Changeset 515 for CONFIG/IPSLCM/IPSLCM5/trunk/EXP00
- Timestamp:
- 01/13/09 16:11:33 (15 years ago)
- Location:
- CONFIG/IPSLCM/IPSLCM5/trunk/EXP00
- Files:
-
- 1 added
- 4 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/IPSLCM/IPSLCM5/trunk/EXP00/COMP/oasis.card
r483 r515 31 31 32 32 [OutputFiles] 33 List= 34 35 36 37 38 39 40 41 42 43 44 (COPEFWAT_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COPEFWAT.nc, NONE),\45 (COPEFICE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COPEFICE.nc, NONE),\46 (COTOSPSU_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTOSPSU.nc, NONE),\47 48 (COSWFLDO_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COSWFLDO.nc, NONE),\49 (CONSFLDO_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CONSFLDO.nc, NONE),\50 (COSHFLIC_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COSHFLIC.nc, NONE),\51 (CONSFLIC_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CONSFLIC.nc, NONE),\52 53 (CRWOCEIS_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CRWOCEIS.nc, NONE),\54 (CRWOCERD_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CRWOCERD.nc, NONE),\55 56 57 58 59 60 61 62 63 64 65 66 (OPre-Sub_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OPre-Sub.nc, NONE),\67 (OOEva-Pr_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OOEva-Pr.nc, NONE),\68 (OISub-Sn_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OISub-Sn.nc, NONE),\69 70 71 72 73 74 75 76 33 List= (SISUTESW_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_SISUTESW.nc, NONE),\ 34 (SIICECOV_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_SIICECOV.nc, NONE),\ 35 (SIICTEMW_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_SIICTEMW.nc, NONE),\ 36 (SIICEALW_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_SIICEALW.nc, NONE),\ 37 (COTAUXXU_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUXXU.nc, NONE),\ 38 (COTAUXXV_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUXXV.nc, NONE),\ 39 (COTAUYYU_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUYYU.nc, NONE),\ 40 (COTAUYYV_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUYYV.nc, NONE),\ 41 (COTAUZZU_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUZZU.nc, NONE),\ 42 (COTAUZZV_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COTAUZZV.nc, NONE),\ 43 (COWINDSP_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COWINDSP.nc, NONE),\ 44 (COEMPSIC_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COEMPSIC.nc, NONE),\ 45 (CONESOPR_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CONESOPR.nc, NONE),\ 46 (COEMPOCE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COEMPOCE.nc, NONE),\ 47 (COICEVAP_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COICEVAP.nc, NONE),\ 48 (COSHFOCE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COSHFOCE.nc, NONE),\ 49 (CONSFOCE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CONSFOCE.nc, NONE),\ 50 (COSHFICE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COSHFICE.nc, NONE),\ 51 (CONSFICE_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CONSFICE.nc, NONE),\ 52 (CODFLXDT_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_CODFLXDT.nc, NONE),\ 53 (COCALVIN_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COCALVIN.nc, NONE),\ 54 (COLIQRUN_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_COLIQRUN.nc, NONE),\ 55 (O_SSTSST_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_SSTSST.nc, NONE),\ 56 (OIceFrac_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OIceFrac.nc, NONE),\ 57 (O_TepIce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_TepIce.nc, NONE),\ 58 (O_AlbIce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_AlbIce.nc, NONE),\ 59 (O_OTaux1_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTaux1.nc, NONE),\ 60 (O_OTaux2_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTaux2.nc, NONE),\ 61 (O_OTauy1_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTauy1.nc, NONE),\ 62 (O_OTauy2_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTauy2.nc, NONE),\ 63 (O_OTauz1_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTauz1.nc, NONE),\ 64 (O_OTauz2_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_OTauz2.nc, NONE),\ 65 (O_Wind10_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_Wind10.nc, NONE),\ 66 (OSubMPre_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OSubMPre.nc, NONE),\ 67 (OISubMSn_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OISubMSn.nc, NONE),\ 68 (OOEvaMPr_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OOEvaMPr.nc, NONE),\ 69 (OIceEvap_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OIceEvap.nc, NONE),\ 70 (O_QsrOce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_QsrOce.nc, NONE),\ 71 (O_QsrIce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_QsrIce.nc, NONE),\ 72 (O_QnsOce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_QnsOce.nc, NONE),\ 73 (O_QnsIce_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_QnsIce.nc, NONE),\ 74 (O_dQnsdT_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_dQnsdT.nc, NONE),\ 75 (O_Runoff_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_O_Runoff.nc, NONE),\ 76 (OCalving_out.${DATE_OASIS}.nc, ${R_OUT_CPL_O_M}/${PREFIX}_OCalving.nc, NONE) 77 77 78 78 [Post_cpl_oce_tau] -
CONFIG/IPSLCM/IPSLCM5/trunk/EXP00/PARAM/namcouple_ORCA2xLMD144142
r483 r515 38 38 # 39 39 $NFIELDS 40 2 240 21 41 41 $END 42 42 ############################################################################### … … 300 300 INT=1 301 301 ## 302 ##########################################################################303 # Field 11 : 10-m wind speed (a->o tau 2)304 #305 COWINDSP O_Wind10 36 86400 6 flxat.nc <output_mode>306 tlmd torc LAG=1800307 P 0 P 2308 INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT309 # Reverse310 NORSUD WSTEST311 # CHECKIN: indicate computation of global, land and sea field integrals.312 INT=1313 # Mask value314 888888.315 # Extrapolation method316 NINENN 2 1 1317 # Interpolation method318 BILINEAR Z SCALAR319 # CHECKOUT: indicate computation of global, land and sea field integrals.320 INT=1321 #322 302 ######################################################################### 323 # Field 1 2: emp_ice = evap_ice - ( rain_ice + snow_ice ) (a->o flx 7)324 # 325 CO PEFWAT OPre-Sub25 86400 4 flxat.nc <output_mode>303 # Field 11 : emp_ice = evap_ice - ( rain_ice + snow_ice ) (a->o flx 7) 304 # 305 COEMPSIC OSubMPre 25 86400 4 flxat.nc <output_mode> 326 306 tlmd torc LAG=1800 327 307 P 0 P 2 … … 337 317 # 338 318 ########################################################################## 339 # Field 1 3: sprecip = evap_ice - snow_ice (o->a flx 6)340 # 341 CO PEFICE OISub-Sn 25 86400 4 flxat.nc <output_mode>319 # Field 12 : sprecip = evap_ice - snow_ice (o->a flx 6) 320 # 321 CONESOPR OISubMSn 25 86400 4 flxat.nc <output_mode> 342 322 tlmd torc LAG=1800 343 323 P 0 P 2 … … 353 333 # 354 334 ########################################################################## 355 # Field 1 4: emp = emp_oce = evap_oce - ( rain_oce + snow_oce ) (a->o flx 9)356 # 357 CO TOSPSU OOEva-Pr28 86400 4 flxat.nc <output_mode>335 # Field 13 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce ) (a->o flx 9) 336 # 337 COEMPOCE OOEvaMPr 28 86400 4 flxat.nc <output_mode> 358 338 tlmd torc LAG=1800 359 339 P 0 P 2 … … 369 349 # 370 350 ########################################################################## 371 # Field 1 5: Evaporation Ice (a->o flx 8)351 # Field 14 : Evaporation Ice (a->o flx 8) 372 352 # 373 353 COICEVAP OIceEvap 27 86400 4 flxat.nc <output_mode> … … 385 365 # 386 366 ########################################################################## 387 # Field 1 6: solar heat flux on ocean (a->o flx 2)388 # 389 COS WFLDOO_QsrOce 7 86400 4 flxat.nc <output_mode>367 # Field 15 : solar heat flux on ocean (a->o flx 2) 368 # 369 COSHFOCE O_QsrOce 7 86400 4 flxat.nc <output_mode> 390 370 tlmd torc LAG=1800 391 371 P 0 P 2 … … 401 381 # 402 382 ######################################################################### 403 # Field 1 7: Non solar heat flux on ocean (a->o flx 4)404 # 405 CONSF LDOO_QnsOce 6 86400 4 flxat.nc <output_mode>383 # Field 16 : Non solar heat flux on ocean (a->o flx 4) 384 # 385 CONSFOCE O_QnsOce 6 86400 4 flxat.nc <output_mode> 406 386 tlmd torc LAG=1800 407 387 P 0 P 2 … … 417 397 # 418 398 ########################################################################## 419 # Field 1 8: solar heat flux on ice (a->o flx 1)420 # 421 COSHF LICO_QsrIce 7 86400 4 flxat.nc <output_mode>399 # Field 17 : solar heat flux on ice (a->o flx 1) 400 # 401 COSHFICE O_QsrIce 7 86400 4 flxat.nc <output_mode> 422 402 tlmd torc LAG=1800 423 403 P 0 P 2 … … 433 413 # 434 414 ########################################################################## 435 # Field 1 9: Non solar heat flux on ice (a->o flx 3)436 # 437 CONSF LICO_QnsIce 6 86400 4 flxat.nc <output_mode>415 # Field 18 : Non solar heat flux on ice (a->o flx 3) 416 # 417 CONSFICE O_QnsIce 6 86400 4 flxat.nc <output_mode> 438 418 tlmd torc LAG=1800 439 419 P 0 P 2 … … 449 429 # 450 430 ############################################################################ 451 # Field 20: Non solar heat flux derivative (o->a flx 5)431 # Field 19 : Non solar heat flux derivative (o->a flx 5) 452 432 # 453 433 CODFLXDT O_dQnsdT 35 86400 4 flxat.nc <output_mode> … … 465 445 # 466 446 ########################################################################### 467 # Field 2 1: iceberg calving (a->o flx 12)468 # 469 C RWOCEISOCalving 32 86400 4 flxat.nc <output_mode>447 # Field 20 : iceberg calving (a->o flx 12) 448 # 449 COCALVIN OCalving 32 86400 4 flxat.nc <output_mode> 470 450 tlmd torc LAG=1800 471 451 P 0 P 2 … … 481 461 # 482 462 ############################################################################ 483 # Field 2 2: run-off (a->o flx 11)484 # 485 C RWOCERDO_Runoff 32 86400 5 flxat.nc <output_mode>463 # Field 21 : run-off (a->o flx 11) 464 # 465 COLIQRUN O_Runoff 32 86400 5 flxat.nc <output_mode> 486 466 tlmd torc LAG=1800 487 467 P 0 P 2 -
CONFIG/IPSLCM/IPSLCM5/trunk/EXP00/PARAM/namcouple_ORCA2xLMD9671
