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C $Header: $ |
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C $Name: $ |
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#include "CPP_EEOPTIONS.h" |
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|
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SUBROUTINE EXCH_RX_RECV_GET_Y( array, |
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I myOLw, myOLe, myOLs, myOLn, myNz, |
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I exchWidthX, exchWidthY, |
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I theSimulationMode, theCornerMode, myThid ) |
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C /==========================================================\ |
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C | SUBROUTINE RECV_GET_Y | |
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C | o "Send" or "put" Y edges for RX array. | |
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C |==========================================================| |
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C | Routine that invokes actual message passing send or | |
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C | direct "put" of data to update X faces of an XY[R] array.| |
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C \==========================================================/ |
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IMPLICIT NONE |
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|
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C == Global variables == |
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#include "SIZE.h" |
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#include "EEPARAMS.h" |
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#include "EESUPPORT.h" |
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#include "EXCH.h" |
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|
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C == Routine arguments == |
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C array - Array with edges to exchange. |
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C myOLw - West, East, North and South overlap region sizes. |
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C myOLe |
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C myOLn |
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C myOLs |
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C exchWidthX - Width of data region exchanged. |
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C exchWidthY |
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C theSimulationMode - Forward or reverse mode exchange ( provides |
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C support for adjoint integration of code. ) |
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C theCornerMode - Flag indicating whether corner updates are |
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C needed. |
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C myThid - Thread number of this instance of S/R EXCH... |
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C eBl - Edge buffer level |
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INTEGER myOLw |
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INTEGER myOLe |
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INTEGER myOLs |
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INTEGER myOLn |
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INTEGER myNz |
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_RX array(1-myOLw:sNx+myOLe, |
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& 1-myOLs:sNy+myOLn, |
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& myNZ, nSx, nSy) |
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INTEGER exchWidthX |
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INTEGER exchWidthY |
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INTEGER theSimulationMode |
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INTEGER theCornerMode |
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INTEGER myThid |
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CEndOfInterface |
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|
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C == Local variables == |
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C I, J, K, iMin, iMax, iB - Loop counters and extents |
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C bi, bj |
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C biS, bjS - South tile indices |
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C biN, bjN - North tile indices |
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C eBl - Current exchange buffer level |
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C theProc, theTag, theType, - Variables used in message building |
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C theSize |
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C southCommMode - Working variables holding type |
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C northCommMode of communication a particular |
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C tile face uses. |
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C spinCount - Exchange statistics counter |
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INTEGER I, J, K, iMin, iMax, jMin, jMax, iB, iB0 |
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INTEGER bi, bj, biS, bjS, biN, bjN |
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INTEGER eBl |
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INTEGER southCommMode |
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INTEGER northCommMode |
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INTEGER spinCount |
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#ifdef ALLOW_USE_MPI |
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INTEGER theProc, theTag, theType, theSize |
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INTEGER mpiStatus(MPI_STATUS_SIZE,4), mpiRc |
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#endif |
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|
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|
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C-- Under a "put" scenario we |
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C-- i. set completetion signal for buffer we put into. |
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C-- ii. wait for completetion signal indicating data has been put in |
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C-- our buffer. |
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C-- Under a messaging mode we "receive" the message. |
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C-- Under a "get" scenario we |
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C-- i. Check that the data is ready. |
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C-- ii. Read the data. |
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C-- iii. Set data read flag + memory sync. |
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|
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|
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DO bj=myByLo(myThid),myByHi(myThid) |
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DO bi=myBxLo(myThid),myBxHi(myThid) |
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ebL = exchangeBufLevel(1,bi,bj) |
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southCommMode = _tileCommModeS(bi,bj) |
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northCommMode = _tileCommModeN(bi,bj) |
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biN = _tileBiN(bi,bj) |
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bjN = _tileBjN(bi,bj) |
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biS = _tileBiS(bi,bj) |
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bjS = _tileBjS(bi,bj) |
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IF ( southCommMode .EQ. COMM_MSG ) THEN |
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#ifdef ALLOW_USE_MPI |
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#ifndef ALWAYS_USE_MPI |
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IF ( usingMPI ) THEN |
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#endif |
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theProc = tilePidS(bi,bj) |
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theTag = _tileTagRecvS(bi,bj) |
