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MODULE SUSTAONL_MOD |
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CONTAINS |
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SUBROUTINE SUSTAONL(KMEDIAP,KRESTM) |
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!**** *SUSTAONL * - Routine to initialize parallel environment |
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! Purpose. |
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! -------- |
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! Initialize D%NSTA and D%NONL. |
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! Calculation of distribution of grid points to processors : |
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! Splitting of grid in B direction |
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!** Interface. |
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! ---------- |
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! *CALL* *SUSTAONL * |
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! Explicit arguments : KMEDIAP - mean number of grid points per PE |
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! -------------------- KRESTM - number of PEs with one extra point |
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! Implicit arguments : |
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! -------------------- |
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! Method. |
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! ------- |
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! See documentation |
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! Externals. NONE. |
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! ---------- |
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! Reference. |
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! ---------- |
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! ECMWF Research Department documentation of the IFS |
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! Author. |
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! ------- |
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! MPP Group *ECMWF* |
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! Modifications. |
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! -------------- |
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! Original : 95-10-01 |
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! Modified 98-08-10 by K. YESSAD: removal of LRPOLE option. |
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! - removal of LRPOLE in YOMCT0. |
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! - removal of code under LRPOLE. |
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! Modified 98-12-04 C. Fischer: merge with SUESTAONL (Aladin) |
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! ------------------------------------------------------------------ |
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USE PARKIND1 ,ONLY : JPIM ,JPRB |
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!USE MPL_MODULE ! MPL 4.12.08 |
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USE TPM_GEN |
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USE TPM_DIM |
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USE TPM_GEOMETRY |
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USE TPM_DISTR |
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USE SET2PE_MOD |
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USE ABORT_TRANS_MOD |
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USE EQ_REGIONS_MOD |
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IMPLICIT NONE |
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! DUMMY |
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INTEGER(KIND=JPIM),INTENT(IN) :: KMEDIAP |
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INTEGER(KIND=JPIM),INTENT(IN) :: KRESTM |
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! LOCAL |
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INTEGER(KIND=JPIM) :: IXPTLAT(R%NDGL), ILSTPTLAT(R%NDGL) |
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INTEGER(KIND=JPIM) :: ICHK(R%NDLON,R%NDGL), ICOMBUF(R%NDGL*N_REGIONS_EW*2) |
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INTEGER(KIND=JPIM) :: I1, I2, IBUFLEN, IDGLG, IDWIDE,& |
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&IGL, IGL1, IGL2, IGLOFF, IGPTA, IGPTOT, & |
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&IGPTPRSETS, IGPTS, IGPTSP, ILEN, ILRECV, & |
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&ILSEND, INPLAT, INXLAT, IPART, IPOS, & |
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&IPROCB, IPTSRE, IRECV, IPE, & |
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&IREST, ISEND, ITAG, JA, JB, JGL, JL, JNPTSRE |
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LOGICAL :: LLABORT, LLALLAT |
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LOGICAL :: LLP1,LLP2 |
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REAL(KIND=JPRB) :: ZLAT, ZLAT1 |
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REAL(KIND=JPRB) :: ZDIVID(R%NDGL),ZXPTLAT(R%NDGL) |
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! ----------------------------------------------------------------- |
