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source: LMDZ4/trunk/libf/phylmd/calcul_STDlev.h @ 1155

Last change on this file since 1155 was 1146, checked in by Laurent Fairhead, 16 years ago
Réintegration dans le tronc des modifications issues de la branche LMDZ-dev comprises entre la révision 1074 et 1145 Validation: une simulation de 1 jour en séquentiel sur PC donne les mêmes résultats entre la trunk et la dev LF
Property svn:eol-style set to `native` Property svn:keywords set to `Author Date Id Revision`
File size: 11.2 KB

Rev	Line
[644]	1	c
	2	c $Header$
	3	c
	4	c
	5	cIM on initialise les champs en debut du jour ou du mois
	6	c
	7	CALL ini_undefSTD(nlevSTD,itap,
[684]	8	$ dtime,ecrit_day,ecrit_mth,
[644]	9	$ tnondef,tsumSTD)
	10	CALL ini_undefSTD(nlevSTD,itap,
[684]	11	$ dtime,ecrit_day,ecrit_mth,
[644]	12	$ tnondef,usumSTD)
	13	CALL ini_undefSTD(nlevSTD,itap,
[684]	14	$ dtime,ecrit_day,ecrit_mth,
[644]	15	$ tnondef,vsumSTD)
	16	CALL ini_undefSTD(nlevSTD,itap,
[684]	17	$ dtime,ecrit_day,ecrit_mth,
[644]	18	$ tnondef,wsumSTD)
	19	CALL ini_undefSTD(nlevSTD,itap,
[684]	20	$ dtime,ecrit_day,ecrit_mth,
[644]	21	$ tnondef,phisumSTD)
	22	CALL ini_undefSTD(nlevSTD,itap,
[684]	23	$ dtime,ecrit_day,ecrit_mth,
[644]	24	$ tnondef,qsumSTD)
	25	CALL ini_undefSTD(nlevSTD,itap,
[684]	26	$ dtime,ecrit_day,ecrit_mth,
[644]	27	$ tnondef,rhsumSTD)
	28	CALL ini_undefSTD(nlevSTD,itap,
[684]	29	$ dtime,ecrit_day,ecrit_mth,
[644]	30	$ tnondef,uvsumSTD)
	31	CALL ini_undefSTD(nlevSTD,itap,
[684]	32	$ dtime,ecrit_day,ecrit_mth,
[644]	33	$ tnondef,vqsumSTD)
	34	CALL ini_undefSTD(nlevSTD,itap,
[684]	35	$ dtime,ecrit_day,ecrit_mth,
[644]	36	$ tnondef,vTsumSTD)
	37	CALL ini_undefSTD(nlevSTD,itap,
[684]	38	$ dtime,ecrit_day,ecrit_mth,
[644]	39	$ tnondef,wqsumSTD)
	40	CALL ini_undefSTD(nlevSTD,itap,
[684]	41	$ dtime,ecrit_day,ecrit_mth,
[644]	42	$ tnondef,vphisumSTD)
	43	CALL ini_undefSTD(nlevSTD,itap,
[684]	44	$ dtime,ecrit_day,ecrit_mth,
[644]	45	$ tnondef,wTsumSTD)
	46	CALL ini_undefSTD(nlevSTD,itap,
[684]	47	$ dtime,ecrit_day,ecrit_mth,
[644]	48	$ tnondef,u2sumSTD)
	49	CALL ini_undefSTD(nlevSTD,itap,
[684]	50	$ dtime,ecrit_day,ecrit_mth,
[644]	51	$ tnondef,v2sumSTD)
	52	CALL ini_undefSTD(nlevSTD,itap,
[684]	53	$ dtime,ecrit_day,ecrit_mth,
[644]	54	$ tnondef,T2sumSTD)
	55	c
	56	cIM on interpole sur les niveaux STD de pression a chaque pas de temps de la physique
	57	c
[1146]	58	c-------------------------------------------------------c
	59	c positionnement de l'argument logique a .false. c
	60	c pour ne pas recalculer deux fois la meme chose ! c
	61	c a cet effet un appel a plevel_new a ete deplace c
	62	c a la fin de la serie d'appels c
	63	c la boucle 'DO k=1, nlevSTD' a ete internalisee c
	64	c dans plevel_new, d'ou la creation de cette routine... c
	65	c-------------------------------------------------------c
[644]	66	c
[1146]	67	CALL plevel_new(klon,klev,nlevSTD,.true.,pplay,rlevSTD,
	68	& t_seri,tlevSTD)
	69	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	70	& u_seri,ulevSTD)
	71	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	72	& v_seri,vlevSTD)
[644]	73	c
[1146]	74
[644]	75	c
[1146]	76	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	77	& zphi/RG,philevSTD)
	78	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	79	& qx(:,:,ivap),qlevSTD)
	80	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	81	& zx_rh*100.,rhlevSTD)
[644]	82	c
	83	DO l=1, klev
	84	DO i=1, klon
	85	zx_tmp_fi3d(i,l)=u_seri(i,l)*v_seri(i,l)
	86	ENDDO !i
	87	ENDDO !l
[1146]	88	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	89	& zx_tmp_fi3d,uvSTD)
[644]	90	c
	91	DO l=1, klev
	92	DO i=1, klon
	93	zx_tmp_fi3d(i,l)=v_seri(i,l)*q_seri(i,l)
	94	ENDDO !i
	95	ENDDO !l
[1146]	96	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	97	& zx_tmp_fi3d,vqSTD)
