Changeset 2966 for CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM
- Timestamp:
- 08/11/16 14:49:34 (8 years ago)
- Location:
- CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM
- Files:
-
- 7 added
- 20 deleted
- 10 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/config.def_actuel
r2911 r2966 7 7 8 8 ## Nombre d'appels des routines de rayonnements ( par jour) 9 nbapp_rad= 169 nbapp_rad=24 10 10 11 11 ## Facteur additif pour l'albedo … … 22 22 R_incl = 23.441 23 23 ### solaire = Constante solaire 24 #solaire = _AUTO_ : DEFAULT = 136 6.089625 solaire = _AUTO_ : DEFAULT = 1361.2024 #solaire = _AUTO_ : DEFAULT = 1361.20 25 solaire = _AUTO_: DEFAULT = 1365.6537 26 26 # 27 27 # Taux gaz a effet de serre -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/config.def_annuel
r2911 r2966 7 7 8 8 ## Nombre d'appels des routines de rayonnements ( par jour) 9 nbapp_rad= 169 nbapp_rad=24 10 10 11 11 ## Facteur additif pour l'albedo -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/config.def_preind
r2911 r2966 9 9 10 10 ## Nombre d'appels des routines de rayonnements ( par jour) 11 nbapp_rad= 1611 nbapp_rad=24 12 12 13 13 ## Facteur additif pour l'albedo … … 24 24 R_incl = 23.441 25 25 ### solaire = Constante solaire 26 solaire = _AUTO_: DEFAULT = 1361.20 26 #solaire = _AUTO_: DEFAULT = 1361.20 27 solaire = _AUTO_: DEFAULT = 1365.6537 27 28 # 28 29 # Taux gaz a effet de serre -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/file_def_nemo-opa.xml
r2878 r2966 111 111 112 112 <file id="file4" name_suffix="_SBC" description="surface fluxes variables" > <!-- time step automaticaly defined based on nn_fsbc --> 113 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" /> 114 <field field_ref="qsr_oce" name="qsr_oce" long_name="downward shortwave flux at ocean surface" /> 115 <field field_ref="qns_oce" name="qns_oce" long_name="downward non solar flux at ocean surface" /> 116 <field field_ref="qt_oce" name="qt_oce" long_name="downward total flux at ocean surface" /> 117 <field field_ref="qsr_ice" name="qsr_ice" long_name="downward shortwave flux at ice surface" /> 118 <field field_ref="qns_ice" name="qns_ice" long_name="downward non solar flux at ice surface" /> 119 <field field_ref="qtr_ice" name="qtr_ice" long_name="shortwave flux transmitted thru the ice" /> 120 <field field_ref="qt_ice" name="qt_ice" long_name="downward total flux at ice surface" /> 121 <field field_ref="saltflx" name="sfx" /> 122 <field field_ref="taum" name="taum" /> 123 <field field_ref="wspd" name="windsp" /> 124 <field field_ref="precip" name="precip" /> 113 <field field_ref="qsr_oce" name="qsr_oce" long_name="downward shortwave flux at ocean surface" /> 114 <field field_ref="qns_oce" name="qns_oce" long_name="downward non solar flux at ocean surface" /> 115 <field field_ref="qsr_ice" name="qsr_ice" long_name="downward shortwave flux at ice surface" /> 116 <field field_ref="qns_ice" name="qns_ice" long_name="downward non solar flux at ice surface" /> 117 <field field_ref="qtr_ice" name="qtr_ice" long_name="shortwave flux transmitted thru the ice" /> 118 <field field_ref="taum" name="taum" /> 119 <field field_ref="wspd" name="windsp" /> 120 <field field_ref="precip" name="precip" /> 121 <!-- For heat conservation checking --> 122 <field field_ref="qt_oce" name="qt_oce" long_name="downward total flux at ocean surface" /> 123 <field field_ref="qemp_oce" name="qemp_oce" long_name="Downward Heat Flux from E-P over open ocean" /> 124 <field field_ref="qt_ice" name="qt_ice" long_name="downward total flux at ice surface" /> 125 <field field_ref="qemp_ice" name="qemp_ice" long_name="Downward Heat Flux from E-P over ice" /> 126 <field field_ref="hflx_rain_cea" name="hflx_rain_cea" /> 127 <field field_ref="hflx_evap_cea" name="hflx_evap_cea" /> 128 <field field_ref="hflx_snow_cea" name="hflx_snow_cea" /> 129 <field field_ref="hflx_cal_cea" name="hflx_cal_cea" /> 130 <!-- For freshwater conservation checking --> 131 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" /> 132 <field field_ref="emp_oce" name="emp_oce" /> 133 <field field_ref="emp_ice" name="emp_ice" /> 134 <field field_ref="runoffs" name="friver" long_name="water_flux_into_sea_water_from_rivers" level="1" /> 135 <field field_ref="calving_cea" name="calving" /> 136 <field field_ref="vfxice" name="vfxice" /> 137 <field field_ref="vfxsnw" name="vfxsnw" /> 138 <field field_ref="vfxsub" name="vfxsub" /> 139 <field field_ref="vfxspr" name="vfxspr" /> 140 <field field_ref="rain" name="rain" /> 141 <field field_ref="snow_ao_cea" name="snow_ao_cea" /> 142 <field field_ref="snow_ai_cea" name="snow_ai_cea" /> 143 <field field_ref="evap_ao_cea" name="evap_ao_cea" /> 144 <field field_ref="subl_ai_cea" name="subl_ai_cea" /> 145 <!