source: CMIP5/historicalNoAA/v3.historicalNoAA3/PARAM/namcouple_ORCA2xLMD9671 @ 6080

Last change on this file since 6080 was 880, checked in by aclsce, 15 years ago

Modified target grid for wind speed 10m (exchanged but not used so far, will be used
for LOOP configuration)

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  20
120# CHECKOUT: indicate computation of global, land and sea field integrals.
121 INT=1
122#
123  NORSUD   WSTEST
124
125############################################################################
126# Field 2 : Sea ice extent  (o->a 2)
127#
128OIceFrac SIICECOV 44 86400  5  sstoc.nc <output_mode>
129torc  tlmd   LAG=5760
130P  2 P  0
131#
132LOCTRANS CHECKIN MOZAIC  CHECKOUT  REVERSE
133 AVERAGE
134# CHECKIN: indicate computation of global, land and sea field integrals.
135 INT=1
136#
137wo2a.tsg 93  1 20
138# CHECKOUT: indicate computation of global, land and sea field integrals.
139 INT=1
140#
141NORSUD   WSTEST
142#
143############################################################################
144# Field 3 : Weighted Sea Ice Temperature (o->a 3)
145#
146O_TepIce SIICTEMW 34 86400  5  sstoc.nc  <output_mode>
147torc  tlmd   LAG=5760
148P  2 P  0
149LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
150 AVERAGE
151# CHECKIN: indicate computation of global, land and sea field integrals.
152 INT=1
153#
154wo2a.tsg 93  1  20
155# CHECKOUT: indicate computation of global, land and sea field integrals.
156 INT=1
157#
158  NORSUD   WSTEST
159#
160############################################################################
161# Field 4 : Weighted Sea ice albedo (o->a 4)
162#
163O_AlbIce SIICEALW 17 86400  5  sstoc.nc  <output_mode>
164torc  tlmd  LAG=5760 
165P  2 P  0
166#
167LOCTRANS CHECKIN MOZAIC CHECKOUT  REVERSE
168 AVERAGE
169# CHECKIN: indicate computation of global, land and sea field integrals.
170 INT=1
171#
172wo2a.tsg 93  1 20
173# CHECKOUT: indicate computation of global, land and sea field integrals.
174 INT=1
175#
176NORSUD   WSTEST
177#
178############################################################################
179# Field 5 : Current surface (o->a 5)
180O_OCurx1 CURRENTX 321 86400  5  sstoc.nc  <output_mode>
181torc    tlmd  LAG=5760
182P  2 P  0
183LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
184 AVERAGE
185# CHECKIN: indicate computation of global, land and sea field integrals.
186 INT=1
187#
188wo2a.tsg 93  1 20
189# CHECKOUT: indicate computation of global, land and sea field integrals.
190 INT=1
191#
192NORSUD   WSTEST
193#
194############################################################################
195# Field 6 : Current surface (o->a 6)
196O_OCury1 CURRENTY 321 86400  5  sstoc.nc  <output_mode>
197torc    tlmd  LAG=5760
198P  2 P  0
199LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE 
200 AVERAGE
201# CHECKIN: indicate computation of global, land and sea field integrals.
202 INT=1
203#
204wo2a.tsg 93  1 20
205# CHECKOUT: indicate computation of global, land and sea field integrals.
206 INT=1
207
208NORSUD   WSTEST
209############################################################################
210# Field 7 : Current surface (o->a 7)
211O_OCurz1 CURRENTZ 321 86400  5  sstoc.nc  <output_mode>
212torc    tlmd  LAG=5760
213P  2 P  0
214LOCTRANS CHECKIN MOZAIC CHECKOUT REVERSE
215 AVERAGE
216# CHECKIN: indicate computation of global, land and sea field integrals.
217 INT=1
218#
219wo2a.tsg 93  1 20
220# CHECKOUT: indicate computation of global, land and sea field integrals.
