source: CONFIG/IPSLCM/IPSLCM5B/historical/PARAM/namcouple_ORCA2xLMD9695 @ 1803

Last change on this file since 1803 was 1803, checked in by lfairhead, 9 years ago

Update of piControl and historical experiments for IPSLCM5B configuration
(Files are those used for the CMIP5 exercise)

File size: 16.2 KB
Line 
1###############################################################################
2#
3#      Input file for OASIS3
4#
5#      This version is for use with IPSL_CM4_v1
6#
7#      The file will be edited at runtime to update it for
8#         - the initial date of the run
9#
10###############################################################################
11
12#      Input delimiters have to occupy position 1 to 9 !
13#      No blank lines allowed !
14#      Length of input lines <= 80 !
15#
16###############################################################################
17#
18# SEQMODE : 1        if all models run simultaneously
19#           n        if  n  models run sequentially
20 $SEQMODE
21              1
22 $END
23###############################################################################
24#
25# CHANNEL (CHAR*4)
26#           PIPE        if named pipes + binary files are used
27#                       for synchro and data respectively (not tested);
28#           MPI1/2      if MPI message passing is used for data exchange;
29#
30 $CHANNEL
31 <lib_mpi>
32 <nproc_atm>  <nproc_atm>
33 <nproc_oce>  <nproc_oce>               
34 $END
35###############################################################################
36#
37# NFIELDS : total number of fields being exchanged.
38#
39 $NFIELDS
40            25
41 $END
42###############################################################################
43#
44# JOBNAME : acronym for the given simulation (CHAR*3)
45#
46 $JOBNAME
47            EXP   
48 $END
49###############################################################################
50#
51# NBMODEL : number of models and their names (CHAR*6).
52#
53 $NBMODEL
54  2  lmdz.x oceanx
55 $END
56###############################################################################
57#
58# RUNTIME: total simulated time for the actual run in seconds (<I8)
59#
60 $RUNTIME
61 <total_time>
62 $END
63###############################################################################
64#
65# INIDATE (I8)
66#         initial date of the run (YYYYMMDD)         
67#
68 $INIDATE
69 <initial_date>
70 $END
71###############################################################################
72#
73# MODINFO (YES or NOT)
74#         Indicates whether a header is encapsulated within the field
75#
76 $MODINFO
77  NOT
78 $END
79###############################################################################
80#
81# NLOGPRT: printing level in output file cplout:
82#              0 = no printing
83#              1 = main routines and field names when treated
84#              2 = complete output
85#
86 $NLOGPRT
87   2
88 $END
89###############################################################################
90#
91# CALTYPE: Calendar type
92#                  0      = 365 day calendar (no leap years)
93#                  1      = 365 day, or 366 days for leap years, calendar
94#                  n (>1) = n day month calendar
95#
96 $CALTYPE
97 <calendar_type>
98 $END
99#
100#
101###############################################################################
102 $STRINGS
103###############################################################################
104#
105#                      OCEAN  --->>>  ATMOS
106#                      --------------------
107# Field 1 : Weighted sea surface temperature (o->a 1)
108#
109O_SSTSST  SISUTESW 1 86400  5  sstoc.nc  <output_mode>
110torc  tlmd  LAG=5760
111P  2 P  0
112LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
113# LOCTRANS: AVERAGE to average value over coupling period
114 AVERAGE
115# CHECKIN: indicate computation of global, land and sea field integrals.
116 INT=1
117# Mozaic: 1) mapping filename 2) connected unit 3) dataset rank 4) Maximum
118#         number of overlapped neighbors
119wo2a.tsg 93  1  15
120# CHECKOUT: indicate computation of global, land and sea field integrals.