-- For salt conservation checking --> 146 <field field_ref="saltflx" name="sosflxdo" /> 125 147 <!-- ice and snow --> 126 148 <field field_ref="snowpre" /> … … 157 179 <field field_ref="mldr10_1" name="mldr10_1" level="2" /> 158 180 <field field_ref="mldr10_1max" name="mldr10_1max" long_name="max of Mixed Layer Depth 0.01 ref.10m" operation="maximum" /> 159 <field field_ref="runoffs" name="friver" long_name="water_flux_into_sea_water_from_rivers" level="1" />160 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" level="1" />161 181 <!-- wfonocorr : water_flux_into_sea_water_without_flux_correction : emp - erp --> 162 182 <field field_ref="erp" name="wfcorr" long_name="water_flux_correction" level="1" /> <!-- usually = 0 --> … … 185 205 <field field_ref="fmmflx" name="fmmflx" /> 186 206 <field field_ref="iceconc" name="siconc" /> 207 <!-- For heat conservation checking --> 208 <field field_ref="qt_oce" name="qt_oce" long_name="downward total flux at ocean surface" /> 209 <field field_ref="qemp_oce" name="qemp_oce" long_name="Downward Heat Flux from E-P over open ocean" /> 210 <field field_ref="qt_ice" name="qt_ice" long_name="downward total flux at ice surface" /> 211 <field field_ref="qemp_ice" name="qemp_ice" long_name="Downward Heat Flux from E-P over ice" /> 212 <field field_ref="hflx_rain_cea" name="hflx_rain_cea" /> 213 <field field_ref="hflx_evap_cea" name="hflx_evap_cea" /> 214 <field field_ref="hflx_snow_cea" name="hflx_snow_cea" /> 215 <field field_ref="hflx_cal_cea" name="hflx_cal_cea" /> 216 <!-- For freshwater conservation checking --> 217 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" /> 218 <field field_ref="emp_oce" name="emp_oce" /> 219 <field field_ref="emp_ice" name="emp_ice" /> 220 <field field_ref="runoffs" name="friver" long_name="water_flux_into_sea_water_from_rivers" level="1" /> 221 <field field_ref="calving_cea" name="calving" /> 222 <field field_ref="vfxice" name="vfxice" /> 223 <field field_ref="vfxsnw" name="vfxsnw" /> 224 <field field_ref="vfxsub" name="vfxsub" /> 225 <field field_ref="vfxspr" name="vfxspr" /> 226 <field field_ref="rain" name="rain" /> 227 <field field_ref="snow_ao_cea" name="snow_ao_cea" /> 228 <field field_ref="snow_ai_cea" name="snow_ai_cea" /> 229 <field field_ref="evap_ao_cea" name="evap_ao_cea" /> 230 <field field_ref="subl_ai_cea" name="subl_ai_cea" /> 231 <!-- For salt conservation checking --> 232 <field field_ref="saltflx" name="sosflxdo" /> 187 233 </file> 188 234 … … 343 389 <field field_ref="mldr10_1" /> 344 390 <field field_ref="mldkz5" name="omlmax" long_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" level="2" operation="maximum" /> 345 <field field_ref="runoffs" name="friver" long_name="water_flux_into_sea_water_from_rivers" level="1" />346 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" level="1" />347 391 <field field_ref="erp" name="wfcorr" long_name="water_flux_correction" level="1" /> <!-- usually = 0 --> 348 392 <field field_ref="qns" name="nshfls" long_name="surface_net_downward_non_solar_flux" level="1" /> … … 350 394 <field field_ref="qsr3d" name="rsds" long_name="downwelling_shortwave_flux_in_sea_water" level="1" /> 351 395 <field field_ref="qt" name="tohfls" long_name="surface_net_downward_total_heat_flux" /> 352 <field field_ref="saltflx" name="sosflxdo" />353 396 <field field_ref="taum" name="taum" /> 354 397 <field field_ref="wspd" name="sowindsp" /> … … 364 407 <field field_ref="utau_ice" name="iicestru" /> 365 408 <field field_ref="vtau_ice" name="iicestrv" /> 409 <!-- For heat conservation checking --> 410 <field field_ref="qt_oce" name="qt_oce" long_name="downward total flux at ocean surface" /> 411 <field field_ref="qemp_oce" name="qemp_oce" long_name="Downward Heat Flux from E-P over open ocean" /> 412 <field field_ref="qt_ice" name="qt_ice" long_name="downward total flux at ice surface" /> 413 <field field_ref="qemp_ice" name="qemp_ice" long_name="Downward Heat Flux from E-P over ice" /> 414 <field field_ref="hflx_rain_cea" name="hflx_rain_cea" /> 415 <field field_ref="hflx_evap_cea" name="hflx_evap_cea" /> 416 <field field_ref="hflx_snow_cea" name="hflx_snow_cea" /> 417 <field field_ref="hflx_cal_cea" name="hflx_cal_cea" /> 418 <!-- For freshwater conservation checking --> 419 <field field_ref="empmr" name="wfo" long_name="water_flux_into_sea_water" /> 420 <field field_ref="emp_oce" name="emp_oce" /> 421 <field field_ref="emp_ice" name="emp_ice" /> 422 <field field_ref="runoffs" name="friver" long_name="water_flux_into_sea_water_from_rivers" level="1" /> 423 <field field_ref="calving_cea" name="calving" /> 424 <field field_ref="vfxice" name="vfxice" /> 425 <field field_ref="vfxsnw" name="vfxsnw" /> 426 <field field_ref="vfxsub" name="vfxsub" /> 427 <field field_ref="vfxspr" name="vfxspr" /> 428 <field field_ref="rain" name="rain" /> 429 <field field_ref="snow_ao_cea" name="snow_ao_cea" /> 430 <field field_ref="snow_ai_cea" name="snow_ai_cea" /> 431 <field field_ref="evap_ao_cea" name="evap_ao_cea" /> 432 <field field_ref="subl_ai_cea" name="subl_ai_cea" /> 433 <!-- For salt conservation checking --> 434 <field field_ref="saltflx" name="sosflxdo" /> 366 435 </file> 367 436 -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/namcouple_ORCA2xLMD144142
