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mppini.F90 in trunk/NEMO/OPA_SRC – NEMO

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source: trunk/NEMO/OPA_SRC/mppini.F90 @ 555

Last change on this file since 555 was 516, checked in by opalod, 18 years ago

nemo_v1_update_072 : CT : - lights modifications to ensure good control prints for the restartability & reproductibility tests

build all ocean.output_XXXX files only if logical namelist ln_ctl is TRUE, in all case keep the initial ocean.output file (require a new namelist namctl)
conditionning some prints using nprint parameter

Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 18.9 KB

Line
1	MODULE mppini
2	!!==============================================================================
3	!! * MODULE mppini *
4	!! Ocean initialization : distributed memory computing initialization
5	!!==============================================================================
6
7	!!----------------------------------------------------------------------
8	!! mpp_init : Lay out the global domain over processors
9	!! mpp_init2 : Lay out the global domain over processors
10	!! with land processor elimination
11	!! mpp_init_ioispl: IOIPSL initialization in mpp
12	!!----------------------------------------------------------------------
13	!! * Modules used
14	USE dom_oce ! ocean space and time domain
15	USE in_out_manager ! I/O Manager
16	USE sol_oce ! ocean elliptic solver
17	USE lib_mpp ! distribued memory computing library
18	USE ioipsl
19
20	IMPLICIT NONE
21	PRIVATE
22
23	!! * Routine accessibility
24	PUBLIC mpp_init ! called by opa.F90
25	PUBLIC mpp_init2 ! called by opa.F90
26
27	!! * Substitutions
28	# include "domzgr_substitute.h90"
29	!!----------------------------------------------------------------------
30	!! OPA 9.0 , LOCEAN-IPSL (2005)
31	!! $Header$
32	!! This software is governed by the CeCILL licence see modipsl/doc/NEMO_CeCILL.txt
33	!!----------------------------------------------------------------------
34
35	CONTAINS
36
37	#if ! defined key_mpp_mpi && ! defined key_mpp_shmem
38	!!----------------------------------------------------------------------
39	!! Default option : shared memory computing
40	!!----------------------------------------------------------------------
41
42	SUBROUTINE mpp_init
43	!!----------------------------------------------------------------------
44	!! * ROUTINE mpp_init *
45	!!
46	!! ** Purpose : Lay out the global domain over processors.
47	!!
48	!! ** Method : Shared memory computing, set the local processor
49	!! variables to the value of the global domain
50	!!
51	!! History :
52	!! 9.0 ! 04-01 (G. Madec, J.M. Molines) F90 : free form, north fold jpni >1
53	!!----------------------------------------------------------------------
54
55	! No mpp computation
56	nimpp = 1
57	njmpp = 1
58	nlci = jpi
59	nlcj = jpj
60	nldi = 1
61	nldj = 1
62	nlei = jpi
63	nlej = jpj
64	nperio = jperio
65	nbondi = 2
66	nbondj = 2
67	nidom = FLIO_DOM_NONE
68
69	IF(lwp) THEN
70	WRITE(numout,*)
71	WRITE(numout,*) 'mpp_init(2) : NO massively parallel processing'
72	WRITE(numout,*) '~~~~~~~~~~~: '
73	WRITE(numout,*) ' nperio = ', nperio
74	WRITE(numout,*) ' npolj = ', npolj
75	WRITE(numout,*) ' nimpp = ', nimpp
76	WRITE(numout,*) ' njmpp = ', njmpp
77	ENDIF
78
79	IF( jpni /= 1 .OR. jpnj /= 1 .OR. jpnij /= 1 ) &
80	CALL ctl_stop( 'equality jpni = jpnj = jpnij = 1 is not satisfied', &
81	& 'the domain is lay out for distributed memory computing! ' )
82
83	END SUBROUTINE mpp_init
84
85
86	SUBROUTINE mpp_init2
87	CALL mpp_init ! same routine as mpp_init
88	END SUBROUTINE mpp_init2
89
90	#else
91	!!----------------------------------------------------------------------
92	!! 'key_mpp_mpi' OR MPI massively parallel processing
93	!! 'key_mpp_shmem' SHMEM massively parallel processing
94	!!----------------------------------------------------------------------
95
96	SUBROUTINE mpp_init
97	!!----------------------------------------------------------------------
98	!! * ROUTINE mpp_init *
99	!!
