eesupp/inc/EESUPPORT.h

C $Header: /u/gcmpack/MITgcm/eesupp/inc/EESUPPORT.h,v 1.8 2004/05/04 18:04:27 afe Exp $
C $Name:  $
CBOP
C     !ROUTINE: EESUPPORT.h
C     !INTERFACE:
C     include "EESUPPORT.h"
C
C     !DESCRIPTION:
C     *==========================================================*
C     | EESUPPORT.h                                              |
C     *==========================================================*
C     | Support data structures for the MITgcm UV ``execution    |
C     | environment'' code. This data should be private to the   |
C     | execution environment routines. Data which needs to be   |
C     | accessed directly by a numerical model goes in           |
C     | EEPARAMS.h.                                              |
C     *==========================================================*
CEOP

C     ERROR_HEADER        - String which prefixes error messages
      CHARACTER*(*) ERROR_HEADER
      PARAMETER ( ERROR_HEADER = ' *** ERROR ***' )
C     PROCESS_HEADER      - String which prefixes processor number
      CHARACTER*(*) PROCESS_HEADER
      PARAMETER ( PROCESS_HEADER = 'PID.TID' )

C     MAX_NUM_COMM_MODES - Maximum number of communication modes
C     COMM_NONE       - No edge communication
C     COMM_MSG        - Use messages to communicate edges
C     COMM_PUT        - Use put to communicate edges
C     COMM_GET        - Use get to communicate edges
C     Note - commName holds an identifying name for each communication
C            mode. The COMM_ parameters are used to index commName
C            so the COMM_ parameters need to be in the range
C            1 : MAX_NUM_COMM_MODES.
      INTEGER MAX_NUM_COMM_MODES
      PARAMETER ( MAX_NUM_COMM_MODES = 4 )
      INTEGER COMM_NONE
      PARAMETER ( COMM_NONE   =   1 )
      INTEGER COMM_MSG
      PARAMETER ( COMM_MSG    =   2 )
      INTEGER COMM_PUT
      PARAMETER ( COMM_PUT    =   3 )
      INTEGER COMM_GET
      PARAMETER ( COMM_GET    =   4 )
      COMMON /EESUPP_COMMNAME/ commName
      CHARACTER*10 commName(MAX_NUM_COMM_MODES)

C     Tile identifiers
C     Tiles have a number that is unique over the global domain.
C     A tile that is not there has its number set to NULL_TILE
      INTEGER NULL_TILE
      PARAMETER ( NULL_TILE = -1 )


C--   COMMON /EESUPP_C/ Execution environment support character variables
C     myProcessStr - String identifying my process number
      COMMON /EESUPP_C/ myProcessStr
      CHARACTER*128 myProcessStr

C--   COMMON /EESUPP_L/ Execution environment support logical variables
C     initMPError - Flag indicating error during multi-processing
C                   initialisation.
C     finMPError  - Flag indicating error during multi-processing
C                   termination.
C     ThError     - Thread detected an error.
C     usingMPI    - Flag controlling use of MPI routines. This flag
C                   allows either MPI or threads to be used in a
C                   shared memory environment which can be a useful
C                   debugging/performance analysis tool.
C     usingSyncMessages - Flag that causes blocking communication to be used
C                         if possible. When false non-blocking EXCH routines
C                         will be used if possible.
C     notUsingXPeriodicity - Flag indicating no X/Y boundary wrap around
C     notUsingYPeriodicity   This affects the communication routines but
C                            is generally ignored in the numerical model
C                            code.
C     threadIsRunning, threadIsComplete - Flags used to check for correct behaviour
C                                         of multi-threaded code.
C                                         threadIsRunning is used to check that the
C                                         threads we need are running. This catches the
C                                         situation where a program eedata file has nTthreads
C                                         greater than the setenv PARALLEL or NCPUS variable.
C                                         threadIsComplete is used to flag that a thread has
C                                         reached the end of the model. This is used as a check to
C                                         trap problems that might occur if one thread "escapes"
C                                         the main.F master loop. This should not happen
C                                         if the multi-threading compilation tools works right.
C                                         But (see for example KAP) this is not always the case!
C     printMapIncludesZeros - Flag that controls whether character constant map code ignores
C                             exact zero values.
