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bands.F90 @ 3981

Last change on this file since 3981 was 2351, checked in by Ehouarn Millour, 9 years ago

More on physics/dynamics separation and cleanup:

Set things up so that all physics-related initializations are done via iniphysiq.
Created a "geometry_mod.F90" module in phy_common to store information on the loacl grid (i.e. replaces comgeomphy) and moreover give these variables more obvious names (e.g.: rlond => longitude, rlatd => latitude, airephy => cell_area).
removed obsolete comgeomphy.h and comgeomphy.F90

Property copyright set to
Name of program: LMDZ
Creation date: 1984
Version: LMDZ5
License: CeCILL version 2
Holder: Laboratoire de m\'et\'eorologie dynamique, CNRS, UMR 8539
See the license file in the root directory
Property svn:eol-style set to native
Property svn:keywords set to Author Date Id Revision

File size: 11.5 KB

Line
1	!
2	! $Id: bands.F90 2351 2015-08-25 15:14:59Z fairhead $
3	!
4	module Bands
5
6	integer, parameter :: bands_caldyn=1
7	integer, parameter :: bands_vanleer=2
8	integer, parameter :: bands_dissip=3
9
10	INTEGER,dimension(:),allocatable :: jj_Nb_Caldyn
11	INTEGER,dimension(:),allocatable :: jj_Nb_vanleer
12	INTEGER,dimension(:),allocatable :: jj_Nb_vanleer2
13	INTEGER,dimension(:),allocatable :: jj_Nb_dissip
14	INTEGER,dimension(:),allocatable :: jj_Nb_physic
15	INTEGER,dimension(:),allocatable :: jj_Nb_physic_bis
16	INTEGER,dimension(:),allocatable :: distrib_phys
17
18	contains
19
20	subroutine AllocateBands
21	USE parallel_lmdz
22	implicit none
23
24	allocate(jj_Nb_Caldyn(0:MPI_Size-1))
25	allocate(jj_Nb_vanleer(0:MPI_Size-1))
26	allocate(jj_Nb_vanleer2(0:MPI_Size-1))
27	allocate(jj_Nb_dissip(0:MPI_Size-1))
28	allocate(jj_Nb_physic(0:MPI_Size-1))
29	allocate(jj_Nb_physic_bis(0:MPI_Size-1))
30	allocate(distrib_phys(0:MPI_Size-1))
31
32	end subroutine AllocateBands
33
34	subroutine Read_distrib
35	USE parallel_lmdz
36	implicit none
37
38	include "dimensions.h"
39	integer :: i,j
40	character (len=4) :: siim,sjjm,sllm,sproc
41	character (len=255) :: filename
42	integer :: unit_number=10
43	integer :: ierr
44
45	call AllocateBands
46	write(siim,'(i3)') iim
47	write(sjjm,'(i3)') jjm
48	write(sllm,'(i3)') llm
49	write(sproc,'(i3)') mpi_size
50	filename='Bands_'//TRIM(ADJUSTL(siim))//'x'//TRIM(ADJUSTL(sjjm))//'x'//TRIM(ADJUSTL(sllm))//'_' &
51	//TRIM(ADJUSTL(sproc))//'prc.dat'
52
53	OPEN(UNIT=unit_number,FILE=trim(filename),STATUS='old',FORM='formatted',IOSTAT=ierr)
54
55	if (ierr==0) then
56
57	do i=0,mpi_size-1
58	read (unit_number,*) j,jj_nb_caldyn(i)
59	enddo
60
61	do i=0,mpi_size-1
62	read (unit_number,*) j,jj_nb_vanleer(i)
63	enddo
64
65	do i=0,mpi_size-1
66	read (unit_number,*) j,jj_nb_dissip(i)
67	enddo
68
69	do i=0,mpi_size-1
70	read (unit_number,*) j,distrib_phys(i)
71	enddo
72
73	CLOSE(unit_number)
74
75	else
76	do i=0,mpi_size-1
77	jj_nb_caldyn(i)=(jjm+1)/mpi_size