r2362 r2966 51 51 # Field 1 : Weighted sea surface temperature (o->a 1) 52 52 # 53 O_SSTSST SISUTESW 1 <freq_coupling> 4sstoc.nc <output_mode>53 O_SSTSST SISUTESW 1 <freq_coupling> 2 sstoc.nc <output_mode> 54 54 182 149 144 143 torc tlmd LAG=<lag_oce> 55 55 P 2 P 0 56 LOCTRANS CHECKIN MAPPING CHECKOUT56 LOCTRANS MAPPING 57 57 # LOCTRANS: AVERAGE to average value over coupling period 58 58 AVERAGE 59 # CHECKIN: indicate computation of global, land and sea field integrals.60 INT=161 59 # Mozaic: 1) mapping filename 2) connected unit 3) dataset rank 4) Maximum 62 60 # number of overlapped neighbors 63 61 rmp_torc_to_tlmd_MOSAIC.nc src 64 # CHECKOUT: indicate computation of global, land and sea field integrals.65 INT=166 62 # 67 63 ############################################################################ … … 69 65 # Field 2 : Sea ice extent (o->a 2) 70 66 # 71 OIceFrc SIICECOV 44 <freq_coupling> 4sstoc.nc <output_mode>67 OIceFrc SIICECOV 44 <freq_coupling> 2 sstoc.nc <output_mode> 72 68 182 149 144 143 torc tlmd LAG=<lag_oce> 73 69 P 2 P 0 74 70 # 75 LOCTRANS CHECKIN MAPPING CHECKOUT 76 AVERAGE 77 # CHECKIN: indicate computation of global, land and sea field integrals. 78 INT=1 79 # 80 rmp_torc_to_tlmd_MOSAIC.nc src 81 # CHECKOUT: indicate computation of global, land and sea field integrals. 82 INT=1 71 LOCTRANS MAPPING 72 AVERAGE 73 # 74 rmp_torc_to_tlmd_MOSAIC.nc src 83 75 # 84 76 # … … 87 79 # Field 3 : Weighted Sea Ice Temperature (o->a 3) 88 80 # 89 O_TepIce SIICTEMW 34 <freq_coupling> 4sstoc.nc <output_mode>81 O_TepIce SIICTEMW 34 <freq_coupling> 2 sstoc.nc <output_mode> 90 82 182 149 144 143 torc tlmd LAG=<lag_oce> 91 83 P 2 P 0 92 LOCTRANS CHECKIN MAPPING CHECKOUT 93 AVERAGE 94 # CHECKIN: indicate computation of global, land and sea field integrals. 95 INT=1 96 # 97 rmp_torc_to_tlmd_MOSAIC.nc src 98 # CHECKOUT: indicate computation of global, land and sea field integrals. 99 INT=1 84 LOCTRANS MAPPING 85 AVERAGE 86 # 87 rmp_torc_to_tlmd_MOSAIC.nc src 100 88 # 101 89 ############################################################################ … … 103 91 # Field 4 : Weighted Sea ice albedo (o->a 4) 104 92 # 105 O_AlbIce SIICEALW 17 <freq_coupling> 4sstoc.nc <output_mode>93 O_AlbIce SIICEALW 17 <freq_coupling> 2 sstoc.nc <output_mode> 106 94 182 149 144 143 torc tlmd LAG=<lag_oce> 107 95 P 2 P 0 108 96 # 109 LOCTRANS CHECKIN MAPPING CHECKOUT 110 AVERAGE 111 # CHECKIN: indicate computation of global, land and sea field integrals. 112 INT=1 113 # 114 rmp_torc_to_tlmd_MOSAIC.nc src 115 # CHECKOUT: indicate computation of global, land and sea field integrals. 116 INT=1 97 LOCTRANS MAPPING 98 AVERAGE 99 # 100 rmp_torc_to_tlmd_MOSAIC.nc src 117 101 # 118 102 # … … 120 104 # 121 105 # Field 5 : Current surface (o->a 5) 122 O_OCurx1 CURRENTX 321 <freq_coupling> 4sstoc.nc <output_mode>106 O_OCurx1 CURRENTX 321 <freq_coupling> 2 sstoc.nc <output_mode> 123 107 182 149 144 143 torc tlmd LAG=<lag_oce> 124 108 P 2 P 0 125 LOCTRANS CHECKIN MAPPING CHECKOUT 126 AVERAGE 127 # CHECKIN: indicate computation of global, land and sea field integrals. 128 INT=1 129 # 130 rmp_torc_to_tlmd_MOSAIC.nc src 131 # CHECKOUT: indicate computation of global, land and sea field integrals. 132 INT=1 109 LOCTRANS MAPPING 110 AVERAGE 111 # 112 rmp_torc_to_tlmd_MOSAIC.nc src 133 113 # 134 114 # … … 136 116 # 137 117 # Field 6 : Current surface (o->a 6) 138 O_OCury1 CURRENTY 321 <freq_coupling> 4sstoc.nc <output_mode>118 O_OCury1 CURRENTY 321 <freq_coupling> 2 sstoc.nc <output_mode> 139 119 182 149 144 143 torc tlmd LAG=<lag_oce> 140 120 P 2 P 0 141 LOCTRANS CHECKIN MAPPING CHECKOUT 142 AVERAGE 143 # CHECKIN: indicate computation of global, land and sea field integrals. 144 INT=1 145 # 146 rmp_torc_to_tlmd_MOSAIC.nc src 147 # CHECKOUT: indicate computation of global, land and sea field integrals. 