      COMMON /EESUPP_L/ thError, threadIsRunning, threadIsComplete,
     & allMyEdgesAreSharedMemory, usingMPI, usingSyncMessages,
     & notUsingXPeriodicity, notUsingYPeriodicity,
     & printMapIncludesZeros
      LOGICAL thError(MAX_NO_THREADS)
      LOGICAL threadIsRunning(MAX_NO_THREADS)
      LOGICAL threadIsComplete(MAX_NO_THREADS)
      LOGICAL allMyEdgesAreSharedMemory(MAX_NO_THREADS)
      LOGICAL usingMPI
      LOGICAL usingSyncMessages
      LOGICAL notUsingXPeriodicity
      LOGICAL notUsingYPeriodicity
      LOGICAL printMapIncludesZeros
 
C--   COMMON /EESUPP_I/ Parallel support integer globals
C     pidW   -  Process  ID of neighbor to West
C     pidE   -           ditto             East
C     pidN   -           ditto             North
C     pidS   -           ditto             South
C              Note: pid[XY] is not necessairily the UNIX
C                    process id - it is just an identifying
C                    number.
C     myPid  - My own process id
C     nProcs - Number of processes
C     westCommunicationMode  - Mode of communication for each tile face
C     eastCommunicationMode
C     northCommunicationMode
C     southCommunicationMode
C     bi0   - Low cartesian tile index for this process
C     bj0     Note - In a tile distribution with holes bi0 and bj0
C                    are not useful. Neighboring tile indices must
C                    be derived some other way.
C     tileNo       - Tile identification number for my tile and
C     tileNo[WENS]   my N,S,E,W neighbor tiles.
C     tilePid[WENS] - Process identification number for
C                     my N,S,E,W neighbor tiles.
C     nTx, nTy    - No. threads in X and Y. This assumes a simple
C                   cartesian gridding of the threads which is not
C                   required elsewhere but that makes it easier.
      COMMON /EESUPP_I/
     & myPid, nProcs, pidW, pidE, pidN, pidS,
     & tileCommModeW,  tileCommModeE,
     & tileCommModeN,  tileCommModeS,
     & tileNo, tileNoW, tileNoE, tileNoS, tileNoN,
     &  tilePidW, tilePidE, tilePidS, tilePidN,
     &  tileBiW, tileBiE, tileBiS, tileBiN,
     & tileBjW, tileBjE, tileBjS, tileBjN,
     & tileTagSendW, tileTagSendE, tileTagSendS, tileTagSendN,
     & tileTagRecvW, tileTagRecvE, tileTagRecvS, tileTagRecvN
      INTEGER myPid
      INTEGER nProcs
      INTEGER pidW
      INTEGER pidE
      INTEGER pidN
      INTEGER pidS
      INTEGER tileCommModeW ( nSx, nSy )
      INTEGER tileCommModeE ( nSx, nSy )
      INTEGER tileCommModeN ( nSx, nSy )
      INTEGER tileCommModeS ( nSx, nSy )
      INTEGER tileNo( nSx, nSy )
      INTEGER tileNoW( nSx, nSy )
      INTEGER tileNoE( nSx, nSy )
      INTEGER tileNoN( nSx, nSy )
      INTEGER tileNoS( nSx, nSy )
      INTEGER tilePidW( nSx, nSy )
      INTEGER tilePidE( nSx, nSy )
      INTEGER tilePidN( nSx, nSy )
      INTEGER tilePidS( nSx, nSy )
      INTEGER tileBiW( nSx, nSy )
      INTEGER tileBiE( nSx, nSy )
      INTEGER tileBiN( nSx, nSy )
      INTEGER tileBiS( nSx, nSy )
      INTEGER tileBjW( nSx, nSy )
      INTEGER tileBjE( nSx, nSy )
      INTEGER tileBjN( nSx, nSy )
      INTEGER tileBjS( nSx, nSy )
      INTEGER tileTagSendW( nSx, nSy )
      INTEGER tileTagSendE( nSx, nSy )
      INTEGER tileTagSendN( nSx, nSy )
      INTEGER tileTagSendS( nSx, nSy )
      INTEGER tileTagRecvW( nSx, nSy )
      INTEGER tileTagRecvE( nSx, nSy )
      INTEGER tileTagRecvN( nSx, nSy )
      INTEGER tileTagRecvS( nSx, nSy )

#ifdef ALLOW_USE_MPI
C--   Include MPI standard Fortran header file
#include "mpif.h"
#define _mpiTRUE_  1
#define _mpiFALSE_ 0

C--   COMMON /EESUPP_MPI_I/ MPI parallel support integer globals
C     mpiPidW   - MPI process id for west neighbor.