78	if (i<MOD(jjm+1,mpi_size)) jj_nb_caldyn(i)=jj_nb_caldyn(i)+1
79	enddo
80
81	jj_nb_vanleer(:)=jj_nb_caldyn(:)
82	jj_nb_dissip(:)=jj_nb_caldyn(:)
83
84	do i=0,mpi_size-1
85	distrib_phys(i)=(iim*(jjm-1)+2)/mpi_size
86	IF (i<MOD(iim*(jjm-1)+2,mpi_size)) distrib_phys(i)=distrib_phys(i)+1
87	enddo
88	endif
89
90	end subroutine Read_distrib
91
92
93	SUBROUTINE Set_Bands
94	USE parallel_lmdz
95	IMPLICIT NONE
96	INCLUDE 'dimensions.h'
97	INTEGER :: i, ij
98	INTEGER :: jj_para_begin(0:mpi_size-1)
99	INTEGER :: jj_para_end(0:mpi_size-1)
100
101	do i=0,mpi_size-1
102	jj_nb_vanleer2(i)=(jjm+1)/mpi_size
103	if (i<MOD(jjm+1,mpi_size)) jj_nb_vanleer2(i)=jj_nb_vanleer2(i)+1
104	enddo
105
106	jj_para_begin(0)=1
107	ij=distrib_phys(0)+iim-1
108	jj_para_end(0)=((ij-1)/iim)+1
109
110	DO i=1,mpi_Size-1
111	ij=ij+1
112	jj_para_begin(i)=((ij-1)/iim)+1
113	ij=ij+distrib_phys(i)-1
114	jj_para_end(i)=((ij-1)/iim)+1
115	ENDDO
116
117	do i=0,MPI_Size-1
118	jj_Nb_physic(i)=jj_para_end(i)-jj_para_begin(i)+1
119	if (i/=0) then
120	if (jj_para_begin(i)==jj_para_end(i-1)) then
121	jj_Nb_physic(i-1)=jj_Nb_physic(i-1)-1
122	endif
123	endif
124	enddo
125
126	do i=0,MPI_Size-1
127	jj_Nb_physic_bis(i)=jj_para_end(i)-jj_para_begin(i)+1
128	if (i/=0) then
129	if (jj_para_begin(i)==jj_para_end(i-1)) then
130	jj_Nb_physic_bis(i)=jj_Nb_physic_bis(i)-1
131	else
132	jj_Nb_physic_bis(i-1)=jj_Nb_physic_bis(i-1)+1
133	jj_Nb_physic_bis(i)=jj_Nb_physic_bis(i)-1
134	endif
135	endif
136	enddo
137
138	end subroutine Set_Bands
139
140
141	subroutine AdjustBands_caldyn
142	use times
143	USE parallel_lmdz
144	implicit none
145
146	real :: minvalue,maxvalue
147	integer :: min_proc,max_proc
148	integer :: i,j
149	real,allocatable,dimension(:) :: value
150	integer,allocatable,dimension(:) :: index
151	real :: tmpvalue
152	integer :: tmpindex
153
154	allocate(value(0:mpi_size-1))
155	allocate(index(0:mpi_size-1))
156
157
158	call allgather_timer_average
159
160	do i=0,mpi_size-1
161	value(i)=timer_average(jj_nb_caldyn(i),timer_caldyn,i)
162	index(i)=i
163	enddo
164
165	do i=0,mpi_size-2
166	do j=i+1,mpi_size-1
167	if (value(i)>value(j)) then
168	tmpvalue=value(i)
169	value(i)=value(j)
170	value(j)=tmpvalue
171
172	tmpindex=index(i)
173	index(i)=index(j)
174	index(j)=tmpindex
175	endif
176	enddo
177	enddo
178
179	maxvalue=value(mpi_size-1)
180	max_proc=index(mpi_size-1)
181
182	do i=0,mpi_size-2
183	minvalue=value(i)
184	min_proc=index(i)
185	if (jj_nb_caldyn(max_proc)>3) then
186	if (timer_iteration(jj_nb_caldyn(min_proc)+1,timer_caldyn,min_proc)<=1 ) then
187	jj_nb_caldyn(min_proc)=jj_nb_caldyn(min_proc)+1
188	jj_nb_caldyn(max_proc)=jj_nb_caldyn(max_proc)-1
189	exit
190	else
191	if (timer_average(jj_nb_caldyn(min_proc)+1,timer_caldyn,min_proc) &
192	-timer_delta(jj_nb_caldyn(min_proc)+1,timer_caldyn,min_proc) < maxvalue) then
193	jj_nb_caldyn(min_proc)=jj_nb_caldyn(min_proc)+1
