MITgcm_contrib/cg2d_bench/exch.F

      SUBROUTINE EXCH_XY_R8( arr )

C     == Global variables ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "EXCH.h"

#ifdef ALLOW_MPI
#include "mpif.h"
#endif

#include "MPI_INFO.h"
#include "JAM_INFO.h"

C     == Routine arguments ==
      Real*8 arr(1-OLx:sNx+OLx,1-OLy:sNy+OLy)

C     == Local variables ==
      INTEGER I, J
      INTEGER northProc, southProc
      INTEGER farProc1, farProc2
      INTEGER toPid, fromPid
      INTEGER rc

      INTEGER myFourWayRank, exchangePhase

#ifdef ALLOW_MPI
      INTEGER mpiStatus(MPI_STATUS_SIZE)
#endif

C     East-west halo update (without corners)
      DO J=1,sNy
       DO I=1,OLx
        arr(1-I  ,J)     = arr(sNx-I+1,J)
        arr(sNx+I,J)     = arr(1+I-1  ,J)
       ENDDO
      ENDDO
   
C     Phase 1 pairing
C     | 0 |  ---> | 1 |
C     | 0 |  <--- | 1 |

C     | 2 |  ---> | 3 |
C     | 2 |  <--- | 3 |

C     | 4 |  ---> | 5 |
C     | 4 |  <--- | 5 |

C     etc ...             
C    

#ifdef USE_MPI_EXCH
C     North-south halo update (without corners)
C     Put my edges into a buffers
      IF ( MOD(myProcId,2) .EQ. 0 ) THEN
       DO I=1,sNx
        exchBuf1(I) = arr(I,sNy)
        exchBuf2(I) = arr(I,1  )
       ENDDO
      ELSE
       DO I=1,sNx
        exchBuf1(I) = arr(I,1  )
        exchBuf2(I) = arr(I,sNy)
       ENDDO
      ENDIF

C     Exchange the buffers
      northProc = mpi_northId
      southProc = mpi_southId
      IF ( MOD(myProcId,2) .EQ. 0 ) THEN
       farProc1 = northProc
       farProc2 = southProc
      ELSE
       farProc1 = southProc
       farProc2 = northProc
      ENDIF
C     Even-odd pairs
      IF ( farProc1 .NE. myProcId ) THEN
       CALL MPI_Sendrecv_replace(exchBuf1,sNx,MPI_DOUBLE_PRECISION,
     &                           farProc1,0,
     &                           farProc1,MPI_ANY_TAG,
     &                           MPI_COMM_WORLD,mpiStatus,
     &                           rc)
      ENDIF
C     Odd-even pairs
      IF ( farProc2 .NE. myProcId ) THEN
       CALL MPI_Sendrecv_replace(exchBuf2,sNx,MPI_DOUBLE_PRECISION,
     &                           farProc2,0,
     &                           farProc2,MPI_ANY_TAG,
     &                           MPI_COMM_WORLD,mpiStatus,
     &                           rc)
      ENDIF
#endif

#ifdef USE_JAM_EXCH

      myFourWayRank = MOD(myProcId,4)

      northProc = jam_northId
      southProc = jam_southId
      IF ( MOD(myProcId,2) .EQ. 0 ) THEN
C      sendBuf1  = &arr(I,sNy  )
C      recvBuf1  = &arr(I,sNy+1)
C      sendBuf2  = &arr(I,1    )
C      recvBuf2  = &arr(I,0    )
       farProc1 = northProc
       farProc2 = southProc
       IF ( farProc1 .NE. myProcId ) THEN
        CALL JAM_EXCHANGE(farProc1,arr(I,sNy),arr(I,sNy+1),sNx*8,jam_exchKey)
        jam_exchKey = jam_exchKey+1
       ENDIF

   10  CONTINUE
        CALL JAM_EXCHANGE_TEST( exchangePhase )
        IF ( myFourWayRank .EQ. 0 ) THEN
          IF ( exchangePhase .EQ. 0 ) GOTO 11
        ELSE
          IF ( exchangePhase .EQ. 1 ) GOTO 11
        ENDIF
       GOTO 10
   11  CONTINUE

       IF ( farProc2 .NE. myProcId ) THEN
        CALL JAM_EXCHANGE(farProc2,arr(I,1),arr(I,0),sNx*8,jam_exchKey)
        jam_exchKey = jam_exchKey+1
       ENDIF