C     mpiPidE   - MPI process id for east neighbor.
C     mpiPidN   - MPI process id for north neighbor.
C     mpiPidS   - MPI process id for south neighbor.
C     mpiPidNW  - MPI process id for northwest neighbor.
C     mpiPidNE  - MPI process id for northeast neighbor.
C     mpiPidSW  - MPI process id for southwest neighbor.
C     mpiPidSE  - MPI process id for southeast neighbor.
C     mpiPidIO  - MPI process to use for IO.
C     mpiNprocs - No. of MPI processes.
C     mpiMyId   - MPI process id of me.
C     mpiComm   - MPI communicator to use.
C     mpiPx     - My MPI proc. grid X coord
C     mpiPy     - My MPI proc. grid Y coord
C     mpiXGlobalLo - My bottom-left (south-west) x-coordinate in
C                    global domain.
C     mpiYGlobalLo - My bottom-left (south-west) y-coordinate in
C                    global domain.
C     mpiTypeXFaceBlock_xy_r4  - Primitives for communicating edge
C     mpiTypeXFaceBlock_xy_r8    of a block.
C     mpiTypeYFaceBlock_xy_r4    XFace is used in east-west transfer
C     mpiTypeYFaceBlock_xy_r8    YFace is used in nrth-south transfer
C     mpiTypeXFaceBlock_xyz_r4   xy is used in two-dimensional arrays
C     mpiTypeXFaceBlock_xyz_r8   xyz is used with three-dimensional arrays
C     mpiTypeYFaceBlock_xyz_r4   r4 is used for real*4 data
C     mpiTypeYFaceBlock_xyz_r8   r8 is used for real*8 data
C     mpiTypeXFaceThread_xy_r4  - Composites of the above primitives
C     mpiTypeXFaceThread_xy_r8    for communicating edges of all blocks
C     mpiTypeYFaceThread_xy_r4    owned by a thread.
C     mpiTypeYFaceThread_xy_r8
C     mpiTypeXFaceThread_xyz_r4
C     mpiTypeXFaceThread_xyz_r8
C     mpiTypeYFaceThread_xyz_r4
C     mpiTypeYFaceBlock_xyz_r8
C     mpiTagE       - Tags are needed to mark requests when MPI is running
C     mpiTagW         between multithreaded processes or when the same process.
C     mpiTagS         is a neighbor in more than one direction. The tags ensure that
C     mpiTagN         a thread will get the message it is looking for.
C     mpiTagSW        The scheme adopted is to tag messages according to
C     mpiTagSE        the direction they are travelling. Thus a message
C     mpiTagNW        travelling east is tagged mpiTagE. However, in a
C     mpiTagNE        multi-threaded environemnt several messages could
C                     be travelling east from the same process at the
C                     same time. The tag is therefore modified to
C                     be mpiTag[EWS...]*nThreads+myThid. This requires that
C                     each thread also know the thread ids of its "neighbor"
C                     threads.