r483 r515 38 38 # 39 39 $NFIELDS 40 2 240 21 41 41 $END 42 42 ############################################################################### … … 105 105 # OCEAN --->>> ATMOS 106 106 # -------------------- 107 # Field 1 : Sea surface temperature (o->a 1)107 # Field 1 : Weighted Sea surface temperature (o->a 1) 108 108 # 109 109 O_SSTSST SISUTESW 1 86400 5 sstoc.nc <output_mode> … … 142 142 # 143 143 ############################################################################ 144 # Field 3 : Sea Ice Temperature (o->a 4)144 # Field 3 : Weighted Sea Ice Temperature (o->a 3) 145 145 # 146 146 O_TepIce SIICTEMW 34 86400 5 sstoc.nc <output_mode> … … 159 159 # 160 160 ############################################################################ 161 # Field 4 : Sea ice albedo (o->a 3)161 # Field 4 : Weighted Sea ice albedo (o->a 4) 162 162 # 163 163 O_AlbIce SIICEALW 17 86400 5 sstoc.nc <output_mode> … … 181 181 # ------------------------- 182 182 ############################################################################ 183 # 183 184 # Field 5 : wind stress along X axis (a->o tau 1) 184 185 # … … 201 202 # 202 203 ########################################################################### 204 # 203 205 # Field 6 : stress along Y axis (a->o tau 1) 204 206 # … … 221 223 # 222 224 ########################################################################### 225 # 223 226 # Field 7 :wind stress along Z axis (a->o tau 1) 224 227 # … … 241 244 # 242 245 ########################################################################## 246 # 243 247 # Field 8 : wind stress along X axis 2 (a->o tau 2) 244 248 # … … 261 265 # 262 266 ########################################################################## 267 # 263 268 # Field 9 : wind stress along Y axis 2 (a->o tau 2) 264 269 # … … 281 286 # 282 287 ########################################################################## 288 # 283 289 # Field 10 : wind stress along Z axis 2 (a->o tau 2) 284 290 # … … 299 305 # CHECKOUT: indicate computation of global, land and sea field integrals. 300 306 INT=1 301 ## 307 # 308 ######################################################################### 309 # 310 # Field 11 : emp_ice = evap_ice - ( rain_ice + snow_ice ) (a->o flx 7) 311 # 312 COEMPSIC OSubMPre 25 86400 4 flxat.nc <output_mode> 313 tlmd torc LAG=1800 314 P 0 P 2 315 INVERT CHECKIN MOZAIC CHECKOUT 316 # Reverse 317 NORSUD WSTEST 318 # CHECKIN: indicate computation of global, land and sea field integrals. 319 INT=1 320 # Interpolation method ou parametres mozaic 321 wa2o.flx 92 2 14 322 # CHECKOUT: indicate computation of global, land and sea field integrals. 323 INT=1 324 # 302 325 ########################################################################## 303 # Field 11 : 10-m wind speed (a->o tau 2) 304 # 305 COWINDSP O_Wind10 36 86400 6 flxat.nc <output_mode> 306 tlmd torc LAG=1800 307 P 0 P 2 308 INVERT CHECKIN MASK EXTRAP INTERP CHECKOUT 309 # Reverse 310 NORSUD WSTEST 311 # CHECKIN: indicate computation of global, land and sea field integrals. 312 INT=1 313 # Mask value 314 888888. 315 # Extrapolation method 316 NINENN 2 1 1 317 # Interpolation method 318 BILINEAR Z SCALAR 326 # 327 # Field 12 : sprecip = evap_ice - snow_ice (o->a flx 6) 328 # 329 CONESOPR OISubMSn 25 86400 4 flxat.nc <output_mode> 330 tlmd torc LAG=1800 331 P 0 P 2 332 INVERT CHECKIN MOZAIC CHECKOUT 333 # Reverse 334 NORSUD WSTEST 335 # CHECKIN: indicate computation of global, land and sea field integrals. 336 INT=1 337 # Interpolation method ou parametres mozaic 338 wa2o.flx 92 2 14 319 339 # CHECKOUT: indicate computation of global, land and sea field integrals. 