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LLP1 = NPRINTLEV>0 |
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LLP2 = NPRINTLEV>1 |
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IDWIDE = R%NDGL/2 |
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IBUFLEN = R%NDGL*N_REGIONS_EW*2 |
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IDGLG = R%NDGL |
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I1 = MAX( 1,D%NFRSTLAT(MY_REGION_NS)-D%NFRSTLOFF) |
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I2 = MIN(IDGLG,D%NLSTLAT (MY_REGION_NS)-D%NFRSTLOFF) |
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ILEN = D%NLSTLAT(MY_REGION_NS) - D%NFRSTLAT(MY_REGION_NS)+1 |
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IGPTPRSETS = SUM(G%NLOEN(1:D%NFRSTLAT(MY_REGION_NS)-1)) |
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IGPTOT = SUM(G%NLOEN(1:R%NDGL)) |
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IF (D%LSPLIT) THEN |
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IF( LEQ_REGIONS )THEN |
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IPE=0 |
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IGPTA=0 |
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DO JA=1,MY_REGION_NS-1 |
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DO JB=1,N_REGIONS(JA) |
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IPE=IPE+1 |
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IF( IPE <= KRESTM .OR. KRESTM == 0)THEN |
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IGPTA = IGPTA + KMEDIAP |
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ELSE |
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IGPTA = IGPTA + (KMEDIAP-1) |
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ENDIF |
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ENDDO |
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ENDDO |
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IGPTS=0 |
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DO JB=1,N_REGIONS(MY_REGION_NS) |
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IPE=IPE+1 |
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IF( IPE <= KRESTM .OR. KRESTM == 0 )THEN |
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IGPTS = IGPTS + KMEDIAP |
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ELSE |
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IGPTS = IGPTS + (KMEDIAP-1) |
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ENDIF |
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ENDDO |
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ELSE |
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IF (MY_REGION_NS <= KRESTM.OR.KRESTM == 0) THEN |
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IGPTS = KMEDIAP |
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IGPTA = KMEDIAP*(MY_REGION_NS-1) |
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ELSE |
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IGPTS = KMEDIAP-1 |
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IGPTA = KMEDIAP*KRESTM+IGPTS*(MY_REGION_NS-1-KRESTM) |
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ENDIF |
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ENDIF |
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ELSE |
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IGPTA = IGPTPRSETS |
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IGPTS = SUM(G%NLOEN(D%NFRSTLAT(MY_REGION_NS):D%NLSTLAT(MY_REGION_NS))) |
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ENDIF |
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IGPTSP = IGPTS/N_REGIONS(MY_REGION_NS) |
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IREST = IGPTS-N_REGIONS(MY_REGION_NS)*IGPTSP |
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IXPTLAT(1) = IGPTA-IGPTPRSETS+1 |
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ZXPTLAT(1) = REAL(IXPTLAT(1)) |
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ILSTPTLAT(1) = G%NLOEN(D%NFRSTLAT(MY_REGION_NS)) |
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INPLAT = G%NLOEN(D%NFRSTLAT(MY_REGION_NS))-IXPTLAT(1)+1 |
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DO JGL=2,ILEN |
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IXPTLAT(JGL) = 1 |
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ZXPTLAT(JGL) = 1.0_JPRB |
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ILSTPTLAT(JGL) = G%NLOEN(D%NFRSTLAT(MY_REGION_NS)+JGL-1) |
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INPLAT = INPLAT+G%NLOEN(D%NFRSTLAT(MY_REGION_NS)+JGL-1) |
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ENDDO |
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ILSTPTLAT(ILEN) = G%NLOEN(D%NLSTLAT(MY_REGION_NS))-INPLAT+IGPTS |
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DO JB=1,N_REGIONS_EW |
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DO JGL=1,R%NDGL+N_REGIONS_NS-1 |
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D%NSTA(JGL,JB) = 0 |
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D%NONL(JGL,JB) = 0 |
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ENDDO |
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ENDDO |
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! grid point decomposition |
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! --------------------------------------- |