100	!! ** Purpose : Lay out the global domain over processors.
101	!!
102	!! ** Method : Global domain is distributed in smaller local domains.
103	!! Periodic condition is a function of the local domain position
104	!! (global boundary or neighbouring domain) and of the global
105	!! periodic
106	!! Type : jperio global periodic condition
107	!! nperio local periodic condition
108	!!
109	!! ** Action : - set domain parameters
110	!! nimpp : longitudinal index
111	!! njmpp : latitudinal index
112	!! nperio : lateral condition type
113	!! narea : number for local area
114	!! nlci : first dimension
115	!! nlcj : second dimension
116	!! nbondi : mark for "east-west local boundary"
117	!! nbondj : mark for "north-south local boundary"
118	!! nproc : number for local processor
119	!! noea : number for local neighboring processor
120	!! nowe : number for local neighboring processor
121	!! noso : number for local neighboring processor
122	!! nono : number for local neighboring processor
123	!!
124	!! History :
125	!! ! 94-11 (M. Guyon) Original code
126	!! ! 95-04 (J. Escobar, M. Imbard)
127	!! ! 98-02 (M. Guyon) FETI method
128	!! ! 98-05 (M. Imbard, J. Escobar, L. Colombet ) SHMEM and MPI versions
129	!! 8.5 ! 02-08 (G. Madec) F90 : free form
130	!!----------------------------------------------------------------------
131	!! * Local variables
132	INTEGER :: ji, jj, jn ! dummy loop indices
133	INTEGER :: &
134	ii, ij, ifreq, il1, il2, & ! temporary integers
135	iresti, irestj, ijm1, imil, & ! " "
136	inum ! temporary logical unit
137
138	INTEGER, DIMENSION(jpni,jpnj) :: &
139	iimppt, ijmppt, ilcit, ilcjt ! temporary workspace
140	REAL(wp) :: zidom, zjdom ! temporary scalars
141	!!----------------------------------------------------------------------
142
143	#if defined key_mpp_shmem
144	IF(lwp) WRITE(numout,*)
145	IF(lwp) WRITE(numout,*) 'mpp_init : Message Passing PVM T3E + SHMEM'
146	IF(lwp) WRITE(numout,*) '~~~~~~~~'
147
148	CALL mppshmem ! Initialisation of shmem array
149
150	#endif
151	#if defined key_mpp_mpi
152	IF(lwp) WRITE(numout,*)
153	IF(lwp) WRITE(numout,*) 'mpp_init : Message Passing MPI'
154	IF(lwp) WRITE(numout,*) '~~~~~~~~'
155	#endif
156
157
158	! 1. Dimension arrays for subdomains
159	! -----------------------------------
160	! Computation of local domain sizes ilcit() ilcjt()
161	! These dimensions depend on global sizes jpni,jpnj and jpiglo,jpjglo
162	! The subdomains are squares leeser than or equal to the global
163	! dimensions divided by the number of processors minus the overlap
164	! array (cf. par_oce.F90).