221 INT=1 
222
223NORSUD   WSTEST
224#
225############################################################################
226#
227#                      ATMOSPHERE  --->>>  OCEAN
228#                      -------------------------
229############################################################################   
230#
231# Field 8 : wind stress along X axis (a->o 1)
232#
233COTAUXXU O_OTaux1 23 86400  6  flxat.nc   <output_mode>
234tlmd    uorc  LAG=1800
235P  0 P  2
236INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
237# Reverse
238NORSUD WSTEST
239# CHECKIN: indicate computation of global, land and sea field integrals.
240 INT=1
241# Mask value
242888888.
243# Extrapolation method
244NINENN 2 1 1
245# Interpolation method
246BICUBIPS  Z   SCALAR
247# CHECKOUT: indicate computation of global, land and sea field integrals.
248 INT=1
249#
250###########################################################################
251#
252# Field 9 : stress along Y axis (a->o 2)
253#
254COTAUYYU O_OTauy1 23 86400  6  flxat.nc  <output_mode>
255tlmd    uorc  LAG=1800
256P  0 P  2
257INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
258# Reverse
259NORSUD WSTEST
260# CHECKIN: indicate computation of global, land and sea field integrals.
261 INT=1
262# Mask value
263888888.
264# Extrapolation method
265NINENN 2 1 1
266# Interpolation method
267BICUBIPS  Z   SCALAR
268# CHECKOUT: indicate computation of global, land and sea field integrals.
269 INT=1
270#
271###########################################################################
272#
273# Field 10 :wind stress along Z axis (a->o 3)
274#
275COTAUZZU O_OTauz1 23 86400  6  flxat.nc  <output_mode>
276tlmd    uorc  LAG=1800
277P  0 P  2
278INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
279# Reverse
280NORSUD WSTEST
281# CHECKIN: indicate computation of global, land and sea field integrals.
282 INT=1
283# Mask value
284888888.
285# Extrapolation method
286NINENN 2 1 1
287# Interpolation method
288BICUBIPS  Z   SCALAR
289# CHECKOUT: indicate computation of global, land and sea field integrals.
290 INT=1
291#
292##########################################################################
293#
294# Field 11 : wind stress along X axis 2 (a->o 4)
295#
296COTAUXXV O_OTaux2 24 86400  6    flxat.nc  <output_mode>
297tlmd    vorc  LAG=1800
298P  0 P  2
299INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
300# Reverse
301NORSUD WSTEST
302# CHECKIN: indicate computation of global, land and sea field integrals.
303 INT=1
304# Mask value
305888888.
306# Extrapolation method
307NINENN 2 1 1
308# Interpolation method
309BICUBIPS  Z   SCALAR
310# CHECKOUT: indicate computation of global, land and sea field integrals.
311 INT=1
312#
313##########################################################################
314#
315# Field 12 : wind stress along Y axis 2 (a->o 5)
316#
317COTAUYYV O_OTauy2 24 86400  6    flxat.nc  <output_mode>
318tlmd    vorc  LAG=1800
319P  0 P  2
320INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
321# Reverse
322NORSUD WSTEST
323# CHECKIN: indicate computation of global, land and sea field integrals.
324 INT=1
325# Mask value
326888888.
327# Extrapolation method
328NINENN 2 1 1
329# Interpolation method
330BICUBIPS  Z   SCALAR
331# CHECKOUT: indicate computation of global, land and sea field integrals.
332 INT=1
333#
334##########################################################################
335#
336# Field 13 :  wind stress along Z axis 2 (a->o 6)
337#
338COTAUZZV O_OTauz2 24 86400  6    flxat.nc  <output_mode>
339tlmd    vorc  LAG=1800
340P  0 P  2
341INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
342# Reverse
343NORSUD WSTEST
344# CHECKIN: indicate computation of global, land and sea field integrals.
345 INT=1
346# Mask value
347888888.
348# Extrapolation method
349NINENN 2 1 1
350# Interpolation method
351BICUBIPS  Z   SCALAR
352# CHECKOUT: indicate computation of global, land and sea field integrals.