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LLALLAT = (N_REGIONS_NS == 1) |
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DO JGL=1,ILEN |
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ZDIVID(JGL)=REAL(G%NLOEN(D%NFRSTLAT(MY_REGION_NS)+JGL-1),JPRB) |
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ENDDO |
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DO JB=1,N_REGIONS(MY_REGION_NS) |
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IF (JB <= IREST) THEN |
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IPTSRE = IGPTSP+1 |
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ELSE |
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IPTSRE = IGPTSP |
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ENDIF |
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IPART=0 |
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DO JNPTSRE=1,IPTSRE |
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ZLAT = 1._JPRB |
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ZLAT1 = 1._JPRB |
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IF (MY_REGION_NS <= D%NAPSETS .AND.(IPART /= 2.OR.LLALLAT)) THEN |
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!cdir novector |
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DO JGL=1,ILEN |
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IF (IXPTLAT(JGL) <= ILSTPTLAT(JGL)) THEN |
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ZLAT1 = (ZXPTLAT(JGL)-1.0_JPRB)/ZDIVID(JGL) |
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ZLAT = MIN(ZLAT1,ZLAT) |
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INXLAT = JGL |
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IPART = 1 |
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EXIT |
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ENDIF |
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ENDDO |
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ELSEIF (MY_REGION_NS > N_REGIONS_NS-D%NAPSETS.AND.(IPART /= 1.OR.LLALLAT)) THEN |
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!cdir novector |
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DO JGL=1,ILEN |
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IF (IXPTLAT(JGL) <= ILSTPTLAT(JGL)) THEN |
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ZLAT1 = (ZXPTLAT(JGL)-1.0_JPRB)/ZDIVID(JGL) |
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ZLAT = MIN(ZLAT1,ZLAT) |
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INXLAT = JGL |
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IPART = 2 |
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EXIT |
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ENDIF |
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ENDDO |
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ELSE |
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!cdir novector |
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DO JGL=1,ILEN |
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IF (IXPTLAT(JGL) <= ILSTPTLAT(JGL)) THEN |
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ZLAT1 = (ZXPTLAT(JGL)-1.0_JPRB)/ZDIVID(JGL) |
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IF (ZLAT1 < ZLAT) THEN |
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ZLAT = ZLAT1 |
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INXLAT = JGL |
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ENDIF |
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ENDIF |
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ENDDO |
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ENDIF |
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IF (INXLAT >= I1 .AND. INXLAT <= I2) THEN |
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IF (D%NSTA(D%NPTRFLOFF+INXLAT,JB) == 0) THEN |
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D%NSTA(D%NPTRFLOFF+INXLAT,JB) = IXPTLAT(INXLAT) |
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ENDIF |
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D%NONL(D%NPTRFLOFF+INXLAT,JB) = D%NONL(D%NPTRFLOFF+INXLAT,JB)+1 |
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ENDIF |
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IXPTLAT(INXLAT) = IXPTLAT(INXLAT)+1 |
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ZXPTLAT(INXLAT) = REAL(IXPTLAT(INXLAT),JPRB) |
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ENDDO |
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ENDDO |
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! Exchange local partitioning info to produce global view |
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! |
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IF( NPROC > 1 )THEN |
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IF( LEQ_REGIONS )THEN |
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ITAG = MTAGPART |
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IPOS = 0 |
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DO JGL=1,D%NLSTLAT(MY_REGION_NS)-D%NFRSTLAT(MY_REGION_NS)+1 |
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IPOS = IPOS+1 |
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ICOMBUF(IPOS) = D%NSTA(D%NPTRFLOFF+JGL,MY_REGION_EW) |
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IPOS = IPOS+1 |