121 INT=1
122#
123  NORSUD   WSTEST
124#
125############################################################################
126#
127# Field 2 : Sea ice extent  (o->a 2)
128#
129OIceFrac SIICECOV 44 86400  5  sstoc.nc <output_mode>
130torc  tlmd   LAG=5760
131P  2 P  0
132#
133LOCTRANS CHECKIN MOZAIC  CHECKOUT  REVERSE
134 AVERAGE
135# CHECKIN: indicate computation of global, land and sea field integrals.
136 INT=1
137#
138wo2a.tsg 93  1 15
139# CHECKOUT: indicate computation of global, land and sea field integrals.
140 INT=1
141#
142NORSUD   WSTEST
143#
144############################################################################
145#
146# Field 3 : Weighted Sea Ice Temperature (o->a 3)
147#
148O_TepIce  SIICTEMW 34 86400  5  sstoc.nc  <output_mode>
149torc  tlmd   LAG=5760
150P  2 P  0
151LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
152 AVERAGE
153# CHECKIN: indicate computation of global, land and sea field integrals.
154 INT=1
155#
156wo2a.tsg 93  1  15
157# CHECKOUT: indicate computation of global, land and sea field integrals.
158 INT=1
159#
160  NORSUD   WSTEST
161############################################################################
162#
163# Field 4 : Weighted Sea ice albedo (o->a 4)
164#
165O_AlbIce  SIICEALW 17 86400  5  sstoc.nc  <output_mode>
166torc  tlmd  LAG=5760 
167P  2 P  0
168#
169LOCTRANS CHECKIN MOZAIC CHECKOUT  REVERSE
170 AVERAGE
171# CHECKIN: indicate computation of global, land and sea field integrals.
172 INT=1
173#
174wo2a.tsg 93  1 15
175# CHECKOUT: indicate computation of global, land and sea field integrals.
176 INT=1
177#
178NORSUD   WSTEST
179#
180############################################################################
181#
182# Field 5 : Current surface (o->a 5)
183O_OCurx1 CURRENTX 321 86400  5  sstoc.nc  <output_mode>
184torc    tlmd  LAG=5760
185P  2 P  0
186LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
187 AVERAGE
188# CHECKIN: indicate computation of global, land and sea field integrals.
189 INT=1
190#
191wo2a.tsg 93  1 15
192# CHECKOUT: indicate computation of global, land and sea field integrals.
193 INT=1 
194#
195NORSUD   WSTEST
196#
197############################################################################
198#
199# Field 6 : Current surface (o->a 6)
200O_OCury1 CURRENTY 321 86400  5  sstoc.nc  <output_mode>
201torc    tlmd  LAG=5760
202P  2 P  0
203LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
204 AVERAGE
205# CHECKIN: indicate computation of global, land and sea field integrals.
206 INT=1
207#
208wo2a.tsg 93  1 15
209# CHECKOUT: indicate computation of global, land and sea field integrals.
210 INT=1
211
212NORSUD   WSTEST
213############################################################################
214#
215# Field 7 : Current surface (o->a 7)
216O_OCurz1 CURRENTZ 321 86400  5  sstoc.nc  <output_mode>
217torc    tlmd  LAG=5760
218P  2 P  0
219LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
220 AVERAGE
221# CHECKIN: indicate computation of global, land and sea field integrals.
222 INT=1
223#
224wo2a.tsg 93  1 15
225# CHECKOUT: indicate computation of global, land and sea field integrals.
226 INT=1
227#
228NORSUD   WSTEST
229#
230############################################################################
231#
232#                      ATMOSPHERE  --->>>  OCEAN
233#                      -------------------------
234############################################################################   
235#
236# Field 8 : wind stress along X axis (a->o 1)
237#
238COTAUXXU O_OTaux1 23 86400  6  flxat.nc   <output_mode>
239tlmd    uorc  LAG=450
240P  0 P  2
241INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
242# Reverse
243NORSUD WSTEST
244# CHECKIN: indicate computation of global, land and sea field integrals.
245 INT=1
246# Mask value
247888888.
