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conf_gcm.F90 @ 5153

Last change on this file since 5153 was 5134, checked in by abarral, 8 weeks ago
Replace academic.h, alpale.h, comdissip.h, comdissipn.h, comdissnew.h by modules Remove unused clesph0.h
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: 34.9 KB

Line
1
2	! $Id$
3
4	SUBROUTINE conf_gcm( tapedef, etatinit )
5
6	USE control_mod
7	USE IOIPSL
8	USE misc_mod
9	USE lmdz_filtre_fft, ONLY: use_filtre_fft
10	USE lmdz_filtre_fft_loc, ONLY: use_filtre_fft_loc=>use_filtre_fft
11	USE mod_hallo, ONLY: use_mpi_alloc
12	USE infotrac, ONLY: type_trac
13	USE lmdz_assert, ONLY: assert
14	USE comconst_mod, ONLY: dissip_deltaz, dissip_factz, dissip_zref, &
15	iflag_top_bound, mode_top_bound, tau_top_bound, &
16	ngroup, maxlatfilter
17	USE logic_mod, ONLY: fxyhypb, iflag_phys, ok_etat0, ok_gradsfile, &
18	ok_guide, ok_limit, ok_strato, purmats, read_start, &
19	ysinus, read_orop, adv_qsat_liq
20	USE serre_mod, ONLY: clon,clat,grossismx,grossismy,dzoomx,dzoomy, &
21	alphax,alphay,taux,tauy
22	USE temps_mod, ONLY: calend, year_len, offline_time
23	USE lmdz_iniprint, ONLY: lunout, prt_level
24	USE lmdz_comdissnew, ONLY: lstardis, nitergdiv, nitergrot, niterh, tetagdiv, &
25	tetagrot, tetatemp, coefdis, vert_prof_dissip
26
27	IMPLICIT NONE
28	!-----------------------------------------------------------------------
29	! Auteurs : L. Fairhead , P. Le Van .
30
31	! Arguments :
32
33	! tapedef :
34	! etatinit : = TRUE , on ne compare pas les valeurs des para-
35	! -metres du zoom avec celles lues sur le fichier start .
36
37	LOGICAL,INTENT(IN) :: etatinit
38	INTEGER,INTENT(IN) :: tapedef
39
40	! Declarations :
41	! --------------
42	INCLUDE "dimensions.h"
43	INCLUDE "paramet.h"
44
45	! local:
46	! ------
47
48	CHARACTER ch172,ch272,ch372,ch412
49	REAL clonn,clatt,grossismxx,grossismyy
50	REAL dzoomxx,dzoomyy, tauxx,tauyy
51	LOGICAL fxyhypbb, ysinuss
52	INTEGER i
53	CHARACTER(len=*), PARAMETER :: modname="conf_gcm"
54	CHARACTER(len=80) :: abort_message
55	#ifdef CPP_OMP
56	INTEGER, EXTERNAL :: OMP_GET_NUM_THREADS
57	#endif
58
59	! -------------------------------------------------------------------
60
61	! ......... Version du 29/04/97 ..........
62
63	! Nouveaux parametres nitergdiv,nitergrot,niterh,tetagdiv,tetagrot,
64	! tetatemp ajoutes pour la dissipation .
65
66	! Autre parametre ajoute en fin de liste de tapedef : fxyhypb
67
68	! Si fxyhypb = .TRUE. , choix de la fonction a derivee tangente hyperb.
69	! Sinon , choix de fxynew , a derivee sinusoidale ..
70
71	! ...... etatinit = . TRUE. si defrun est appele dans ETAT0_LMD ou
72	! LIMIT_LMD pour l'initialisation de start.dat (dic) et
73	! de limit.dat ( dic) ...........
74	! Sinon etatinit = . FALSE .
75
76	! Donc etatinit = .F. si on veut comparer les valeurs de grossismx ,
77	! grossismy,clon,clat, fxyhypb lues sur le fichier start avec
78	! celles passees par run.def , au debut du gcm, apres l'appel a
79	! lectba .
80	! Ces parmetres definissant entre autres la grille et doivent etre
81	! pareils et coherents , sinon il y aura divergence du gcm .
82
83	!-----------------------------------------------------------------------
84	! initialisations:
85	! ----------------
86
87	!Config Key = lunout
88	!Config Desc = unite de fichier pour les impressions
89	!Config Def = 6
90	!Config Help = unite de fichier pour les impressions
91	!Config (defaut sortie standard = 6)
92	lunout=6
93	CALL getin('lunout', lunout)
94	IF (lunout /= 5 .AND. lunout /= 6) THEN
95	OPEN(UNIT=lunout,FILE='lmdz.out_0000',ACTION='write', &
96	STATUS='unknown',FORM='formatted')
97	ENDIF
98
99	adjust=.FALSE.
100	CALL getin('adjust',adjust)
101
102	#ifdef CPP_OMP
103	! adjust=y not implemented in case of OpenMP threads...
104	!$OMP PARALLEL
105	IF ((OMP_GET_NUM_THREADS()>1).AND.adjust) THEN
106	WRITE(lunout,*)'conf_gcm: Error, adjust should be set to n' &
107	,' when running with OpenMP threads'
108	abort_message = 'Wrong value for adjust'
109	CALL abort_gcm(modname,abort_message,1)
110	ENDIF
111	!$OMP END PARALLEL
112	#endif
113
114	itaumax=0
115	CALL getin('itaumax',itaumax);
116	IF (itaumax<=0) itaumax=HUGE(itaumax)
117
118	!Config Key = prt_level
119	!Config Desc = niveau d'impressions de débogage
120	!Config Def = 0
121	!Config Help = Niveau d'impression pour le débogage
122	!Config (0 = minimum d'impression)
123	prt_level = 0
124	CALL getin('prt_level',prt_level)
125
126	!-----------------------------------------------------------------------
127	! Parametres de controle du run:
128	!-----------------------------------------------------------------------
129	!Config Key = planet_type
130	!Config Desc = planet type ("earth", "mars", "venus", ...)
