eesupp/src/barrier.F

C $Header: /u/gcmpack/models/MITgcmUV/eesupp/src/barrier.F,v 1.9 2001/09/21 03:54:34 cnh Exp $
C $Name:  $

#include "CPP_EEOPTIONS.h"

CBOP
C     !ROUTINE: BARRIER_INIT

C     !INTERFACE:
      SUBROUTINE BARRIER_INIT
      IMPLICIT NONE

C     !DESCRIPTION:
C     *=====================================================================*
C     | SUBROUTINE BARRIER_INIT
C     | o Setup global barrier data structures.
C     *=====================================================================*
C     | Initialise global barrier data structures that can be used in
C     | conjunction with MPI or that can also be used to create
C     *=====================================================================*

C     !USES:
C     == Global variables ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "EESUPPORT.h"
#include "BARRIER.h"

C     !LOCAL VARIABLES:
C     == Local Variables ==
C     I :: Loop counter
      INTEGER I
CEOP

      DO I=1,nThreads
       key1(1,I) = INVALID
       key2(1,I) = INVALID
       key3(1,I) = INVALID
       door1     = SHUT
       door2     = SHUT
       door3     = SHUT
      ENDDO

      RETURN
      END

CBOP
C     !ROUTINE: BARRIER

C     !INTERFACE:
      SUBROUTINE BARRIER( myThid )
      IMPLICIT NONE

C     !DESCRIPTION:
C     *==========================================================*
C     | SUBROUTINE BARRIER                                       
C     | o Barrier routine that uses "busy waiting".              
C     *==========================================================*
C     | This routine provides a pure fortran mechanism to         
C     | synchronise multiple threads in a multi-threaded code.    
C     | No thread can leave this routine before all the threads   
C     | have entered it.                                          
C     | Notes                                                     
C     | =====                                                     
C     | The door and key variables are assumed to have been       
C     | initialized once an initial state of key = INVALID        
C     | and door = SHUT.                                          
C     | We use the routine FOOL_THE_COMPILER to stop compilers    
C     | generating code which might simply set and test a         
C     | register value. Shared-memory systems only maintain       
C     | coherency over process caches and not registers.          
C     | Also we have to be a bit careful regarding sequential     
C     | consistency - or lack of it. At the moment the code       
C     | assumes a total store order memory model, which some      
C     | machines do not have! However, I have yet to find a       
C     | problem with this I think because the tolerances in       
C     | terms of memory ordering i.e. a little bit of reordering  
C     | probably will not break the barrier mechanism!            
C     | On non-cache coherent systems e.g. T3E we need to use     
C     | a library function to do barriers.                        
C     | Note - The PANIC tests can be removed for working code    
C     |        I have left them in without an ifdef option        
C     |        because without them programming errors can        
C     |        lead to infinitely spinning code. If you are       
C     |        confident that your code is OK then removing       
C     |        them may increase performance. Do not remove these 
C     |        lines to make your code "work" If the code is      
C     |        stopping in these PANIC blocks then something is   
C     |        wrong with your program and it needs to be fixed.  
C     *==========================================================*

C     !USES:
C     == Global variables ==
#include "SIZE.h"
#include "EEPARAMS.h"
#include "EESUPPORT.h"
#include "BARRIER.h"

C     !INPUT PARAMETERS:
C     == Routine arguments ==
      INTEGER myThid

C     !LOCAL VARIABLES:
C     === Local variables ===
C     nDone :: Counter for number of threads that have 
C              completed a section.
C     I     :: Loop counter
      INTEGER nDone
      INTEGER I
CEOP

CcnhDebugStarts
C      WRITE(myThid,*) ' Barrier entered '
CcnhDebugEnds

C--   Check that thread number is expected range
      IF ( myThid .LT. 1 .OR. myThid .GT. nThreads ) THEN
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! in S/R BARRIER  myThid = ', 
     &  myThid, ' nThreads = ', nThreads
       STOP 'ABNROMAL END: S/R BARRIER'
      ENDIF

C--   When every threads key1 is valid thread 1 will open door1.
      IF ( key1(1,myThid) .EQ. VALID ) THEN
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! in S/R BARRIER  myThid = ', 
     &  myThid, ' key1 already validated'
       STOP 'ABNROMAL END: S/R BARRIER'
      ENDIF
      key1(1,myThid) = VALID