165
166	nreci = 2 * jpreci
167	nrecj = 2 * jprecj
168	iresti = MOD( jpiglo - nreci , jpni )
169	irestj = MOD( jpjglo - nrecj , jpnj )
170
171	IF( iresti == 0 ) iresti = jpni
172	DO jj = 1, jpnj
173	DO ji = 1, iresti
174	ilcit(ji,jj) = jpi
175	END DO
176	DO ji = iresti+1, jpni
177	ilcit(ji,jj) = jpi -1
178	END DO
179	END DO
180
181	IF( irestj == 0 ) irestj = jpnj
182	DO ji = 1, jpni
183	DO jj = 1, irestj
184	ilcjt(ji,jj) = jpj
185	END DO
186	DO jj = irestj+1, jpnj
187	ilcjt(ji,jj) = jpj -1
188	END DO
189	END DO
190
191	IF(lwp) THEN
192	WRITE(numout,*)
193	WRITE(numout,*) ' defines mpp subdomains'
194	WRITE(numout,*) ' ----------------------'
195	WRITE(numout,*) ' iresti=',iresti,' irestj=',irestj
196	WRITE(numout,*) ' jpni =',jpni ,' jpnj =',jpnj
197	ifreq = 4
198	il1 = 1
199	DO jn = 1, (jpni-1)/ifreq+1
200	il2 = MIN( jpni, il1+ifreq-1 )
201	WRITE(numout,*)
202	WRITE(numout,9200) ('***',ji = il1,il2-1)
203	DO jj = jpnj, 1, -1
204	WRITE(numout,9203) (' ',ji = il1,il2-1)
205	WRITE(numout,9202) jj, ( ilcit(ji,jj),ilcjt(ji,jj),ji = il1,il2 )
206	WRITE(numout,9203) (' ',ji = il1,il2-1)
207	WRITE(numout,9200) ('***',ji = il1,il2-1)
208	END DO
209	WRITE(numout,9201) (ji,ji = il1,il2)
210	il1 = il1+ifreq
211	END DO
212	9200 FORMAT(' *',20('***********',a3))
213	9203 FORMAT(' * ',20(' * ',a3))
214	9201 FORMAT(' ',20(' ',i3,' '))
215	9202 FORMAT(' ',i3,' * ',20(i3,' x',i3,' * '))
216	ENDIF
217
218	zidom = nreci
219	DO ji = 1, jpni
220	zidom = zidom + ilcit(ji,1) - nreci
221	END DO
222	IF(lwp) WRITE(numout,*)
223	IF(lwp) WRITE(numout,*)' sum ilcit(i,1) = ', zidom, ' jpiglo = ', jpiglo
224
225	zjdom = nrecj
226	DO jj = 1, jpnj
227	zjdom = zjdom + ilcjt(1,jj) - nrecj
228	END DO
229	IF(lwp) WRITE(numout,*)' sum ilcit(1,j) = ', zjdom, ' jpjglo = ', jpjglo
230	IF(lwp) WRITE(numout,*)
231
232
233	! 2. Index arrays for subdomains
234	! -------------------------------
235
236	iimppt(:,:) = 1
237	ijmppt(:,:) = 1
238
239	IF( jpni > 1 ) THEN
240	DO jj = 1, jpnj
241	DO ji = 2, jpni
242	iimppt(ji,jj) = iimppt(ji-1,jj) + ilcit(ji-1,jj) - nreci
243	END DO
244	END DO
245	ENDIF
246
247	IF( jpnj > 1 ) THEN
248	DO jj = 2, jpnj
249	DO ji = 1, jpni
250	ijmppt(ji,jj) = ijmppt(ji,jj-1)+ilcjt(ji,jj-1)-nrecj
251	END DO
252	END DO
253	ENDIF
254
255	! 3. Subdomain description
256	! ------------------------
257
258	DO jn = 1, jpnij
259	ii = 1 + MOD( jn-1, jpni )
260	ij = 1 + (jn-1) / jpni
261	nimppt(jn) = iimppt(ii,ij)
262	njmppt(jn) = ijmppt(ii,ij)
263	nlcit (jn) = ilcit (ii,ij)
264	nlci = nlcit (jn)
265	nlcjt (jn) = ilcjt (ii,ij)
266	nlcj = nlcjt (jn)
267	nbondj = -1 ! general case
268	IF( jn > jpni ) nbondj = 0 ! first row of processor
269	IF( jn > (jpnj-1)*jpni ) nbondj = 1 ! last row of processor
270	IF( jpnj == 1 ) nbondj = 2 ! one processor only in j-direction
271	ibonjt(jn) = nbondj
272
273	nbondi = 0 !