       CALL JAM_EXCHANGE_MARK

      ELSE
C      sendBuf1  = &arr(I,1    )
C      recvBuf1  = &arr(I,0    )
C      sendBuf2  = &arr(I,sNy  )
C      recvBuf2  = &arr(I,sNy+1)
       farProc1 = southProc
       farProc2 = northProc
       IF ( farProc1 .NE. myProcId ) THEN
        CALL JAM_EXCHANGE(farProc1,arr(I,1),arr(I,0),sNx*8,jam_exchKey)
        jam_exchKey = jam_exchKey+1
       ENDIF

   20  CONTINUE
         CALL JAM_EXCHANGE_TEST( exchangePhase )
         IF ( myFourWayRank .EQ. 3 ) THEN
           IF ( exchangePhase .EQ. 0 ) GOTO 21
         ELSE
           IF ( exchangePhase .EQ. 1 ) GOTO 21
         ENDIF
       GOTO 20
   21  CONTINUE

       IF ( farProc2 .NE. myProcId ) THEN
        CALL JAM_EXCHANGE(farProc2,arr(I,sNy),arr(I,sNy+1),sNx*8,jam_exchKey)
        jam_exchKey = jam_exchKey+1
       ENDIF

       CALL JAM_EXCHANGE_MARK

      ENDIF
#endif

#ifdef USE_MPI_EXCH
C     Fill overlap regions from the buffers
      IF ( MOD(myProcId,2) .EQ. 0 ) THEN
       DO I=1,sNx
        arr(I,sNy+1) = exchBuf1(I)
        arr(I,0    ) = exchBuf2(I)
       ENDDO
      ELSE
       DO I=1,sNx
        arr(I,sNy+1) = exchBuf2(I)
        arr(I,0    ) = exchBuf1(I)
       ENDDO
      ENDIF
#endif

      IF ( numberOfProcs .EQ. 1 ) THEN
       DO I=1,sNx
        arr(I,sNy+1) = arr(I,1  )
        arr(I,0    ) = arr(I,sNy)
       ENDDO
      ENDIF