194	jj_nb_caldyn(max_proc)=jj_nb_caldyn(max_proc)-1
195	exit
196	endif
197	endif
198	endif
199	enddo
200
201	deallocate(value)
202	deallocate(index)
203
204	end subroutine AdjustBands_caldyn
205
206	subroutine AdjustBands_vanleer
207	use times
208	USE parallel_lmdz
209	implicit none
210
211	real :: minvalue,maxvalue
212	integer :: min_proc,max_proc
213	integer :: i,j
214	real,allocatable,dimension(:) :: value
215	integer,allocatable,dimension(:) :: index
216	real :: tmpvalue
217	integer :: tmpindex
218
219	allocate(value(0:mpi_size-1))
220	allocate(index(0:mpi_size-1))
221
222
223	call allgather_timer_average
224
225	do i=0,mpi_size-1
226	value(i)=timer_average(jj_nb_vanleer(i),timer_vanleer,i)
227	index(i)=i
228	enddo
229
230	do i=0,mpi_size-2
231	do j=i+1,mpi_size-1
232	if (value(i)>value(j)) then
233	tmpvalue=value(i)
234	value(i)=value(j)
235	value(j)=tmpvalue
236
237	tmpindex=index(i)
238	index(i)=index(j)
239	index(j)=tmpindex
240	endif
241	enddo
242	enddo
243
244	maxvalue=value(mpi_size-1)
245	max_proc=index(mpi_size-1)
246
247	do i=0,mpi_size-2
248	minvalue=value(i)
249	min_proc=index(i)
250
251	if (jj_nb_vanleer(max_proc)>3) then
252	if (timer_average(jj_nb_vanleer(min_proc)+1,timer_vanleer,min_proc)==0. .or. &
253	timer_average(jj_nb_vanleer(max_proc)-1,timer_vanleer,max_proc)==0.) then
254	jj_nb_vanleer(min_proc)=jj_nb_vanleer(min_proc)+1
255	jj_nb_vanleer(max_proc)=jj_nb_vanleer(max_proc)-1
256	exit
257	else
258	if (timer_average(jj_nb_vanleer(min_proc)+1,timer_vanleer,min_proc) < maxvalue) then
259	jj_nb_vanleer(min_proc)=jj_nb_vanleer(min_proc)+1
260	jj_nb_vanleer(max_proc)=jj_nb_vanleer(max_proc)-1
261	exit
262	endif
263	endif
264	endif
265	enddo
266
267	deallocate(value)
268	deallocate(index)
269
270	end subroutine AdjustBands_vanleer
271
272	subroutine AdjustBands_dissip
273	use times
274	USE parallel_lmdz
275	implicit none
276
277	real :: minvalue,maxvalue
278	integer :: min_proc,max_proc
279	integer :: i,j
280	real,allocatable,dimension(:) :: value
281	integer,allocatable,dimension(:) :: index
282	real :: tmpvalue
283	integer :: tmpindex
284
285	allocate(value(0:mpi_size-1))
286	allocate(index(0:mpi_size-1))
287
288
289	call allgather_timer_average
290
291	do i=0,mpi_size-1
292	value(i)=timer_average(jj_nb_dissip(i),timer_dissip,i)
293	index(i)=i
294	enddo
295
296	do i=0,mpi_size-2
297	do j=i+1,mpi_size-1
298	if (value(i)>value(j)) then
299	tmpvalue=value(i)
300	value(i)=value(j)
301	value(j)=tmpvalue
302
303	tmpindex=index(i)
304	index(i)=index(j)
305	index(j)=tmpindex
306	endif
307	enddo
308	enddo
309
310	maxvalue=value(mpi_size-1)
311	max_proc=index(mpi_size-1)
312
313	do i=0,mpi_size-2
314	minvalue=value(i)
315	min_proc=index(i)
316
317	if (jj_nb_dissip(max_proc)>3) then
318	if (timer_iteration(jj_nb_dissip(min_proc)+1,timer_dissip,min_proc)<=1) then
319	jj_nb_dissip(min_proc)=jj_nb_dissip(min_proc)+1
320	jj_nb_dissip(max_proc)=jj_nb_dissip(max_proc)-1