131	!Config Def = earth
132	!Config Help = this flag sets the type of atymosphere that is considered
133	planet_type="earth"
134	CALL getin('planet_type',planet_type)
135
136	!Config Key = calend
137	!Config Desc = type de calendrier utilise
138	!Config Def = earth_360d
139	!Config Help = valeur possible: earth_360d, earth_365d, earth_366d
140	!Config
141	calend = 'earth_360d'
142	! initialize year_len for aquaplanets and 1D
143	CALL getin('calend', calend)
144	IF (calend == 'earth_360d') THEN
145	year_len=360
146	ELSE IF (calend == 'earth_365d') THEN
147	year_len=365
148	ELSE IF (calend == 'earth_366d') THEN
149	year_len=366
150	ELSE
151	year_len=1
152	ENDIF
153
154	!Config Key = dayref
155	!Config Desc = Jour de l'etat initial
156	!Config Def = 1
157	!Config Help = Jour de l'etat initial ( = 350 si 20 Decembre ,
158	!Config par expl. ,comme ici ) ... A completer
159	dayref=1
160	CALL getin('dayref', dayref)
161
162	!Config Key = anneeref
163	!Config Desc = Annee de l'etat initial
164	!Config Def = 1998
165	!Config Help = Annee de l'etat initial
166	!Config ( avec 4 chiffres ) ... A completer
167	anneeref = 1998
168	CALL getin('anneeref',anneeref)
169
170	!Config Key = raz_date
171	!Config Desc = Remise a zero de la date initiale
172	!Config Def = 0 (pas de remise a zero)
173	!Config Help = Remise a zero de la date initiale
174	!Config 0 pas de remise a zero, on garde la date du fichier restart
175	!Config 1 prise en compte de la date de gcm.def avec remise a zero
176	!Config des compteurs de pas de temps
177	raz_date = 0
178	CALL getin('raz_date', raz_date)
179
180	!Config Key = resetvarc
181	!Config Desc = Reinit des variables de controle
182	!Config Def = n
183	!Config Help = Reinit des variables de controle
184	resetvarc = .FALSE.
185	CALL getin('resetvarc',resetvarc)
186
187	!Config Key = nday
188	!Config Desc = Nombre de jours d'integration
189	!Config Def = 10
190	!Config Help = Nombre de jours d'integration
191	!Config ... On pourait aussi permettre des mois ou des annees !
192	nday = 10
193	CALL getin('nday',nday)
194
195	!Config Key = starttime
196	!Config Desc = Heure de depart de la simulation
197	!Config Def = 0
198	!Config Help = Heure de depart de la simulation
199	!Config en jour
200	starttime = 0
201	CALL getin('starttime',starttime)
202
203	!Config Key = day_step
204	!Config Desc = nombre de pas par jour
205	!Config Def = 240
206	!Config Help = nombre de pas par jour (multiple de iperiod) (
207	!Config ici pour dt = 1 min )
208	day_step = 240
209	CALL getin('day_step',day_step)
210
211	!Config Key = nsplit_phys
212	nsplit_phys = 1
213	CALL getin('nsplit_phys',nsplit_phys)
214
215	!Config Key = iperiod
216	!Config Desc = periode pour le pas Matsuno
217	!Config Def = 5
218	!Config Help = periode pour le pas Matsuno (en pas de temps)
219	iperiod = 5
220	CALL getin('iperiod',iperiod)
221
222	!Config Key = iapp_tracvl
223	!Config Desc = frequence du groupement des flux
224	!Config Def = iperiod
225	!Config Help = frequence du groupement des flux (en pas de temps)
226	iapp_tracvl = iperiod
227	CALL getin('iapp_tracvl',iapp_tracvl)
228
229	!Config Key = iconser
230	!Config Desc = periode de sortie des variables de controle
231	!Config Def = 240
232	!Config Help = periode de sortie des variables de controle
233	!Config (En pas de temps)
234	iconser = 240
235	CALL getin('iconser', iconser)
236
237	!Config Key = iecri
238	!Config Desc = periode d'ecriture du fichier histoire
239	!Config Def = 1
240	!Config Help = periode d'ecriture du fichier histoire (en jour)
241	iecri = 1
242	CALL getin('iecri',iecri)
243
244	!Config Key = periodav
245	!Config Desc = periode de stockage fichier histmoy
246	!Config Def = 1
247	!Config Help = periode de stockage fichier histmoy (en jour)
248	periodav = 1.
249	CALL getin('periodav',periodav)
250
251	!Config Key = output_grads_dyn
252	!Config Desc = output dynamics diagnostics in 'dyn.dat' file
253	!Config Def = n
254	!Config Help = output dynamics diagnostics in Grads-readable 'dyn.dat' file
255	output_grads_dyn=.FALSE.
256	CALL getin('output_grads_dyn',output_grads_dyn)
257
258	!Config Key = dissip_period
259	!Config Desc = periode de la dissipation
260	!Config Def = 0
261	!Config Help = periode de la dissipation
262	!Config dissip_period=0 => la valeur sera calcule dans inidissip
263	!Config dissip_period>0 => on prend cette valeur
264	dissip_period = 0
265	CALL getin('dissip_period',dissip_period)
266
267	!cc .... P. Le Van , modif le 29/04/97 .pour la dissipation ...