353 INT=1
354#
355#########################################################################
356# Field 14 :  wind speed 10m (a->o 7)
357#
358COWINDSP O_Wind10  56 86400  6    flxat.nc  <output_mode>
359tlmd    torc  LAG=1800
360P  0 P  2
361INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
362# Reverse
363NORSUD WSTEST
364# CHECKIN: indicate computation of global, land and sea field integrals.
365 INT=1
366# Mask value
367888888.
368# Extrapolation method
369NINENN 2 1 1
370# Interpolation method
371BICUBIPS  Z   SCALAR
372# CHECKOUT: indicate computation of global, land and sea field integrals.
373 INT=1
374#
375#########################################################################
376#
377# Field 15 : Total rain  (a->o 8)
378#
379COTOTRAI OTotRain 26 86400  4   flxat.nc   <output_mode>
380tlmd    torc  LAG=1800
381P  0 P  2
382INVERT CHECKIN MOZAIC CHECKOUT
383# Reverse
384NORSUD WSTEST
385# CHECKIN: indicate computation of global, land and sea field integrals.
386 INT=1
387# Interpolation method ou parametres mozaic
388wa2o.flx 92  2    14
389# CHECKOUT: indicate computation of global, land and sea field integrals.
390 INT=1
391#
392##########################################################################
393#
394# Field 16 :  Total snow (a->o 9)
395#
396COTOTSNO  OTotSnow 28 86400  4   flxat.nc   <output_mode>
397tlmd    torc  LAG=1800
398P  0 P  2
399INVERT CHECKIN MOZAIC CHECKOUT
400# Reverse
401NORSUD WSTEST
402# CHECKIN: indicate computation of global, land and sea field integrals.
403 INT=1
404# Interpolation method ou parametres mozaic
405wa2o.flx 92  2    14
406# CHECKOUT: indicate computation of global, land and sea field integrals.
407 INT=1
408#
409#########################################################################
410#
411# Field 17 : Total evap (a->o 10)
412#
413COTOTEVA  OTotEvap 25 86400  4   flxat.nc   <output_mode>
414tlmd    torc  LAG=1800
415P  0 P  2
416INVERT CHECKIN MOZAIC CHECKOUT
417# Reverse
418NORSUD WSTEST
419# CHECKIN: indicate computation of global, land and sea field integrals.
420 INT=1
421# Interpolation method ou parametres mozaic
422wa2o.flx 92  2    14
423# CHECKOUT: indicate computation of global, land and sea field integrals.
424 INT=1
425#
426##########################################################################
427#
428# Field 18 : Evaporation Ice  (a->o 11)
429#
430COICEVAP OIceEvap 41 86400  4   flxat.nc   <output_mode>
431tlmd    torc  LAG=1800
432P  0 P  2
433INVERT CHECKIN MOZAIC CHECKOUT
434# Reverse
435NORSUD WSTEST
436# CHECKIN: indicate computation of global, land and sea field integrals.
437 INT=1
438# Interpolation method ou parametres mozaic
439wa2o.flx 92  2    14
440# CHECKOUT: indicate computation of global, land and sea field integrals.
441 INT=1
442#
443###########################################################################
444#
445# Field 19 : Total solar heat flux (a->o 12)
446#
447COQSRMIX O_QsrMix  7 86400 4   flxat.nc  <output_mode>
448tlmd    torc  LAG=1800
449P  0 P  2
450INVERT CHECKIN MOZAIC CHECKOUT
451# Reverse
452NORSUD WSTEST
453# CHECKIN: indicate computation of global, land and sea field integrals.
454 INT=1
455# Interpolation method or mozaic parameters
456wa2o.flx 92  2    14
457# CHECKOUT: indicate computation of global, land and sea field integrals.
458 INT=1
459#
460#########################################################################
461#
462# Field 20 : Total Non solar heat flux (a->o 13)
463#
464COQNSMIX O_QnsMix 6 86400  4   flxat.nc  <output_mode>
465tlmd    torc   LAG=1800
466P  0 P  2
467INVERT CHECKIN MOZAIC CHECKOUT
468# Reverse
469NORSUD WSTEST
470# CHECKIN: indicate computation of global, land and sea field integrals.