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theType = MPI_DOUBLE_PRECISION |
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theSize = sNx*exchWidthY*myNz |
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IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) |
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& theSize = (sNx+2*exchWidthX)*exchWidthY*myNz |
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CALL MPI_Recv( southRecvBuf_RX(1,eBl,bi,bj), theSize, theType, |
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& theProc, theTag, MPI_COMM_MODEL, |
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& mpiStatus, mpiRc ) |
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#ifndef ALWAYS_USE_MPI |
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ENDIF |
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#endif |
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#endif /* ALLOW_USE_MPI */ |
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ENDIF |
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IF ( northCommMode .EQ. COMM_MSG ) THEN |
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#ifdef ALLOW_USE_MPI |
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#ifndef ALWAYS_USE_MPI |
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IF ( usingMPI ) THEN |
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#endif |
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theProc = tilePidN(bi,bj) |
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theTag = _tileTagRecvN(bi,bj) |
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theType = MPI_DOUBLE_PRECISION |
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theSize = sNx*exchWidthY*myNz |
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IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) |
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& theSize = (sNx+2*exchWidthX)*exchWidthY*myNz |
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CALL MPI_Recv( northRecvBuf_RX(1,eBl,bi,bj), theSize, theType, |
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& theProc, theTag, MPI_COMM_MODEL, |
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& mpiStatus, mpiRc ) |
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#ifndef ALWAYS_USE_MPI |
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ENDIF |
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#endif |
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#endif /* ALLOW_USE_MPI */ |
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ENDIF |
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ENDDO |
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ENDDO |
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|
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C-- Wait for buffers I am going read to be ready. |
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IF ( exchUsesBarrier ) THEN |
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C o On some machines ( T90 ) use system barrier rather than spinning. |
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CALL BARRIER( myThid ) |
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ELSE |
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C o Spin waiting for completetion flag. This avoids a global-lock |
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C i.e. we only lock waiting for data that we need. |
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DO bj=myByLo(myThid),myByHi(myThid) |
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DO bi=myBxLo(myThid),myBxHi(myThid) |
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ebL = exchangeBufLevel(1,bi,bj) |
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southCommMode = _tileCommModeS(bi,bj) |
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northCommMode = _tileCommModeN(bi,bj) |
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spinCount = 0 |
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10 CONTINUE |
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CALL FOOL_THE_COMPILER |
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spinCount = spinCount+1 |
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C IF ( myThid .EQ. 1 .AND. spinCount .GT. _EXCH_SPIN_LIMIT ) THEN |
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C STOP ' S/R EXCH_RECV_GET_Y: spinCount .GT. _EXCH_SPIN_LIMIT' |
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C ENDIF |
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IF ( southRecvAck(eBl,bi,bj) .EQ. 0. ) GOTO 10 |
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IF ( northRecvAck(eBl,bi,bj) .EQ. 0. ) GOTO 10 |
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C Clear requests |
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southRecvAck(eBl,bi,bj) = 0. |
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northRecvAck(eBl,bi,bj) = 0. |
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C Update statistics |
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IF ( exchCollectStatistics ) THEN |
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exchRecvYExchCount(1,bi,bj) = exchRecvYExchCount(1,bi,bj)+1 |
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exchRecvYSpinCount(1,bi,bj) = |
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& exchRecvYSpinCount(1,bi,bj)+spinCount |
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exchRecvYSpinMax(1,bi,bj) = |
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& MAX(exchRecvYSpinMax(1,bi,bj),spinCount) |
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exchRecvYSpinMin(1,bi,bj) = |
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& MIN(exchRecvYSpinMin(1,bi,bj),spinCount) |
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ENDIF |
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|
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|
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IF ( exchNReqsY(1,bi,bj) .GT. 0 ) THEN |
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#ifdef ALLOW_USE_MPI |
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#ifndef ALWAYS_USE_MPI |
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IF ( usingMPI ) THEN |
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#endif |
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CALL MPI_Waitall( exchNReqsY(1,bi,bj), exchReqIdY(1,1,bi,bj), |
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& mpiStatus, mpiRC ) |
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#ifndef ALWAYS_USE_MPI |
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ENDIF |
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#endif |
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#endif /* ALLOW_USE_MPI */ |
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ENDIF |
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C Clear outstanding requests counter |
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exchNReqsY(1,bi,bj) = 0 |
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ENDDO |
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ENDDO |
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ENDIF |
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|
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C-- Read from the buffers |
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DO bj=myByLo(myThid),myByHi(myThid) |
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DO bi=myBxLo(myThid),myBxHi(myThid) |
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|
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ebL = exchangeBufLevel(1,bi,bj) |
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biN = _tileBiN(bi,bj) |
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bjN = _tileBjN(bi,bj) |
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biS = _tileBiS(bi,bj) |
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bjS = _tileBjS(bi,bj) |
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southCommMode = _tileCommModeS(bi,bj) |
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northCommMode = _tileCommModeN(bi,bj) |
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IF ( theCornerMode .EQ. EXCH_UPDATE_CORNERS ) THEN |
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iMin = 1-exchWidthX |
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iMax = sNx+exchWidthX |
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ELSE |
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iMin = 1 |