274	IF( MOD( jn, jpni ) == 1 ) nbondi = -1 !
275	IF( MOD( jn, jpni ) == 0 ) nbondi = 1 !
276	IF( jpni == 1 ) nbondi = 2 ! one processor only in i-direction
277	ibonit(jn) = nbondi
278
279	nldi = 1 + jpreci
280	nlei = nlci - jpreci
281	IF( nbondi == -1 .OR. nbondi == 2 ) nldi = 1
282	IF( nbondi == 1 .OR. nbondi == 2 ) nlei = nlci
283	nldj = 1 + jprecj
284	nlej = nlcj - jprecj
285	IF( nbondj == -1 .OR. nbondj == 2 ) nldj = 1
286	IF( nbondj == 1 .OR. nbondj == 2 ) nlej = nlcj
287	nldit(jn) = nldi
288	nleit(jn) = nlei
289	nldjt(jn) = nldj
290	nlejt(jn) = nlej
291	END DO
292
293
294	! 4. From global to local
295	! -----------------------
296
297	nperio = 0
298	IF( jperio == 2 .AND. nbondj == -1 ) nperio = 2
299
300
301	! 5. Subdomain neighbours
302	! ----------------------
303
304	nproc = narea - 1
305	noso = nproc - jpni
306	nowe = nproc - 1
307	noea = nproc + 1
308	nono = nproc + jpni
309	! great neighbours
310	npnw = nono - 1
311	npne = nono + 1
312	npsw = noso - 1
313	npse = noso + 1
314	nbsw = 1
315	nbnw = 1
316	IF( MOD( nproc, jpni ) == 0 ) THEN
317	nbsw = 0
318	nbnw = 0
319	ENDIF
320	nbse = 1
321	nbne = 1
322	IF( MOD( nproc, jpni ) == jpni-1 ) THEN
323	nbse = 0
324	nbne = 0
325	ENDIF
326	IF(nproc < jpni) THEN
327	nbsw = 0
328	nbse = 0
329	ENDIF
330	IF( nproc >= (jpnj-1)*jpni ) THEN
331	nbnw = 0
332	nbne = 0
333	ENDIF
334	nlcj = nlcjt(narea)
335	nlci = nlcit(narea)
336	nldi = nldit(narea)
337	nlei = nleit(narea)
338	nldj = nldjt(narea)
339	nlej = nlejt(narea)
340	nbondi = ibonit(narea)
341	nbondj = ibonjt(narea)
342	nimpp = nimppt(narea)
343	njmpp = njmppt(narea)
344
345	! Save processor layout in layout.dat file
346	IF (lwp) THEN
347	inum = 11
348
349	OPEN(inum,FILE='layout.dat')
350	WRITE(inum,'(a)') ' jpnij jpi jpj jpk jpiglo jpjglo'
351	WRITE(inum,'(6i8)') jpnij,jpi,jpj,jpk,jpiglo,jpjglo
352	WRITE(inum,'(a)') 'NAREA nlci nlcj nldi nldj nlei nlej nimpp njmpp'
353
354	DO jn = 1, jpnij
355	WRITE(inum,'(9i5)') jn, nlcit(jn), nlcjt(jn), &
356	nldit(jn), nldjt(jn), &
357	nleit(jn), nlejt(jn), &
358	nimppt(jn), njmppt(jn)
359	END DO
360	CLOSE(inum)
361	END IF
362
363
364	! w a r n i n g narea (zone) /= nproc (processors)!
