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addfi_p.F @ 2404

Last change on this file since 2404 was 1987, checked in by Ehouarn Millour, 11 years ago
Add updating pressure, mass and Exner function (ie: all variables which depend on surface pressure) after adding physics tendencies (which include a surface pressure tendency). Note that this change induces slight changes in GCM results with respect to previous svn version of the code, even if surface pressure tendency is zero (because of recomputation of polar values as an average over polar points on the dynamics grid). EM
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: 6.4 KB

Rev	Line
[774]	1	!
[1454]	2	! $Id: addfi_p.F 1987 2014-02-24 15:05:47Z fhourdin $
[774]	3	!
[1146]	4	SUBROUTINE addfi_p(pdt, leapf, forward,
[630]	5	S pucov, pvcov, pteta, pq , pps ,
	6	S pdufi, pdvfi, pdhfi,pdqfi, pdpfi )
[1823]	7	USE parallel_lmdz
[1146]	8	USE infotrac, ONLY : nqtot
[1454]	9	USE control_mod, ONLY : planet_type
[630]	10	IMPLICIT NONE
	11	c
	12	c=======================================================================
	13	c
	14	c Addition of the physical tendencies
	15	c
	16	c Interface :
	17	c -----------
	18	c
	19	c Input :
	20	c -------
	21	c pdt time step of integration
	22	c leapf logical
	23	c forward logical
	24	c pucov(ip1jmp1,llm) first component of the covariant velocity
	25	c pvcov(ip1ip1jm,llm) second component of the covariant velocity
	26	c pteta(ip1jmp1,llm) potential temperature
	27	c pts(ip1jmp1,llm) surface temperature
	28	c pdufi(ip1jmp1,llm) \|
	29	c pdvfi(ip1jm,llm) \| respective
	30	c pdhfi(ip1jmp1) \| tendencies
	31	c pdtsfi(ip1jmp1) \|
	32	c
	33	c Output :
	34	c --------
	35	c pucov
	36	c pvcov
	37	c ph
	38	c pts
	39	c
	40	c
	41	c=======================================================================
	42	c
	43	c-----------------------------------------------------------------------
	44	c
	45	c 0. Declarations :
	46	c ------------------
	47	c
	48	#include "dimensions.h"
	49	#include "paramet.h"
	50	#include "comconst.h"
	51	#include "comgeom.h"
	52	#include "serre.h"
	53	c
	54	c Arguments :
	55	c -----------
	56	c
[1987]	57	REAL,INTENT(IN) :: pdt ! time step for the integration (s)
[630]	58	c
[1987]	59	REAL,INTENT(INOUT) :: pvcov(ip1jm,llm) ! covariant meridional wind
	60	REAL,INTENT(INOUT) :: pucov(ip1jmp1,llm) ! covariant zonal wind
	61	REAL,INTENT(INOUT) :: pteta(ip1jmp1,llm) ! potential temperature
	62	REAL,INTENT(INOUT) :: pq(ip1jmp1,llm,nqtot) ! tracers
	63	REAL,INTENT(INOUT) :: pps(ip1jmp1) ! surface pressure (Pa)
	64	c respective tendencies (.../s) to add
	65	REAL,INTENT(IN) :: pdvfi(ip1jm,llm)
	66	REAL,INTENT(IN) :: pdufi(ip1jmp1,llm)
	67	REAL,INTENT(IN) :: pdqfi(ip1jmp1,llm,nqtot)
	68	REAL,INTENT(IN) :: pdhfi(ip1jmp1,llm)
	69	REAL,INTENT(IN) :: pdpfi(ip1jmp1)
[630]	70	c
[1987]	71	LOGICAL,INTENT(IN) :: leapf,forward ! not used
[630]	72	c
	73	c
	74	c Local variables :
	75	c -----------------
	76	c
	77	REAL xpn(iim),xps(iim),tpn,tps
	78	INTEGER j,k,iq,ij
[1987]	79	REAL,PARAMETER :: qtestw = 1.0e-15
	80	REAL,PARAMETER :: qtestt = 1.0e-40
[630]	81
	82	REAL SSUM
	83	EXTERNAL SSUM
	84
	85	INTEGER :: ijb,ije
	86	c
	87	c-----------------------------------------------------------------------
	88
	89	ijb=ij_begin
	90	ije=ij_end
	91
[764]	92	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	93	DO k = 1,llm
	94	DO j = ijb,ije
	95	pteta(j,k)= pteta(j,k) + pdhfi(j,k) * pdt
	96	ENDDO
	97	ENDDO
[764]	98	c$OMP END DO NOWAIT
[630]	99
	100	if (pole_nord) then
[764]	101	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	102	DO k = 1, llm
	103	DO ij = 1, iim
	104	xpn(ij) = aire( ij ) * pteta( ij ,k)
	105	ENDDO
