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sumplatb_mod.F90 @ 3956

Last change on this file since 3956 was 1990, checked in by Laurent Fairhead, 10 years ago

Corrections à la version r1989 pour permettre la compilation avec RRTM
Inclusion de la licence CeCILL_V2 pour RRTM

Changes to revision r1989 to enable RRTM code compilation
RRTM part put under CeCILL_V2 licence

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

File size: 5.5 KB

Line
1	MODULE SUMPLATB_MOD
2	CONTAINS
3	SUBROUTINE SUMPLATB(KDGSA,KDGL,KPROCA,KLOENG,LDSPLIT,&
4	&KMEDIAP,KRESTM,KINDIC,KLAST)
5
6	!**** SUMPLATB - Routine to initialize parallel environment
7
8	! Purpose.
9	! --------
10
11
12	!** Interface.
13	! ----------
14	! CALL SUMPLATB
15
16	! Explicit arguments - input :
17	! --------------------
18	! KDGSA -first latitude (grid-space)
19	! (may be different from NDGSAG)
20	! KDGL -last latitude
21	! KPROCA -number of processors in A direction
22	! KLOENG -actual number of longitudes per latitude.
23	! LDSPLIT -true for latitudes shared between sets
24
25	! Explicit arguments - output:
26	! --------------------
27	! KMEDIAP -mean number of grid points per PE
28	! KRESTM -number of PEs with one extra point
29	! KINDIC -intermediate quantity for 'sumplat'
30	! KLAST -intermediate quantity for 'sumplat'
31
32	! Implicit arguments :
33	! --------------------
34
35
36	! Method.
37	! -------
38	! See documentation
39
40	! Externals. NONE.
41	! ----------
42
43	! Reference.
44	! ----------
45	! ECMWF Research Department documentation of the IFS
46
47	! Author.
48	! -------
49	! K. YESSAD (after old version of sumplat.F).
50
51	! Modifications.
52	! --------------
53	! Original : 98-12-07
54	! ------------------------------------------------------------------
55
56
57	USE PARKIND1 ,ONLY : JPIM ,JPRB
58
59	USE ABORT_TRANS_MOD
60
61	IMPLICIT NONE
62
63
64	! * DUMMY:
65	INTEGER(KIND=JPIM),INTENT(IN) :: KDGSA
66	INTEGER(KIND=JPIM),INTENT(IN) :: KDGL
67	INTEGER(KIND=JPIM),INTENT(IN) :: KPROCA
68	INTEGER(KIND=JPIM),INTENT(IN) :: KLOENG(KDGSA:KDGL)
69	LOGICAL,INTENT(IN) :: LDSPLIT
70	INTEGER(KIND=JPIM),INTENT(OUT) :: KMEDIAP
71	INTEGER(KIND=JPIM),INTENT(OUT) :: KRESTM
72	INTEGER(KIND=JPIM),INTENT(OUT) :: KINDIC(KPROCA)
73	INTEGER(KIND=JPIM),INTENT(OUT) :: KLAST(KPROCA)
74
75	! * LOCAL:
76	INTEGER(KIND=JPIM) :: IPP1(KPROCA),ILAST1(KPROCA)
77	INTEGER(KIND=JPIM) :: IPP(KPROCA)
78	INTEGER(KIND=JPIM) :: IFIRST(KPROCA)
79
80	! LOCAL INTEGER SCALARS
81	INTEGER(KIND=JPIM) :: ICOMP, IGL, IMAXI, IMAXIOL, IMEDIA, ITOT, JA, JGL,&
82	&ILAST,IREST,ILIMIT,IFRST
83	LOGICAL :: LLDONE
84
85	! -----------------------------------------------------------------
86
87	!* 1. COMPUTATION OF KMEDIAP, KRESTM, KINDIC, KLAST.
88	! ----------------------------------------------
89
90	! * Computation of KMEDIAP and KRESTM.
91
