Changeset 583 for CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM
- Timestamp:
- 03/23/09 17:13:45 (15 years ago)
- Location:
- CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM
- Files:
-
- 3 added
- 4 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM/namcouple_ORCA2xLMD144142
r561 r583 105 105 # OCEAN --->>> ATMOS 106 106 # -------------------- 107 ############################################################################### 108 # Field 1 : Weighted sea surface temperature (o->a 1) 107 # Field 1 : Weighted Sea surface temperature (o->a 1) 109 108 # 110 109 O_SSTSST SISUTESW 1 86400 5 sstoc.nc <output_mode> … … 127 126 # Field 2 : Sea ice extent (o->a 2) 128 127 # 129 OIceFrac SIICECOV 286400 5 sstoc.nc <output_mode>128 OIceFrac SIICECOV 44 86400 5 sstoc.nc <output_mode> 130 129 torc tlmd LAG=5760 131 130 P 2 P 0 … … 176 175 # 177 176 NORSUD WSTEST 177 # 178 178 ############################################################################ 179 179 # … … 299 299 # CHECKOUT: indicate computation of global, land and sea field integrals. 300 300 INT=1 301 # #301 # 302 302 ######################################################################### 303 # Field 11 : emp_ice = evap_ice - ( rain_ice + snow_ice )(a->o flx 7)304 # 305 CO EMPSIC OSubMPre 2586400 4 flxat.nc <output_mode>303 # Field 11 : Total rain (a->o flx 7) 304 # 305 COTOTRAI OTotRain 26 86400 4 flxat.nc <output_mode> 306 306 tlmd torc LAG=1800 307 307 P 0 P 2 … … 317 317 # 318 318 ########################################################################## 319 # Field 12 : sprecip = evap_ice - snow_ice(o->a flx 6)320 # 321 CO NESOPR OISubMSn 2586400 4 flxat.nc <output_mode>319 # Field 12 : Total snow (o->a flx 6) 320 # 321 COTOTSNO OTotSnow 28 86400 4 flxat.nc <output_mode> 322 322 tlmd torc LAG=1800 323 323 P 0 P 2 … … 333 333 # 334 334 ########################################################################## 335 # Field 13 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce )(a->o flx 9)336 # 337 CO EMPOCE OOEvaMPr 2886400 4 flxat.nc <output_mode>335 # Field 13 : Total evap (a->o flx 9) 336 # 337 COTOTEVA OTotEvap 25 86400 4 flxat.nc <output_mode> 338 338 tlmd torc LAG=1800 339 339 P 0 P 2 … … 351 351 # Field 14 : Evaporation Ice (a->o flx 8) 352 352 # 353 COICEVAP OIceEvap 2786400 4 flxat.nc <output_mode>353 COICEVAP OIceEvap 41 86400 4 flxat.nc <output_mode> 354 354 tlmd torc LAG=1800 355 355 P 0 P 2 … … 365 365 # 366 366 ########################################################################## 367 # Field 15 : solar heat flux on ocean(a->o flx 2)368 # 369 CO SHFOCE O_QsrOce7 86400 4 flxat.nc <output_mode>367 # Field 15 : Total solar heat flux (a->o flx 2) 368 # 369 COQSRMIX O_QsrMix 7 86400 4 flxat.nc <output_mode> 370 370 tlmd torc LAG=1800 371 371 P 0 P 2 … … 381 381 # 382 382 ######################################################################### 383 # Field 16 : Non solar heat flux on ocean(a->o flx 4)384 # 385 CO NSFOCE O_QnsOce6 86400 4 flxat.nc <output_mode>383 # Field 16 : Total Non solar heat flux (a->o flx 4) 384 # 385 COQNSMIX O_QnsMix 6 86400 4 flxat.nc <output_mode> 386 386 tlmd torc LAG=1800 387 387 P 0 P 2 … … 447 447 # Field 20 : iceberg calving (a->o flx 12) 448 448 # 449 COCALVIN OCalving 3 286400 4 flxat.nc <output_mode>449 COCALVIN OCalving 36 86400 4 flxat.nc <output_mode> 450 450 tlmd torc LAG=1800 451 451 P 0 P 2 … … 461 461 # 462 462 ############################################################################ 463 # Field 21 : run-off(a->o flx 11)463 # Field 21 : liquid run-off (river + direct) (a->o flx 11) 464 464 # 465 465 COLIQRUN O_Runoff 32 86400 5 flxat.nc <output_mode> -
CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM/namcouple_ORCA2xLMD9671
r561 r583 126 126 # Field 2 : Sea ice extent (o->a 2) 127 127 # 128 OIceFrac SIICECOV 286400 5 sstoc.nc <output_mode>128 OIceFrac SIICECOV 44 86400 5 sstoc.nc <output_mode> 129 129 torc tlmd LAG=5760 130 130 P 2 P 0 … … 308 308 ######################################################################### 309 309 # 310 # Field 11 : emp_ice = evap_ice - ( rain_ice + snow_ice )(a->o flx 7)311 # 312 CO EMPSIC OSubMPre 2586400 4 flxat.nc <output_mode>310 # Field 11 : Total rain (a->o flx 7) 311 # 312 COTOTRAI OTotRain 26 86400 4 flxat.nc <output_mode> 313 313 tlmd torc LAG=1800 314 314 P 0 P 2 … … 325 325 ########################################################################## 326 326 # 327 # Field 12 : sprecip = evap_ice - snow_ice(o->a flx 6)328 # 329 CO NESOPR OISubMSn 2586400 4 flxat.nc <output_mode>327 # Field 12 : Total snow (o->a flx 6) 328 # 329 COTOTSNO OTotSnow 28 86400 4 flxat.nc <output_mode> 330 330 tlmd torc LAG=1800 331 331 P 0 P 2 … … 342 342 ######################################################################### 343 343 # 344 # Field 13 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce )(a->o flx 9)345 # 346 CO EMPOCE OOEvaMPr 2986400 4 flxat.nc <output_mode>344 # Field 13 : Total evap (a->o flx 9) 345 # 346 COTOTEVA OTotEvap 25 86400 4 flxat.nc <output_mode> 347 347 tlmd torc LAG=1800 348 348 P 0 P 2 … … 376 376 ########################################################################### 377 377 # 378 # Field 15 : solar heat flux on ocean(a->o flx 2)379 # 380 CO SHFOCE O_QsrOce7 86400 4 flxat.nc <output_mode>378 # Field 15 : Total solar heat flux (a->o flx 2) 379 # 380 COQSRMIX O_QsrMix 7 86400 4 flxat.nc <output_mode> 381 381 tlmd torc LAG=1800 382 382 P 0 P 2 … … 393 393 ######################################################################### 394 394 # 395 # Field 16 : Non solar heat flux on ocean(a->o flx 4)396 # 397 CO NSFOCE O_QnsOce6 86400 4 flxat.nc <output_mode>395 # Field 16 : Total Non solar heat flux (a->o flx 4) 396 # 397 COQNSMIX O_QnsMix 6 86400 4 flxat.nc <output_mode> 398 398 tlmd torc LAG=1800 399 399 P 0 P 2 -
CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM/namcouple_ORCA2xLMD9695
r567 r583 105 105 # OCEAN --->>> ATMOS 106 106 # -------------------- 107 ###############################################################################108 #109 107 # Field 1 : Weighted sea surface temperature (o->a 1) 110 108 # … … 126 124 # 127 125 ############################################################################ 128 #129 126 # Field 2 : Sea ice extent (o->a 2) 130 127 # 131 OIceFrac SIICECOV 286400 5 sstoc.nc <output_mode>128 OIceFrac SIICECOV 44 86400 5 sstoc.nc <output_mode> 132 129 torc tlmd LAG=5760 133 130 P 2 P 0 … … 145 142 # 146 143 ############################################################################ 147 # 148 # Field 4 : Weighted Sea Ice Temperature (o->a 3) 144 # Field 3 : Weighted Sea Ice Temperature (o->a 3) 149 145 # 150 146 O_TepIce SIICTEMW 34 86400 5 sstoc.nc <output_mode> … … 162 158 NORSUD WSTEST 163 159 ############################################################################ 164 # 165 # Field 3 : Weighted Sea ice albedo (o->a 4) 160 # Field 4 : Weighted Sea ice albedo (o->a 4) 166 161 # 167 162 O_AlbIce SIICEALW 17 86400 5 sstoc.nc <output_mode> … … 309 304 # CHECKOUT: indicate computation of global, land and sea field integrals. 