148 INT=1 121 LOCTRANS MAPPING 122 AVERAGE 123 # 124 rmp_torc_to_tlmd_MOSAIC.nc src 149 125 # 150 126 ############################################################################ 151 127 # 152 128 # Field 7 : Current surface (o->a 7) 153 O_OCurz1 CURRENTZ 321 <freq_coupling> 4sstoc.nc <output_mode>129 O_OCurz1 CURRENTZ 321 <freq_coupling> 2 sstoc.nc <output_mode> 154 130 182 149 144 143 torc tlmd LAG=<lag_oce> 155 131 P 2 P 0 156 LOCTRANS CHECKIN MAPPING CHECKOUT 157 AVERAGE 158 # CHECKIN: indicate computation of global, land and sea field integrals. 159 INT=1 160 # 161 rmp_torc_to_tlmd_MOSAIC.nc src 162 # CHECKOUT: indicate computation of global, land and sea field integrals. 163 INT=1 132 LOCTRANS MAPPING 133 AVERAGE 134 # 135 rmp_torc_to_tlmd_MOSAIC.nc src 164 136 # 165 137 # … … 172 144 # Field 8 : wind stress along X axis (a->o 1) 173 145 # 174 COTAUXXU O_OTaux1 23 <freq_coupling> 3flxat.nc <output_mode>146 COTAUXXU O_OTaux1 23 <freq_coupling> 1 flxat.nc <output_mode> 175 147 144 143 182 149 tlmd uorc LAG=<lag_atm> 176 148 P 0 P 2 177 CHECKIN SCRIPR CHECKOUT 178 # CHECKIN: indicate computation of global, land and sea field integrals. 179 INT=1 180 BILINEAR LR SCALAR LATLON 10 181 # CHECKOUT: indicate computation of global, land and sea field integrals. 182 INT=1 149 SCRIPR 150 BILINEAR LR SCALAR LATLON 10 183 151 # 184 152 ########################################################################### … … 186 154 # Field 9 : stress along Y axis (a->o 2) 187 155 # 188 COTAUYYU O_OTauy1 23 <freq_coupling> 3flxat.nc <output_mode>156 COTAUYYU O_OTauy1 23 <freq_coupling> 1 flxat.nc <output_mode> 189 157 144 143 182 149 tlmd uorc LAG=<lag_atm> 190 158 P 0 P 2 191 CHECKIN SCRIPR CHECKOUT 192 # CHECKIN: indicate computation of global, land and sea field integrals. 193 INT=1 194 BILINEAR LR SCALAR LATLON 10 195 # CHECKOUT: indicate computation of global, land and sea field integrals. 196 INT=1 159 SCRIPR 160 BILINEAR LR SCALAR LATLON 10 197 161 # 198 162 ########################################################################### … … 200 164 # Field 10 :wind stress along Z axis (a->o 3) 201 165 # 202 COTAUZZU O_OTauz1 23 <freq_coupling> 3flxat.nc <output_mode>166 COTAUZZU O_OTauz1 23 <freq_coupling> 1 flxat.nc <output_mode> 203 167 144 143 182 149 tlmd uorc LAG=<lag_atm> 204 168 P 0 P 2 205 CHECKIN SCRIPR CHECKOUT 206 # CHECKIN: indicate computation of global, land and sea field integrals. 207 INT=1 208 BILINEAR LR SCALAR LATLON 10 209 # CHECKOUT: indicate computation of global, land and sea field integrals. 210 INT=1 169 SCRIPR 170 BILINEAR LR SCALAR LATLON 10 211 171 # 212 172 ########################################################################## … … 214 174 # Field 11 : wind stress along X axis 2 (a->o 4) 215 175 # 216 COTAUXXV O_OTaux2 24 <freq_coupling> 3flxat.nc <output_mode>176 COTAUXXV O_OTaux2 24 <freq_coupling> 1 flxat.nc <output_mode> 217 177 144 143 182 149 tlmd vorc LAG=<lag_atm> 218 178 P 0 P 2 219 CHECKIN SCRIPR CHECKOUT 220 # CHECKIN: indicate computation of global, land and sea field integrals. 221 INT=1 222 BILINEAR LR SCALAR LATLON 10 223 # CHECKOUT: indicate computation of global, land and sea field integrals. 224 INT=1 179 SCRIPR 180 BILINEAR LR SCALAR LATLON 10 225 181 # 226 182 ########################################################################## … … 228 184 # Field 12 : wind stress along Y axis 2 (a->o 5) 229 185 # 230 COTAUYYV O_OTauy2 24 <freq_coupling> 3flxat.nc <output_mode>186 COTAUYYV O_OTauy2 24 <freq_coupling> 1 flxat.nc <output_mode> 231 187 144 143 182 149 tlmd vorc LAG=<lag_atm> 232 188 P 0 P 2 233 CHECKIN SCRIPR CHECKOUT 234 # CHECKIN: indicate computation of global, land and sea field integrals. 235 INT=1 236 BILINEAR LR SCALAR LATLON 10 237 # CHECKOUT: indicate computation of global, land and sea field integrals. 238 INT=1 189 SCRIPR 190 BILINEAR LR SCALAR LATLON 10 239 191 # 240 192 ########################################################################## … … 242 194 # Field 13 : wind stress along Z axis 2 (a->o 6) 243 195 # 244 COTAUZZV O_OTauz2 24 <freq_coupling> 3flxat.nc <output_mode>196 COTAUZZV O_OTauz2 24 <freq_coupling> 1 flxat.nc <output_mode> 245 197 144 143 182 149 tlmd vorc LAG=<lag_atm> 246 198 P 0 P 2 247 CHECKIN SCRIPR CHECKOUT 248 # CHECKIN: indicate computation of global, land and sea field integrals. 249 INT=1 250 BILINEAR LR SCALAR LATLON 10 251 # CHECKOUT: indicate computation of global, land and sea field integrals. 252 INT=1 199 SCRIPR 200 BILINEAR LR SCALAR LATLON 10 253 201 # 254 202 ######################################################################### 255 203 # Field 14 : wind speed 10m (a->o 7) 256 204 # 257 COWINDSP O_Wind10 56 <freq_coupling> 3flxat.nc <output_mode>205 COWINDSP O_Wind10 56 <freq_coupling> 1 flxat.nc <output_mode> 258 206 144 143 182 149 tlmd torc LAG=<lag_atm> 259 207 P 0 P 2 260 CHECKIN SCRIPR CHECKOUT 261 # CHECKIN: indicate computation of global, land and sea field integrals. 