268	!cc
269
270	!Config Key = lstardis
271	!Config Desc = choix de l'operateur de dissipation
272	!Config Def = y
273	!Config Help = choix de l'operateur de dissipation
274	!Config 'y' si on veut star et 'n' si on veut non-start !
275	!Config Moi y en a pas comprendre !
276	lstardis = .TRUE.
277	CALL getin('lstardis',lstardis)
278
279	!Config Key = nitergdiv
280	!Config Desc = Nombre d'iteration de gradiv
281	!Config Def = 1
282	!Config Help = nombre d'iterations de l'operateur de dissipation
283	!Config gradiv
284	nitergdiv = 1
285	CALL getin('nitergdiv',nitergdiv)
286
287	!Config Key = nitergrot
288	!Config Desc = nombre d'iterations de nxgradrot
289	!Config Def = 2
290	!Config Help = nombre d'iterations de l'operateur de dissipation
291	!Config nxgradrot
292	nitergrot = 2
293	CALL getin('nitergrot',nitergrot)
294
295	!Config Key = niterh
296	!Config Desc = nombre d'iterations de divgrad
297	!Config Def = 2
298	!Config Help = nombre d'iterations de l'operateur de dissipation
299	!Config divgrad
300	niterh = 2
301	CALL getin('niterh',niterh)
302
303	!Config Key = tetagdiv
304	!Config Desc = temps de dissipation pour div
305	!Config Def = 7200
306	!Config Help = temps de dissipation des plus petites longeur
307	!Config d'ondes pour u,v (gradiv)
308	tetagdiv = 7200.
309	CALL getin('tetagdiv',tetagdiv)
310
311	!Config Key = tetagrot
312	!Config Desc = temps de dissipation pour grad
313	!Config Def = 7200
314	!Config Help = temps de dissipation des plus petites longeur
315	!Config d'ondes pour u,v (nxgradrot)
316	tetagrot = 7200.
317	CALL getin('tetagrot',tetagrot)
318
319	!Config Key = tetatemp
320	!Config Desc = temps de dissipation pour h
321	!Config Def = 7200
322	!Config Help = temps de dissipation des plus petites longeur
323	!Config d'ondes pour h (divgrad)
324	tetatemp = 7200.
325	CALL getin('tetatemp',tetatemp )
326
327	! Parametres controlant la variation sur la verticale des constantes de
328	! dissipation.
329	! Pour le moment actifs uniquement dans la version a 39 niveaux
330	! avec ok_strato=y
331
332	dissip_factz=4.
333	dissip_deltaz=10.
334	dissip_zref=30.
335	CALL getin('dissip_factz',dissip_factz )
336	CALL getin('dissip_deltaz',dissip_deltaz )
337	CALL getin('dissip_zref',dissip_zref )
338
339
340	!maxlatfilter
341	maxlatfilter = -1.0
342	CALL getin('maxlatfilter',maxlatfilter)
343	IF (maxlatfilter > 90) &
344	CALL abort_gcm("conf_gcm", 'maxlatfilter should be <=90', 1)
345
346
347	! ngroup
348	ngroup=3
349	CALL getin('ngroup',ngroup)
350	IF (mod(iim, 2**ngroup) /= 0) &
351	CALL abort_gcm("conf_gcm", 'iim must be multiple of 2**ngroup', 1)
352	IF (2**ngroup > jjm + 1) &
353	CALL abort_gcm("conf_gcm", '2**ngroup must be <= jjm + 1', 1)
354
355	! mode_top_bound : fields towards which sponge relaxation will be done:
356	! top_bound sponge: only active if ok_strato=.TRUE. and iflag_top_bound!=0
357	! iflag_top_bound=0 for no sponge
358	! iflag_top_bound=1 for sponge over 4 topmost layers
359	! iflag_top_bound=2 for sponge from top to ~1% of top layer pressure
360	iflag_top_bound=1
361	CALL getin('iflag_top_bound',iflag_top_bound)
362	IF (iflag_top_bound < 0 .OR. iflag_top_bound > 2) &
363	CALL abort_gcm("conf_gcm", 'iflag_top_bound must be 0, 1 or 2', 1)
364
365	! mode_top_bound : fields towards which sponge relaxation will be done:
366	! mode_top_bound=0: no relaxation
367	! mode_top_bound=1: u and v relax towards 0
368	! mode_top_bound=2: u and v relax towards their zonal mean
369	! mode_top_bound=3: u,v and pot. temp. relax towards their zonal mean
370	mode_top_bound=3
371	CALL getin('mode_top_bound',mode_top_bound)
372
373	! top_bound sponge : inverse of charactericstic relaxation time scale for sponge
374	tau_top_bound=1.e-5
375	CALL getin('tau_top_bound',tau_top_bound)
376
377	!Config Key = coefdis
378	!Config Desc = coefficient pour gamdissip
379	!Config Def = 0
380	!Config Help = coefficient pour gamdissip
381	coefdis = 0.
382	CALL getin('coefdis',coefdis)
383
384	!Config Key = purmats
385	!Config Desc = Schema d'integration
386	!Config Def = n
387	!Config Help = Choix du schema d'integration temporel.
388	!Config y = pure Matsuno sinon c'est du Matsuno-leapfrog
389	purmats = .FALSE.
390	CALL getin('purmats',purmats)
391
392	!Config Key = ok_guide
393	!Config Desc = Guidage
394	!Config Def = n
395	!Config Help = Guidage
396	ok_guide = .FALSE.