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ICOMBUF(IPOS) = D%NONL(D%NPTRFLOFF+JGL,MY_REGION_EW) |
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ENDDO |
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IF( IPOS > IBUFLEN )THEN |
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CALL ABORT_TRANS(' SUSTAONL: SEND BUFFER TOO SMALL FOR GLOBAL INFO') |
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ENDIF |
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ILSEND = IPOS |
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DO JA=1,N_REGIONS_NS |
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DO JB=1,N_REGIONS(JA) |
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CALL SET2PE(ISEND,JA,JB,0,0) |
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IF(ISEND /= MYPROC) THEN |
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! CALL MPL_SEND(ICOMBUF(1:ILSEND),KDEST=NPRCIDS(ISEND),KTAG=ITAG, & |
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! & CDSTRING='SUSTAONL:') |
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! MPL 4.12.08 |
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CALL ABOR1(' SUSTAONL: JUSTE APRES MPL_SEND') |
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ENDIF |
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ENDDO |
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ENDDO |
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DO JA=1,N_REGIONS_NS |
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IGL1 = D%NFRSTLAT(JA) |
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IGL2 = D%NLSTLAT(JA) |
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DO JB=1,N_REGIONS(JA) |
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CALL SET2PE(IRECV,JA,JB,0,0) |
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IF(IRECV /= MYPROC) THEN |
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ILEN = (D%NLSTLAT(JA)-D%NFRSTLAT(JA)+1)*2 |
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! CALL MPL_RECV(ICOMBUF(1:ILEN),KSOURCE=NPRCIDS(IRECV),KTAG=ITAG, & |
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! & KOUNT=ILRECV,CDSTRING='SUSTAONL:') |
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! MPL 4.12.08 |
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CALL ABOR1(' SUSTAONL: JUSTE APRES MPL_RCV') |
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IPOS = 0 |
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DO JGL=IGL1,IGL2 |
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IGL = D%NPTRFRSTLAT(JA)+JGL-IGL1 |
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IPOS = IPOS+1 |
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D%NSTA(IGL,JB) = ICOMBUF(IPOS) |
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IPOS = IPOS+1 |
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D%NONL(IGL,JB) = ICOMBUF(IPOS) |
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ENDDO |
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ENDIF |
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ENDDO |
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ENDDO |
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ELSE |
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ITAG = MTAGPART |
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IPOS = 0 |
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DO JB=1,N_REGIONS(MY_REGION_NS) |
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DO JGL=1,D%NLSTLAT(MY_REGION_NS)-D%NFRSTLAT(MY_REGION_NS)+1 |
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IPOS = IPOS+1 |
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ICOMBUF(IPOS) = D%NSTA(D%NPTRFLOFF+JGL,JB) |
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IPOS = IPOS+1 |
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ICOMBUF(IPOS) = D%NONL(D%NPTRFLOFF+JGL,JB) |
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ENDDO |
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ENDDO |
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IF( IPOS > IBUFLEN )THEN |
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CALL ABORT_TRANS(' SUSTAONL: SEND BUFFER TOO SMALL FOR GLOBAL INFO') |
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ENDIF |
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ILSEND = IPOS |
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DO JA=1,N_REGIONS_NS |
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CALL SET2PE(ISEND,JA,MY_REGION_EW,0,0) |
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IF(ISEND /= MYPROC) THEN |
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! CALL MPL_SEND(ICOMBUF(1:ILSEND),KDEST=NPRCIDS(ISEND),KTAG=ITAG, & |
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! & CDSTRING='SUSTAONL:') |
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! MPL 4.12.08 |
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CALL ABOR1(' SUSTAONL: JUSTE APRES MPL_SEND') |
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ENDIF |
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ENDDO |
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DO JA=1,N_REGIONS_NS |
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CALL SET2PE(IRECV,JA,MY_REGION_EW,0,0) |
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IF(IRECV /= MYPROC) THEN |
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ILEN = (D%NLSTLAT(JA)-D%NFRSTLAT(JA)+1)*N_REGIONS(JA)*2 |
