have a different integration time)
!$acc end kernels
!$acc update self(ZTIME)
DO WHILE(ANY(ZTIME(:)<PTSTEP)) ! Loop to *really* compute tendencies
IF(XMRSTEP/=0.) THEN
!$acc kernels
! In this case we need to remember the mixing ratios used to compute the tendencies
! because when mixing ratio has evolved more than a threshold, we must re-compute tendecies
Z0RVT(:)=ZRVT(:)
Z0RCT(:)=ZRCT(:)
Z0RRT(:)=ZRRT(:)
Z0RIT(:)=ZRIT(:)
Z0RST(:)=ZRST(:)
Z0RGT(:)=ZRGT(:)
Z0RHT(:)=ZRHT(:)
!$acc end kernels
ENDIF
IF(XTSTEP_TS/=0.) THEN
!$acc kernels
! In this case we need to remember the time when tendencies were computed
! because when time has evolved more than a limit, we must re-compute tendecies
ZTIME_LASTCALL(:)=ZTIME(:)
!$acc end kernels
ENDIF
!$acc kernels
ZCOMPUTE(:)=MAX(0., -SIGN(1., ZTIME(:)-PTSTEP)) ! Compuation (1.) only for points for which integration time has not reached the timestep
GSOFT=.FALSE. ! We *really* compute the tendencies
IITER(:)=IITER(:)+INT(ZCOMPUTE(:))
!$acc end kernels
!$acc update self(ZCOMPUTE)
DO WHILE(SUM(ZCOMPUTE(:))>0.) ! Loop to adjust tendencies when we cross the 0°C or when a specie disappears
!$acc kernels
IF(KRR==7) THEN
DO JL=1, IMICRO
ZZT(JL) = ZTHT(JL) * ZEXN(JL)
ZLSFACT(JL)=(XLSTT+(XCPV-XCI)*(ZZT(JL)-XTT)) &
&/( (XCPD + XCPV*ZRVT(JL) + XCL*(ZRCT(JL)+ZRRT(JL)) &
&+ XCI*(ZRIT(JL)+ZRST(JL)+ZRGT(JL)+ZRHT(JL)))*ZEXN(JL) )
ZLVFACT(JL)=(XLVTT+(XCPV-XCL)*(ZZT(JL)-XTT)) &
&/( (XCPD + XCPV*ZRVT(JL) + XCL*(ZRCT(JL)+ZRRT(JL)) &
&+ XCI*(ZRIT(JL)+ZRST(JL)+ZRGT(JL)+ZRHT(JL)))*ZEXN(JL) )
ENDDO
ELSE
DO JL=1, IMICRO
ZZT(JL) = ZTHT(JL) * ZEXN(JL)
ZLSFACT(JL)=(XLSTT+(XCPV-XCI)*(ZZT(JL)-XTT)) &
&/( (XCPD + XCPV*ZRVT(JL) + XCL*(ZRCT(JL)+ZRRT(JL)) &
&+ XCI*(ZRIT(JL)+ZRST(JL)+ZRGT(JL)))*ZEXN(JL) )
ZLVFACT(JL)=(XLVTT+(XCPV-XCL)*(ZZT(JL)-XTT)) &
&/( (XCPD + XCPV*ZRVT(JL) + XCL*(ZRCT(JL)+ZRRT(JL)) &
&+ XCI*(ZRIT(JL)+ZRST(JL)+ZRGT(JL)))*ZEXN(JL) )
ENDDO
ENDIF
!$acc end kernels
!
!*** 4.1 Tendecies computation
!
! Tendencies are *really* computed when GSOFT==.FALSE. and only adjusted otherwise
CALL ICE4_TENDENCIES(IIB, IIE, KIT, IJB, IJE, KJT, IKB, IKE, KKT, KKL, &
&KRR, GSOFT, ZCOMPUTE, &
&OWARM, CSUBG_RC_RR_ACCR, CSUBG_RR_EVAP, &
&HSUBG_AUCV_RC, HSUBG_AUCV_RI, CSUBG_PR_PDF, &
&ZEXN, ZRHODREF, ZLVFACT, ZLSFACT, I1, I2, I3, &
&ZPRES, ZCF, ZSIGMA_RC,&
&ZCIT, &
&ZZT, ZTHT, &
&ZRVT, ZRCT, ZRRT, ZRIT, ZRST, ZRGT, ZRHT, &
&ZRVHENI_MR, ZRRHONG_MR, ZRIMLTC_MR, ZRSRIMCG_MR, &
&ZRCHONI, ZRVDEPS, ZRIAGGS, ZRIAUTS, ZRVDEPG, &
&ZRCAUTR, ZRCACCR, ZRREVAV, &
&ZRCRIMSS, ZRCRIMSG, ZRSRIMCG, ZRRACCSS, ZRRACCSG, ZRSACCRG, ZRSMLTG, ZRCMLTSR, &
&ZRICFRRG, ZRRCFRIG, ZRICFRR, ZRCWETG, ZRIWETG, ZRRWETG, ZRSWETG, &
&ZRCDRYG, ZRIDRYG, ZRRDRYG, ZRSDRYG, ZRWETGH, ZRWETGH_MR, ZRGMLTR, &
&ZRCWETH, ZRIWETH, ZRSWETH, ZRGWETH, ZRRWETH, &
&ZRCDRYH, ZRIDRYH, ZRSDRYH, ZRRDRYH, ZRGDRYH, ZRDRYHG, ZRHMLTR, &
&ZRCBERI, &
&ZRS_TEND, ZRG_TEND, ZRH_TEND, ZSSI, &
&ZA_TH, ZA_RV, ZA_RC, ZA_RR, ZA_RI, ZA_RS, ZA_RG, ZA_RH, &
&ZB_TH, ZB_RV, ZB_RC, ZB_RR, ZB_RI, ZB_RS, ZB_RG, ZB_RH, &
&ZHLC_HCF, ZHLC_LCF, ZHLC_HRC, ZHLC_LRC, &
&ZHLI_HCF, ZHLI_LCF, ZHLI_HRI, ZHLI_LRI, PRAINFR)
! External tendencies
!$acc kernels
IF(GEXT_TEND) THEN
DO JL=1, IMICRO
ZA_TH(JL) = ZA_TH(JL) + ZEXT_TH(JL)
ZA_RV(JL) = ZA_RV(JL) + ZEXT_RV(JL)
ZA_RC(JL) = ZA_RC(JL) + ZEXT_RC(JL)
ZA_RR(JL) = ZA_RR(JL) + ZEXT_RR(JL)
ZA_RI(JL) = ZA_RI(JL) + ZEXT_RI(JL)
ZA_RS(JL) = ZA_RS(JL) + ZEXT_RS(JL)
ZA_RG(JL) = ZA_RG(JL) + ZEXT_RG(JL)
ZA_RH(JL) = ZA_RH(JL) + ZEXT_RH(JL)
ENDDO
ENDIF
!