      IF ( myThid .eq. 1 ) THEN
   10  CONTINUE
        nDone = 0
        DO I=1,nThreads
         if ( key1(1,I) .EQ. VALID ) nDone = nDone+1
        ENDDO
        CALL FOOL_THE_COMPILER( key1 )
       IF ( nDone .LT. nThreads ) GOTO 10
       door1 = OPEN
      ELSE
  11   CONTINUE
        CALL FOOL_THE_COMPILER( door1 )
       IF ( door1 .NE. OPEN ) GOTO 11
      ENDIF
C--   Invalidate keys for door1 here as it is now open
      key1(1,myThid) = INVALID

CcnhDebugStarts
C     IF ( myThid .EQ. 1 ) THEN
C      WRITE(*,*) ' DOOR1 Opened '
C     ENDIF
CcnhDebugEnds

C--   I can now shut door3 because I know everyone has reached
C--   door1. I can not shut door1 because I do not know if everyone
C--   has "gone" through the door yet. Nobody has yet reached
C--   door3 because they have to go through door2 first.
      IF ( myThid .EQ. 1 ) THEN
       door3 = SHUT
      ENDIF

C--   When every threads key2 is valid thread 1 will open door2.
C     Notes
C     =====
C     I think that to work with any memory model ( i.e. relaxed, 
C     partial store, total store) the variables key1, key2 and key3
C     might need to be set to invalid by thread 1.
C     
      IF ( key2(1,myThid) .EQ. VALID ) THEN
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! in S/R BARRIER  myThid = ', 
     &  myThid, ' key2 already validated'
       STOP 'ABNROMAL END: S/R BARRIER'
      ENDIF
      key2(1,myThid) = VALID
C
      IF ( myThid .eq. 1 ) THEN
   20  CONTINUE
        nDone = 0
        DO I=1,nThreads
         if ( key2(1,I) .EQ. VALID ) nDone = nDone+1
        ENDDO
        CALL FOOL_THE_COMPILER( key2 )
       IF ( nDone .LT. nThreads ) GOTO 20
       door2 = OPEN
      ELSE
  21   CONTINUE
        CALL FOOL_THE_COMPILER( door2 )
       IF ( door2 .NE. OPEN ) GOTO 21
      ENDIF

C--   Invalidate keys for door2 here as it is now open
      key2(1,myThid) = INVALID

C--   I can now shut door1 because I know everyone has reached
C--   door2. I can not shut door2 because I do not know if everyone
C--   has "gone" through the door yet. Nobody has yet reached
C--   door1 because they have to go through door3 first.
      IF ( myThid .EQ. 1 ) THEN
       door1 = SHUT
      ENDIF
     
     
C--   When every threads key3 is valid thread 1 will open door3.
      IF ( key3(1,myThid) .EQ. VALID ) THEN
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
       WRITE(*,*) '!!!!!!! PANIC !!!!!!! in S/R BARRIER  myThid = ', 
     &  myThid, ' key3 already validated'
       STOP 'ABNROMAL END: S/R BARRIER'
      ENDIF
      key3(1,myThid) = VALID
C
      IF ( myThid .eq. 1 ) THEN
   30  CONTINUE
        nDone = 0
        DO I=1,nThreads
         if ( key3(1,I) .EQ. VALID ) nDone = nDone+1
        ENDDO
        CALL FOOL_THE_COMPILER( key3 )
       IF ( nDone .LT. nThreads ) GOTO 30
       door3 = OPEN
      ELSE
  31   CONTINUE
        CALL FOOL_THE_COMPILER( door3 )
       IF ( door3 .NE. OPEN ) GOTO 31
      ENDIF

C--   Invalidate keys for door3 here as it is now open
      key3(1,myThid) = INVALID

C--   I can now shut door2 because I know everyone has reached
C--   door3. I can not shut door3 because I do not know if everyone
C--   has "gone" through the door yet. Nobody has yet reached
C--   door2 because they have to go through door1 first.
      IF ( myThid .EQ. 1 ) THEN
       door2 = SHUT
      ENDIF