262 INT=1 263 BILINEAR LR SCALAR LATLON 10 264 # CHECKOUT: indicate computation of global, land and sea field integrals. 265 INT=1 208 SCRIPR 209 BILINEAR LR SCALAR LATLON 10 266 210 # 267 211 ######################################################################### … … 269 213 # Field 15 : Total rain (a->o 8) 270 214 # 271 COTOTRAI OTotRain 26 <freq_coupling> 3flxat.nc <output_mode>215 COTOTRAI OTotRain 26 <freq_coupling> 1 flxat.nc <output_mode> 272 216 144 143 182 149 tlmd torc LAG=<lag_atm> 273 217 P 0 P 2 274 CHECKIN MAPPING CHECKOUT 275 # CHECKIN: indicate computation of global, land and sea field integrals. 276 INT=1 277 # Interpolation method ou parametres mozaic 278 rmp_tlmd_to_torc_MOSAIC.nc src 279 # CHECKOUT: indicate computation of global, land and sea field integrals. 280 INT=1 218 MAPPING 219 # Interpolation method ou parametres mozaic 220 rmp_tlmd_to_torc_MOSAIC.nc src 281 221 # 282 222 ########################################################################## … … 284 224 # Field 16 : Total snow (a->o 9) 285 225 # 286 COTOTSNO OTotSnow 28 <freq_coupling> 3flxat.nc <output_mode>226 COTOTSNO OTotSnow 28 <freq_coupling> 1 flxat.nc <output_mode> 287 227 tlmd torc LAG=<lag_atm> 288 228 P 0 P 2 289 CHECKIN MAPPING CHECKOUT 290 # CHECKIN: indicate computation of global, land and sea field integrals. 291 INT=1 292 # Interpolation method ou parametres mozaic 293 rmp_tlmd_to_torc_MOSAIC.nc src 294 # CHECKOUT: indicate computation of global, land and sea field integrals. 295 INT=1 229 MAPPING 230 # Interpolation method ou parametres mozaic 231 rmp_tlmd_to_torc_MOSAIC.nc src 296 232 # 297 233 ######################################################################### … … 299 235 # Field 17 : Total evap (a->o 10) 300 236 # 301 COTOTEVA OTotEvap 25 <freq_coupling> 3flxat.nc <output_mode>237 COTOTEVA OTotEvap 25 <freq_coupling> 1 flxat.nc <output_mode> 302 238 144 143 182 149 tlmd torc LAG=<lag_atm> 303 239 P 0 P 2 304 CHECKIN MAPPING CHECKOUT 305 # CHECKIN: indicate computation of global, land and sea field integrals. 306 INT=1 307 # Interpolation method ou parametres mozaic 308 rmp_tlmd_to_torc_MOSAIC.nc src 309 # CHECKOUT: indicate computation of global, land and sea field integrals. 310 INT=1 240 MAPPING 241 # Interpolation method ou parametres mozaic 242 rmp_tlmd_to_torc_MOSAIC.nc src 311 243 # 312 244 ########################################################################## … … 314 246 # Field 18 : Evaporation Ice (a->o 11) 315 247 # 316 COICEVAP OIceEvap 41 <freq_coupling> 3flxat.nc <output_mode>248 COICEVAP OIceEvap 41 <freq_coupling> 1 flxat.nc <output_mode> 317 249 tlmd torc LAG=<lag_atm> 318 250 P 0 P 2 319 CHECKIN MAPPING CHECKOUT 320 # CHECKIN: indicate computation of global, land and sea field integrals. 321 INT=1 322 # Interpolation method ou parametres mozaic 323 rmp_tlmd_to_torc_MOSAIC.nc src 324 # CHECKOUT: indicate computation of global, land and sea field integrals. 325 INT=1 251 MAPPING 252 # Interpolation method ou parametres mozaic 253 rmp_tlmd_to_torc_MOSAIC.nc src 326 254 # 327 255 ########################################################################## … … 329 257 # Field 19 : Total solar heat flux (a->o 12) 330 258 # 331 COQSRMIX O_QsrMix 7 <freq_coupling> 3flxat.nc <output_mode>259 COQSRMIX O_QsrMix 7 <freq_coupling> 1 flxat.nc <output_mode> 332 260 144 143 182 149 tlmd torc LAG=<lag_atm> 333 261 P 0 P 2 334 CHECKIN MAPPING CHECKOUT 335 # CHECKIN: indicate computation of global, land and sea field integrals. 336 INT=1 262 MAPPING 337 263 # Interpolation method or mozaic parameters 338 264 rmp_tlmd_to_torc_MOSAIC.nc src 339 # CHECKOUT: indicate computation of global, land and sea field integrals.340 INT=1341 265 # 342 266 ######################################################################### … … 344 268 # Field 20 : Total Non solar heat flux (a->o 13) 345 269 # 346 COQNSMIX O_QnsMix 6 <freq_coupling> 3flxat.nc <output_mode>270 COQNSMIX O_QnsMix 6 <freq_coupling> 1 flxat.nc <output_mode> 347 271 tlmd torc LAG=<lag_atm> 348 272 P 0 P 2 349 CHECKIN MAPPING CHECKOUT 350 # CHECKIN: indicate computation of global, land and sea field integrals. 351 INT=1 352 # Interpolation method ou parametres mozaic 353 rmp_tlmd_to_torc_MOSAIC.nc src 354 # CHECKOUT: indicate computation of global, land and sea field integrals. 355 INT=1 273 MAPPING 274 # Interpolation method ou parametres mozaic 275 rmp_tlmd_to_torc_MOSAIC.nc src 356 276 # 357 277 ########################################################################### … … 359 279 # Field 21 : solar heat flux on ice (a->o 14) 360 280 # 361 COSHFICE O_QsrIce 7 <freq_coupling> 3flxat.nc <output_mode>281 COSHFICE O_QsrIce 7 <freq_coupling> 1 flxat.nc <output_mode> 362 282 144 143 182 149 tlmd torc LAG=<lag_atm> 363 283 P 0 P 2 364 CHECKIN MAPPING CHECKOUT 365 # CHECKIN: indicate computation of global, land and sea field integrals. 