397	CALL getin('ok_guide',ok_guide)
398
399	IF (ok_guide .AND. adjust) CALL abort_gcm("conf_gcm", &
400	"adjust does not work with ok_guide", 1)
401
402	!Config Key = read_start
403	!Config Desc = Initialize model using a 'start.nc' file
404	!Config Def = y
405	!Config Help = y: intialize dynamical fields using a 'start.nc' file
406	! n: fields are initialized by 'iniacademic' routine
407	read_start= .TRUE.
408	CALL getin('read_start',read_start)
409
410	!Config Key = iflag_phys
411	!Config Desc = Avec ls physique
412	!Config Def = 1
413	!Config Help = Permet de faire tourner le modele sans
414	!Config physique.
415	iflag_phys = 1
416	CALL getin('iflag_phys',iflag_phys)
417
418	!Config Key = iphysiq
419	!Config Desc = Periode de la physique
420	!Config Def = 5
421	!Config Help = Periode de la physique en pas de temps de la dynamique.
422	iphysiq = 5
423	CALL getin('iphysiq', iphysiq)
424
425	!Config Key = ip_ebil_dyn
426	!Config Desc = PRINT level for energy conserv. diag.
427	!Config Def = 0
428	!Config Help = PRINT level for energy conservation diag. ;
429	! les options suivantes existent :
430	!Config 0 pas de print
431	!Config 1 pas de print
432	!Config 2 print,
433	ip_ebil_dyn = 0
434	CALL getin('ip_ebil_dyn',ip_ebil_dyn)
435
436	!cc .... P. Le Van , ajout le 7/03/95 .pour le zoom ...
437	! ......... ( modif le 17/04/96 ) .........
438
439	test_etatinit: IF (.NOT. etatinit) THEN
440	!Config Key = clon
441	!Config Desc = centre du zoom, longitude
442	!Config Def = 0
443	!Config Help = longitude en degres du centre
444	!Config du zoom
445	clonn = 0.
446	CALL getin('clon',clonn)
447
448	!Config Key = clat
449	!Config Desc = centre du zoom, latitude
450	!Config Def = 0
451	!Config Help = latitude en degres du centre du zoom
452	!Config
453	clatt = 0.
454	CALL getin('clat',clatt)
455
456	IF( ABS(clat - clatt)>= 0.001 ) THEN
457	WRITE(lunout,*)'conf_gcm: La valeur de clat passee par run.def', &
458	' est differente de celle lue sur le fichier start '
459	CALL abort_gcm("conf_gcm","stopped",1)
460	ENDIF
461
462	!Config Key = grossismx
463	!Config Desc = zoom en longitude
464	!Config Def = 1.0
465	!Config Help = facteur de grossissement du zoom,
466	!Config selon la longitude
467	grossismxx = 1.0
468	CALL getin('grossismx',grossismxx)
469
470	IF( ABS(grossismx - grossismxx)>= 0.001 ) THEN
471	WRITE(lunout,*)'conf_gcm: La valeur de grossismx passee par ', &
472	'run.def est differente de celle lue sur le fichier start '
473	CALL abort_gcm("conf_gcm","stopped",1)
474	ENDIF
475
476	!Config Key = grossismy
477	!Config Desc = zoom en latitude
478	!Config Def = 1.0
479	!Config Help = facteur de grossissement du zoom,
480	!Config selon la latitude
481	grossismyy = 1.0
482	CALL getin('grossismy',grossismyy)
483
484	IF( ABS(grossismy - grossismyy)>= 0.001 ) THEN
485	WRITE(lunout,*)'conf_gcm: La valeur de grossismy passee par ', &
486	'run.def est differente de celle lue sur le fichier start '
487	CALL abort_gcm("conf_gcm","stopped",1)
488	ENDIF
489
490	IF( grossismx<1. ) THEN
491	WRITE(lunout,*) &
492	'conf_gcm: * ATTENTION !! grossismx < 1 . * '
493	CALL abort_gcm("conf_gcm","stopped",1)
494	ELSE
495	alphax = 1. - 1./ grossismx
496	ENDIF
497
498	IF( grossismy<1. ) THEN
499	WRITE(lunout,*) &
500	'conf_gcm: * ATTENTION !! grossismy < 1 . * '
501	CALL abort_gcm("conf_gcm","stopped",1)
502	ELSE
503	alphay = 1. - 1./ grossismy
504	ENDIF
505
506	WRITE(lunout,*)'conf_gcm: alphax alphay',alphax,alphay
507
508	! alphax et alphay sont les anciennes formulat. des grossissements
509
510	!Config Key = fxyhypb
511	!Config Desc = Fonction hyperbolique
512	!Config Def = y
513	!Config Help = Fonction f(y) hyperbolique si = .TRUE.
514	!Config sinon sinusoidale
515	fxyhypbb = .TRUE.