!*** 4.2 Integration time
!
! If we can, we will use these tendencies until the end of the timestep
ZMAXTIME(:)=ZCOMPUTE(:) * (PTSTEP-ZTIME(:)) ! Remaining time until the end of the timestep
!We need to adjust tendencies when temperature reaches 0
IF(LFEEDBACKT) THEN
DO JL=1, IMICRO
!Is ZB_TH enough to change temperature sign?
ZW1D(JL)=(ZTHT(JL) - XTT/ZEXN(JL)) * (ZTHT(JL) + ZB_TH(JL) - XTT/ZEXN(JL))
ZMAXTIME(JL)=ZMAXTIME(JL)*MAX(0., SIGN(1., ZW1D(JL)))
!Can ZA_TH make temperature change of sign?
ZW1D(JL)=MAX(0., -SIGN(1., 1.E-20 - ABS(ZA_TH(JL)))) ! WHERE(ABS(ZA_TH(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1. - ZW1D(JL))*(-1.) + &
ZW1D(JL) * &
(XTT/ZEXN(JL) - ZB_TH(JL) - ZTHT(JL))/ &
SIGN(MAX(ABS(ZA_TH(JL)), 1.E-20), ZA_TH(JL))
ZW1D(JL)=MAX(0., -SIGN(1., 1.E-20 - ZTIME_THRESHOLD(JL))) ! WHERE(ZTIME_THRESHOLD(:)>1.E-20)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
ZW1D(JL) * MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ENDDO
ENDIF
!We need to adjust tendencies when a specy disappears
!When a species is missing, only the external tendencies can be negative (and we must keep track of it)
DO JL=1, IMICRO
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RV(JL)+1.E-20)) * & ! WHERE(ZA_RV(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(1)-ZRVT(JL))) ! WHERE(ZRVT(:)>XRTMIN(1))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RV(JL)+ZRVT(JL))/MIN(ZA_RV(JL), -1.E-20))
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RC(JL)+1.E-20)) * & ! WHERE(ZA_RC(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(2)-ZRCT(JL))) ! WHERE(ZRCT(:)>XRTMIN(2))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RC(JL)+ZRCT(JL))/MIN(ZA_RC(JL), -1.E-20))
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RR(JL)+1.E-20)) * & ! WHERE(ZA_RR(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(3)-ZRRT(JL))) ! WHERE(ZRRT(:)>XRTMIN(3))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RR(JL)+ZRRT(JL))/MIN(ZA_RR(JL), -1.E-20))
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RI(JL)+1.E-20)) * & ! WHERE(ZI_RV(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(4)-ZRIT(JL))) ! WHERE(ZRIT(:)>XRTMIN(4))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RI(JL)+ZRIT(JL))/MIN(ZA_RI(JL), -1.E-20))
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RS(JL)+1.E-20)) * & ! WHERE(ZA_RS(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(5)-ZRST(JL))) ! WHERE(ZRST(:)>XRTMIN(5))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RS(JL)+ZRST(JL))/MIN(ZA_RS(JL), -1.E-20))
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RG(JL)+1.E-20)) * & ! WHERE(ZA_RG(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(6)-ZRGT(JL))) ! WHERE(ZRGT(:)>XRTMIN(6))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RG(JL)+ZRGT(JL))/MIN(ZA_RG(JL), -1.E-20))
ENDDO
IF(KRR==7) THEN
DO JL=1, IMICRO
ZW1D(JL)=MAX(0., -SIGN(1., ZA_RH(JL)+1.E-20)) * & ! WHERE(ZA_RH(:)<-1.E-20)
&MAX(0., -SIGN(1., XRTMIN(7)-ZRHT(JL))) ! WHERE(ZRHT(:)>XRTMIN(7))
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * MIN(ZMAXTIME(JL), -(ZB_RH(JL)+ZRHT(JL))/MIN(ZA_RH(JL), -1.E-20))
ENDDO
ENDIF
!We stop when the end of the timestep is reached
ZCOMPUTE(:)=ZCOMPUTE(:) * MAX(0., -SIGN(1., ZTIME(:)+ZMAXTIME(:)-PTSTEP))
!We must recompute tendencies when the end of the sub-timestep is reached
IF(XTSTEP_TS/=0.) THEN
DO JL=1, IMICRO
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., ZTIME_LASTCALL(JL)+ZTSTEP-ZTIME(JL)-ZMAXTIME(JL))) ! WHERE(ZTIME(:)+ZMAXTIME(:)>ZTIME_LASTCALL(:)+ZTSTEP)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL) * (ZTIME_LASTCALL(JL)-ZTIME(JL)+ZTSTEP)
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ENDDO
ENDIF
!We must recompute tendencies when the maximum allowed change is reached
!When a specy is missing, only the external tendencies can be active and we do not want to recompute
!the microphysical tendencies when external tendencies are negative (results won't change because specy was already missing)
IF(XMRSTEP/=0.) THEN
DO JL=1, IMICRO