366 INT=1 284 MAPPING 367 285 # Interpolation method or mozaic parameters 368 286 rmp_tlmd_to_torc_MOSAIC.nc src 369 # CHECKOUT: indicate computation of global, land and sea field integrals.370 INT=1371 287 # 372 288 ############################################################################ … … 374 290 # Field 22 : Non solar heat flux on ice (a->o 15) 375 291 # 376 CONSFICE O_QnsIce 6 <freq_coupling> 3flxat.nc <output_mode>292 CONSFICE O_QnsIce 6 <freq_coupling> 1 flxat.nc <output_mode> 377 293 tlmd torc LAG=<lag_atm> 378 294 P 0 P 2 379 CHECKIN MAPPING CHECKOUT 380 # CHECKIN: indicate computation of global, land and sea field integrals. 381 INT=1 382 # Interpolation method ou parametres mozaic 383 rmp_tlmd_to_torc_MOSAIC.nc src 384 # CHECKOUT: indicate computation of global, land and sea field integrals. 385 INT=1 295 MAPPING 296 # Interpolation method ou parametres mozaic 297 rmp_tlmd_to_torc_MOSAIC.nc src 386 298 # 387 299 ############################################################################ … … 389 301 # Field 23 : Non solar heat flux derivative (a->o 16) 390 302 # 391 CODFLXDT O_dQnsdT 35 <freq_coupling> 3flxat.nc <output_mode>303 CODFLXDT O_dQnsdT 35 <freq_coupling> 1 flxat.nc <output_mode> 392 304 144 143 182 149 tlmd torc LAG=<lag_atm> 393 305 P 0 P 2 394 CHECKIN MAPPING CHECKOUT 395 # CHECKIN: indicate computation of global, land and sea field integrals. 396 INT=1 397 # Interpolation method ou parametres mozaic 398 rmp_tlmd_to_torc_MOSAIC.nc src 399 # CHECKOUT: indicate computation of global, land and sea field integrals. 400 INT=1 306 MAPPING 307 # Interpolation method ou parametres mozaic 308 rmp_tlmd_to_torc_MOSAIC.nc src 401 309 # 402 310 ######################################################################### … … 404 312 # Field 24 : iceberg calving (a->o 17) 405 313 # 406 COCALVIN OCalving 36 <freq_coupling> 3flxat.nc <output_mode>314 COCALVIN OCalving 36 <freq_coupling> 1 flxat.nc <output_mode> 407 315 144 143 182 149 tlmd torc LAG=<lag_atm> 408 316 P 0 P 2 409 CHECKIN MAPPING CHECKOUT 410 # CHECKIN: indicate computation of global, land and sea field integrals. 411 INT=1 317 MAPPING 412 318 # Interpolation method ou parametres mozaic 413 319 rmp_tlmd_to_torc_MOSAIC_calvin.nc src 414 # CHECKOUT: indicate computation of global, land and sea field integrals.415 INT=1416 320 # 417 321 ######################################################################### … … 419 323 # Field 25 : liquid run-off (river + direct) (a->o 18) 420 324 # 421 COLIQRUN O_Runoff 32 <freq_coupling> 5flxat.nc <output_mode>325 COLIQRUN O_Runoff 32 <freq_coupling> 3 flxat.nc <output_mode> 422 326 144 143 182 149 aone otot LAG=<lag_atm> 423 327 P 0 P 2 424 CHECKIN MAPPING CONSERV BLASNEW CHECKOUT 425 # CHECKIN: indicate computation of global, land and sea field integrals. 426 INT=1 328 MAPPING CONSERV BLASNEW 427 329 # Interpolation method ou parametres mozaic 428 330 # weights convert from kg/s to kg/m^2/s … … 432 334 # change units from m/s to kg/s 433 335 1000.0 0 434 # CHECKOUT: indicate computation of global, land and sea field integrals.435 INT=1436 336 # 437 337 ######################################################################### -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/namcouple_ORCA2xLMD9695
r2362 r2966 51 51 # Field 1 : Weighted sea surface temperature (o->a 1) 52 52 # 53 O_SSTSST SISUTESW 1 <freq_coupling> 4sstoc.nc <output_mode>53 O_SSTSST SISUTESW 1 <freq_coupling> 2 sstoc.nc <output_mode> 54 54 182 149 96 96 torc tlmd LAG=<lag_oce> 55 55 P 2 P 0 56 LOCTRANS CHECKIN MAPPING CHECKOUT56 LOCTRANS MAPPING 57 57 # LOCTRANS: AVERAGE to average value over coupling period 58 58 AVERAGE 59 # CHECKIN: indicate computation of global, land and sea field integrals.60 INT=161 59 # Mozaic: 1) mapping filename 2) connected unit 3) dataset rank 4) Maximum 62 60 # number of overlapped neighbors 63 61 rmp_torc_to_tlmd_MOSAIC.nc src 64 # CHECKOUT: indicate computation of global, land and sea field integrals.65 INT=166 62 # 67 63 ############################################################################ … … 69 65 # Field 2 : Sea ice extent (o->a 2) 70 66 # 71 OIceFrc SIICECOV 44 <freq_coupling> 4sstoc.nc <output_mode>67 OIceFrc SIICECOV 44 <freq_coupling> 2 sstoc.nc <output_mode> 72 68 182 149 96 96 torc tlmd LAG=<lag_oce> 73 69 P 2 P 0 74 70 # 75 LOCTRANS CHECKIN MAPPING CHECKOUT 76 AVERAGE 77 # CHECKIN: indicate computation of global, land and sea field integrals. 