471 INT=1
472# Interpolation method ou parametres mozaic
473wa2o.flx 92  2    14
474# CHECKOUT: indicate computation of global, land and sea field integrals.
475 INT=1
476#
477###########################################################################
478#
479# Field 21 : solar heat flux on ice (a->o 14)
480#
481COSHFICE O_QsrIce  7 86400 4   flxat.nc  <output_mode>
482tlmd    torc  LAG=1800
483P  0 P  2
484INVERT CHECKIN MOZAIC CHECKOUT
485# Reverse
486NORSUD WSTEST
487# CHECKIN: indicate computation of global, land and sea field integrals.
488 INT=1
489# Interpolation method or mozaic parameters
490wa2o.flx 92  2    14 
491# CHECKOUT: indicate computation of global, land and sea field integrals.
492 INT=1
493#
494############################################################################
495#
496# Field 22 : Non solar heat flux on ice (a->o 15)
497#
498CONSFICE O_QnsIce 6 86400  4  flxat.nc  <output_mode>
499tlmd    torc  LAG=1800
500P  0 P  2
501INVERT CHECKIN MOZAIC CHECKOUT
502# Reverse
503NORSUD WSTEST
504# CHECKIN: indicate computation of global, land and sea field integrals.
505 INT=1
506# Interpolation method ou parametres mozaic
507wa2o.flx 92  2    14
508# CHECKOUT: indicate computation of global, land and sea field integrals.
509 INT=1
510#
511############################################################################
512#
513# Field 23 : Non solar heat flux derivative (a->o 16)
514#
515CODFLXDT O_dQnsdT  35 86400  4   flxat.nc  <output_mode>
516tlmd    torc  LAG=1800
517P  0 P  2
518INVERT CHECKIN MOZAIC CHECKOUT
519# Reverse
520NORSUD WSTEST
521# CHECKIN: indicate computation of global, land and sea field integrals.
522 INT=1
523# Interpolation method ou parametres mozaic
524wa2o.flx 92  2    14
525# CHECKOUT: indicate computation of global, land and sea field integrals.
526 INT=1
527#
528#########################################################################
529#
530# Field 24 : iceberg calving (a->o 17)
531#
532COCALVIN OCalving  36 86400  4  flxat.nc  <output_mode>
533tlmd    torc  LAG=1800
534P  0 P  2
535INVERT CHECKIN MOZAIC CHECKOUT
536# Reverse
537NORSUD WSTEST
538# CHECKIN: indicate computation of global, land and sea field integrals.
539 INT=1
540# Interpolation method ou parametres mozaic
541wa2o.cal  98   5   36
542# CHECKOUT: indicate computation of global, land and sea field integrals.
543 INT=1
544#
545#########################################################################
546#
547# Field 25 : liquid run-off (river + direct)  (a->o 18)
548#
549COLIQRUN  O_Runoff 32 86400  5  flxat.nc   <output_mode>
550tlmd    torc  LAG=1800
551P  0 P  2
552INVERT CHECKIN MOZAIC BLASNEW CHECKOUT
553# Reverse
554NORSUD WSTEST
555# CHECKIN: indicate computation of global, land and sea field integrals.
556 INT=1
557# Interpolation method ou parametres mozaic
558wa2o.run 94    4   158
559# change units from m/s to kg/s
560# weights convert from kg/s to kg/m^2/s
5611000.0 0
562# CHECKOUT: indicate computation of global, land and sea field integrals.
563 INT=1
564#
565###########################################################################
566# Field 26 : wind stress module (a->o 19)
567#
568##COTAUMOD  O_TauMod 466 86400  6   flxat.nc   <output_mode>
569##tlmd    torc  LAG=1800
570##P  0 P  2
571##INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT
572# Reverse
573##NORSUD WSTEST
574# CHECKIN: indicate computation of global, land and sea field integrals.
575## INT=1
576# Mask value
577##888888.
578# Extrapolation method
579##NINENN 2 1 1
580# Interpolation method
581##BICUBIPS  Z   SCALAR
582# CHECKOUT: indicate computation of global, land and sea field integrals.
583## INT=1
584#
585#########################################################################
586#
587 $END
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