CcnhDebugStarts
C      WRITE(myThid,*) ' Barrier exited '
CcnhDebugEnds
     
      RETURN
      END
1	C $Header: /u/gcmpack/models/MITgcmUV/eesupp/src/barrier.F,v 1.9 2001/09/21 03:54:34 cnh Exp $
2	C $Name: $
3
4	#include "CPP_EEOPTIONS.h"
5
6	CBOP
7	C !ROUTINE: BARRIER_INIT
8
9	C !INTERFACE:
10	SUBROUTINE BARRIER_INIT
11	IMPLICIT NONE
12
13	C !DESCRIPTION:
14	C =====================================================================
15	C \| SUBROUTINE BARRIER_INIT
16	C \| o Setup global barrier data structures.
17	C =====================================================================
18	C \| Initialise global barrier data structures that can be used in
19	C \| conjunction with MPI or that can also be used to create
20	C =====================================================================
21
22	C !USES:
23	C == Global variables ==
24	#include "SIZE.h"
25	#include "EEPARAMS.h"
26	#include "EESUPPORT.h"
27	#include "BARRIER.h"
28
29	C !LOCAL VARIABLES:
30	C == Local Variables ==
31	C I :: Loop counter
32	INTEGER I
33	CEOP
34
35	DO I=1,nThreads
36	key1(1,I) = INVALID
37	key2(1,I) = INVALID
38	key3(1,I) = INVALID
39	door1 = SHUT
40	door2 = SHUT
41	door3 = SHUT
42	ENDDO
43
44	RETURN
45	END
46
47	CBOP
48	C !ROUTINE: BARRIER
49
50	C !INTERFACE:
51	SUBROUTINE BARRIER( myThid )
52	IMPLICIT NONE
53
54	C !DESCRIPTION:
55	C ==========================================================
56	C \| SUBROUTINE BARRIER
57	C \| o Barrier routine that uses "busy waiting".
58	C ==========================================================
59	C \| This routine provides a pure fortran mechanism to
60	C \| synchronise multiple threads in a multi-threaded code.
61	C \| No thread can leave this routine before all the threads
62	C \| have entered it.
63	C \| Notes
64	C \| =====
65	C \| The door and key variables are assumed to have been
66	C \| initialized once an initial state of key = INVALID
67	C \| and door = SHUT.
68	C \| We use the routine FOOL_THE_COMPILER to stop compilers
69	C \| generating code which might simply set and test a
70	C \| register value. Shared-memory systems only maintain
71	C \| coherency over process caches and not registers.
72	C \| Also we have to be a bit careful regarding sequential
73	C \| consistency - or lack of it. At the moment the code
74	C \| assumes a total store order memory model, which some
75	C \| machines do not have! However, I have yet to find a
76	C \| problem with this I think because the tolerances in
77	C \| terms of memory ordering i.e. a little bit of reordering
78	C \| probably will not break the barrier mechanism!
79	C \| On non-cache coherent systems e.g. T3E we need to use
80	C \| a library function to do barriers.
81	C \| Note - The PANIC tests can be removed for working code
82	C \| I have left them in without an ifdef option
83	C \| because without them programming errors can
84	C \| lead to infinitely spinning code. If you are
85	C \| confident that your code is OK then removing
86	C \| them may increase performance. Do not remove these
87	C \| lines to make your code "work" If the code is
88	C \| stopping in these PANIC blocks then something is
89	C \| wrong with your program and it needs to be fixed.
90	C ==========================================================
91
92	C !USES:
93	C == Global variables ==
94	#include "SIZE.h"
95	#include "EEPARAMS.h"
96	#include "EESUPPORT.h"
97	#include "BARRIER.h"
98
99	C !INPUT PARAMETERS:
100	C == Routine arguments ==
101	INTEGER myThid
102
103	C !LOCAL VARIABLES:
104	C === Local variables ===
105	C nDone :: Counter for number of threads that have
106	C completed a section.
107	C I :: Loop counter
108	INTEGER nDone
109	INTEGER I
110	CEOP
111
112	CcnhDebugStarts
113	C WRITE(myThid,*) ' Barrier entered '
114	CcnhDebugEnds
115
116	C-- Check that thread number is expected range
117	IF ( myThid .LT. 1 .OR. myThid .GT. nThreads ) THEN
118	WRITE(,) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