248# Extrapolation method
249NINENN 2 1 1
250# Interpolation method
251BICUBIPS  Z   SCALAR
252# CHECKOUT: indicate computation of global, land and sea field integrals.
253 INT=1
254#
255###########################################################################
256#
257# Field 9 : stress along Y axis (a->o 2)
258#
259COTAUYYU O_OTauy1 23 86400  6  flxat.nc  <output_mode>
260tlmd    uorc  LAG=450
261P  0 P  2
262INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
263# Reverse
264NORSUD WSTEST
265# CHECKIN: indicate computation of global, land and sea field integrals.
266 INT=1
267# Mask value
268888888.
269# Extrapolation method
270NINENN 2 1 1
271# Interpolation method
272BICUBIPS  Z   SCALAR
273# CHECKOUT: indicate computation of global, land and sea field integrals.
274 INT=1
275#
276###########################################################################
277#
278# Field 10 :wind stress along Z axis (a->o 3)
279#
280COTAUZZU O_OTauz1 23 86400  6  flxat.nc  <output_mode>
281tlmd    uorc  LAG=450
282P  0 P  2
283INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
284# Reverse
285NORSUD WSTEST
286# CHECKIN: indicate computation of global, land and sea field integrals.
287 INT=1
288# Mask value
289888888.
290# Extrapolation method
291NINENN 2 1 1
292# Interpolation method
293BICUBIPS  Z   SCALAR
294# CHECKOUT: indicate computation of global, land and sea field integrals.
295 INT=1
296#
297##########################################################################
298#
299# Field 11 : wind stress along X axis 2 (a->o 4)
300#
301COTAUXXV O_OTaux2  24 86400  6    flxat.nc  <output_mode>
302tlmd    vorc  LAG=450
303P  0 P  2
304INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
305# Reverse
306NORSUD WSTEST
307# CHECKIN: indicate computation of global, land and sea field integrals.
308 INT=1
309# Mask value
310888888.
311# Extrapolation method
312NINENN 2 1 1
313# Interpolation method
314BICUBIPS  Z   SCALAR
315# CHECKOUT: indicate computation of global, land and sea field integrals.
316 INT=1
317#
318##########################################################################
319#
320# Field 12 : wind stress along Y axis 2 (a->o 5)
321#
322COTAUYYV O_OTauy2  24 86400  6    flxat.nc  <output_mode>
323tlmd    vorc  LAG=450
324P  0 P  2
325INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
326# Reverse
327NORSUD WSTEST
328# CHECKIN: indicate computation of global, land and sea field integrals.
329 INT=1
330# Mask value
331888888.
332# Extrapolation method
333NINENN 2 1 1
334# Interpolation method
335BICUBIPS  Z   SCALAR
336# CHECKOUT: indicate computation of global, land and sea field integrals.
337 INT=1
338#
339##########################################################################
340#
341# Field 13 :  wind stress along Z axis 2 (a->o 6)
342#
343COTAUZZV O_OTauz2  24 86400  6    flxat.nc  <output_mode>
344tlmd    vorc  LAG=450
345P  0 P  2
346INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
347# Reverse
348NORSUD WSTEST
349# CHECKIN: indicate computation of global, land and sea field integrals.
350 INT=1
351# Mask value
352888888.
353# Extrapolation method
354NINENN 2 1 1
355# Interpolation method
356BICUBIPS  Z   SCALAR
357# CHECKOUT: indicate computation of global, land and sea field integrals.
358 INT=1
359#
360#########################################################################
361# Field 14 :  wind speed 10m (a->o 7)
362#
363COWINDSP O_Wind10  56 86400  6    flxat.nc  <output_mode>
364tlmd    torc  LAG=450
365P  0 P  2
366INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
367# Reverse
368NORSUD WSTEST
369# CHECKIN: indicate computation of global, land and sea field integrals.
370 INT=1
371# Mask value
372888888.