      COMMON /EESUPP_MPI_I/
     & mpiPidW,  mpiPidE,  mpiPidS,  mpiPidN,
     & mpiPidSE, mpiPidSW, mpiPidNE, mpiPidNW,
     & mpiPidIo, mpiMyId, mpiNProcs, mpiComm,
     & mpiPx, mpiPy, mpiXGlobalLo, mpiYGlobalLo,
     & mpiTypeXFaceBlock_xy_r4, mpiTypeXFaceBlock_xy_r8,
     & mpiTypeYFaceBlock_xy_r4, mpiTypeYFaceBlock_xy_r8,
     & mpiTypeXFaceBlock_xyz_r4, mpiTypeXFaceBlock_xyz_r8,
     & mpiTypeYFaceBlock_xyz_r4, mpiTypeYFaceBlock_xyz_r8,
     & mpiTypeXFaceThread_xy_r4, mpiTypeXFaceThread_xy_r8,
     & mpiTypeYFaceThread_xy_r4, mpiTypeYFaceThread_xy_r8,
     & mpiTypeXFaceThread_xyz_r4, mpiTypeXFaceThread_xyz_r8,
     & mpiTypeYFaceThread_xyz_r4, mpiTypeYFaceThread_xyz_r8,
     & mpiTagE, mpiTagW, mpiTagN, mpiTagS,
     & mpiTagSE, mpiTagSW, mpiTagNW, mpiTagNE

      INTEGER mpiPidW
      INTEGER mpiPidE
      INTEGER mpiPidS
      INTEGER mpiPidN
      INTEGER mpiPidSW
      INTEGER mpiPidSE
      INTEGER mpiPidNW
      INTEGER mpiPidNE
      INTEGER mpiPidIO
      INTEGER mpiMyId
      INTEGER mpiNProcs
      INTEGER mpiComm
      INTEGER mpiPx
      INTEGER mpiPy
      INTEGER mpiXGlobalLo
      INTEGER mpiYGlobalLo
      INTEGER mpiTypeXFaceBlock_xy_r4
      INTEGER mpiTypeXFaceBlock_xy_r8
      INTEGER mpiTypeYFaceBlock_xy_r4
      INTEGER mpiTypeYFaceBlock_xy_r8
      INTEGER mpiTypeXFaceBlock_xyz_r4
      INTEGER mpiTypeXFaceBlock_xyz_r8
      INTEGER mpiTypeYFaceBlock_xyz_r4
      INTEGER mpiTypeYFaceBlock_xyz_r8
      INTEGER mpiTypeXFaceThread_xy_r4(MAX_NO_THREADS)
      INTEGER mpiTypeXFaceThread_xy_r8(MAX_NO_THREADS)
      INTEGER mpiTypeYFaceThread_xy_r4(MAX_NO_THREADS)
      INTEGER mpiTypeYFaceThread_xy_r8(MAX_NO_THREADS)
      INTEGER mpiTypeXFaceThread_xyz_r4(MAX_NO_THREADS)
      INTEGER mpiTypeXFaceThread_xyz_r8(MAX_NO_THREADS)
      INTEGER mpiTypeYFaceThread_xyz_r4(MAX_NO_THREADS)
      INTEGER mpiTypeYFaceThread_xyz_r8(MAX_NO_THREADS)
      INTEGER mpiTagNW
      INTEGER mpiTagNE
      INTEGER mpiTagSW
      INTEGER mpiTagSE
      INTEGER mpiTagW
      INTEGER mpiTagE
      INTEGER mpiTagN
      INTEGER mpiTagS

C--   COMMON /MPI_FULLMAP_I/ holds integer arrays of the full list of MPI process
C     mpi_myXGlobalLo :: List of all processors bottom-left X-index in global domain
C     mpi_myYGlobalLo :: List of all processors bottom-left Y-index in global domain
C                        Note: needed for mpi gather/scatter routines & singleCpuIO.