[644]	98	c
	99	DO l=1, klev
	100	DO i=1, klon
	101	zx_tmp_fi3d(i,l)=v_seri(i,l)*t_seri(i,l)
	102	ENDDO !i
	103	ENDDO !l
[1146]	104	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	105	& zx_tmp_fi3d,vTSTD)
[644]	106	c
	107	DO l=1, klev
	108	DO i=1, klon
	109	zx_tmp_fi3d(i,l)=omega(i,l)*qx(i,l,ivap)
	110	ENDDO !i
	111	ENDDO !l
[1146]	112	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	113	& zx_tmp_fi3d,wqSTD)
[644]	114	c
	115	DO l=1, klev
	116	DO i=1, klon
	117	zx_tmp_fi3d(i,l)=v_seri(i,l)*zphi(i,l)/RG
	118	ENDDO !i
	119	ENDDO !l
[1146]	120	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	121	& zx_tmp_fi3d,vphiSTD)
[644]	122	c
	123	DO l=1, klev
	124	DO i=1, klon
	125	zx_tmp_fi3d(i,l)=omega(i,l)*t_seri(i,l)
	126	ENDDO !i
	127	ENDDO !l
[1146]	128	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	129	& zx_tmp_fi3d,wTSTD)
[644]	130	c
	131	DO l=1, klev
	132	DO i=1, klon
	133	zx_tmp_fi3d(i,l)=u_seri(i,l)*u_seri(i,l)
	134	ENDDO !i
	135	ENDDO !l
[1146]	136	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	137	& zx_tmp_fi3d,u2STD)
[644]	138	c
	139	DO l=1, klev
	140	DO i=1, klon
	141	zx_tmp_fi3d(i,l)=v_seri(i,l)*v_seri(i,l)
	142	ENDDO !i
	143	ENDDO !l
[1146]	144	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	145	& zx_tmp_fi3d,v2STD)
[644]	146	c
	147	DO l=1, klev
	148	DO i=1, klon
	149	zx_tmp_fi3d(i,l)=t_seri(i,l)*t_seri(i,l)
	150	ENDDO !i
	151	ENDDO !l
[1146]	152	CALL plevel_new(klon,klev,nlevSTD,.false.,pplay,rlevSTD,
	153	& zx_tmp_fi3d,T2STD)
	154
	155
	156	DO l=1, klev
	157	DO i=1, klon
	158	zx_tmp_fi3d(i,l)=paprs(i,l)
	159	ENDDO !i
	160	ENDDO !l
	161	CALL plevel_new(klon,klev,nlevSTD,.true.,zx_tmp_fi3d,rlevSTD,
	162	& omega,wlevSTD)
	163
[644]	164	c
	165	cIM on somme les valeurs definies a chaque pas de temps de la physique ou
	166	cIM toutes les 6 heures
	167	c
	168	oknondef(1:klon,1:nlevSTD,1:nout)=.TRUE.
	169	CALL undefSTD(nlevSTD,itap,tlevSTD,
[684]	170	$ dtime,ecrit_hf,
[644]	171	$ oknondef,tnondef,tsumSTD)
	172	c
	173	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	174	CALL undefSTD(nlevSTD,itap,ulevSTD,
[684]	175	$ dtime,ecrit_hf,
[644]	176	$ oknondef,tnondef,usumSTD)
	177	c
	178	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	179	CALL undefSTD(nlevSTD,itap,vlevSTD,
[684]	180	$ dtime,ecrit_hf,
[644]	181	$ oknondef,tnondef,vsumSTD)
	182	c
	183	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	184	CALL undefSTD(nlevSTD,itap,wlevSTD,
[684]	185	$ dtime,ecrit_hf,
[644]	186	$ oknondef,tnondef,wsumSTD)
	187	c
	188	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	189	CALL undefSTD(nlevSTD,itap,philevSTD,
[684]	190	$ dtime,ecrit_hf,
[644]	191	$ oknondef,tnondef,phisumSTD)
	192	c
	193	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	194	CALL undefSTD(nlevSTD,itap,qlevSTD,
[684]	195	$ dtime,ecrit_hf,
[644]	196	$ oknondef,tnondef,qsumSTD)
	197	c
	198	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	199	CALL undefSTD(nlevSTD,itap,rhlevSTD,
[684]	200	$ dtime,ecrit_hf,
[644]	201	$ oknondef,tnondef,rhsumSTD)
	202	c
	203	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	204	CALL undefSTD(nlevSTD,itap,uvSTD,
[684]	205	$ dtime,ecrit_hf,
[644]	206	$ oknondef,tnondef,uvsumSTD)
	207	c
	208	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	209	CALL undefSTD(nlevSTD,itap,vqSTD,
[684]	210	$ dtime,ecrit_hf,
[644]	211	$ oknondef,tnondef,vqsumSTD)
	212	c
	213	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	214	CALL undefSTD(nlevSTD,itap,vTSTD,
[684]	215	$ dtime,ecrit_hf,
[644]	216	$ oknondef,tnondef,vTsumSTD)
	217	c
	218	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	219	CALL undefSTD(nlevSTD,itap,wqSTD,
[684]	220	$ dtime,ecrit_hf,
[644]	221	$ oknondef,tnondef,wqsumSTD)
	222	c