365
366	IF( jperio == 1 .OR. jperio == 4 .OR. jperio == 6 ) THEN
367	IF( jpni == 1 )THEN
368	nbondi = 2
369	nperio = 1
370	ELSE
371	nbondi = 0
372	ENDIF
373	IF( MOD( narea, jpni ) == 0 ) THEN
374	noea = nproc-(jpni-1)
375	npne = npne-jpni
376	npse = npse-jpni
377	ENDIF
378	IF( MOD( narea, jpni ) == 1 ) THEN
379	nowe = nproc+(jpni-1)
380	npnw = npnw+jpni
381	npsw = npsw+jpni
382	ENDIF
383	nbsw = 1
384	nbnw = 1
385	nbse = 1
386	nbne = 1
387	IF( nproc < jpni ) THEN
388	nbsw = 0
389	nbse = 0
390	ENDIF
391	IF( nproc >= (jpnj-1)*jpni ) THEN
392	nbnw = 0
393	nbne = 0
394	ENDIF
395	ENDIF
396	npolj = 0
397	IF( jperio == 3 .OR. jperio == 4 ) THEN
398	ijm1 = jpni*(jpnj-1)
399	imil = ijm1+(jpni+1)/2
400	IF( narea > ijm1 ) npolj = 3
401	IF( MOD(jpni,2) == 1 .AND. narea == imil ) npolj = 4
402	IF( npolj == 3 ) nono = jpni*jpnj-narea+ijm1
403	ENDIF
404	IF( jperio == 5 .OR. jperio == 6 ) THEN
405	ijm1 = jpni*(jpnj-1)
406	imil = ijm1+(jpni+1)/2
407	IF( narea > ijm1) npolj = 5
408	IF( MOD(jpni,2) == 1 .AND. narea == imil ) npolj = 6
409	IF( npolj == 5 ) nono = jpni*jpnj-narea+ijm1
410	ENDIF
411
412	! FETI method
413
414	IF( nperio == 1 .AND. nsolv == 3 ) THEN
415
416	! general case : Earth == infinite tube
417
418	nbnw = 1
419	npnw = narea
420	nbne = 1
421	npne = narea
422	nbsw = 1
423	npsw = (narea-2)
424	nbse = 1
425	npse = (narea-2)
426
427	! REAL boundary condition
428
429	IF( nbondj == -1 .OR. nbondj == 2 ) THEN
430	nbsw = 0
431	nbse = 0
432	ENDIF
433
434	IF( nbondj == -1 .OR. nbondj == 2 ) THEN
435	nbsw = 0
436	nbse = 0
437	ENDIF
438
439	IF( nbondj == 1 .OR. nbondj == 2 ) THEN
440	nbnw = 0
441	nbne = 0
442	ENDIF
443	ENDIF
444
445	! Periodicity : no corner if nbondi = 2 and nperio != 1
446
447	IF(lwp) THEN
448	WRITE(numout,*) ' nproc = ', nproc
449	WRITE(numout,*) ' nowe = ', nowe , ' noea = ', noea
450	WRITE(numout,*) ' nono = ', nono , ' noso = ', noso
451	WRITE(numout,*) ' nbondi = ', nbondi
452	WRITE(numout,*) ' nbondj = ', nbondj
453	WRITE(numout,*) ' npolj = ', npolj
454	WRITE(numout,*) ' nperio = ', nperio
455	WRITE(numout,*) ' nlci = ', nlci
456	WRITE(numout,*) ' nlcj = ', nlcj
457	WRITE(numout,*) ' nimpp = ', nimpp
458	WRITE(numout,*) ' njmpp = ', njmpp
459	WRITE(numout,*) ' nbse = ', nbse , ' npse = ', npse
460	WRITE(numout,*) ' nbsw = ', nbsw , ' npsw = ', npsw
461	WRITE(numout,*) ' nbne = ', nbne , ' npne = ', npne
462	WRITE(numout,*) ' nbnw = ', nbnw , ' npnw = ', npnw
463	ENDIF
464
465	IF( nperio == 1 .AND. jpni /= 1 ) CALL ctl_stop( ' mpp_init: error on cyclicity' )
466
467	! Prepare mpp north fold
468
469	IF (jperio >= 3 .AND. jperio <= 6 .AND. jpni > 1 ) THEN
470	CALL mpp_ini_north
471	END IF
472
473	! Prepare NetCDF output file (if necessary)
474	CALL mpp_init_ioipsl
475
476	END SUBROUTINE mpp_init
477
478	# include "mppini_2.h90"
479
480	# if defined key_dimgout
481	!!----------------------------------------------------------------------
482	!! 'key_dimgout' NO use of NetCDF files
483	!!----------------------------------------------------------------------
484	SUBROUTINE mpp_init_ioipsl ! Dummy routine
485	END SUBROUTINE mpp_init_ioipsl
486	# else
487	SUBROUTINE mpp_init_ioipsl
488	!!----------------------------------------------------------------------
489	!! * ROUTINE mpp_init_ioipsl *
490	!!