      COMMON /MPI_FULLMAP_I/
     &        mpi_myXGlobalLo, mpi_myYGlobalLo
      INTEGER mpi_myXGlobalLo(nPx*nPy)
      INTEGER mpi_myYGlobalLo(nPx*nPy)

C MPI communicator describing this model realization
      COMMON /MPI_COMMS/
     &        MPI_COMM_MODEL
      INTEGER MPI_COMM_MODEL

#endif /* ALLOW_USE_MPI */
1	jmc	1.9	C $Header: /u/gcmpack/MITgcm/eesupp/inc/EESUPPORT.h,v 1.8 2004/05/04 18:04:27 afe Exp $
2	cnh	1.7	C $Name: $
3			CBOP
4	jmc	1.9	C !ROUTINE: EESUPPORT.h
5	cnh	1.7	C !INTERFACE:
6			C include "EESUPPORT.h"
7	cnh	1.1	C
8	cnh	1.7	C !DESCRIPTION:
9			C ==========================================================
10	cnh	1.1	C \| EESUPPORT.h \|
11	cnh	1.7	C ==========================================================
12	afe	1.8	C \| Support data structures for the MITgcm UV ``execution \|
13			C \| environment'' code. This data should be private to the \|
14	cnh	1.1	C \| execution environment routines. Data which needs to be \|
15	cnh	1.7	C \| accessed directly by a numerical model goes in \|
16	cnh	1.1	C \| EEPARAMS.h. \|
17	cnh	1.7	C ==========================================================
18			CEOP
19	cnh	1.1
20			C ERROR_HEADER - String which prefixes error messages
21			CHARACTER() ERROR_HEADER
22			PARAMETER ( ERROR_HEADER = ' * ERROR *' )
23			C PROCESS_HEADER - String which prefixes processor number
24			CHARACTER() PROCESS_HEADER
25			PARAMETER ( PROCESS_HEADER = 'PID.TID' )
26
27	cnh	1.4	C MAX_NUM_COMM_MODES - Maximum number of communication modes
28	cnh	1.1	C COMM_NONE - No edge communication
29	cnh	1.4	C COMM_MSG - Use messages to communicate edges
30			C COMM_PUT - Use put to communicate edges
31			C COMM_GET - Use get to communicate edges
32			C Note - commName holds an identifying name for each communication
33			C mode. The COMM_ parameters are used to index commName
34			C so the COMM_ parameters need to be in the range
35			C 1 : MAX_NUM_COMM_MODES.
36			INTEGER MAX_NUM_COMM_MODES
37			PARAMETER ( MAX_NUM_COMM_MODES = 4 )
38	cnh	1.1	INTEGER COMM_NONE
39	cnh	1.4	PARAMETER ( COMM_NONE = 1 )
40			INTEGER COMM_MSG
41			PARAMETER ( COMM_MSG = 2 )
42			INTEGER COMM_PUT
43			PARAMETER ( COMM_PUT = 3 )
44			INTEGER COMM_GET
45			PARAMETER ( COMM_GET = 4 )
46			COMMON /EESUPP_COMMNAME/ commName
47			CHARACTER*10 commName(MAX_NUM_COMM_MODES)
48
49			C Tile identifiers
50			C Tiles have a number that is unique over the global domain.
51			C A tile that is not there has its number set to NULL_TILE
52			INTEGER NULL_TILE
53			PARAMETER ( NULL_TILE = -1 )
54
55	cnh	1.1
56			C-- COMMON /EESUPP_C/ Execution environment support character variables
57			C myProcessStr - String identifying my process number
58			COMMON /EESUPP_C/ myProcessStr
59			CHARACTER*128 myProcessStr
60
61			C-- COMMON /EESUPP_L/ Execution environment support logical variables
62			C initMPError - Flag indicating error during multi-processing
63			C initialisation.
64			C finMPError - Flag indicating error during multi-processing
65			C termination.
66			C ThError - Thread detected an error.
67			C usingMPI - Flag controlling use of MPI routines. This flag
68			C allows either MPI or threads to be used in a
69			C shared memory environment which can be a useful
70			C debugging/performance analysis tool.
71			C usingSyncMessages - Flag that causes blocking communication to be used
72			C if possible. When false non-blocking EXCH routines
73			C will be used if possible.
74			C notUsingXPeriodicity - Flag indicating no X/Y boundary wrap around
75			C notUsingYPeriodicity This affects the communication routines but
76			C is generally ignored in the numerical model
77			C code.
78			C threadIsRunning, threadIsComplete - Flags used to check for correct behaviour
79			C of multi-threaded code.
80			C threadIsRunning is used to check that the
81			C threads we need are running. This catches the
82			C situation where a program eedata file has nTthreads
83			C greater than the setenv PARALLEL or NCPUS variable.
84			C threadIsComplete is used to flag that a thread has
85			C reached the end of the model. This is used as a check to
86			C trap problems that might occur if one thread "escapes"
87			C the main.F master loop. This should not happen
88			C if the multi-threading compilation tools works right.
89			C But (see for example KAP) this is not always the case!
90	cnh	1.3	C printMapIncludesZeros - Flag that controls whether character constant map code ignores