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RV(JL)))) ! WHERE(ABS(ZA_RV(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RV(JL))*XMRSTEP+Z0RVT(JL)-ZRVT(JL)-ZB_RV(JL))/ &
&SIGN(MAX(ABS(ZA_RV(JL)), 1.E-20), ZA_RV(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRVT(JL))) + & !WHERE(ZRVT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RV(JL)))) !WHERE(ZA_RV(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RC(JL)))) ! WHERE(ABS(ZA_RC(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RC(JL))*XMRSTEP+Z0RCT(JL)-ZRCT(JL)-ZB_RC(JL))/ &
&SIGN(MAX(ABS(ZA_RC(JL)), 1.E-20), ZA_RC(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRCT(JL))) + & !WHERE(ZRCT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RC(JL)))) !WHERE(ZA_RC(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RR(JL)))) ! WHERE(ABS(ZA_RR(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RR(JL))*XMRSTEP+Z0RRT(JL)-ZRRT(JL)-ZB_RR(JL))/ &
&SIGN(MAX(ABS(ZA_RR(JL)), 1.E-20), ZA_RR(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRRT(JL))) + & !WHERE(ZRRT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RR(JL)))) !WHERE(ZA_RR(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RI(JL)))) ! WHERE(ABS(ZA_RI(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RI(JL))*XMRSTEP+Z0RIT(JL)-ZRIT(JL)-ZB_RI(JL))/ &
&SIGN(MAX(ABS(ZA_RI(JL)), 1.E-20), ZA_RI(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRIT(JL))) + & !WHERE(ZRIT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RI(JL)))) !WHERE(ZA_RI(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RS(JL)))) ! WHERE(ABS(ZA_RS(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RS(JL))*XMRSTEP+Z0RST(JL)-ZRST(JL)-ZB_RS(JL))/ &
&SIGN(MAX(ABS(ZA_RS(JL)), 1.E-20), ZA_RS(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRST(JL))) + & !WHERE(ZRST(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RS(JL)))) !WHERE(ZA_RS(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RG(JL)))) ! WHERE(ABS(ZA_RG(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RG(JL))*XMRSTEP+Z0RGT(JL)-ZRGT(JL)-ZB_RG(JL))/ &
&SIGN(MAX(ABS(ZA_RG(JL)), 1.E-20), ZA_RG(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRGT(JL))) + & !WHERE(ZRGT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RG(JL)))) !WHERE(ZA_RG(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ENDDO
IF(KRR==7) THEN
DO JL=1, IMICRO
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & ! WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., 1.E-20-ABS(ZA_RH(JL)))) ! WHERE(ABS(ZA_RH(:))>1.E-20)
ZTIME_THRESHOLD(JL)=(1.-ZW1D(JL))*(-1.) + &
&ZW1D(JL)*(SIGN(1., ZA_RH(JL))*XMRSTEP+Z0RHT(JL)-ZRHT(JL)-ZB_RH(JL))/ &
&SIGN(MAX(ABS(ZA_RH(JL)), 1.E-20), ZA_RH(JL))
ZW1D(JL)=MAX(0., SIGN(1., ZTIME_THRESHOLD(JL))) * & !WHERE(ZTIME_THRESHOLD(:)>=0.)
&MAX(0., -SIGN(1., ZTIME_THRESHOLD(JL)-ZMAXTIME(JL))) * & !WHERE(ZTIME_THRESHOLD(:)<ZMAXTIME(:))
&MIN(1., MAX(0., -SIGN(1., XRTMIN(6)-ZRHT(JL))) + & !WHERE(ZRHT(:)>XRTMIN(6)) .OR.
&MAX(0., -SIGN(1., -ZA_RH(JL)))) !WHERE(ZA_RH(:)>0.)
ZMAXTIME(JL)=(1.-ZW1D(JL)) * ZMAXTIME(JL) + &
&ZW1D(JL)*MIN(ZMAXTIME(JL), ZTIME_THRESHOLD(JL))
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ENDDO
ENDIF
DO JL=1, IMICRO
ZW1D(JL)=MAX(ABS(ZB_RV(JL)), ABS(ZB_RC(JL)), ABS(ZB_RR(JL)), ABS(ZB_RI(JL)), &
&ABS(ZB_RS(JL)), ABS(ZB_RG(JL)), ABS(ZB_RH(JL)))
ZW1D(JL)=MAX(0., -SIGN(1., IITER(JL)-INB_ITER_MAX+0.)) * & !WHERE(IITER(:)<INB_ITER_MAX)
&MAX(0., -SIGN(1., XMRSTEP-ZW1D(JL))) !WHERE(ZW1D(:)>XMRSTEP)
ZMAXTIME(JL)=(1.-ZW1D(JL))*ZMAXTIME(JL)
ZCOMPUTE(JL)=ZCOMPUTE(JL) * (1. - ZW1D(JL))
ENDDO
ENDIF
!
!*** 4.3 New values of variables for next iteration
!
DO JL=1, IMICRO
ZTHT(JL)=ZTHT(JL)+ZA_TH(JL)*ZMAXTIME(JL)+ZB_TH(JL)
ZRVT(JL)=ZRVT(JL)+ZA_RV(JL)*ZMAXTIME(JL)+ZB_RV(JL)
ZRCT(JL)=ZRCT(JL)+ZA_RC(JL)*ZMAXTIME(JL)+ZB_RC(JL)
ZRRT(JL)=ZRRT(JL)+ZA_RR(JL)*ZMAXTIME(JL)+ZB_RR(JL)
ZRIT(JL)=ZRIT(JL)+ZA_RI(JL)*ZMAXTIME(JL)+ZB_RI(JL)
ZRST(JL)=ZRST(JL)+ZA_RS(JL)*ZMAXTIME(JL)+ZB_RS(JL)
ZRGT(JL)=ZRGT(JL)+ZA_RG(JL)*ZMAXTIME(JL)+ZB_RG(JL)
ZCIT(JL)=ZCIT(JL) * MAX(0., -SIGN(1., -ZRIT(JL))) ! WHERE(ZRIT(:)==0.) ZCIT(:) = 0.