491	!! ** Purpose :
492	!!
493	!! ** Method :
494	!!
495	!! History :
496	!! 9.0 ! 04-03 (G. Madec) MPP-IOIPSL
497	!!----------------------------------------------------------------------
498	!! Local declarations
499
500	INTEGER, DIMENSION(2) :: &
501	iglo, iloc, iabsf, iabsl, ihals, ihale, idid
502	INTEGER :: &
503	inbondi, inbondj
504	!!----------------------------------------------------------------------
505
506	! The domain is splitted only horizontally along i- or/and j- direction
507	! So we need at the most only 1D arrays with 2 elements
508	iglo(1) = jpiglo
509	iglo(2) = jpjglo
510	iloc(1) = nlci
511	iloc(2) = nlcj
512	iabsf(1) = nimppt(narea)
513	iabsf(2) = njmppt(narea)
514	iabsl(:) = iabsf(:) + iloc(:) - 1
515	ihals(1) = jpreci
516	ihals(2) = jprecj
517	ihale(1) = jpreci
518	ihale(2) = jprecj
519	idid(1) = 1
520	idid(2) = 2
521
522	inbondj = -1 ! general case
523	IF( narea > jpni ) inbondj = 0 ! first row of processor
524	IF( narea > (jpnj-1)*jpni ) inbondj = 1 ! last row of processor
525	IF( jpnj == 1 ) inbondj = 2 ! one processor only in j-direction
526	IF( inbondj == -1 .OR. inbondj == 2 ) ihals(2) = 0
527	IF( inbondj == 1 .OR. inbondj == 2 ) ihale(2) = 0
528
529	inbondi = 0 !
530	IF( MOD( narea, jpni ) == 1 ) inbondi = -1 !
531	IF( MOD( narea, jpni ) == 0 ) inbondi = 1 !
532	IF( jpni == 1 ) inbondi = 2 ! one processor only in i-direction
533	IF( inbondi == -1 .OR. inbondi == 2 ) ihals(1) = 0
534	IF( inbondi == 1 .OR. inbondi == 2 ) ihale(1) = 0
535
536
537	IF(lwp) THEN
538	WRITE(numout,*)
539	WRITE(numout,*) 'mpp_init_ioipsl : iloc = ', iloc (1), iloc (2)
540	WRITE(numout,*) '~~~~~~~~~~~~~~~ iabsf = ', iabsf(1), iabsf(2)
541	WRITE(numout,*) ' ihals = ', ihals(1), ihals(2)
542	WRITE(numout,*) ' ihale = ', ihale(1), ihale(2)
543	ENDIF
544
545	CALL flio_dom_set ( jpnij, nproc, idid, iglo, iloc, iabsf, iabsl, ihals, ihale, 'BOX', nidom)
546
547	END SUBROUTINE mpp_init_ioipsl
548
549	# endif
550	#endif
551
552	!!======================================================================
553	END MODULE mppini

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