91			C exact zero values.
92	cnh	1.1	COMMON /EESUPP_L/ thError, threadIsRunning, threadIsComplete,
93			& allMyEdgesAreSharedMemory, usingMPI, usingSyncMessages,
94	cnh	1.3	& notUsingXPeriodicity, notUsingYPeriodicity,
95			& printMapIncludesZeros
96	cnh	1.1	LOGICAL thError(MAX_NO_THREADS)
97			LOGICAL threadIsRunning(MAX_NO_THREADS)
98			LOGICAL threadIsComplete(MAX_NO_THREADS)
99			LOGICAL allMyEdgesAreSharedMemory(MAX_NO_THREADS)
100			LOGICAL usingMPI
101			LOGICAL usingSyncMessages
102			LOGICAL notUsingXPeriodicity
103			LOGICAL notUsingYPeriodicity
104	cnh	1.3	LOGICAL printMapIncludesZeros
105	cnh	1.1
106			C-- COMMON /EESUPP_I/ Parallel support integer globals
107	cnh	1.4	C pidW - Process ID of neighbor to West
108			C pidE - ditto East
109			C pidN - ditto North
110			C pidS - ditto South
111	cnh	1.1	C Note: pid[XY] is not necessairily the UNIX
112			C process id - it is just an identifying
113			C number.
114	cnh	1.4	C myPid - My own process id
115			C nProcs - Number of processes
116			C westCommunicationMode - Mode of communication for each tile face
117			C eastCommunicationMode
118			C northCommunicationMode
119			C southCommunicationMode
120			C bi0 - Low cartesian tile index for this process
121			C bj0 Note - In a tile distribution with holes bi0 and bj0
122			C are not useful. Neighboring tile indices must
123			C be derived some other way.
124			C tileNo - Tile identification number for my tile and
125			C tileNo[WENS] my N,S,E,W neighbor tiles.
126			C tilePid[WENS] - Process identification number for
127			C my N,S,E,W neighbor tiles.
128			C nTx, nTy - No. threads in X and Y. This assumes a simple
129			C cartesian gridding of the threads which is not
130			C required elsewhere but that makes it easier.
131	cnh	1.1	COMMON /EESUPP_I/
132	cnh	1.4	& myPid, nProcs, pidW, pidE, pidN, pidS,
133			& tileCommModeW, tileCommModeE,
134			& tileCommModeN, tileCommModeS,
135			& tileNo, tileNoW, tileNoE, tileNoS, tileNoN,
136			& tilePidW, tilePidE, tilePidS, tilePidN,
137			& tileBiW, tileBiE, tileBiS, tileBiN,
138			& tileBjW, tileBjE, tileBjS, tileBjN,
139			& tileTagSendW, tileTagSendE, tileTagSendS, tileTagSendN,
140			& tileTagRecvW, tileTagRecvE, tileTagRecvS, tileTagRecvN
141			INTEGER myPid
142			INTEGER nProcs
143	cnh	1.1	INTEGER pidW
144			INTEGER pidE
145	cnh	1.4	INTEGER pidN
146	cnh	1.1	INTEGER pidS
147	cnh	1.4	INTEGER tileCommModeW ( nSx, nSy )
148			INTEGER tileCommModeE ( nSx, nSy )
149			INTEGER tileCommModeN ( nSx, nSy )
150			INTEGER tileCommModeS ( nSx, nSy )
151			INTEGER tileNo( nSx, nSy )
152			INTEGER tileNoW( nSx, nSy )
153			INTEGER tileNoE( nSx, nSy )
154			INTEGER tileNoN( nSx, nSy )
155			INTEGER tileNoS( nSx, nSy )
156			INTEGER tilePidW( nSx, nSy )
157			INTEGER tilePidE( nSx, nSy )
158			INTEGER tilePidN( nSx, nSy )
159			INTEGER tilePidS( nSx, nSy )
160			INTEGER tileBiW( nSx, nSy )
161			INTEGER tileBiE( nSx, nSy )
162			INTEGER tileBiN( nSx, nSy )
163			INTEGER tileBiS( nSx, nSy )
164			INTEGER tileBjW( nSx, nSy )
165			INTEGER tileBjE( nSx, nSy )
166			INTEGER tileBjN( nSx, nSy )
167			INTEGER tileBjS( nSx, nSy )
168			INTEGER tileTagSendW( nSx, nSy )
169			INTEGER tileTagSendE( nSx, nSy )
170			INTEGER tileTagSendN( nSx, nSy )
171			INTEGER tileTagSendS( nSx, nSy )
172			INTEGER tileTagRecvW( nSx, nSy )
173			INTEGER tileTagRecvE( nSx, nSy )
174			INTEGER tileTagRecvN( nSx, nSy )
175			INTEGER tileTagRecvS( nSx, nSy )
176	cnh	1.1
177			#ifdef ALLOW_USE_MPI
178			C-- Include MPI standard Fortran header file
179			#include "mpif.h"