373# Extrapolation method
374NINENN 2 1 1
375# Interpolation method
376BICUBIPS  Z   SCALAR
377# CHECKOUT: indicate computation of global, land and sea field integrals.
378 INT=1
379#
380#########################################################################
381#
382# Field 15 : Total rain (a->o 8)
383#
384COTOTRAI OTotRain 26 86400  4   flxat.nc   <output_mode>
385tlmd    torc  LAG=450
386P  0 P  2
387INVERT CHECKIN MOZAIC CHECKOUT
388# Reverse
389NORSUD WSTEST
390# CHECKIN: indicate computation of global, land and sea field integrals.
391 INT=1
392# Interpolation method ou parametres mozaic
393wa2o.flx 92  2    18
394# CHECKOUT: indicate computation of global, land and sea field integrals.
395 INT=1
396#
397##########################################################################
398#
399# Field 16 :  Total snow (a->o 9)
400#
401COTOTSNO  OTotSnow 28 86400  4   flxat.nc   <output_mode>
402tlmd    torc  LAG=450
403P  0 P  2
404INVERT CHECKIN MOZAIC CHECKOUT
405# Reverse
406NORSUD WSTEST
407# CHECKIN: indicate computation of global, land and sea field integrals.
408 INT=1
409# Interpolation method ou parametres mozaic
410wa2o.flx 92  2    18
411# CHECKOUT: indicate computation of global, land and sea field integrals.
412 INT=1
413#
414#########################################################################
415#
416# Field 17 : Total evap (a->o 10)
417#
418COTOTEVA  OTotEvap 25 86400  4   flxat.nc   <output_mode>
419tlmd    torc  LAG=450
420P  0 P  2
421INVERT CHECKIN MOZAIC CHECKOUT
422# Reverse
423NORSUD WSTEST
424# CHECKIN: indicate computation of global, land and sea field integrals.
425 INT=1
426# Interpolation method ou parametres mozaic
427wa2o.flx 92  2    18
428# CHECKOUT: indicate computation of global, land and sea field integrals.
429 INT=1
430#
431##########################################################################
432#
433# Field 18 : Evaporation Ice  (a->o 11)
434#
435COICEVAP OIceEvap 41 86400  4   flxat.nc   <output_mode>
436tlmd    torc  LAG=450
437P  0 P  2
438INVERT CHECKIN MOZAIC CHECKOUT
439# Reverse
440NORSUD WSTEST
441# CHECKIN: indicate computation of global, land and sea field integrals.
442 INT=1
443# Interpolation method ou parametres mozaic
444wa2o.flx 92  2    18
445# CHECKOUT: indicate computation of global, land and sea field integrals.
446 INT=1
447#
448##########################################################################
449#
450# Field 19 : Total solar heat flux (a->o 12)
451#
452COQSRMIX O_QsrMix  7 86400 4   flxat.nc  <output_mode>
453tlmd    torc  LAG=450
454P  0 P  2
455INVERT CHECKIN MOZAIC CHECKOUT
456# Reverse
457NORSUD WSTEST
458# CHECKIN: indicate computation of global, land and sea field integrals.
459 INT=1
460# Interpolation method or mozaic parameters
461wa2o.flx 92  2    18
462# CHECKOUT: indicate computation of global, land and sea field integrals.
463 INT=1
464#
465#########################################################################
466#
467# Field 20 : Total Non solar heat flux (a->o 13)
468#
469COQNSMIX O_QnsMix 6 86400  4   flxat.nc  <output_mode>
470tlmd    torc   LAG=450
471P  0 P  2
472INVERT CHECKIN MOZAIC CHECKOUT
473# Reverse
474NORSUD WSTEST
475# CHECKIN: indicate computation of global, land and sea field integrals.
476 INT=1
477# Interpolation method ou parametres mozaic
478wa2o.flx 92  2    18
479# CHECKOUT: indicate computation of global, land and sea field integrals.