320 340 INT=1 321 341 # 322 342 ######################################################################### 323 # Field 12 : emp_ice = evap_ice - ( rain_ice + snow_ice ) (a->o flx 7) 324 # 325 COPEFWAT OPre-Sub 25 86400 4 flxat.nc <output_mode> 343 # 344 # Field 13 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce ) (a->o flx 9) 345 # 346 COEMPOCE OOEvaMPr 29 86400 4 flxat.nc <output_mode> 326 347 tlmd torc LAG=1800 327 348 P 0 P 2 … … 337 358 # 338 359 ########################################################################## 339 # Field 13 : sprecip = evap_ice - snow_ice (o->a flx 6) 340 # 341 COPEFICE OISub-Sn 25 86400 4 flxat.nc <output_mode> 360 # 361 # Field 14 : Evaporation Ice (a->o flx 8) 362 # 363 COICEVAP OIceEvap 41 86400 4 flxat.nc <output_mode> 342 364 tlmd torc LAG=1800 343 365 P 0 P 2 … … 351 373 # CHECKOUT: indicate computation of global, land and sea field integrals. 352 374 INT=1 375 # 376 ########################################################################### 377 # 378 # Field 15 : solar heat flux on ocean (a->o flx 2) 379 # 380 COSHFOCE O_QsrOce 7 86400 4 flxat.nc <output_mode> 381 tlmd torc LAG=1800 382 P 0 P 2 383 INVERT CHECKIN MOZAIC CHECKOUT 384 # Reverse 385 NORSUD WSTEST 386 # CHECKIN: indicate computation of global, land and sea field integrals. 387 INT=1 388 # Interpolation method or mozaic parameters 389 wa2o.flx 92 2 14 390 # CHECKOUT: indicate computation of global, land and sea field integrals. 391 INT=1 392 # 353 393 ######################################################################### 354 # Field 14 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce ) (a->o flx 9) 355 # 356 COTOSPSU OOEva-Pr 28 86400 4 flxat.nc <output_mode> 357 tlmd torc LAG=1800 358 P 0 P 2 359 INVERT CHECKIN MOZAIC CHECKOUT 360 # Reverse 361 NORSUD WSTEST 362 # CHECKIN: indicate computation of global, land and sea field integrals. 363 INT=1 364 # Interpolation method ou parametres mozaic 365 wa2o.flx 92 2 14 366 # CHECKOUT: indicate computation of global, land and sea field integrals. 367 INT=1 368 ########################################################################## 369 # Field 15 : Evaporation Ice (a->o flx 8) 370 # 371 COICEVAP OIceEvap 27 86400 4 flxat.nc <output_mode> 372 tlmd torc LAG=1800 373 P 0 P 2 374 INVERT CHECKIN MOZAIC CHECKOUT 375 # Reverse 376 NORSUD WSTEST 377 # CHECKIN: indicate computation of global, land and sea field integrals. 378 INT=1 379 # Interpolation method ou parametres mozaic 380 wa2o.flx 92 2 14 394 # 395 # Field 16 : Non solar heat flux on ocean (a->o flx 4) 396 # 397 CONSFOCE O_QnsOce 6 86400 4 flxat.nc <output_mode> 398 tlmd torc LAG=1800 399 P 0 P 2 400 INVERT CHECKIN MOZAIC CHECKOUT 401 # Reverse 402 NORSUD WSTEST 403 # CHECKIN: indicate computation of global, land and sea field integrals. 404 INT=1 405 # Interpolation method ou parametres mozaic 406 wa2o.flx 92 2 14 381 407 # CHECKOUT: indicate computation of global, land and sea field integrals. 382 408 INT=1 383 409 # 384 410 ########################################################################### 385 # Field 16 : solar heat flux on ocean (a->o flx 2) 386 # 387 COSWFLDO O_QsrOce 7 86400 4 flxat.nc <output_mode> 388 tlmd torc LAG=1800 389 P 0 P 2 390 INVERT CHECKIN MOZAIC CHECKOUT 391 # Reverse 392 NORSUD WSTEST 393 # CHECKIN: indicate computation of global, land and sea field integrals. 394 INT=1 395 # Interpolation method or mozaic parameters 396 wa2o.flx 92 2 14 397 # CHECKOUT: indicate computation of global, land and sea field integrals. 