310 305 INT=1 311 # #312 ######################################################################### 313 # 314 # Field 11 : emp_ice = evap_ice - ( rain_ice + snow_ice )(a->o flx 7)315 # 316 CO EMPSIC OSubMPre 2586400 4 flxat.nc <output_mode>317 tlmd torc LAG=1800 318 P 0 P 2 319 INVERT CHECKIN MOZAIC CHECKOUT 320 # Reverse 321 NORSUD WSTEST 322 # CHECKIN: indicate computation of global, land and sea field integrals. 323 INT=1 324 # Interpolation method ou parametres mozaic 325 wa2o.flx 92 2 18 326 # CHECKOUT: indicate computation of global, land and sea field integrals. 327 INT=1 328 # 329 ########################################################################## 330 # 331 # Field 12 : sprecip = evap_ice - snow_ice(o->a flx 6)332 # 333 CO NESOPR OISubMSn 2586400 4 flxat.nc <output_mode>334 tlmd torc LAG=1800 335 P 0 P 2 336 INVERT CHECKIN MOZAIC CHECKOUT 337 # Reverse 338 NORSUD WSTEST 339 # CHECKIN: indicate computation of global, land and sea field integrals. 340 INT=1 341 # Interpolation method ou parametres mozaic 342 wa2o.flx 92 2 18 343 # CHECKOUT: indicate computation of global, land and sea field integrals. 344 INT=1 345 # 346 ######################################################################### 347 # 348 # Field 13 : emp = emp_oce = evap_oce - ( rain_oce + snow_oce )(a->o flx 9)349 # 350 CO EMPOCE OOEvaMPr 2986400 4 flxat.nc <output_mode>306 # 307 ######################################################################### 308 # 309 # Field 11 : Total rain (a->o flx 7) 310 # 311 COTOTRAI OTotRain 26 86400 4 flxat.nc <output_mode> 312 tlmd torc LAG=1800 313 P 0 P 2 314 INVERT CHECKIN MOZAIC CHECKOUT 315 # Reverse 316 NORSUD WSTEST 317 # CHECKIN: indicate computation of global, land and sea field integrals. 318 INT=1 319 # Interpolation method ou parametres mozaic 320 wa2o.flx 92 2 18 321 # CHECKOUT: indicate computation of global, land and sea field integrals. 322 INT=1 323 # 324 ########################################################################## 325 # 326 # Field 12 : Total snow (o->a flx 6) 327 # 328 COTOTSNO OTotSnow 28 86400 4 flxat.nc <output_mode> 329 tlmd torc LAG=1800 330 P 0 P 2 331 INVERT CHECKIN MOZAIC CHECKOUT 332 # Reverse 333 NORSUD WSTEST 334 # CHECKIN: indicate computation of global, land and sea field integrals. 335 INT=1 336 # Interpolation method ou parametres mozaic 337 wa2o.flx 92 2 18 338 # CHECKOUT: indicate computation of global, land and sea field integrals. 339 INT=1 340 # 341 ######################################################################### 342 # 343 # Field 13 : Total evap (a->o flx 9) 344 # 345 COTOTEVA OTotEvap 25 86400 4 flxat.nc <output_mode> 351 346 tlmd torc LAG=1800 352 347 P 0 P 2 … … 380 375 ########################################################################## 381 376 # 382 # Field 15 : solar heat flux on ocean(a->o flx 2)383 # 384 CO SHFOCE O_QsrOce7 86400 4 flxat.nc <output_mode>377 # Field 15 : Total solar heat flux (a->o flx 2) 378 # 379 COQSRMIX O_QsrMix 7 86400 4 flxat.nc <output_mode> 385 380 tlmd torc LAG=1800 386 381 P 0 P 2 … … 397 392 ######################################################################### 398 393 # 399 # Field 16 : Non solar heat flux on ocean(a->o flx 4)400 # 401 CO NSFOCE O_QnsOce6 86400 4 flxat.nc <output_mode>394 # Field 16 : Total Non solar heat flux (a->o flx 4) 395 # 396 COQNSMIX O_QnsMix 6 86400 4 flxat.nc <output_mode> 402 397 tlmd torc LAG=1800 403 398 P 0 P 2 -