ENDDO
IF(KRR==7) ZRHT(:)=ZRHT(:)+ZA_RH(:)*ZMAXTIME(:)+ZB_RH(:)
!
!*** 4.4 Mixing ratio change due to each process
!
IF(LBU_ENABLE) THEN
ZTOT_RVHENI(:)= ZTOT_RVHENI(:) +ZRVHENI_MR(:)
ZTOT_RCHONI(:)= ZTOT_RCHONI(:) +ZRCHONI(:) *ZMAXTIME(:)
ZTOT_RRHONG(:)= ZTOT_RRHONG(:) +ZRRHONG_MR(:)
ZTOT_RVDEPS(:)= ZTOT_RVDEPS(:) +ZRVDEPS(:) *ZMAXTIME(:)
ZTOT_RIAGGS(:)= ZTOT_RIAGGS(:) +ZRIAGGS(:) *ZMAXTIME(:)
ZTOT_RIAUTS(:)= ZTOT_RIAUTS(:) +ZRIAUTS(:) *ZMAXTIME(:)
ZTOT_RVDEPG(:)= ZTOT_RVDEPG(:) +ZRVDEPG(:) *ZMAXTIME(:)
ZTOT_RCAUTR(:)= ZTOT_RCAUTR(:) +ZRCAUTR(:) *ZMAXTIME(:)
ZTOT_RCACCR(:)= ZTOT_RCACCR(:) +ZRCACCR(:) *ZMAXTIME(:)
ZTOT_RREVAV(:)= ZTOT_RREVAV(:) +ZRREVAV(:) *ZMAXTIME(:)
ZTOT_RCRIMSS(:)=ZTOT_RCRIMSS(:)+ZRCRIMSS(:)*ZMAXTIME(:)
ZTOT_RCRIMSG(:)=ZTOT_RCRIMSG(:)+ZRCRIMSG(:)*ZMAXTIME(:)
ZTOT_RSRIMCG(:)=ZTOT_RSRIMCG(:)+ZRSRIMCG(:)*ZMAXTIME(:)+ZRSRIMCG_MR(:)
ZTOT_RRACCSS(:)=ZTOT_RRACCSS(:)+ZRRACCSS(:)*ZMAXTIME(:)
ZTOT_RRACCSG(:)=ZTOT_RRACCSG(:)+ZRRACCSG(:)*ZMAXTIME(:)
ZTOT_RSACCRG(:)=ZTOT_RSACCRG(:)+ZRSACCRG(:)*ZMAXTIME(:)
ZTOT_RSMLTG(:)= ZTOT_RSMLTG(:) +ZRSMLTG(:) *ZMAXTIME(:)
ZTOT_RCMLTSR(:)=ZTOT_RCMLTSR(:)+ZRCMLTSR(:) *ZMAXTIME(:)
ZTOT_RICFRRG(:)=ZTOT_RICFRRG(:)+ZRICFRRG(:)*ZMAXTIME(:)
ZTOT_RRCFRIG(:)=ZTOT_RRCFRIG(:)+ZRRCFRIG(:)*ZMAXTIME(:)
ZTOT_RICFRR(:)= ZTOT_RICFRR(:) +ZRICFRR(:) *ZMAXTIME(:)
ZTOT_RCWETG(:)= ZTOT_RCWETG(:) +ZRCWETG(:) *ZMAXTIME(:)
ZTOT_RIWETG(:)= ZTOT_RIWETG(:) +ZRIWETG(:) *ZMAXTIME(:)
ZTOT_RRWETG(:)= ZTOT_RRWETG(:) +ZRRWETG(:) *ZMAXTIME(:)
ZTOT_RSWETG(:)= ZTOT_RSWETG(:) +ZRSWETG(:) *ZMAXTIME(:)
ZTOT_RWETGH(:)= ZTOT_RWETGH(:) +ZRWETGH(:) *ZMAXTIME(:)+ZRWETGH_MR(:)
ZTOT_RCDRYG(:)= ZTOT_RCDRYG(:) +ZRCDRYG(:) *ZMAXTIME(:)
ZTOT_RIDRYG(:)= ZTOT_RIDRYG(:) +ZRIDRYG(:) *ZMAXTIME(:)
ZTOT_RRDRYG(:)= ZTOT_RRDRYG(:) +ZRRDRYG(:) *ZMAXTIME(:)
ZTOT_RSDRYG(:)= ZTOT_RSDRYG(:) +ZRSDRYG(:) *ZMAXTIME(:)
ZTOT_RGMLTR(:)= ZTOT_RGMLTR(:) +ZRGMLTR(:) *ZMAXTIME(:)
ZTOT_RCWETH(:)= ZTOT_RCWETH(:) +ZRCWETH(:) *ZMAXTIME(:)
ZTOT_RIWETH(:)= ZTOT_RIWETH(:) +ZRIWETH(:) *ZMAXTIME(:)
ZTOT_RSWETH(:)= ZTOT_RSWETH(:) +ZRSWETH(:) *ZMAXTIME(:)
ZTOT_RGWETH(:)= ZTOT_RGWETH(:) +ZRGWETH(:) *ZMAXTIME(:)
ZTOT_RRWETH(:)= ZTOT_RRWETH(:) +ZRRWETH(:) *ZMAXTIME(:)
ZTOT_RCDRYH(:)= ZTOT_RCDRYH(:) +ZRCDRYH(:) *ZMAXTIME(:)
ZTOT_RIDRYH(:)= ZTOT_RIDRYH(:) +ZRIDRYH(:) *ZMAXTIME(:)
ZTOT_RSDRYH(:)= ZTOT_RSDRYH(:) +ZRSDRYH(:) *ZMAXTIME(:)
ZTOT_RRDRYH(:)= ZTOT_RRDRYH(:) +ZRRDRYH(:) *ZMAXTIME(:)
ZTOT_RGDRYH(:)= ZTOT_RGDRYH(:) +ZRGDRYH(:) *ZMAXTIME(:)
ZTOT_RDRYHG(:)= ZTOT_RDRYHG(:) +ZRDRYHG(:) *ZMAXTIME(:)
ZTOT_RHMLTR(:)= ZTOT_RHMLTR(:) +ZRHMLTR(:) *ZMAXTIME(:)
ZTOT_RIMLTC(:)= ZTOT_RIMLTC(:) +ZRIMLTC_MR(:)
ZTOT_RCBERI(:)= ZTOT_RCBERI(:) +ZRCBERI(:) *ZMAXTIME(:)
ENDIF
!