	223	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	224	CALL undefSTD(nlevSTD,itap,vphiSTD,
[684]	225	$ dtime,ecrit_hf,
[644]	226	$ oknondef,tnondef,vphisumSTD)
	227	c
	228	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	229	CALL undefSTD(nlevSTD,itap,wTSTD,
[684]	230	$ dtime,ecrit_hf,
[644]	231	$ oknondef,tnondef,wTsumSTD)
	232	c
	233	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	234	CALL undefSTD(nlevSTD,itap,u2STD,
[684]	235	$ dtime,ecrit_hf,
[644]	236	$ oknondef,tnondef,u2sumSTD)
	237	c
	238	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	239	CALL undefSTD(nlevSTD,itap,v2STD,
[684]	240	$ dtime,ecrit_hf,
[644]	241	$ oknondef,tnondef,v2sumSTD)
	242	c
	243	oknondef(1:klon,1:nlevSTD,1:nout)=.FALSE.
	244	CALL undefSTD(nlevSTD,itap,T2STD,
[684]	245	$ dtime,ecrit_hf,
[644]	246	$ oknondef,tnondef,T2sumSTD)
	247	c
	248	cIM on moyenne a la fin du jour ou du mois
	249	c
	250	CALL moy_undefSTD(nlevSTD,itap,
[684]	251	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	252	$ tnondef,tsumSTD)
	253	c
	254	CALL moy_undefSTD(nlevSTD,itap,
[684]	255	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	256	$ tnondef,usumSTD)
	257	c
	258	CALL moy_undefSTD(nlevSTD,itap,
[684]	259	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	260	$ tnondef,vsumSTD)
	261	c
	262	CALL moy_undefSTD(nlevSTD,itap,
[684]	263	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	264	$ tnondef,wsumSTD)
	265	c
	266	CALL moy_undefSTD(nlevSTD,itap,
[684]	267	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	268	$ tnondef,phisumSTD)
	269	c
	270	CALL moy_undefSTD(nlevSTD,itap,
[684]	271	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	272	$ tnondef,qsumSTD)
	273	c
	274	CALL moy_undefSTD(nlevSTD,itap,
[684]	275	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	276	$ tnondef,rhsumSTD)
	277	c
	278	CALL moy_undefSTD(nlevSTD,itap,
[684]	279	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	280	$ tnondef,uvsumSTD)
	281	c
	282	CALL moy_undefSTD(nlevSTD,itap,
[684]	283	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	284	$ tnondef,vqsumSTD)
	285	c
	286	CALL moy_undefSTD(nlevSTD,itap,
[684]	287	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	288	$ tnondef,vTsumSTD)
	289	c
	290	CALL moy_undefSTD(nlevSTD,itap,
[684]	291	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	292	$ tnondef,wqsumSTD)
	293	c
	294	CALL moy_undefSTD(nlevSTD,itap,
[684]	295	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	296	$ tnondef,vphisumSTD)
	297	c
	298	CALL moy_undefSTD(nlevSTD,itap,
[684]	299	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	300	$ tnondef,wTsumSTD)
	301	c
	302	CALL moy_undefSTD(nlevSTD,itap,
[684]	303	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	304	$ tnondef,u2sumSTD)
	305	c
	306	CALL moy_undefSTD(nlevSTD,itap,
[684]	307	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	308	$ tnondef,v2sumSTD)
	309	c
	310	CALL moy_undefSTD(nlevSTD,itap,
[684]	311	$ dtime,ecrit_day,ecrit_mth,ecrit_hf2mth,
[644]	312	$ tnondef,T2sumSTD)
	313	c
	314	cIM interpolation a chaque pas de temps du SWup(clr) et SWdn(clr) a 200 hPa
	315	c
	316	CALL plevel(klon,klevp1,.true.,paprs,20000.,
	317	$ swdn0,SWdn200clr)
	318	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	319	$ swdn,SWdn200)
	320	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	321	$ swup0,SWup200clr)
	322	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	323	$ swup,SWup200)
	324	c
	325	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	326	$ lwdn0,LWdn200clr)
	327	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	328	$ lwdn,LWdn200)
	329	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	330	$ lwup0,LWup200clr)
	331	CALL plevel(klon,klevp1,.false.,paprs,20000.,
	332	$ lwup,LWup200)
	333	c

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