CONFIG/IPSLCM/IPSLCM5/branches/IPSLCM5_WORK/EXP00/PARAM/namelist_ORCA2
r569 r583 52 52 &nam_zgr ! vertical coordinate 53 53 !----------------------------------------------------------------------- 54 ln_zco = . true.! z-coordinate - full steps (T/F) ("key_zco" may also be defined)55 ln_zps = . false.! z-coordinate - partial steps (T/F)54 ln_zco = .false. ! z-coordinate - full steps (T/F) ("key_zco" may also be defined) 55 ln_zps = .true. ! z-coordinate - partial steps (T/F) 56 56 ln_sco = .false. ! s- or hybrid z-s-coordinate (T/F) 57 57 / … … 195 195 cn_rcv_tau_grid = 'U,V' ! 'T' 'U,V' 'U,V,F' 'U,V,I' 'T,F' 'T,I' 'T,U,V' 196 196 cn_rcv_dqnsdt = 'coupled' ! 'none' 'coupled' 197 cn_rcv_qsr = ' oce and ice'! 'conservative' 'oce and ice' 'mixed oce-ice'198 cn_rcv_qns = ' oce and ice'! 'conservative' 'oce and ice' 'mixed oce-ice'199 cn_rcv_emp = ' oce and ice'! 'conservative' 'oce and ice' 'mixed oce-ice'197 cn_rcv_qsr = 'conservative' ! 'conservative' 'oce and ice' 'mixed oce-ice' 198 cn_rcv_qns = 'conservative' ! 'conservative' 'oce and ice' 'mixed oce-ice' 199 cn_rcv_emp = 'conservative' ! 'conservative' 'oce and ice' 'mixed oce-ice' 200 200 cn_rcv_rnf = 'coupled' ! 'coupled' 'climato' 'mixed' 201 201 cn_rcv_cal = 'coupled' ! 'none' 'coupled' … … 431 431 &nam_dynadv ! formulation of the momentum advection 432 432 !----------------------------------------------------------------------- 433 ln_dynadv_vec = . false.! vector form (T) or flux form (F)434 ln_dynadv_cen2= . true.! flux form - 2nd order centered scheme433 ln_dynadv_vec = .true. ! vector form (T) or flux form (F) 434 ln_dynadv_cen2= .false. ! flux form - 2nd order centered scheme 435 435 ln_dynadv_ubs = .false. ! flux form - 3rd order UBS scheme 436 436 / … … 446 446 &nam_dynhpg ! Hydrostatic pressure gradient option 447 447 !----------------------------------------------------------------------- 448 ln_hpg_zco = . true.! z-coordinate - full steps449 ln_hpg_zps = . false.! z-coordinate - partial steps (interpolation)448 ln_hpg_zco = .false. ! z-coordinate - full steps 449 ln_hpg_zps = .true. ! z-coordinate - partial steps (interpolation) 450 450 ln_hpg_sco = .false. ! s-coordinate (standard jacobian formulation) 451 451 ln_hpg_hel = .false. ! s-coordinate (helsinki modification) … … 680 680 &namptr ! Poleward Transport Diagnostic 681 681 !----------------------------------------------------------------------- 682 ln_diaptr = .false. ! Poleward heat and salt transport (T) or not (F) 683 ln_subbas = .false. ! Atlantic/Pacific/Indian basins computation (T) or not 682 ln_diaptr = .true. ! Poleward heat and salt transport (T) or not (F) 683 ln_diaznl = .true. ! Add zonal means and meridional stream functions 684 ln_subbas = .true. ! Atlantic/Pacific/Indian basins computation (T) or not 684 685 ! (orca configuration only, need input basins mask file named "subbasins.nc" 685 nf_ptr = 15 ! Frequency of ptr computation [time step] 686 / 686 nf_ptr = 1 ! Frequency of ptr computation [time step] 687 nf_ptr_wri = 15 ! AUTO - Frequency of ptr outputs 688 /
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