!*** 4.5 Next loop
!
GSOFT=.TRUE. ! We try to adjust tendencies (inner while loop)
ZTIME(:)=ZTIME(:)+ZMAXTIME(:)
!$acc end kernels
!$acc update self(ZCOMPUTE)
ENDDO
!$acc update self(ZTIME)
ENDDO
!-------------------------------------------------------------------------------
!
!* 5. UNPACKING DIAGNOSTICS
! ---------------------
!
! !$acc kernels
IF(IMICRO>0) THEN
!$acc kernels
ZHLC_HCF3D(:,:,:)=0.
ZHLC_LCF3D(:,:,:)=0.
ZHLC_HRC3D(:,:,:)=0.
ZHLC_LRC3D(:,:,:)=0.
ZHLI_HCF3D(:,:,:)=0.
ZHLI_LCF3D(:,:,:)=0.
ZHLI_HRI3D(:,:,:)=0.
ZHLI_LRI3D(:,:,:)=0.
!$acc loop independent
DO JL=1,IMICRO
ZHLC_HCF3D(I1(JL), I2(JL), I3(JL)) = ZHLC_HCF(JL)
ZHLC_LCF3D(I1(JL), I2(JL), I3(JL)) = ZHLC_LCF(JL)
ZHLC_HRC3D(I1(JL), I2(JL), I3(JL)) = ZHLC_HRC(JL)
ZHLC_LRC3D(I1(JL), I2(JL), I3(JL)) = ZHLC_LRC(JL)
ZHLI_LCF3D(I1(JL), I2(JL), I3(JL)) = ZHLI_LCF(JL)
ZHLI_HCF3D(I1(JL), I2(JL), I3(JL)) = ZHLI_HCF(JL)
ZHLI_HRI3D(I1(JL), I2(JL), I3(JL)) = ZHLI_HRI(JL)
ZHLI_LRI3D(I1(JL), I2(JL), I3(JL)) = ZHLI_LRI(JL)
PCIT(I1(JL), I2(JL), I3(JL)) = ZCIT(JL)
END DO
!$acc end kernels
ELSE
!$acc kernels
PRAINFR(:,:,:)=0.
ZHLC_HCF3D(:,:,:)=0.
ZHLC_LCF3D(:,:,:)=0.
ZHLC_HRC3D(:,:,:)=0.
ZHLC_LRC3D(:,:,:)=0.
ZHLI_HCF3D(:,:,:)=0.
ZHLI_LCF3D(:,:,:)=0.
ZHLI_HRI3D(:,:,:)=0.
ZHLI_LRI3D(:,:,:)=0.
PCIT(:,:,:) = 0.
!$acc end kernels
ENDIF
!$acc kernels
IF(OWARM) THEN
PEVAP3D(:,:,:) = 0.
!$acc loop independent
DO JL=1,IMICRO
PEVAP3D(I1(JL), I2(JL), I3(JL)) = ZRREVAV(JL)
END DO
ENDIF
!
!
!* 6. COMPUTES THE SLOW COLD PROCESS SOURCES OUTSIDE OF ODMICRO POINTS
! ----------------------------------------------------------------
!
GDNOTMICRO = .NOT.ODMICRO
ZLSFACT3D(:,:,:) = ZZ_LSFACT(:,:,:)/PEXN(:,:,:)
!$acc end kernels
CALL ICE4_NUCLEATION_WRAPPER(KIT, KJT, KKT, GDNOTMICRO, &
PTHT, PPABST, PRHODREF, PEXN, ZLSFACT3D, ZT, &
PRVT, &
PCIT, ZZ_RVHENI_MR)
!$acc kernels
DO JK = 1, KKT
DO JJ = 1, KJT
DO JI = 1, KIT
ZZ_LSFACT(JI,JJ,JK)=ZZ_LSFACT(JI,JJ,JK)/PEXNREF(JI,JJ,JK)
ZZ_LVFACT(JI,JJ,JK)=ZZ_LVFACT(JI,JJ,JK)/PEXNREF(JI,JJ,JK)
ZZ_RVHENI(JI,JJ,JK) = MIN(PRVS(JI,JJ,JK), ZZ_RVHENI_MR(JI,JJ,JK)/PTSTEP)
PRIS(JI,JJ,JK)=PRIS(JI,JJ,JK)+ZZ_RVHENI(JI,JJ,JK)
PRVS(JI,JJ,JK)=PRVS(JI,JJ,JK)-ZZ_RVHENI(JI,JJ,JK)
PTHS(JI,JJ,JK)=PTHS(JI,JJ,JK) + ZZ_RVHENI(JI,JJ,JK)*ZZ_LSFACT(JI,JJ,JK)
ENDDO
ENDDO
ENDDO
!$acc end kernels
!$acc update self(PRIS,PRVS,PTHS)
!
if ( lbu_enable ) then
!Note: there is an other contribution for HENU later
ESCOBAR Juan
committed
if ( lbudget_th ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = pths(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_TH), 'HENU', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_rv ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = prvs(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_end( tbudgets(NBUDGET_RV), 'HENU', ZTEMP_BUD(:,:,:) )
end if
if ( lbudget_ri ) then
!$acc kernels present(ZTEMP_BUD)
ZTEMP_BUD(:,:,:) = zz_rvheni(:, :, :) * prhodj(:, :, :)
!$acc end kernels
call Budget_store_add( tbudgets(NBUDGET_RI), 'HENU', ZTEMP_BUD(:,:,:) )
end if
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end if
!-------------------------------------------------------------------------------
!
