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undefSTD.F @ 5089

Last change on this file since 5089 was 1418, checked in by jghattas, 14 years ago

Following bug corrections are already done at branch LMDZ4_AR5 rev
1417,1416 :

Bug corrections for nudged run (pres2lev.F90, guide_p_mod.F90) :

now the results are the same for sequentiel and parallel mode(if adjust=n and compiled with vsafe at mercure).
the results are the same as the sequential mode in previous revision.
test done only with guide_u=y,guide_v=y
copied optimized version of pres2lev.F90 from dyn3dpar to dyn3d

Added condition read_climoz for the variable O3daySTD(calcul_STDlev.h,
undefSTD.F)

Corrected bug in calculation of the diagnostic variable ec550aer
"Extinction at 550nm" (aeropt_5wv.F90) (Maria Raffaella Vuolo, LSCE)

Added stop if use_filtre_fft=y with dyn3d (conf_gcm.F) : this option is
not implemented in dyn3d.

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

File size: 3.0 KB

Line
1	!
2	! $Id: undefSTD.F 1418 2010-07-19 15:11:24Z abarral $
3	!
4	SUBROUTINE undefSTD(itap,freq_calNMC, read_climoz)
5	USE netcdf
6	USE dimphy
7	USE phys_state_var_mod ! Variables sauvegardees de la physique
8	IMPLICIT none
9	c
10	c====================================================================
11	c
12	c I. Musat : 09.2004
13	c
14	c Calcul * du nombre de pas de temps (FLOAT(ecrit_XXX)-tnondef))
15	c ou la variable tlevSTD est bien definie (.NE.missing_val),
16	c et
17	c * de la somme de tlevSTD => tsumSTD
18	c
19	c nout=1 !var. journaliere "day" moyenne sur tous les pas de temps
20	c ! de la physique
21	c nout=2 !var. mensuelle "mth" moyennee sur tous les pas de temps
22	c ! de la physique
23	c nout=3 !var. mensuelle "NMC" moyennee toutes les ecrit_hf
24	c
25	c
26	c NB: mettre "inst(X)" dans le write_hist*NMC.h !
27	c====================================================================
28	c
29	cym#include "dimensions.h"
30	cym integer jjmp1
31	cym parameter (jjmp1=jjm+1-1/jjm)
32	cym#include "dimphy.h"
33	c variables Input
34	c
35	c INTEGER nlevSTD, klevSTD, itap
36	c PARAMETER(klevSTD=17)
37	INTEGER itap
38	c REAL dtime
39	c
40	c variables locales
41	c INTEGER i, k, nout, n
42	c PARAMETER(nout=3) !nout=1 : day; =2 : mth; =3 : NMC
43	INTEGER i, k, n
44	REAL freq_calNMC(nout)
45	INTEGER read_climoz
46	c
47	c variables Output
48	c REAL tlevSTD(klon,klevSTD), tsumSTD(klon,klevSTD,nout)
49	c LOGICAL oknondef(klon,klevSTD,nout)
50	c REAL tnondef(klon,klevSTD,nout)
51	c
52	REAL missing_val
53	c
54	missing_val=nf90_fill_real
55	c
56	DO n=1, nout
57	c
58	c
59	c calcul variables tous les freq_calNMC(n)/dtime pas de temps
60	c de la physique
61	c
62	IF(MOD(itap,NINT(freq_calNMC(n)/dtime)).EQ.0) THEN
63	DO k=1, nlevSTD
64	DO i=1, klon
65	IF(tlevSTD(i,k).EQ.missing_val) THEN
66	c IF(oknondef(i,k,n)) THEN
67	tnondef(i,k,n)=tnondef(i,k,n)+1.
68	c ENDIF !oknondef(i,k)
69	c
70	ELSE IF(tlevSTD(i,k).NE.missing_val) THEN
71	tsumSTD(i,k,n)=tsumSTD(i,k,n)+tlevSTD(i,k)
72	usumSTD(i,k,n)=usumSTD(i,k,n)+ulevSTD(i,k)
73	vsumSTD(i,k,n)=vsumSTD(i,k,n)+vlevSTD(i,k)
74	wsumSTD(i,k,n)=wsumSTD(i,k,n)+wlevSTD(i,k)
75	phisumSTD(i,k,n)=phisumSTD(i,k,n)+philevSTD(i,k)
76	qsumSTD(i,k,n)=qsumSTD(i,k,n)+qlevSTD(i,k)
77	rhsumSTD(i,k,n)=rhsumSTD(i,k,n)+rhlevSTD(i,k)
78	uvsumSTD(i,k,n)=uvsumSTD(i,k,n)+uvSTD(i,k)
79	vqsumSTD(i,k,n)=vqsumSTD(i,k,n)+vqSTD(i,k)
80	vTsumSTD(i,k,n)=vTsumSTD(i,k,n)+vTSTD(i,k)
81	wqsumSTD(i,k,n)=wqsumSTD(i,k,n)+wqSTD(i,k)
82	vphisumSTD(i,k,n)=vphisumSTD(i,k,n)+vphiSTD(i,k)
83	wTsumSTD(i,k,n)=wTsumSTD(i,k,n)+wTSTD(i,k)
84	u2sumSTD(i,k,n)=u2sumSTD(i,k,n)+u2STD(i,k)
85	v2sumSTD(i,k,n)=v2sumSTD(i,k,n)+v2STD(i,k)
86	T2sumSTD(i,k,n)=T2sumSTD(i,k,n)+T2STD(i,k)
87	O3sumSTD(i,k,n)=O3sumSTD(i,k,n)+O3STD(i,k)
88	IF (read_climoz==2)
89	& O3daysumSTD(i,k,n)=O3daysumSTD(i,k,n)+O3daySTD(i,k)
90
91	ENDIF
92	ENDDO !i
93	ENDDO !k
94	c
95	ENDIF !MOD(itap,NINT(freq_calNMC(n)/dtime)).EQ.0
96	c
97	ENDDO !n
98	c
99	RETURN
100	END

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