398 INT=1 399 # 400 ######################################################################### 401 # 402 # Field 17 : Non solar heat flux on ocean (a->o flx 4) 403 # 404 CONSFLDO O_QnsOce 6 86400 4 flxat.nc <output_mode> 405 tlmd torc LAG=1800 406 P 0 P 2 407 INVERT CHECKIN MOZAIC CHECKOUT 408 # Reverse 409 NORSUD WSTEST 410 # CHECKIN: indicate computation of global, land and sea field integrals. 411 INT=1 412 # Interpolation method ou parametres mozaic 413 wa2o.flx 92 2 14 414 # CHECKOUT: indicate computation of global, land and sea field integrals. 415 INT=1 416 # 417 ########################################################################### 418 # Field 18 : solar heat flux on ice (a->o flx 1) 419 # 420 COSHFLIC O_QsrIce 7 86400 4 flxat.nc <output_mode> 411 # 412 # Field 17 : solar heat flux on ice (a->o flx 1) 413 # 414 COSHFICE O_QsrIce 7 86400 4 flxat.nc <output_mode> 421 415 tlmd torc LAG=1800 422 416 P 0 P 2 … … 432 426 # 433 427 ############################################################################ 434 # Field 19 : Non solar heat flux on ice (a->o flx 3) 435 # 436 CONSFLIC O_QnsIce 6 86400 4 flxat.nc <output_mode> 428 # 429 # Field 18 : Non solar heat flux on ice (a->o flx 3) 430 # 431 CONSFICE O_QnsIce 6 86400 4 flxat.nc <output_mode> 437 432 tlmd torc LAG=1800 438 433 P 0 P 2 … … 448 443 # 449 444 ############################################################################ 450 # Field 20 : Non solar heat flux derivative (o->a flx 5) 445 # 446 # Field 19 : Non solar heat flux derivative (o->a flx 5) 451 447 # 452 448 CODFLXDT O_dQnsdT 35 86400 4 flxat.nc <output_mode> … … 464 460 # 465 461 ######################################################################### 466 # Field 21 : iceberg calving (a->o flx 12) 467 # 468 CRWOCEIS OCalving 32 86400 4 flxat.nc <output_mode> 462 # 463 # Field 20 : iceberg calving (a->o flx 12) 464 # 465 COCALVIN OCalving 36 86400 4 flxat.nc <output_mode> 469 466 tlmd torc LAG=1800 470 467 P 0 P 2 … … 480 477 # 481 478 ######################################################################### 482 # Field 22 : river run-off (a->o flx 11) 483 # 484 CRWOCERD O_Runoff 32 86400 5 flxat.nc <output_mode> 479 # 480 # Field 21 : liquid run-off (river + direct) (a->o flx 11) 481 # 482 COLIQRUN O_Runoff 32 86400 5 flxat.nc <output_mode> 485 483 tlmd torc LAG=1800 486 484 P 0 P 2 … … 492 490 # Interpolation method ou parametres mozaic 493 491 wa2o.run 94 4 158 494 # change units from m/s to kg/s , change of sign492 # change units from m/s to kg/s 495 493 # weights convert from kg/s to kg/m^2/s 496 494 1000.0 0 -
CONFIG/IPSLCM/IPSLCM5/trunk/EXP00/PARAM/namelist_ORCA2
r445 r515 78 78 rdtmax = 5760. ! maximum time step on tracers (used if nacc=1) 79 79 rdth = 800. ! depth variation of tracer time step (used if nacc=1) 80 rdtbt = 90. !barotropic time step (for the split explicit algorithm) ("key_dynspg_ts")80 nn_baro = 64 ! number of barotropic time step (for the split explicit algorithm) ("key_dynspg_ts") 81 81 nclosea = 1 ! = 0 no closed sea in the model domain 82 82 ! = 1 closed sea (Black Sea, Caspian Sea, Great US Lakes...) … … 188 188 cn_snd_crt_grid = 'T' ! 'T' 189 189 ! RECEIVE 190 cn_rcv_w10m = ' coupled'! 'none' 'coupled'190 cn_rcv_w10m = 'none' ! 'none' 'coupled' 191 191 cn_rcv_tau_nature = 'oce only' ! 'oce only' 'oce and ice' 'mixed oce-ice' 192 192 cn_rcv_tau_refere = 'cartesian' ! 'spherical' 'cartesian'
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