!* 7. UNPACKING AND TOTAL TENDENCIES
! ------------------------------
!
!
!*** 7.1 total tendencies limited by available species
!
! ZW_??S variables will contain the new S variables values
!
!$acc kernels
IF(GEXT_TEND) THEN
!Z..T variables contain the exeternal tendency, we substract it
DO JL=1, IMICRO
ZRVT(JL) = ZRVT(JL) - ZEXT_RV(JL) * PTSTEP
ZRCT(JL) = ZRCT(JL) - ZEXT_RC(JL) * PTSTEP
ZRRT(JL) = ZRRT(JL) - ZEXT_RR(JL) * PTSTEP
ZRIT(JL) = ZRIT(JL) - ZEXT_RI(JL) * PTSTEP
ZRST(JL) = ZRST(JL) - ZEXT_RS(JL) * PTSTEP
ZRGT(JL) = ZRGT(JL) - ZEXT_RG(JL) * PTSTEP
ZTHT(JL) = ZTHT(JL) - ZEXT_TH(JL) * PTSTEP
ENDDO
IF (KRR==7) ZRHT(:) = ZRHT(:) - ZEXT_RH(:) * PTSTEP
ENDIF
!$acc end kernels
!$acc update self(ZRVT)
!Tendencies computed from difference between old state and new state (can be negative)
#ifndef MNH_OPENACC
ZW_RVS(:,:,:) = 0.
ZW_RCS(:,:,:) = 0.
ZW_RRS(:,:,:) = 0.
ZW_RIS(:,:,:) = 0.
ZW_RSS(:,:,:) = 0.
ZW_RGS(:,:,:) = 0.
ZW_RHS(:,:,:) = 0.
DO JL=1,IMICRO
ZW_RVS(I1(JL), I2(JL), I3(JL)) = ( ZRVT(JL) - PRVT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
ZW_RCS(I1(JL), I2(JL), I3(JL)) = ( ZRCT(JL) - PRCT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
ZW_RRS(I1(JL), I2(JL), I3(JL)) = ( ZRRT(JL) - PRRT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
ZW_RIS(I1(JL), I2(JL), I3(JL)) = ( ZRIT(JL) - PRIT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
ZW_RSS(I1(JL), I2(JL), I3(JL)) = ( ZRST(JL) - PRST(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
ZW_RGS(I1(JL), I2(JL), I3(JL)) = ( ZRGT(JL) - PRGT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
END DO
IF(KRR==7) THEN
DO JL=1,IMICRO
ZW_RHS(I1(JL), I2(JL), I3(JL)) = ( ZRHT(JL) - PRHT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
END DO
END IF
#else
IF (KRR==7) THEN
!PW: probably not working (see ELSE branch)
CALL PRINT_MSG(NVERB_WARNING,'GEN','RAIN_ICE_RED','OpenACC: KRR=7 not yet tested')
!PW:BUG: CCE 13.0.0 crash if kernels region is enabled here
!acc kernels
IDX = 0
DO JK=1,SIZE(ODMICRO,3)
DO JJ=1,SIZE(ODMICRO,2)
DO JI=1,SIZE(ODMICRO,1)
IF (ODMICRO(JI,JJ,JK)) THEN
IDX = IDX+1
ZW_RVS(JI,JJ,JK) = ( ZRVT(IDX) - PRVT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RCS(JI,JJ,JK) = ( ZRCT(IDX) - PRCT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RRS(JI,JJ,JK) = ( ZRRT(IDX) - PRRT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RIS(JI,JJ,JK) = ( ZRIT(IDX) - PRIT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RSS(JI,JJ,JK) = ( ZRST(IDX) - PRST(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RGS(JI,JJ,JK) = ( ZRGT(IDX) - PRGT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RHS(JI,JJ,JK) = ( ZRHT(IDX) - PRHT(JI,JJ,JK) ) * ZINV_TSTEP
ELSE
ZW_RVS(JI,JJ,JK) = 0.
ZW_RCS(JI,JJ,JK) = 0.
ZW_RRS(JI,JJ,JK) = 0.
ZW_RIS(JI,JJ,JK) = 0.
ZW_RSS(JI,JJ,JK) = 0.
ZW_RGS(JI,JJ,JK) = 0.
ZW_RHS(JI,JJ,JK) = 0.
END IF
END DO
END DO
END DO
!acc end kernels
ELSE
!PW: BUG: this should work...
! !$acc kernels
! ZW_RVS(JI,JJ,JK) = 0.
! ZW_RCS(JI,JJ,JK) = 0.
! ZW_RRS(JI,JJ,JK) = 0.
! ZW_RIS(JI,JJ,JK) = 0.
! ZW_RSS(JI,JJ,JK) = 0.
! ZW_RGS(JI,JJ,JK) = 0.
! !$acc loop independent
! DO JL=1,IMICRO
! ZW_RVS(I1(JL), I2(JL), I3(JL)) = ( ZRVT(JL) - PRVT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! ZW_RCS(I1(JL), I2(JL), I3(JL)) = ( ZRCT(JL) - PRCT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! ZW_RRS(I1(JL), I2(JL), I3(JL)) = ( ZRRT(JL) - PRRT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! ZW_RIS(I1(JL), I2(JL), I3(JL)) = ( ZRIT(JL) - PRIT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! ZW_RSS(I1(JL), I2(JL), I3(JL)) = ( ZRST(JL) - PRST(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! ZW_RGS(I1(JL), I2(JL), I3(JL)) = ( ZRGT(JL) - PRGT(I1(JL), I2(JL), I3(JL)) ) * ZINV_TSTEP
! END DO
! !$acc end kernels
#if 0
!$acc kernels
IDX = 0
DO JK=1,SIZE(ODMICRO,3)
DO JJ=1,SIZE(ODMICRO,2)
DO JI=1,SIZE(ODMICRO,1)
IF (ODMICRO(JI,JJ,JK)) THEN
IDX = IDX+1
ZW_RVS(JI,JJ,JK) = ( ZRVT(IDX) - PRVT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RCS(JI,JJ,JK) = ( ZRCT(IDX) - PRCT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RRS(JI,JJ,JK) = ( ZRRT(IDX) - PRRT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RIS(JI,JJ,JK) = ( ZRIT(IDX) - PRIT(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RSS(JI,JJ,JK) = ( ZRST(IDX) - PRST(JI,JJ,JK) ) * ZINV_TSTEP
ZW_RGS(JI,JJ,JK) = ( ZRGT(IDX) - PRGT(JI,JJ,JK) ) * ZINV_TSTEP
ELSE
ZW_RVS(JI,JJ,JK) = 0.