516	CALL getin('fxyhypb',fxyhypbb)
517
518	IF( .NOT.fxyhypb ) THEN
519	IF( fxyhypbb ) THEN
520	WRITE(lunout,)' ***** PBS DANS CONF_GCM ****** '
521	WRITE(lunout,)' ** fxyhypb lu sur le fichier start est ', &
522	'F alors qu il est T sur run.def ***'
523	CALL abort_gcm("conf_gcm","stopped",1)
524	ENDIF
525	ELSE
526	IF( .NOT.fxyhypbb ) THEN
527	WRITE(lunout,)' ***** PBS DANS CONF_GCM ****** '
528	WRITE(lunout,)' ** fxyhypb lu sur le fichier start est ', &
529	'T alors qu il est F sur run.def **** '
530	CALL abort_gcm("conf_gcm","stopped",1)
531	ENDIF
532	ENDIF
533
534	!Config Key = dzoomx
535	!Config Desc = extension en longitude
536	!Config Def = 0
537	!Config Help = extension en longitude de la zone du zoom
538	!Config ( fraction de la zone totale)
539	dzoomxx = 0.0
540	CALL getin('dzoomx',dzoomxx)
541
542	IF( fxyhypb ) THEN
543	IF( ABS(dzoomx - dzoomxx)>= 0.001 ) THEN
544	WRITE(lunout,*)'conf_gcm: La valeur de dzoomx passee par ', &
545	'run.def est differente de celle lue sur le fichier start '
546	CALL abort_gcm("conf_gcm","stopped",1)
547	ENDIF
548	ENDIF
549
550	!Config Key = dzoomy
551	!Config Desc = extension en latitude
552	!Config Def = 0
553	!Config Help = extension en latitude de la zone du zoom
554	!Config ( fraction de la zone totale)
555	dzoomyy = 0.0
556	CALL getin('dzoomy',dzoomyy)
557
558	IF( fxyhypb ) THEN
559	IF( ABS(dzoomy - dzoomyy)>= 0.001 ) THEN
560	WRITE(lunout,*)'conf_gcm: La valeur de dzoomy passee par ', &
561	'run.def est differente de celle lue sur le fichier start '
562	CALL abort_gcm("conf_gcm","stopped",1)
563	ENDIF
564	ENDIF
565
566	!Config Key = taux
567	!Config Desc = raideur du zoom en X
568	!Config Def = 3
569	!Config Help = raideur du zoom en X
570	tauxx = 3.0
571	CALL getin('taux',tauxx)
572
573	IF( fxyhypb ) THEN
574	IF( ABS(taux - tauxx)>= 0.001 ) THEN
575	WRITE(lunout,*)'conf_gcm: La valeur de taux passee par ', &
576	'run.def est differente de celle lue sur le fichier start '
577	CALL abort_gcm("conf_gcm","stopped",1)
578	ENDIF
579	ENDIF
580
581	!Config Key = tauyy
582	!Config Desc = raideur du zoom en Y
583	!Config Def = 3
584	!Config Help = raideur du zoom en Y
585	tauyy = 3.0
586	CALL getin('tauy',tauyy)
587
588	IF( fxyhypb ) THEN
589	IF( ABS(tauy - tauyy)>= 0.001 ) THEN
590	WRITE(lunout,*)'conf_gcm: La valeur de tauy passee par ', &
591	'run.def est differente de celle lue sur le fichier start '
592	CALL abort_gcm("conf_gcm","stopped",1)
593	ENDIF
594	ENDIF
595
596	!c
597	IF( .NOT.fxyhypb ) THEN
598
599	!Config Key = ysinus
600	!Config IF = !fxyhypb
601	!Config Desc = Fonction en Sinus
602	!Config Def = y
603	!Config Help = Fonction f(y) avec y = Sin(latit.) si = .TRUE.
604	!Config sinon y = latit.
605	ysinuss = .TRUE.
606	CALL getin('ysinus',ysinuss)
607
608	IF( .NOT.ysinus ) THEN
609	IF( ysinuss ) THEN
610	WRITE(lunout,)' ***** PBS DANS CONF_GCM ****** '
611	WRITE(lunout,)' ** ysinus lu sur le fichier start est F', &
612	' alors qu il est T sur run.def ***'
613	CALL abort_gcm("conf_gcm","stopped",1)
614	ENDIF
615	ELSE
616	IF( .NOT.ysinuss ) THEN
617	WRITE(lunout,)' ***** PBS DANS CONF_GCM ****** '
618	WRITE(lunout,)' ** ysinus lu sur le fichier start est T', &
619	' alors qu il est F sur run.def **** '
620	CALL abort_gcm("conf_gcm","stopped",1)
621	ENDIF
622	ENDIF
623	ENDIF ! of IF( .NOT.fxyhypb )
624
625	!Config Key = offline
626	!Config Desc = ecriture des flux de masse
627	!Config Def = n
628	!Config Help = Permet de sortir les flux de masse sur la grille plev
629	offline = .FALSE.
630	CALL getin('offline',offline)
631
632	!Config Key = offline_time
633	!Config Desc = Choix des frequences de stockage pour le offline
634	!Config Def = 8
635	!Config Help = offline_time=12 ! stockage toutes les 2h=1jour/12
636	!Config Help = offline_time=8 ! stockage toutes les 3h=1jour/8
637	offline_time = 8
638	CALL getin('offline_time',offline_time)
639
640	IF (offline .AND. adjust) THEN
641	WRITE(lunout,*) &
642	'WARNING : option offline does not work with adjust=y :'
643	WRITE(lunout,*) 'the files defstoke.nc, fluxstoke.nc ', &
644	'and fluxstokev.nc will not be created'
645	WRITE(lunout,*) &
646	'only the file phystoke.nc will still be created '
647	ENDIF
648
649	!Config Key = type_trac
650	!Config Desc = Choix de couplage avec model de chimie INCA ou REPROBUS
651	!Config Def = lmdz
652	!Config Help =
653	!Config 'lmdz' = pas de couplage, pur LMDZ
654	!Config 'inca' = model de chime INCA
655	!Config 'repr' = model de chime REPROBUS
656	type_trac = 'lmdz'
657	CALL getin('type_trac',type_trac)
658
659
660	!Config Key = adv_qsat_liq
661	!Config Desc = option for qsat calculation in the dynamics
662	!Config Def = n
663	!Config Help = controls which phase is considered for qsat calculation
664	!Config
665	adv_qsat_liq = .FALSE.