92	IMEDIA = SUM(KLOENG(KDGSA:KDGL))
93	KMEDIAP = IMEDIA / KPROCA
94	IF (KMEDIAP < KLOENG(KDGL/2)) THEN
95	CALL ABORT_TRANS ('SUMPLATB: KPROCA TOO BIG FOR THIS RESOLUTION')
96	ENDIF
97	KRESTM = IMEDIA - KMEDIAP * KPROCA
98	IF (KRESTM > 0) KMEDIAP = KMEDIAP + 1
99
100	! * Computation of intermediate quantities KINDIC and KLAST
101
102	IF (LDSPLIT) THEN
103
104	IREST = 0
105	ILAST =0
106	DO JA=1,KPROCA
107	IF (JA <= KRESTM .OR. KRESTM == 0) THEN
108	ICOMP = KMEDIAP
109	ELSE
110	ICOMP = KMEDIAP - 1
111	ENDIF
112	ITOT = IREST
113	IGL = ILAST+1
114	DO JGL=IGL,KDGL
115	ILAST = JGL
116	IF(ITOT+KLOENG(JGL) < ICOMP) THEN
117	ITOT = ITOT+KLOENG(JGL)
118	ELSEIF(ITOT+KLOENG(JGL) == ICOMP) THEN
119	IREST = 0
120	KLAST(JA) = JGL
121	KINDIC(JA) = 0
122	EXIT
123	ELSE
124	IREST = KLOENG(JGL) -(ICOMP-ITOT)
125	KLAST(JA) = JGL
126	KINDIC(JA) = JGL
127	EXIT
128	ENDIF
129	ENDDO
130	ENDDO
131
132	ELSE
133
134	KINDIC(:) = 0
135
136	IMAXI = KMEDIAP-1
137	IMAXIOL = HUGE(IMAXIOL)
138	DO
139	ILIMIT = IMAXI
140	IMAXI = 0
141	IFRST = KDGL
142	ILAST1(:) = 0
143	IPP1(:) = 0
144	DO JA=KPROCA,1,-1
145	IGL = IFRST
146	LATS:DO JGL=IGL,1,-1
147	IF (IPP1(JA) < ILIMIT .OR. JA == 1) THEN
148	IFRST = JGL-1
149	IPP1(JA) = IPP1(JA) + KLOENG(JGL)
150	IF(ILAST1(JA) == 0) ILAST1(JA) = JGL
151	ELSE
152	EXIT LATS
153	ENDIF
154	ENDDO LATS
155	IMAXI = MAX (IMAXI,IPP1(JA))
156	ENDDO
157	IF(IMAXI >= IMAXIOL) EXIT
158	KLAST(:) = ILAST1(:)
159	IPP(:) = IPP1(:)
160	IMAXIOL = IMAXI
161	ENDDO
162
163	! make the distribution more uniform
164	! ----------------------------------
165
166	IFIRST(1) = 0
167	IF (KLAST(1) > 0) IFIRST(1) = 1
168	DO JA=2,KPROCA
169	IF (IPP(JA) > 0) THEN
170	IFIRST(JA) = KLAST(JA-1)+1
171	ELSE
172	IFIRST(JA) = 0
173	ENDIF
174	ENDDO
175
176	LLDONE = .FALSE.
177	DO WHILE( .NOT.LLDONE )
178	LLDONE = .TRUE.
179
180	DO JA=1,KPROCA-1
181	IF (IPP(JA) > IPP(JA+1)) THEN
182	IF (IPP(JA)-IPP(JA+1) > IPP(JA+1) + 2 *&
183	&KLOENG(KLAST(JA)) -IPP(JA) ) THEN
184	IPP(JA) = IPP(JA) - KLOENG(KLAST(JA))
185	IPP(JA+1) = IPP(JA+1) + KLOENG(KLAST(JA))
186	IF (KLAST(JA+1) == 0) KLAST(JA+1) = KLAST(JA)
187	IFIRST(JA+1) = KLAST(JA)
188	KLAST(JA) = KLAST(JA) - 1
189	IF (KLAST(JA) == 0) IFIRST(JA) = 0
190	LLDONE = .FALSE.
191	ENDIF
192	ELSE
193	IF( IFIRST(JA+1) > 0 )THEN
194	IF (IPP(JA+1)-IPP(JA) >= IPP(JA) + 2 *&
195	&KLOENG(IFIRST(JA+1)) -IPP(JA+1) ) THEN
196	IPP(JA) = IPP(JA) + KLOENG(IFIRST(JA+1))
197	IPP(JA+1) = IPP(JA+1) - KLOENG(IFIRST(JA+1))
198	KLAST(JA) = IFIRST(JA+1)
199	IF (IFIRST(JA) == 0) IFIRST(JA) = KLAST(JA)
200	IF (KLAST(JA+1) == KLAST(JA)) THEN
201	KLAST(JA+1) = 0
202	IFIRST(JA+1) = 0
203	ELSE
204	IFIRST(JA+1) = IFIRST(JA+1) + 1
205	ENDIF
206	LLDONE = .FALSE.
207	ENDIF
208	ENDIF
209	ENDIF
210	ENDDO
211	ENDDO
212
213	ENDIF
214
215	END SUBROUTINE SUMPLATB
216	END MODULE SUMPLATB_MOD

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