ZW_RCS(JI,JJ,JK) = 0.
ZW_RRS(JI,JJ,JK) = 0.
ZW_RIS(JI,JJ,JK) = 0.
ZW_RSS(JI,JJ,JK) = 0.
ZW_RGS(JI,JJ,JK) = 0.
END IF
END DO
END DO
END DO
!
ZW_RHS(:,:,:) = 0.
!$acc end kernels
#else
!$acc kernels
ZW_RVS(:,:,:) = PRVT(:,:,:)
ZW_RCS(:,:,:) = PRCT(:,:,:)
ZW_RRS(:,:,:) = PRRT(:,:,:)
ZW_RIS(:,:,:) = PRIT(:,:,:)
ZW_RSS(:,:,:) = PRST(:,:,:)
ZW_RGS(:,:,:) = PRGT(:,:,:)
!$acc loop independent
DO JL=1,IMICRO
ZW_RVS(I1(JL), I2(JL), I3(JL)) = ZRVT(JL)
ZW_RCS(I1(JL), I2(JL), I3(JL)) = ZRCT(JL)
ZW_RRS(I1(JL), I2(JL), I3(JL)) = ZRRT(JL)
ZW_RIS(I1(JL), I2(JL), I3(JL)) = ZRIT(JL)
ZW_RSS(I1(JL), I2(JL), I3(JL)) = ZRST(JL)
ZW_RGS(I1(JL), I2(JL), I3(JL)) = ZRGT(JL)
END DO
!$acc end kernels
!
!$acc kernels
ZW_RVS(:,:,:) = ( ZW_RVS(:,:,:) - PRVT(:,:,:) ) * ZINV_TSTEP
ZW_RCS(:,:,:) = ( ZW_RCS(:,:,:) - PRCT(:,:,:) ) * ZINV_TSTEP
ZW_RRS(:,:,:) = ( ZW_RRS(:,:,:) - PRRT(:,:,:) ) * ZINV_TSTEP
ZW_RIS(:,:,:) = ( ZW_RIS(:,:,:) - PRIT(:,:,:) ) * ZINV_TSTEP
ZW_RSS(:,:,:) = ( ZW_RSS(:,:,:) - PRST(:,:,:) ) * ZINV_TSTEP
ZW_RGS(:,:,:) = ( ZW_RGS(:,:,:) - PRGT(:,:,:) ) * ZINV_TSTEP
!
ZW_RHS(:,:,:) = 0.
!$acc end kernels
#endif
ENDIF
#endif
!$acc kernels
ZW_THS(:,:,:) = (ZW_RCS(:,:,:)+ZW_RRS(:,:,:) )*ZZ_LVFACT(:,:,:) + &
& (ZW_RIS(:,:,:)+ZW_RSS(:,:,:)+ZW_RGS(:,:,:)+ZW_RHS(:,:,:))*ZZ_LSFACT(:,:,:)
!We apply these tendencies to the S variables
ZW_RVS(:,:,:) = PRVS(:,:,:) + ZW_RVS(:,:,:)
ZW_RCS(:,:,:) = PRCS(:,:,:) + ZW_RCS(:,:,:)
ZW_RRS(:,:,:) = PRRS(:,:,:) + ZW_RRS(:,:,:)
ZW_RIS(:,:,:) = PRIS(:,:,:) + ZW_RIS(:,:,:)
ZW_RSS(:,:,:) = PRSS(:,:,:) + ZW_RSS(:,:,:)
ZW_RGS(:,:,:) = PRGS(:,:,:) + ZW_RGS(:,:,:)
IF(KRR==7) ZW_RHS(:,:,:) = PRHS(:,:,:) + ZW_RHS(:,:,:)
ZW_THS(:,:,:) = PTHS(:,:,:) + ZW_THS(:,:,:)
!$acc end kernels
if ( lbu_enable ) then
if ( lbudget_th ) call Budget_store_init( tbudgets(NBUDGET_TH), 'CORR', zw_ths(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_init( tbudgets(NBUDGET_RV), 'CORR', zw_rvs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_init( tbudgets(NBUDGET_RC), 'CORR', zw_rcs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_init( tbudgets(NBUDGET_RR), 'CORR', zw_rrs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_ri ) call Budget_store_init( tbudgets(NBUDGET_RI), 'CORR', zw_ris(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_init( tbudgets(NBUDGET_RS), 'CORR', zw_rss(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rg ) call Budget_store_init( tbudgets(NBUDGET_RG), 'CORR', zw_rgs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rh ) call Budget_store_init( tbudgets(NBUDGET_RH), 'CORR', zw_rhs(:, :, :) * prhodj(:, :, :) )
end if
!We correct negativities with conservation
CALL CORRECT_NEGATIVITIES(KIT, KJT, KKT, KRR, ZW_RVS, ZW_RCS, ZW_RRS, &
&ZW_RIS, ZW_RSS, ZW_RGS, &
&ZW_THS, ZZ_LVFACT, ZZ_LSFACT, ZW_RHS)
if ( lbu_enable ) then
if ( lbudget_th ) call Budget_store_end( tbudgets(NBUDGET_TH), 'CORR', zw_ths(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_end( tbudgets(NBUDGET_RV), 'CORR', zw_rvs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_end( tbudgets(NBUDGET_RC), 'CORR', zw_rcs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_end( tbudgets(NBUDGET_RR), 'CORR', zw_rrs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_ri ) call Budget_store_end( tbudgets(NBUDGET_RI), 'CORR', zw_ris(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_end( tbudgets(NBUDGET_RS), 'CORR', zw_rss(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rg ) call Budget_store_end( tbudgets(NBUDGET_RG), 'CORR', zw_rgs(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rh ) call Budget_store_end( tbudgets(NBUDGET_RH), 'CORR', zw_rhs(:, :, :) * prhodj(:, :, :) )
end if
!