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iMax = sNx |
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ENDIF |
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IF ( _theSimulationMode .EQ. FORWARD_SIMULATION ) THEN |
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jMin = sNy+1 |
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jMax = sNy+exchWidthY |
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iB0 = 0 |
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IF ( northCommMode .EQ. COMM_PUT |
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& .OR. northCommMode .EQ. COMM_MSG ) THEN |
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iB = 0 |
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DO K=1,myNz |
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DO J=jMin,jMax |
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DO I=iMin,iMax |
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iB = iB + 1 |
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array(I,J,K,bi,bj) = northRecvBuf_RX(iB,eBl,bi,bj) |
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ENDDO |
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ENDDO |
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ENDDO |
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ELSEIF ( northCommMode .EQ. COMM_GET ) THEN |
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DO K=1,myNz |
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iB = iB0 |
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DO J=jMin,jMax |
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iB = iB+1 |
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DO I=iMin,iMax |
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array(I,J,K,bi,bj) = array(I,iB,K,biN,bjN) |
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ENDDO |
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ENDDO |
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ENDDO |
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ENDIF |
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ELSEIF ( _theSimulationMode .EQ. REVERSE_SIMULATION ) THEN |
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jMin = sNy-exchWidthY+1 |
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jMax = sNy |
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iB0 = 1-exchWidthY-1 |
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IF ( northCommMode .EQ. COMM_PUT |
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& .OR. northCommMode .EQ. COMM_MSG ) THEN |
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iB = 0 |
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DO K=1,myNz |
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DO J=jMin,jMax |
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DO I=iMin,iMax |
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iB = iB + 1 |
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array(I,J,K,bi,bj) = |
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& array(I,J,K,bi,bj)+northRecvBuf_RX(iB,eBl,bi,bj) |
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ENDDO |
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ENDDO |
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ENDDO |
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ELSEIF ( northCommMode .EQ. COMM_GET ) THEN |
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DO K=1,myNz |
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iB = iB0 |
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DO J=jMin,jMax |
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iB = iB+1 |
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DO I=iMin,iMax |
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array(I,J,K,bi,bj) = |
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& array(I,J,K,bi,bj)+array(I,iB,K,biN,bjN) |
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ENDDO |
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ENDDO |
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ENDDO |
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ENDIF |
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ENDIF |
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|
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IF ( _theSimulationMode .EQ. FORWARD_SIMULATION ) THEN |
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jMin = 1-exchWidthY |
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jMax = 0 |
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iB0 = sNy-exchWidthY |
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IF ( southCommMode .EQ. COMM_PUT |
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& .OR. southCommMode .EQ. COMM_MSG ) THEN |
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iB = 0 |
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DO K=1,myNz |
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DO J=jMin,jMax |
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DO I=iMin,iMax |
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iB = iB + 1 |
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array(I,J,K,bi,bj) = southRecvBuf_RX(iB,eBl,bi,bj) |
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ENDDO |
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ENDDO |
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ENDDO |
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ELSEIF ( southCommMode .EQ. COMM_GET ) THEN |
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DO K=1,myNz |
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iB = iB0 |
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DO J=jMin,jMax |
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iB = iB+1 |
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DO I=iMin,iMax |
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array(I,J,K,bi,bj) = array(I,iB,K,biS,bjS) |
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ENDDO |
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ENDDO |
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ENDDO |
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ENDIF |
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ELSEIF ( _theSimulationMode .EQ. REVERSE_SIMULATION ) THEN |
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jMin = 1 |
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jMax = 1+exchWidthY-1 |
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iB0 = sNy |
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IF ( southCommMode .EQ. COMM_PUT |
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& .OR. southCommMode .EQ. COMM_MSG ) THEN |
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iB = 0 |
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DO K=1,myNz |
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DO J=jMin,jMax |
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DO I=iMin,iMax |
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iB = iB + 1 |
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array(I,J,K,bi,bj) = |
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& array(I,J,K,bi,bj)+southRecvBuf_RX(iB,eBl,bi,bj) |
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ENDDO |
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ENDDO |
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ENDDO |
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ELSEIF ( southCommMode .EQ. COMM_GET ) THEN |
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DO K=1,myNz |
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iB = iB0 |
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DO J=jMin,jMax |
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iB = iB+1 |
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DO I=iMin,iMax |
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array(I,J,K,bi,bj) = |
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& array(I,J,K,bi,bj)+array(I,iB,K,biS,bjS) |
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ENDDO |
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ENDDO |
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ENDDO |
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ENDIF |
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ENDIF |
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ENDDO |
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ENDDO |
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|
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RETURN |
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END |