119	WRITE(,) '!!!!!!! PANIC !!!!!!! in S/R BARRIER myThid = ',
120	& myThid, ' nThreads = ', nThreads
121	STOP 'ABNROMAL END: S/R BARRIER'
122	ENDIF
123
124	C-- When every threads key1 is valid thread 1 will open door1.
125	IF ( key1(1,myThid) .EQ. VALID ) THEN
126	WRITE(,) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
127	WRITE(,) '!!!!!!! PANIC !!!!!!! in S/R BARRIER myThid = ',
128	& myThid, ' key1 already validated'
129	STOP 'ABNROMAL END: S/R BARRIER'
130	ENDIF
131	key1(1,myThid) = VALID
132
133	IF ( myThid .eq. 1 ) THEN
134	10 CONTINUE
135	nDone = 0
136	DO I=1,nThreads
137	if ( key1(1,I) .EQ. VALID ) nDone = nDone+1
138	ENDDO
139	CALL FOOL_THE_COMPILER( key1 )
140	IF ( nDone .LT. nThreads ) GOTO 10
141	door1 = OPEN
142	ELSE
143	11 CONTINUE
144	CALL FOOL_THE_COMPILER( door1 )
145	IF ( door1 .NE. OPEN ) GOTO 11
146	ENDIF
147	C-- Invalidate keys for door1 here as it is now open
148	key1(1,myThid) = INVALID
149
150	CcnhDebugStarts
151	C IF ( myThid .EQ. 1 ) THEN
152	C WRITE(,) ' DOOR1 Opened '
153	C ENDIF
154	CcnhDebugEnds
155
156	C-- I can now shut door3 because I know everyone has reached
157	C-- door1. I can not shut door1 because I do not know if everyone
158	C-- has "gone" through the door yet. Nobody has yet reached
159	C-- door3 because they have to go through door2 first.
160	IF ( myThid .EQ. 1 ) THEN
161	door3 = SHUT
162	ENDIF
163
164	C-- When every threads key2 is valid thread 1 will open door2.
165	C Notes
166	C =====
167	C I think that to work with any memory model ( i.e. relaxed,
168	C partial store, total store) the variables key1, key2 and key3
169	C might need to be set to invalid by thread 1.
170	C
171	IF ( key2(1,myThid) .EQ. VALID ) THEN
172	WRITE(,) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
173	WRITE(,) '!!!!!!! PANIC !!!!!!! in S/R BARRIER myThid = ',
174	& myThid, ' key2 already validated'
175	STOP 'ABNROMAL END: S/R BARRIER'
176	ENDIF
177	key2(1,myThid) = VALID
178	C
179	IF ( myThid .eq. 1 ) THEN
180	20 CONTINUE
181	nDone = 0
182	DO I=1,nThreads
183	if ( key2(1,I) .EQ. VALID ) nDone = nDone+1
184	ENDDO
185	CALL FOOL_THE_COMPILER( key2 )
186	IF ( nDone .LT. nThreads ) GOTO 20
187	door2 = OPEN
188	ELSE
189	21 CONTINUE
190	CALL FOOL_THE_COMPILER( door2 )
191	IF ( door2 .NE. OPEN ) GOTO 21
192	ENDIF
193
194	C-- Invalidate keys for door2 here as it is now open
195	key2(1,myThid) = INVALID
196
197	C-- I can now shut door1 because I know everyone has reached
198	C-- door2. I can not shut door2 because I do not know if everyone
199	C-- has "gone" through the door yet. Nobody has yet reached
200	C-- door1 because they have to go through door3 first.
201	IF ( myThid .EQ. 1 ) THEN
202	door1 = SHUT
203	ENDIF
204
205
206	C-- When every threads key3 is valid thread 1 will open door3.
207	IF ( key3(1,myThid) .EQ. VALID ) THEN
208	WRITE(,) '!!!!!!! PANIC !!!!!!! CATASTROPHIC ERROR'
209	WRITE(,) '!!!!!!! PANIC !!!!!!! in S/R BARRIER myThid = ',
210	& myThid, ' key3 already validated'
211	STOP 'ABNROMAL END: S/R BARRIER'
212	ENDIF
213	key3(1,myThid) = VALID
214	C
215	IF ( myThid .eq. 1 ) THEN
216	30 CONTINUE
217	nDone = 0
218	DO I=1,nThreads
219	if ( key3(1,I) .EQ. VALID ) nDone = nDone+1
220	ENDDO
221	CALL FOOL_THE_COMPILER( key3 )
222	IF ( nDone .LT. nThreads ) GOTO 30
223	door3 = OPEN
224	ELSE
225	31 CONTINUE
226	CALL FOOL_THE_COMPILER( door3 )
227	IF ( door3 .NE. OPEN ) GOTO 31
228	ENDIF
229
230	C-- Invalidate keys for door3 here as it is now open
231	key3(1,myThid) = INVALID
232
233	C-- I can now shut door2 because I know everyone has reached
234	C-- door3. I can not shut door3 because I do not know if everyone
235	C-- has "gone" through the door yet. Nobody has yet reached
236	C-- door2 because they have to go through door1 first.
237	IF ( myThid .EQ. 1 ) THEN
238	door2 = SHUT
239	ENDIF
240
241	CcnhDebugStarts
242	C WRITE(myThid,*) ' Barrier exited '
243	CcnhDebugEnds
244
245	RETURN
246	END