180			#define _mpiTRUE_ 1
181			#define _mpiFALSE_ 0
182
183			C-- COMMON /EESUPP_MPI_I/ MPI parallel support integer globals
184			C mpiPidW - MPI process id for west neighbor.
185			C mpiPidE - MPI process id for east neighbor.
186			C mpiPidN - MPI process id for north neighbor.
187			C mpiPidS - MPI process id for south neighbor.
188			C mpiPidNW - MPI process id for northwest neighbor.
189			C mpiPidNE - MPI process id for northeast neighbor.
190			C mpiPidSW - MPI process id for southwest neighbor.
191			C mpiPidSE - MPI process id for southeast neighbor.
192			C mpiPidIO - MPI process to use for IO.
193			C mpiNprocs - No. of MPI processes.
194			C mpiMyId - MPI process id of me.
195			C mpiComm - MPI communicator to use.
196			C mpiPx - My MPI proc. grid X coord
197			C mpiPy - My MPI proc. grid Y coord
198			C mpiXGlobalLo - My bottom-left (south-west) x-coordinate in
199			C global domain.
200			C mpiYGlobalLo - My bottom-left (south-west) y-coordinate in
201			C global domain.
202			C mpiTypeXFaceBlock_xy_r4 - Primitives for communicating edge
203			C mpiTypeXFaceBlock_xy_r8 of a block.
204			C mpiTypeYFaceBlock_xy_r4 XFace is used in east-west transfer
205			C mpiTypeYFaceBlock_xy_r8 YFace is used in nrth-south transfer
206			C mpiTypeXFaceBlock_xyz_r4 xy is used in two-dimensional arrays
207			C mpiTypeXFaceBlock_xyz_r8 xyz is used with three-dimensional arrays
208			C mpiTypeYFaceBlock_xyz_r4 r4 is used for real*4 data
209			C mpiTypeYFaceBlock_xyz_r8 r8 is used for real*8 data
210			C mpiTypeXFaceThread_xy_r4 - Composites of the above primitives
211			C mpiTypeXFaceThread_xy_r8 for communicating edges of all blocks
212			C mpiTypeYFaceThread_xy_r4 owned by a thread.
213			C mpiTypeYFaceThread_xy_r8
214			C mpiTypeXFaceThread_xyz_r4
215			C mpiTypeXFaceThread_xyz_r8
216			C mpiTypeYFaceThread_xyz_r4
217			C mpiTypeYFaceBlock_xyz_r8
218			C mpiTagE - Tags are needed to mark requests when MPI is running
219			C mpiTagW between multithreaded processes or when the same process.
220			C mpiTagS is a neighbor in more than one direction. The tags ensure that
221			C mpiTagN a thread will get the message it is looking for.
222			C mpiTagSW The scheme adopted is to tag messages according to
223			C mpiTagSE the direction they are travelling. Thus a message
224			C mpiTagNW travelling east is tagged mpiTagE. However, in a
225			C mpiTagNE multi-threaded environemnt several messages could
226			C be travelling east from the same process at the
227			C same time. The tag is therefore modified to
228			C be mpiTag[EWS...]*nThreads+myThid. This requires that
229			C each thread also know the thread ids of its "neighbor"
230			C threads.
231			COMMON /EESUPP_MPI_I/
232			& mpiPidW, mpiPidE, mpiPidS, mpiPidN,