	106	tpn = SSUM(iim,xpn,1)/ apoln
	107
	108	DO ij = 1, iip1
	109	pteta( ij ,k) = tpn
	110	ENDDO
	111	ENDDO
[764]	112	c$OMP END DO NOWAIT
[630]	113	endif
	114
	115	if (pole_sud) then
[764]	116	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	117	DO k = 1, llm
	118	DO ij = 1, iim
	119	xps(ij) = aire(ij+ip1jm) * pteta(ij+ip1jm,k)
	120	ENDDO
	121	tps = SSUM(iim,xps,1)/ apols
	122
	123	DO ij = 1, iip1
	124	pteta(ij+ip1jm,k) = tps
	125	ENDDO
	126	ENDDO
[764]	127	c$OMP END DO NOWAIT
[630]	128	endif
	129	c
	130
	131	ijb=ij_begin
	132	ije=ij_end
	133	if (pole_nord) ijb=ij_begin+iip1
	134	if (pole_sud) ije=ij_end-iip1
[764]	135
	136	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	137	DO k = 1,llm
	138	DO j = ijb,ije
	139	pucov(j,k)= pucov(j,k) + pdufi(j,k) * pdt
	140	ENDDO
	141	ENDDO
[764]	142	c$OMP END DO NOWAIT
[630]	143
	144	if (pole_nord) ijb=ij_begin
	145
[764]	146	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	147	DO k = 1,llm
	148	DO j = ijb,ije
	149	pvcov(j,k)= pvcov(j,k) + pdvfi(j,k) * pdt
	150	ENDDO
	151	ENDDO
[764]	152	c$OMP END DO NOWAIT
[630]	153
	154	c
	155	if (pole_sud) ije=ij_end
[764]	156	c$OMP MASTER
[630]	157	DO j = ijb,ije
	158	pps(j) = pps(j) + pdpfi(j) * pdt
	159	ENDDO
[764]	160	c$OMP END MASTER
[630]	161
[1454]	162	if (planet_type=="earth") then
	163	! earth case, special treatment for first 2 tracers (water)
	164	DO iq = 1, 2
[764]	165	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	166	DO k = 1,llm
	167	DO j = ijb,ije
	168	pq(j,k,iq)= pq(j,k,iq) + pdqfi(j,k,iq) * pdt
	169	pq(j,k,iq)= AMAX1( pq(j,k,iq), qtestw )
	170	ENDDO
	171	ENDDO
[764]	172	c$OMP END DO NOWAIT
[1454]	173	ENDDO
[630]	174
[1454]	175	DO iq = 3, nqtot
[764]	176	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	177	DO k = 1,llm
	178	DO j = ijb,ije
	179	pq(j,k,iq)= pq(j,k,iq) + pdqfi(j,k,iq) * pdt
	180	pq(j,k,iq)= AMAX1( pq(j,k,iq), qtestt )
	181	ENDDO
	182	ENDDO
[764]	183	c$OMP END DO NOWAIT
[1454]	184	ENDDO
	185	else
	186	! general case, treat all tracers equally)
	187	DO iq = 1, nqtot
	188	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
	189	DO k = 1,llm
	190	DO j = ijb,ije
	191	pq(j,k,iq)= pq(j,k,iq) + pdqfi(j,k,iq) * pdt
	192	pq(j,k,iq)= AMAX1( pq(j,k,iq), qtestt )
	193	ENDDO
	194	ENDDO
	195	c$OMP END DO NOWAIT
	196	ENDDO
	197	endif ! of if (planet_type=="earth")
[630]	198
[764]	199	c$OMP MASTER
[630]	200	if (pole_nord) then
	201
	202	DO ij = 1, iim
	203	xpn(ij) = aire( ij ) * pps( ij )
	204	ENDDO
	205
	206	tpn = SSUM(iim,xpn,1)/apoln
	207
	208	DO ij = 1, iip1
	209	pps ( ij ) = tpn
	210	ENDDO
	211
	212	endif
	213
	214	if (pole_sud) then
	215
	216	DO ij = 1, iim
	217	xps(ij) = aire(ij+ip1jm) * pps(ij+ip1jm )
	218	ENDDO
	219
	220	tps = SSUM(iim,xps,1)/apols
	221
	222	DO ij = 1, iip1
	223	pps ( ij+ip1jm ) = tps
	224	ENDDO
	225
	226	endif
[764]	227	c$OMP END MASTER
[630]	228
	229	if (pole_nord) then
[1146]	230	DO iq = 1, nqtot
[764]	231	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	232	DO k = 1, llm
	233	DO ij = 1, iim
	234	xpn(ij) = aire( ij ) * pq( ij ,k,iq)
	235	ENDDO
	236	tpn = SSUM(iim,xpn,1)/apoln
	237
	238	DO ij = 1, iip1
	239	pq ( ij ,k,iq) = tpn
	240	ENDDO
	241	ENDDO
[764]	242	c$OMP END DO NOWAIT
[630]	243	ENDDO
	244	endif
	245
	246	if (pole_sud) then
[1146]	247	DO iq = 1, nqtot
[764]	248	c$OMP DO SCHEDULE(STATIC,OMP_CHUNK)
[630]	249	DO k = 1, llm
	250	DO ij = 1, iim
	251	xps(ij) = aire(ij+ip1jm) * pq(ij+ip1jm,k,iq)
	252	ENDDO
	253	tps = SSUM(iim,xps,1)/apols
	254
	255	DO ij = 1, iip1
	256	pq (ij+ip1jm,k,iq) = tps
	257	ENDDO
	258	ENDDO
[764]	259	c$OMP END DO NOWAIT
[630]	260	ENDDO
	261	endif
	262
	263
	264	RETURN
	265	END

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