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! CALL MPL_RECV(ICOMBUF(1:ILEN),KSOURCE=NPRCIDS(IRECV),KTAG=ITAG, & |
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! & KOUNT=ILRECV,CDSTRING='SUSTAONL:') |
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! MPL 4.12.08 |
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CALL ABOR1(' SUSTAONL: JUSTE APRES MPL_RCV') |
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IGL1 = D%NFRSTLAT(JA) |
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IGL2 = D%NLSTLAT(JA) |
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IPOS = 0 |
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DO JB=1,N_REGIONS(JA) |
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DO JGL=IGL1,IGL2 |
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IGL = D%NPTRFRSTLAT(JA)+JGL-IGL1 |
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IPOS = IPOS+1 |
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D%NSTA(IGL,JB) = ICOMBUF(IPOS) |
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IPOS = IPOS+1 |
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D%NONL(IGL,JB) = ICOMBUF(IPOS) |
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ENDDO |
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ENDDO |
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ENDIF |
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ENDDO |
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ENDIF |
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ENDIF |
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! Confirm consistency of global partitioning, specifically testing for |
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! multiple assignments of same grid point and unassigned grid points |
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LLABORT = .FALSE. |
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DO JGL=1,R%NDGL |
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DO JL=1,G%NLOEN(JGL) |
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ICHK(JL,JGL) = 1 |
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ENDDO |
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ENDDO |
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DO JA=1,N_REGIONS_NS |
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IGLOFF = D%NPTRFRSTLAT(JA) |
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DO JB=1,N_REGIONS(JA) |
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IGL1 = D%NFRSTLAT(JA) |
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IGL2 = D%NLSTLAT(JA) |
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DO JGL=IGL1,IGL2 |
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IGL = IGLOFF+JGL-IGL1 |
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DO JL=D%NSTA(IGL,JB),D%NSTA(IGL,JB)+D%NONL(IGL,JB)-1 |
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IF( ICHK(JL,JGL) /= 1 )THEN |
352 |
|
|
WRITE(NOUT,'(" SUSTAONL : seta=",i4," setb=",i4,& |
353 |
|
|
&" row=",I4," sta=",I4," INVALID GRID POINT")')& |
354 |
|
|
&JA,JB,JGL,JL |
355 |
|
|
WRITE(0,'(" SUSTAONL : seta=",i4," setb=",i4,& |
356 |
|
|
&" ROW=",I4," sta=",I4," INVALID GRID POINT")')& |
357 |
|
|
&JA,JB,JGL,JL |
358 |
|
|
LLABORT = .TRUE. |
359 |
|
|
ENDIF |
360 |
|
|
ICHK(JL,JGL) = 2 |
361 |
|
|
ENDDO |
362 |
|
|
ENDDO |
363 |
|
|
ENDDO |
364 |
|
|
ENDDO |
365 |
|
|
DO JGL=1,R%NDGL |
366 |
|
|
DO JL=1,G%NLOEN(JGL) |
367 |
|
|
IF( ICHK(JL,JGL) /= 2 )THEN |
368 |
|
|
WRITE(NOUT,'(" SUSTAONL : row=",i4," sta=",i4,& |
369 |
|
|
&" GRID POINT NOT ASSIGNED")') JGL,JL |
370 |
|
|
LLABORT = .TRUE. |
371 |
|
|
ENDIF |
372 |
|
|
ENDDO |
373 |
|
|
ENDDO |
374 |
|
|
IF( LLABORT )THEN |
375 |
|
|
WRITE(NOUT,'(" SUSTAONL : inconsistent partitioning")') |
376 |
|
|
CALL ABORT_TRANS(' SUSTAONL: inconsistent partitioning') |
377 |
|
|
ENDIF |
378 |
|
|
|
379 |
|
|
|
380 |
|
|
IF (LLP1) THEN |
381 |
|
|
WRITE(UNIT=NOUT,FMT='('' OUTPUT FROM ROUTINE SUSTAONL '')') |
382 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
383 |
|
|
WRITE(UNIT=NOUT,FMT='('' PARTITIONING INFORMATION '')') |
384 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
385 |
|
|
IPROCB = MIN(32,N_REGIONS_EW) |
386 |
|
|
WRITE(UNIT=NOUT,FMT='(17X," SETB=",32(1X,I3))') (JB,JB=1,IPROCB) |
387 |
|
|
DO JA=1,N_REGIONS_NS |
388 |
|
|
IPROCB = MIN(32,N_REGIONS(JA)) |
389 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
390 |
|
|
IGLOFF = D%NPTRFRSTLAT(JA) |
391 |
|
|
IGL1 = D%NFRSTLAT(JA) |
392 |
|
|
IGL2 = D%NLSTLAT(JA) |
393 |
|
|
DO JGL=IGL1,IGL2 |
394 |
|
|
IGL=IGLOFF+JGL-IGL1 |
395 |
|
|
WRITE(UNIT=NOUT,FMT='(" SETA=",I3," LAT=",I3," NSTA=",& |
396 |
|
|
&32(1X,I3))') JA,JGL,(D%NSTA(IGL,JB),JB=1,IPROCB) |
397 |
|
|
WRITE(UNIT=NOUT,FMT='(" SETA=",I3," LAT=",I3," D%NONL=",& |
398 |
|
|
&32(1X,I3))') JA,JGL,(D%NONL(IGL,JB),JB=1,IPROCB) |
399 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
400 |
|
|
ENDDO |
401 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
402 |
|
|
ENDDO |
403 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
404 |
|
|
WRITE(UNIT=NOUT,FMT='('' '')') |
405 |
|
|
ENDIF |
406 |
|
|
|
407 |
|
|
! ------------------------------------------------------------------ |
408 |
|
|
|
409 |
|
|
END SUBROUTINE SUSTAONL |
410 |
|
|
END MODULE SUSTAONL_MOD |
411 |
|
|
|