      RETURN
      END
1	ce107	1.1	SUBROUTINE EXCH_XY_R8( arr )
2
3			C == Global variables ==
4			#include "SIZE.h"
5			#include "EEPARAMS.h"
6			#include "EXCH.h"
7
8			#ifdef ALLOW_MPI
9			#include "mpif.h"
10			#endif
11
12			#include "MPI_INFO.h"
13			#include "JAM_INFO.h"
14
15			C == Routine arguments ==
16			Real*8 arr(1-OLx:sNx+OLx,1-OLy:sNy+OLy)
17
18			C == Local variables ==
19			INTEGER I, J
20			INTEGER northProc, southProc
21			INTEGER farProc1, farProc2
22			INTEGER toPid, fromPid
23			INTEGER rc
24
25			INTEGER myFourWayRank, exchangePhase
26
27			#ifdef ALLOW_MPI
28			INTEGER mpiStatus(MPI_STATUS_SIZE)
29			#endif
30
31			C East-west halo update (without corners)
32			DO J=1,sNy
33			DO I=1,OLx
34			arr(1-I ,J) = arr(sNx-I+1,J)
35			arr(sNx+I,J) = arr(1+I-1 ,J)
36			ENDDO
37			ENDDO
38
39			C Phase 1 pairing
40			C \| 0 \| ---> \| 1 \|
41			C \| 0 \| <--- \| 1 \|
42
43			C \| 2 \| ---> \| 3 \|
44			C \| 2 \| <--- \| 3 \|
45
46			C \| 4 \| ---> \| 5 \|
47			C \| 4 \| <--- \| 5 \|
48
49			C etc ...
50			C
51
52			#ifdef USE_MPI_EXCH
53			C North-south halo update (without corners)
54			C Put my edges into a buffers
55			IF ( MOD(myProcId,2) .EQ. 0 ) THEN
56			DO I=1,sNx
57			exchBuf1(I) = arr(I,sNy)
58			exchBuf2(I) = arr(I,1 )
59			ENDDO
60			ELSE
61			DO I=1,sNx
62			exchBuf1(I) = arr(I,1 )
63			exchBuf2(I) = arr(I,sNy)
64			ENDDO
65			ENDIF
66
67			C Exchange the buffers
68			northProc = mpi_northId
69			southProc = mpi_southId
70			IF ( MOD(myProcId,2) .EQ. 0 ) THEN
71			farProc1 = northProc
72			farProc2 = southProc
73			ELSE
74			farProc1 = southProc
75			farProc2 = northProc
76			ENDIF
77			C Even-odd pairs
78			IF ( farProc1 .NE. myProcId ) THEN
79			CALL MPI_Sendrecv_replace(exchBuf1,sNx,MPI_DOUBLE_PRECISION,
80			& farProc1,0,
81			& farProc1,MPI_ANY_TAG,
82			& MPI_COMM_WORLD,mpiStatus,
83			& rc)
84			ENDIF
85			C Odd-even pairs
86			IF ( farProc2 .NE. myProcId ) THEN
87			CALL MPI_Sendrecv_replace(exchBuf2,sNx,MPI_DOUBLE_PRECISION,
88			& farProc2,0,
89			& farProc2,MPI_ANY_TAG,
90			& MPI_COMM_WORLD,mpiStatus,
91			& rc)
92			ENDIF
93			#endif
94
95			#ifdef USE_JAM_EXCH
96
97			myFourWayRank = MOD(myProcId,4)
98
99			northProc = jam_northId
100			southProc = jam_southId
101			IF ( MOD(myProcId,2) .EQ. 0 ) THEN
102			C sendBuf1 = &arr(I,sNy )
103			C recvBuf1 = &arr(I,sNy+1)
104			C sendBuf2 = &arr(I,1 )
105			C recvBuf2 = &arr(I,0 )
106			farProc1 = northProc
107			farProc2 = southProc
108			IF ( farProc1 .NE. myProcId ) THEN
109			CALL JAM_EXCHANGE(farProc1,arr(I,sNy),arr(I,sNy+1),sNx*8,jam_exchKey)
110			jam_exchKey = jam_exchKey+1
111			ENDIF
112
113			10 CONTINUE
114			CALL JAM_EXCHANGE_TEST( exchangePhase )
115			IF ( myFourWayRank .EQ. 0 ) THEN
116			IF ( exchangePhase .EQ. 0 ) GOTO 11
117			ELSE
118			IF ( exchangePhase .EQ. 1 ) GOTO 11
119			ENDIF
120			GOTO 10
121			11 CONTINUE
122
123			IF ( farProc2 .NE. myProcId ) THEN
124			CALL JAM_EXCHANGE(farProc2,arr(I,1),arr(I,0),sNx*8,jam_exchKey)
125			jam_exchKey = jam_exchKey+1
126			ENDIF
127
128			CALL JAM_EXCHANGE_MARK
129
130			ELSE
131			C sendBuf1 = &arr(I,1 )
132			C recvBuf1 = &arr(I,0 )
133			C sendBuf2 = &arr(I,sNy )
134			C recvBuf2 = &arr(I,sNy+1)
135			farProc1 = southProc
136			farProc2 = northProc
137			IF ( farProc1 .NE. myProcId ) THEN
138			CALL JAM_EXCHANGE(farProc1,arr(I,1),arr(I,0),sNx*8,jam_exchKey)
139			jam_exchKey = jam_exchKey+1
140			ENDIF
141
142			20 CONTINUE
143			CALL JAM_EXCHANGE_TEST( exchangePhase )
144			IF ( myFourWayRank .EQ. 3 ) THEN
145			IF ( exchangePhase .EQ. 0 ) GOTO 21
146			ELSE
147			IF ( exchangePhase .EQ. 1 ) GOTO 21
148			ENDIF
149			GOTO 20
150			21 CONTINUE
151
152			IF ( farProc2 .NE. myProcId ) THEN
153			CALL JAM_EXCHANGE(farProc2,arr(I,sNy),arr(I,sNy+1),sNx*8,jam_exchKey)
154			jam_exchKey = jam_exchKey+1
155			ENDIF
156
157			CALL JAM_EXCHANGE_MARK
158
159			ENDIF
160			#endif
161
162			#ifdef USE_MPI_EXCH
163			C Fill overlap regions from the buffers
164			IF ( MOD(myProcId,2) .EQ. 0 ) THEN
165			DO I=1,sNx
166			arr(I,sNy+1) = exchBuf1(I)
167			arr(I,0 ) = exchBuf2(I)
168			ENDDO
169			ELSE
170			DO I=1,sNx
171			arr(I,sNy+1) = exchBuf2(I)
172			arr(I,0 ) = exchBuf1(I)
173			ENDDO
174			ENDIF
175			#endif
176
177			IF ( numberOfProcs .EQ. 1 ) THEN
178			DO I=1,sNx
179			arr(I,sNy+1) = arr(I,1 )
180			arr(I,0 ) = arr(I,sNy)
181			ENDDO
182			ENDIF
183
184			RETURN
185			END