!*** 7.2 LBU_ENABLE case
!
IF(LBU_ENABLE) THEN
#ifdef MNH_OPENACC
CALL PRINT_MSG(NVERB_FATAL,'GEN','RAIN_ICE_RED','OpenACC: LBU_ENABLE=.true. not yet implemented')
#endif
!$acc update self(ZINV_TSTEP)
allocate( zw1( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
allocate( zw2( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
allocate( zw3( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
allocate( zw4( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
if ( krr == 7 ) then
allocate( zw5( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
allocate( zw6( size( pexnref, 1 ), size( pexnref, 2 ), size( pexnref, 3 ) ) )
end if
if ( lbudget_th ) then
allocate( zz_diff( size( zz_lsfact, 1 ), size( zz_lsfact, 2 ), size( zz_lsfact, 3 ) ) )
zz_diff(:, :, :) = zz_lsfact(:, :, :) - zz_lvfact(:, :, :)
end if
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RVHENI(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'HENU', zw(:, :, :) * zz_lsfact(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_add( tbudgets(NBUDGET_RV), 'HENU', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_ri ) call Budget_store_add( tbudgets(NBUDGET_RI), 'HENU', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RCHONI(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'HON', zw(:, :, :) * zz_diff(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_add( tbudgets(NBUDGET_RC), 'HON', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_ri ) call Budget_store_add( tbudgets(NBUDGET_RI), 'HON', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RRHONG(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'SFR', zw(:, :, :) * zz_diff(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_add( tbudgets(NBUDGET_RR), 'SFR', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rg ) call Budget_store_add( tbudgets(NBUDGET_RG), 'SFR', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RVDEPS(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'DEPS', zw(:, :, :) * zz_lsfact(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_add( tbudgets(NBUDGET_RV), 'DEPS', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_add( tbudgets(NBUDGET_RS), 'DEPS', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RIAGGS(JL) * ZINV_TSTEP
END DO
if ( lbudget_ri ) call Budget_store_add( tbudgets(NBUDGET_RI), 'AGGS', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_add( tbudgets(NBUDGET_RS), 'AGGS', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RIAUTS(JL) * ZINV_TSTEP
END DO
if ( lbudget_ri ) call Budget_store_add( tbudgets(NBUDGET_RI), 'AUTS', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_add( tbudgets(NBUDGET_RS), 'AUTS', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RVDEPG(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'DEPG', zw(:, :, :) * zz_lsfact(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_add( tbudgets(NBUDGET_RV), 'DEPG', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rg ) call Budget_store_add( tbudgets(NBUDGET_RG), 'DEPG', zw(:, :, :) * prhodj(:, :, :) )
IF(OWARM) THEN
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RCAUTR(JL) * ZINV_TSTEP
END DO
if ( lbudget_rc ) call Budget_store_add( tbudgets(NBUDGET_RC), 'AUTO', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_add( tbudgets(NBUDGET_RR), 'AUTO', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RCACCR(JL) * ZINV_TSTEP
END DO
if ( lbudget_rc ) call Budget_store_add( tbudgets(NBUDGET_RC), 'ACCR', -zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_add( tbudgets(NBUDGET_RR), 'ACCR', zw(:, :, :) * prhodj(:, :, :) )
ZW(:,:,:) = 0.
DO JL=1,IMICRO
ZW(I1(JL), I2(JL), I3(JL)) = ZTOT_RREVAV(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) call Budget_store_add( tbudgets(NBUDGET_TH), 'REVA', -zw(:, :, :) * zz_lvfact(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rv ) call Budget_store_add( tbudgets(NBUDGET_RV), 'REVA', zw(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rr ) call Budget_store_add( tbudgets(NBUDGET_RR), 'REVA', -zw(:, :, :) * prhodj(:, :, :) )
ENDIF
ZW1(:,:,:) = 0.
DO JL=1,IMICRO
ZW1(I1(JL), I2(JL), I3(JL)) = ZTOT_RCRIMSS(JL) * ZINV_TSTEP
END DO
ZW2(:,:,:) = 0.
DO JL=1,IMICRO
ZW2(I1(JL), I2(JL), I3(JL)) = ZTOT_RCRIMSG(JL) * ZINV_TSTEP
END DO
ZW3(:,:,:) = 0.
DO JL=1,IMICRO
ZW3(I1(JL), I2(JL), I3(JL)) = ZTOT_RSRIMCG(JL) * ZINV_TSTEP
END DO
if ( lbudget_th ) &
call Budget_store_add( tbudgets(NBUDGET_TH), 'RIM', ( zw1(:, :, :) + zw2(:, :, :) ) * zz_diff(:, :, :) * prhodj(:, :, :) )
if ( lbudget_rc ) call Budget_store_add( tbudgets(NBUDGET_RC), 'RIM', ( -zw1(:, :, :) - zw2(:, :, :) ) * prhodj(:, :, :) )
if ( lbudget_rs ) call Budget_store_add( tbudgets(NBUDGET_RS), 'RIM', ( zw1(:, :, :) - zw3(:, :, :) ) * prhodj(:, :, :) )
if ( lbudget_rg ) call Budget_store_add( tbudgets(NBUDGET_RG), 'RIM', ( zw2(:, :, :) + zw3(:, :, :) ) * prhodj(:, :, :) )