78 INT=1 79 # 80 rmp_torc_to_tlmd_MOSAIC.nc src 81 # CHECKOUT: indicate computation of global, land and sea field integrals. 82 INT=1 71 LOCTRANS MAPPING 72 AVERAGE 73 # 74 rmp_torc_to_tlmd_MOSAIC.nc src 83 75 # 84 76 # … … 87 79 # Field 3 : Weighted Sea Ice Temperature (o->a 3) 88 80 # 89 O_TepIce SIICTEMW 34 <freq_coupling> 4sstoc.nc <output_mode>81 O_TepIce SIICTEMW 34 <freq_coupling> 2 sstoc.nc <output_mode> 90 82 182 149 96 96 torc tlmd LAG=<lag_oce> 91 83 P 2 P 0 92 LOCTRANS CHECKIN MAPPING CHECKOUT 93 AVERAGE 94 # CHECKIN: indicate computation of global, land and sea field integrals. 95 INT=1 96 # 97 rmp_torc_to_tlmd_MOSAIC.nc src 98 # CHECKOUT: indicate computation of global, land and sea field integrals. 99 INT=1 84 LOCTRANS MAPPING 85 AVERAGE 86 # 87 rmp_torc_to_tlmd_MOSAIC.nc src 100 88 # 101 89 ############################################################################ … … 103 91 # Field 4 : Weighted Sea ice albedo (o->a 4) 104 92 # 105 O_AlbIce SIICEALW 17 <freq_coupling> 4sstoc.nc <output_mode>93 O_AlbIce SIICEALW 17 <freq_coupling> 2 sstoc.nc <output_mode> 106 94 182 149 96 96 torc tlmd LAG=<lag_oce> 107 95 P 2 P 0 108 96 # 109 LOCTRANS CHECKIN MAPPING CHECKOUT 110 AVERAGE 111 # CHECKIN: indicate computation of global, land and sea field integrals. 112 INT=1 113 # 114 rmp_torc_to_tlmd_MOSAIC.nc src 115 # CHECKOUT: indicate computation of global, land and sea field integrals. 116 INT=1 97 LOCTRANS MAPPING 98 AVERAGE 99 # 100 rmp_torc_to_tlmd_MOSAIC.nc src 117 101 # 118 102 # … … 120 104 # 121 105 # Field 5 : Current surface (o->a 5) 122 O_OCurx1 CURRENTX 321 <freq_coupling> 4sstoc.nc <output_mode>106 O_OCurx1 CURRENTX 321 <freq_coupling> 2 sstoc.nc <output_mode> 123 107 182 149 96 96 torc tlmd LAG=<lag_oce> 124 108 P 2 P 0 125 LOCTRANS CHECKIN MAPPING CHECKOUT 126 AVERAGE 127 # CHECKIN: indicate computation of global, land and sea field integrals. 128 INT=1 129 # 130 rmp_torc_to_tlmd_MOSAIC.nc src 131 # CHECKOUT: indicate computation of global, land and sea field integrals. 132 INT=1 109 LOCTRANS MAPPING 110 AVERAGE 111 # 112 rmp_torc_to_tlmd_MOSAIC.nc src 133 113 # 134 114 # … … 136 116 # 137 117 # Field 6 : Current surface (o->a 6) 138 O_OCury1 CURRENTY 321 <freq_coupling> 4sstoc.nc <output_mode>118 O_OCury1 CURRENTY 321 <freq_coupling> 2 sstoc.nc <output_mode> 139 119 182 149 96 96 torc tlmd LAG=<lag_oce> 140 120 P 2 P 0 141 LOCTRANS CHECKIN MAPPING CHECKOUT 142 AVERAGE 143 # CHECKIN: indicate computation of global, land and sea field integrals. 144 INT=1 145 # 146 rmp_torc_to_tlmd_MOSAIC.nc src 147 # CHECKOUT: indicate computation of global, land and sea field integrals. 148 INT=1 121 LOCTRANS MAPPING 122 AVERAGE 123 # 124 rmp_torc_to_tlmd_MOSAIC.nc src 149 125 # 150 126 ############################################################################ 151 127 # 152 128 # Field 7 : Current surface (o->a 7) 153 O_OCurz1 CURRENTZ 321 <freq_coupling> 4sstoc.nc <output_mode>129 O_OCurz1 CURRENTZ 321 <freq_coupling> 2 sstoc.nc <output_mode> 154 130 182 149 96 96 torc tlmd LAG=<lag_oce> 155 131 P 2 P 0 156 LOCTRANS CHECKIN MAPPING CHECKOUT 157 AVERAGE 158 # CHECKIN: indicate computation of global, land and sea field integrals. 159 INT=1 160 # 161 rmp_torc_to_tlmd_MOSAIC.nc src 162 # CHECKOUT: indicate computation of global, land and sea field integrals. 163 INT=1 132 LOCTRANS MAPPING 133 AVERAGE 134 # 135 rmp_torc_to_tlmd_MOSAIC.nc src 164 136 # 165 137 # … … 172 144 # Field 8 : wind stress along X axis (a->o 1) 173 145 # 174 COTAUXXU O_OTaux1 23 <freq_coupling> 3flxat.nc <output_mode>146 COTAUXXU O_OTaux1 23 <freq_coupling> 1 flxat.nc <output_mode> 175 147 96 96 182 149 tlmd uorc LAG=<lag_atm> 176 148 P 0 P 2 177 CHECKIN SCRIPR CHECKOUT 178 # CHECKIN: indicate computation of global, land and sea field integrals. 179 INT=1 180 BILINEAR LR SCALAR LATLON 10 181 # CHECKOUT: indicate computation of global, land and sea field integrals. 182 INT=1 149 SCRIPR 150 BILINEAR LR SCALAR LATLON 10 183 151 # 184 152 ########################################################################### … … 186 154 # Field 9 : stress along Y axis (a->o 2) 187 155 # 188 COTAUYYU O_OTauy1 23 <freq_coupling> 3flxat.nc <output_mode>156 COTAUYYU O_OTauy1 23 <freq_coupling> 1 flxat.nc <output_mode> 189 157 96 96 182 149 tlmd uorc LAG=<lag_atm> 190 158 P 0 P 2 191 CHECKIN SCRIPR CHECKOUT 192 # CHECKIN: indicate computation of global, land and sea field integrals. 193 INT=1 194 BILINEAR LR SCALAR LATLON 10 195 # CHECKOUT: indicate computation of global, land and sea field integrals. 