666	CALL getin('adv_qsat_liq',adv_qsat_liq)
667
668	!Config Key = ok_dynzon
669	!Config Desc = calcul et sortie des transports
670	!Config Def = n
671	!Config Help = Permet de mettre en route le calcul des transports
672	!Config
673	ok_dynzon = .FALSE.
674	CALL getin('ok_dynzon',ok_dynzon)
675
676	!Config Key = ok_dyn_ins
677	!Config Desc = sorties instantanees dans la dynamique
678	!Config Def = n
679	!Config Help =
680	!Config
681	ok_dyn_ins = .FALSE.
682	CALL getin('ok_dyn_ins',ok_dyn_ins)
683
684	!Config Key = ok_dyn_ave
685	!Config Desc = sorties moyennes dans la dynamique
686	!Config Def = n
687	!Config Help =
688	!Config
689	ok_dyn_ave = .FALSE.
690	CALL getin('ok_dyn_ave',ok_dyn_ave)
691
692	!Config Key = ok_dyn_xios
693	!Config Desc = sorties moyennes dans la dynamique
694	!Config Def = n
695	!Config Help =
696	!Config
697	ok_dyn_xios = .FALSE.
698	CALL getin('ok_dyn_xios',ok_dyn_xios)
699
700	WRITE(lunout,*)' #########################################'
701	WRITE(lunout,*)' Configuration des parametres du gcm: '
702	WRITE(lunout,*)' planet_type = ', planet_type
703	WRITE(lunout,*)' calend = ', calend
704	WRITE(lunout,*)' dayref = ', dayref
705	WRITE(lunout,*)' anneeref = ', anneeref
706	WRITE(lunout,*)' nday = ', nday
707	WRITE(lunout,*)' day_step = ', day_step
708	WRITE(lunout,*)' iperiod = ', iperiod
709	WRITE(lunout,*)' nsplit_phys = ', nsplit_phys
710	WRITE(lunout,*)' iconser = ', iconser
711	WRITE(lunout,*)' iecri = ', iecri
712	WRITE(lunout,*)' periodav = ', periodav
713	WRITE(lunout,*)' output_grads_dyn = ', output_grads_dyn
714	WRITE(lunout,*)' dissip_period = ', dissip_period
715	WRITE(lunout,*)' lstardis = ', lstardis
716	WRITE(lunout,*)' nitergdiv = ', nitergdiv
717	WRITE(lunout,*)' nitergrot = ', nitergrot
718	WRITE(lunout,*)' niterh = ', niterh
719	WRITE(lunout,*)' tetagdiv = ', tetagdiv
720	WRITE(lunout,*)' tetagrot = ', tetagrot
721	WRITE(lunout,*)' tetatemp = ', tetatemp
722	WRITE(lunout,*)' coefdis = ', coefdis
723	WRITE(lunout,*)' purmats = ', purmats
724	WRITE(lunout,*)' read_start = ', read_start
725	WRITE(lunout,*)' iflag_phys = ', iflag_phys
726	WRITE(lunout,*)' iphysiq = ', iphysiq
727	WRITE(lunout,*)' clonn = ', clonn
728	WRITE(lunout,*)' clatt = ', clatt
729	WRITE(lunout,*)' grossismx = ', grossismx
730	WRITE(lunout,*)' grossismy = ', grossismy
731	WRITE(lunout,*)' fxyhypbb = ', fxyhypbb
732	WRITE(lunout,*)' dzoomxx = ', dzoomxx
733	WRITE(lunout,*)' dzoomy = ', dzoomyy
734	WRITE(lunout,*)' tauxx = ', tauxx
735	WRITE(lunout,*)' tauyy = ', tauyy
736	WRITE(lunout,*)' offline = ', offline
737	WRITE(lunout,*)' offline_time = ', offline_time
738	WRITE(lunout,*)' type_trac = ', type_trac
739	WRITE(lunout,*)' ok_dynzon = ', ok_dynzon
740	WRITE(lunout,*)' ok_dyn_ins = ', ok_dyn_ins
741	WRITE(lunout,*)' ok_dyn_ave = ', ok_dyn_ave
742	WRITE(lunout,*)' ok_dyn_xios = ', ok_dyn_xios
743	WRITE(lunout,*)' adv_qsat_liq = ', adv_qsat_liq
744	else
745	!Config Key = clon
746	!Config Desc = centre du zoom, longitude
747	!Config Def = 0
748	!Config Help = longitude en degres du centre
749	!Config du zoom
750	clon = 0.
751	CALL getin('clon',clon)
752
753	!Config Key = clat
754	!Config Desc = centre du zoom, latitude
755	!Config Def = 0
756	!Config Help = latitude en degres du centre du zoom
757	!Config
758	clat = 0.
759	CALL getin('clat',clat)
760
761	!Config Key = grossismx
762	!Config Desc = zoom en longitude
763	!Config Def = 1.0
764	!Config Help = facteur de grossissement du zoom,
765	!Config selon la longitude
766	grossismx = 1.0
767	CALL getin('grossismx',grossismx)
768
769	!Config Key = grossismy
770	!Config Desc = zoom en latitude
771	!Config Def = 1.0
772	!Config Help = facteur de grossissement du zoom,
773	!Config selon la latitude
774	grossismy = 1.0
775	CALL getin('grossismy',grossismy)
776
777	IF( grossismx<1. ) THEN
778	WRITE(lunout,) 'conf_gcm: ATTENTION !! grossismx < 1 . * '
779	CALL abort_gcm("conf_gcm","stopped",1)
780	ELSE
781	alphax = 1. - 1./ grossismx
782	ENDIF
783
784	IF( grossismy<1. ) THEN
785	WRITE(lunout,) 'conf_gcm: ATTENTION !! grossismy < 1 . * '
786	CALL abort_gcm("conf_gcm","stopped",1)
787	ELSE
788	alphay = 1. - 1./ grossismy
789	ENDIF
790
791	WRITE(lunout,*) 'conf_gcm: alphax alphay ',alphax,alphay
792
793	! alphax et alphay sont les anciennes formulat. des grossissements
794
795	!Config Key = fxyhypb
796	!Config Desc = Fonction hyperbolique
797	!Config Def = y
798	!Config Help = Fonction f(y) hyperbolique si = .TRUE.