233			& mpiPidSE, mpiPidSW, mpiPidNE, mpiPidNW,
234			& mpiPidIo, mpiMyId, mpiNProcs, mpiComm,
235			& mpiPx, mpiPy, mpiXGlobalLo, mpiYGlobalLo,
236			& mpiTypeXFaceBlock_xy_r4, mpiTypeXFaceBlock_xy_r8,
237			& mpiTypeYFaceBlock_xy_r4, mpiTypeYFaceBlock_xy_r8,
238			& mpiTypeXFaceBlock_xyz_r4, mpiTypeXFaceBlock_xyz_r8,
239			& mpiTypeYFaceBlock_xyz_r4, mpiTypeYFaceBlock_xyz_r8,
240			& mpiTypeXFaceThread_xy_r4, mpiTypeXFaceThread_xy_r8,
241			& mpiTypeYFaceThread_xy_r4, mpiTypeYFaceThread_xy_r8,
242			& mpiTypeXFaceThread_xyz_r4, mpiTypeXFaceThread_xyz_r8,
243			& mpiTypeYFaceThread_xyz_r4, mpiTypeYFaceThread_xyz_r8,
244			& mpiTagE, mpiTagW, mpiTagN, mpiTagS,
245			& mpiTagSE, mpiTagSW, mpiTagNW, mpiTagNE
246
247			INTEGER mpiPidW
248			INTEGER mpiPidE
249			INTEGER mpiPidS
250			INTEGER mpiPidN
251			INTEGER mpiPidSW
252			INTEGER mpiPidSE
253			INTEGER mpiPidNW
254			INTEGER mpiPidNE
255			INTEGER mpiPidIO
256			INTEGER mpiMyId
257			INTEGER mpiNProcs
258			INTEGER mpiComm
259			INTEGER mpiPx
260			INTEGER mpiPy
261			INTEGER mpiXGlobalLo
262			INTEGER mpiYGlobalLo
263			INTEGER mpiTypeXFaceBlock_xy_r4
264			INTEGER mpiTypeXFaceBlock_xy_r8
265			INTEGER mpiTypeYFaceBlock_xy_r4
266			INTEGER mpiTypeYFaceBlock_xy_r8
267			INTEGER mpiTypeXFaceBlock_xyz_r4
268			INTEGER mpiTypeXFaceBlock_xyz_r8
269			INTEGER mpiTypeYFaceBlock_xyz_r4
270			INTEGER mpiTypeYFaceBlock_xyz_r8
271			INTEGER mpiTypeXFaceThread_xy_r4(MAX_NO_THREADS)
272			INTEGER mpiTypeXFaceThread_xy_r8(MAX_NO_THREADS)
273			INTEGER mpiTypeYFaceThread_xy_r4(MAX_NO_THREADS)
274			INTEGER mpiTypeYFaceThread_xy_r8(MAX_NO_THREADS)
275			INTEGER mpiTypeXFaceThread_xyz_r4(MAX_NO_THREADS)
276			INTEGER mpiTypeXFaceThread_xyz_r8(MAX_NO_THREADS)
277			INTEGER mpiTypeYFaceThread_xyz_r4(MAX_NO_THREADS)
278			INTEGER mpiTypeYFaceThread_xyz_r8(MAX_NO_THREADS)
279			INTEGER mpiTagNW
280			INTEGER mpiTagNE
281			INTEGER mpiTagSW
282			INTEGER mpiTagSE
283			INTEGER mpiTagW
284			INTEGER mpiTagE
285			INTEGER mpiTagN
286			INTEGER mpiTagS
287	adcroft	1.5
288	jmc	1.9	C-- COMMON /MPI_FULLMAP_I/ holds integer arrays of the full list of MPI process
289			C mpi_myXGlobalLo :: List of all processors bottom-left X-index in global domain
290			C mpi_myYGlobalLo :: List of all processors bottom-left Y-index in global domain
291			C Note: needed for mpi gather/scatter routines & singleCpuIO.
292			COMMON /MPI_FULLMAP_I/
293			& mpi_myXGlobalLo, mpi_myYGlobalLo
294			INTEGER mpi_myXGlobalLo(nPx*nPy)
295			INTEGER mpi_myYGlobalLo(nPx*nPy)
296
297	adcroft	1.5	C MPI communicator describing this model realization
298			COMMON /MPI_COMMS/
299			& MPI_COMM_MODEL
300			INTEGER MPI_COMM_MODEL
301	jmc	1.9
302	cnh	1.1	#endif /* ALLOW_USE_MPI */