321	exit
322	else
323	if (timer_average(jj_nb_dissip(min_proc)+1,timer_dissip,min_proc) &
324	- timer_delta(jj_nb_dissip(min_proc)+1,timer_dissip,min_proc) < maxvalue) then
325	jj_nb_dissip(min_proc)=jj_nb_dissip(min_proc)+1
326	jj_nb_dissip(max_proc)=jj_nb_dissip(max_proc)-1
327	exit
328	endif
329	endif
330	endif
331	enddo
332
333	deallocate(value)
334	deallocate(index)
335
336	end subroutine AdjustBands_dissip
337
338	subroutine AdjustBands_physic
339	use times
340	#ifdef CPP_PHYS
341	! Ehouarn: what follows is only related to // physics
342	USE mod_phys_lmdz_para, only : klon_mpi_para_nb
343	#endif
344	USE parallel_lmdz
345	implicit none
346
347	integer :: i,Index
348	real,allocatable,dimension(:) :: value
349	integer,allocatable,dimension(:) :: Inc
350	real :: medium
351	integer :: NbTot,sgn
352
353	allocate(value(0:mpi_size-1))
354	allocate(Inc(0:mpi_size-1))
355
356
357	call allgather_timer_average
358
359	medium=0
360	do i=0,mpi_size-1
361	value(i)=timer_average(jj_nb_physic(i),timer_physic,i)
362	medium=medium+value(i)
363	enddo
364
365	medium=medium/mpi_size
366	NbTot=0
367	#ifdef CPP_PHYS
368	do i=0,mpi_size-1
369	Inc(i)=nint(klon_mpi_para_nb(i)*(medium-value(i))/value(i))
370	NbTot=NbTot+Inc(i)
371	enddo
372
373	if (NbTot>=0) then
374	Sgn=1
375	else
376	Sgn=-1
377	NbTot=-NbTot
378	endif
379
380	Index=0
381	do i=1,NbTot
382	Inc(Index)=Inc(Index)-Sgn
383	Index=Index+1
384	if (Index>mpi_size-1) Index=0
385	enddo
386
387	do i=0,mpi_size-1
388	distrib_phys(i)=klon_mpi_para_nb(i)+inc(i)
389	enddo
390	#endif
391	end subroutine AdjustBands_physic
392
393	subroutine WriteBands
394	USE parallel_lmdz
395	implicit none
396	include "dimensions.h"
397
398	integer :: i,j
399	character (len=4) :: siim,sjjm,sllm,sproc
400	character (len=255) :: filename
401	integer :: unit_number=10
402	integer :: ierr
403
404	write(siim,'(i3)') iim
405	write(sjjm,'(i3)') jjm
406	write(sllm,'(i3)') llm
407	write(sproc,'(i3)') mpi_size
408
409	filename='Bands_'//TRIM(ADJUSTL(siim))//'x'//TRIM(ADJUSTL(sjjm))//'x'//TRIM(ADJUSTL(sllm))//'_' &
410	//TRIM(ADJUSTL(sproc))//'prc.dat'
411
412	OPEN(UNIT=unit_number,FILE=trim(filename),STATUS='replace',FORM='formatted',IOSTAT=ierr)
413
414	if (ierr==0) then
415
416	! write (unit_number,) ' Bandes caldyn *'
417	do i=0,mpi_size-1
418	write (unit_number,*) i,jj_nb_caldyn(i)
419	enddo
420
421	! write (unit_number,) ' Bandes vanleer *'
422	do i=0,mpi_size-1
423	write (unit_number,*) i,jj_nb_vanleer(i)
424	enddo
425
426	! write (unit_number,) ' Bandes dissip *'
427	do i=0,mpi_size-1
428	write (unit_number,*) i,jj_nb_dissip(i)
429	enddo
430
431	do i=0,mpi_size-1
432	write (unit_number,*) i,distrib_phys(i)
433	enddo
434
435	CLOSE(unit_number)
436	else
437	print *,'probleme lors de l ecriture des bandes'
438	endif
439
440	end subroutine WriteBands
441
442	end module Bands
443
444

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