799	!Config sinon sinusoidale
800	fxyhypb = .TRUE.
801	CALL getin('fxyhypb',fxyhypb)
802
803	!Config Key = dzoomx
804	!Config Desc = extension en longitude
805	!Config Def = 0
806	!Config Help = extension en longitude de la zone du zoom
807	!Config ( fraction de la zone totale)
808	dzoomx = 0.2
809	CALL getin('dzoomx',dzoomx)
810	CALL assert(dzoomx < 1, "conf_gcm: dzoomx must be < 1")
811
812	!Config Key = dzoomy
813	!Config Desc = extension en latitude
814	!Config Def = 0
815	!Config Help = extension en latitude de la zone du zoom
816	!Config ( fraction de la zone totale)
817	dzoomy = 0.2
818	CALL getin('dzoomy',dzoomy)
819	CALL assert(dzoomy < 1, "conf_gcm: dzoomy must be < 1")
820
821	!Config Key = taux
822	!Config Desc = raideur du zoom en X
823	!Config Def = 3
824	!Config Help = raideur du zoom en X
825	taux = 3.0
826	CALL getin('taux',taux)
827
828	!Config Key = tauy
829	!Config Desc = raideur du zoom en Y
830	!Config Def = 3
831	!Config Help = raideur du zoom en Y
832	tauy = 3.0
833	CALL getin('tauy',tauy)
834
835	!Config Key = ysinus
836	!Config IF = !fxyhypb
837	!Config Desc = Fonction en Sinus
838	!Config Def = y
839	!Config Help = Fonction f(y) avec y = Sin(latit.) si = .TRUE.
840	!Config sinon y = latit.
841	ysinus = .TRUE.
842	CALL getin('ysinus',ysinus)
843
844	!Config Key = offline
845	!Config Desc = Nouvelle eau liquide
846	!Config Def = n
847	!Config Help = Permet de mettre en route la
848	!Config nouvelle parametrisation de l'eau liquide !
849	offline = .FALSE.
850	CALL getin('offline',offline)
851	IF (offline .AND. adjust) THEN
852	WRITE(lunout,*) &
853	'WARNING : option offline does not work with adjust=y :'
854	WRITE(lunout,*) 'the files defstoke.nc, fluxstoke.nc ', &
855	'and fluxstokev.nc will not be created'
856	WRITE(lunout,*) &
857	'only the file phystoke.nc will still be created '
858	ENDIF
859
860	!Config Key = type_trac
861	!Config Desc = Choix de couplage avec model de chimie INCA ou REPROBUS
862	!Config Def = lmdz
863	!Config Help =
864	!Config 'lmdz' = pas de couplage, pur LMDZ
865	!Config 'inca' = model de chime INCA
866	!Config 'repr' = model de chime REPROBUS
867	type_trac = 'lmdz'
868	CALL getin('type_trac',type_trac)
869
870	!Config Key = ok_dynzon
871	!Config Desc = sortie des transports zonaux dans la dynamique
872	!Config Def = n
873	!Config Help = Permet de mettre en route le calcul des transports
874	!Config
875	ok_dynzon = .FALSE.
876	CALL getin('ok_dynzon',ok_dynzon)
877
878	!Config Key = ok_dyn_ins
879	!Config Desc = sorties instantanees dans la dynamique
880	!Config Def = n
881	!Config Help =
882	!Config
883	ok_dyn_ins = .FALSE.
884	CALL getin('ok_dyn_ins',ok_dyn_ins)
885
886	!Config Key = ok_dyn_ave
887	!Config Desc = sorties moyennes dans la dynamique
888	!Config Def = n
889	!Config Help =
890	!Config
891	ok_dyn_ave = .FALSE.
892	CALL getin('ok_dyn_ave',ok_dyn_ave)
893
894	!Config Key = ok_dyn_xios
895	!Config Desc = sorties moyennes dans la dynamique
896	!Config Def = n
897	!Config Help =
898	!Config
899	ok_dyn_xios = .FALSE.
900	CALL getin('ok_dyn_xios',ok_dyn_xios)
901
902	!Config Key = use_filtre_fft
903	!Config Desc = flag to activate FFTs for the filter
904	!Config Def = false
905	!Config Help = enables to use FFts to do the longitudinal polar
906	!Config filtering around the poles.
907	use_filtre_fft=.FALSE.
908	CALL getin('use_filtre_fft',use_filtre_fft)
909	IF (use_filtre_fft .AND. grossismx /= 1.0) THEN
910	WRITE(lunout,*)'WARNING !!! '
911	WRITE(lunout,*)"A zoom in longitude is not compatible", &
912	" with the FFT filter ", &
913	"---> FFT filter deactivated"
914	use_filtre_fft=.FALSE.
915	ENDIF
916	use_filtre_fft_loc=use_filtre_fft
917
918	!Config Key = use_mpi_alloc
919	!Config Desc = Utilise un buffer MPI en mémoire globale
920	!Config Def = false
921	!Config Help = permet d'activer l'utilisation d'un buffer MPI
922	!Config en mémoire globale a l'aide de la fonction MPI_ALLOC.