480 INT=1
481#
482###########################################################################
483#
484# Field 21 : solar heat flux on ice (a->o 14)
485#
486COSHFICE O_QsrIce  7 86400 4   flxat.nc  <output_mode>
487tlmd    torc  LAG=450
488P  0 P  2
489INVERT CHECKIN MOZAIC CHECKOUT
490# Reverse
491NORSUD WSTEST
492# CHECKIN: indicate computation of global, land and sea field integrals.
493 INT=1
494# Interpolation method or mozaic parameters
495wa2o.flx 92  2    18 
496# CHECKOUT: indicate computation of global, land and sea field integrals.
497 INT=1
498#
499############################################################################
500#
501# Field 22 : Non solar heat flux on ice (a->o 15)
502#
503CONSFICE O_QnsIce 6 86400  4  flxat.nc  <output_mode>
504tlmd    torc  LAG=450
505P  0 P  2
506INVERT CHECKIN MOZAIC CHECKOUT
507# Reverse
508NORSUD WSTEST
509# CHECKIN: indicate computation of global, land and sea field integrals.
510 INT=1
511# Interpolation method ou parametres mozaic
512wa2o.flx 92  2    18
513# CHECKOUT: indicate computation of global, land and sea field integrals.
514 INT=1
515#
516############################################################################
517#
518# Field 23 : Non solar heat flux derivative (a->o 16)
519#
520CODFLXDT O_dQnsdT  35 86400  4   flxat.nc  <output_mode>
521tlmd    torc  LAG=450
522P  0 P  2
523INVERT CHECKIN MOZAIC CHECKOUT
524# Reverse
525NORSUD WSTEST
526# CHECKIN: indicate computation of global, land and sea field integrals.
527 INT=1
528# Interpolation method ou parametres mozaic
529wa2o.flx 92  2    18
530# CHECKOUT: indicate computation of global, land and sea field integrals.
531 INT=1
532#
533#########################################################################
534#
535# Field 24 : iceberg calving (a->o 17)
536#
537COCALVIN OCalving  36 86400  4  flxat.nc  <output_mode>
538tlmd    torc  LAG=450
539P  0 P  2
540INVERT CHECKIN MOZAIC CHECKOUT
541# Reverse
542NORSUD WSTEST
543# CHECKIN: indicate computation of global, land and sea field integrals.
544 INT=1
545# Interpolation method ou parametres mozaic
546wa2o.cal  98   5   47
547# CHECKOUT: indicate computation of global, land and sea field integrals.
548 INT=1
549#
550#########################################################################
551#
552# Field 25 : liquid run-off (river + direct)  (a->o 18)
553#
554COLIQRUN  O_Runoff 32 86400  5  flxat.nc   <output_mode>
555tlmd    torc  LAG=450
556P  0 P  2
557INVERT CHECKIN MOZAIC BLASNEW CHECKOUT
558# Reverse
559NORSUD WSTEST
560# CHECKIN: indicate computation of global, land and sea field integrals.
561 INT=1
562# Interpolation method ou parametres mozaic
563wa2o.run 94    4   216
564# change units from m/s to kg/s
565# weights convert from kg/s to kg/m^2/s
5661000.0 0
567# CHECKOUT: indicate computation of global, land and sea field integrals.
568 INT=1
569#
570#########################################################################
571# Field 26 : wind stress module (a->o 19)
572#
573##COTAUMOD  O_TauMod 466 86400  6   flxat.nc   <output_mode>
574##tlmd    torc  LAG=450
575##P  0 P  2
576##INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
577# Reverse
578##NORSUD WSTEST
579# CHECKIN: indicate computation of global, land and sea field integrals.
580## INT=1
581# Mask value
582##888888.
583# Extrapolation method
584##NINENN 2 1 1
585# Interpolation method
586##BICUBIPS  Z   SCALAR
587# CHECKOUT: indicate computation of global, land and sea field integrals.
588## INT=1
589#
590#########################################################################
591#
592 $END
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