923	!Config Cela peut améliorer la bande passante des transferts MPI
924	!Config d'un facteur 2
925	use_mpi_alloc=.FALSE.
926	CALL getin('use_mpi_alloc',use_mpi_alloc)
927
928	!Config key = ok_strato
929	!Config Desc = activation de la version strato
930	!Config Def = .FALSE.
931	!Config Help = active la version stratosphérique de LMDZ de F. Lott
932
933	ok_strato=.FALSE.
934	CALL getin('ok_strato',ok_strato)
935
936	vert_prof_dissip = merge(1, 0, ok_strato .AND. llm==39)
937	CALL getin('vert_prof_dissip', vert_prof_dissip)
938	CALL assert(vert_prof_dissip == 0 .OR. vert_prof_dissip == 1, &
939	"bad value for vert_prof_dissip")
940
941	!Config Key = ok_gradsfile
942	!Config Desc = activation des sorties grads du guidage
943	!Config Def = n
944	!Config Help = active les sorties grads du guidage
945
946	ok_gradsfile = .FALSE.
947	CALL getin('ok_gradsfile',ok_gradsfile)
948
949	!Config Key = ok_limit
950	!Config Desc = creation des fichiers limit dans create_etat0_limit
951	!Config Def = y
952	!Config Help = production du fichier limit.nc requise
953
954	ok_limit = .TRUE.
955	CALL getin('ok_limit',ok_limit)
956
957	!Config Key = ok_etat0
958	!Config Desc = creation des fichiers etat0 dans create_etat0_limit
959	!Config Def = y
960	!Config Help = production des fichiers start.nc, startphy.nc requise
961
962	ok_etat0 = .TRUE.
963	CALL getin('ok_etat0',ok_etat0)
964
965	!Config Key = read_orop
966	!Config Desc = lecture du fichier de params orographiques sous maille
967	!Config Def = f
968	!Config Help = lecture fichier plutot que grid_noro
969
970	read_orop = .FALSE.
971	CALL getin('read_orop',read_orop)
972
973	WRITE(lunout,*)' #########################################'
974	WRITE(lunout,*)' Configuration des parametres de cel0_limit: '
975	WRITE(lunout,*)' planet_type = ', planet_type
976	WRITE(lunout,*)' calend = ', calend
977	WRITE(lunout,*)' dayref = ', dayref
978	WRITE(lunout,*)' anneeref = ', anneeref
979	WRITE(lunout,*)' nday = ', nday
980	WRITE(lunout,*)' day_step = ', day_step
981	WRITE(lunout,*)' iperiod = ', iperiod
982	WRITE(lunout,*)' iconser = ', iconser
983	WRITE(lunout,*)' iecri = ', iecri
984	WRITE(lunout,*)' periodav = ', periodav
985	WRITE(lunout,*)' output_grads_dyn = ', output_grads_dyn
986	WRITE(lunout,*)' dissip_period = ', dissip_period
987	WRITE(lunout,*)' lstardis = ', lstardis
988	WRITE(lunout,*)' nitergdiv = ', nitergdiv
989	WRITE(lunout,*)' nitergrot = ', nitergrot
990	WRITE(lunout,*)' niterh = ', niterh
991	WRITE(lunout,*)' tetagdiv = ', tetagdiv
992	WRITE(lunout,*)' tetagrot = ', tetagrot
993	WRITE(lunout,*)' tetatemp = ', tetatemp
994	WRITE(lunout,*)' coefdis = ', coefdis
995	WRITE(lunout,*)' purmats = ', purmats
996	WRITE(lunout,*)' read_start = ', read_start
997	WRITE(lunout,*)' iflag_phys = ', iflag_phys
998	WRITE(lunout,*)' iphysiq = ', iphysiq
999	WRITE(lunout,*)' clon = ', clon
1000	WRITE(lunout,*)' clat = ', clat
1001	WRITE(lunout,*)' grossismx = ', grossismx
1002	WRITE(lunout,*)' grossismy = ', grossismy
1003	WRITE(lunout,*)' fxyhypb = ', fxyhypb
1004	WRITE(lunout,*)' dzoomx = ', dzoomx
1005	WRITE(lunout,*)' dzoomy = ', dzoomy
1006	WRITE(lunout,*)' taux = ', taux
1007	WRITE(lunout,*)' tauy = ', tauy
1008	WRITE(lunout,*)' offline = ', offline
1009	WRITE(lunout,*)' type_trac = ', type_trac
1010	WRITE(lunout,*)' ok_dynzon = ', ok_dynzon
1011	WRITE(lunout,*)' ok_dyn_ins = ', ok_dyn_ins
1012	WRITE(lunout,*)' ok_dyn_ave = ', ok_dyn_ave
1013	WRITE(lunout,*)' ok_dyn_xios = ', ok_dyn_xios
1014	WRITE(lunout,*)' use_filtre_fft = ', use_filtre_fft
1015	WRITE(lunout,*)' use_mpi_alloc = ', use_mpi_alloc
1016	WRITE(lunout,*)' ok_strato = ', ok_strato
1017	WRITE(lunout,*)' ok_gradsfile = ', ok_gradsfile
1018	WRITE(lunout,*)' ok_limit = ', ok_limit
1019	WRITE(lunout,*)' ok_etat0 = ', ok_etat0
1020	WRITE(lunout,*)' ok_guide = ', ok_guide
1021	WRITE(lunout,*)' read_orop = ', read_orop
1022	ENDIF test_etatinit
1023
1024	END SUBROUTINE conf_gcm

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