196 INT=1 159 SCRIPR 160 BILINEAR LR SCALAR LATLON 10 197 161 # 198 162 ########################################################################### … … 200 164 # Field 10 :wind stress along Z axis (a->o 3) 201 165 # 202 COTAUZZU O_OTauz1 23 <freq_coupling> 3flxat.nc <output_mode>166 COTAUZZU O_OTauz1 23 <freq_coupling> 1 flxat.nc <output_mode> 203 167 96 96 182 149 tlmd uorc LAG=<lag_atm> 204 168 P 0 P 2 205 CHECKIN SCRIPR CHECKOUT 206 # CHECKIN: indicate computation of global, land and sea field integrals. 207 INT=1 208 BILINEAR LR SCALAR LATLON 10 209 # CHECKOUT: indicate computation of global, land and sea field integrals. 210 INT=1 169 SCRIPR 170 BILINEAR LR SCALAR LATLON 10 211 171 # 212 172 ########################################################################## … … 214 174 # Field 11 : wind stress along X axis 2 (a->o 4) 215 175 # 216 COTAUXXV O_OTaux2 24 <freq_coupling> 3flxat.nc <output_mode>176 COTAUXXV O_OTaux2 24 <freq_coupling> 1 flxat.nc <output_mode> 217 177 96 96 182 149 tlmd vorc LAG=<lag_atm> 218 178 P 0 P 2 219 CHECKIN SCRIPR CHECKOUT 220 # CHECKIN: indicate computation of global, land and sea field integrals. 221 INT=1 222 BILINEAR LR SCALAR LATLON 10 223 # CHECKOUT: indicate computation of global, land and sea field integrals. 224 INT=1 179 SCRIPR 180 BILINEAR LR SCALAR LATLON 10 225 181 # 226 182 ########################################################################## … … 228 184 # Field 12 : wind stress along Y axis 2 (a->o 5) 229 185 # 230 COTAUYYV O_OTauy2 24 <freq_coupling> 3flxat.nc <output_mode>186 COTAUYYV O_OTauy2 24 <freq_coupling> 1 flxat.nc <output_mode> 231 187 96 96 182 149 tlmd vorc LAG=<lag_atm> 232 188 P 0 P 2 233 CHECKIN SCRIPR CHECKOUT 234 # CHECKIN: indicate computation of global, land and sea field integrals. 235 INT=1 236 BILINEAR LR SCALAR LATLON 10 237 # CHECKOUT: indicate computation of global, land and sea field integrals. 238 INT=1 189 SCRIPR 190 BILINEAR LR SCALAR LATLON 10 239 191 # 240 192 ########################################################################## … … 242 194 # Field 13 : wind stress along Z axis 2 (a->o 6) 243 195 # 244 COTAUZZV O_OTauz2 24 <freq_coupling> 3flxat.nc <output_mode>196 COTAUZZV O_OTauz2 24 <freq_coupling> 1 flxat.nc <output_mode> 245 197 96 96 182 149 tlmd vorc LAG=<lag_atm> 246 198 P 0 P 2 247 CHECKIN SCRIPR CHECKOUT 248 # CHECKIN: indicate computation of global, land and sea field integrals. 249 INT=1 250 BILINEAR LR SCALAR LATLON 10 251 # CHECKOUT: indicate computation of global, land and sea field integrals. 252 INT=1 199 SCRIPR 200 BILINEAR LR SCALAR LATLON 10 253 201 # 254 202 ######################################################################### 255 203 # Field 14 : wind speed 10m (a->o 7) 256 204 # 257 COWINDSP O_Wind10 56 <freq_coupling> 3 flxat.nc <output_mode> 258 96 96 182 149 tlmd torc LAG=<lag_atm> 259 P 0 P 2 260 CHECKIN SCRIPR CHECKOUT 261 # CHECKIN: indicate computation of global, land and sea field integrals. 262 INT=1 263 BILINEAR LR SCALAR LATLON 10 264 # CHECKOUT: indicate computation of global, land and sea field integrals. 265 INT=1 205 COWINDSP O_Wind10 56 <freq_coupling> 1 flxat.nc <output_mode> 206 96 96 182 149 tlmd torc LAG=<lag_atm> 207 P 0 P 2 208 SCRIPR 209 BILINEAR LR SCALAR LATLON 10 266 210 # 267 211 ######################################################################### … … 269 213 # Field 15 : Total rain (a->o 8) 270 214 # 271 COTOTRAI OTotRain 26 <freq_coupling> 3 flxat.nc <output_mode> 272 96 96 182 149 tlmd torc LAG=<lag_atm> 273 P 0 P 2 274 CHECKIN MAPPING CHECKOUT 275 # CHECKIN: indicate computation of global, land and sea field integrals. 276 INT=1 277 # Interpolation method ou parametres mozaic 278 rmp_tlmd_to_torc_MOSAIC.nc src 279 # CHECKOUT: indicate computation of global, land and sea field integrals. 280 INT=1 215 COTOTRAI OTotRain 26 <freq_coupling> 1 flxat.nc <output_mode> 216 96 96 182 149 tlmd torc LAG=<lag_atm> 217 P 0 P 2 218 MAPPING 219 # Interpolation method ou parametres mozaic 220 rmp_tlmd_to_torc_MOSAIC.nc src 281 221 # 282 222 ########################################################################## … … 284 224 # Field 16 : Total snow (a->o 9) 285 225 # 286 COTOTSNO OTotSnow 28 <freq_coupling> 3 flxat.nc <output_mode> 287 96 96 182 149 tlmd torc LAG=<lag_atm> 288 P 0 P 2 289 CHECKIN MAPPING CHECKOUT 290 # CHECKIN: indicate computation of global, land and sea field integrals. 291 INT=1 292 # Interpolation method ou parametres mozaic 293 rmp_tlmd_to_torc_MOSAIC.nc src 294 # CHECKOUT: indicate computation of global, land and sea field integrals. 295 INT=1 226 COTOTSNO OTotSnow 28 <freq_coupling> 1 flxat.nc <output_mode> 227 96 96 182 149 tlmd torc LAG=<lag_atm> 228 P 0 P 2 229 MAPPING 230 # Interpolation method ou parametres mozaic 231 rmp_tlmd_to_torc_MOSAIC.nc src 296 232 # 297 233 ######################################################################### … … 299 235 # Field 17 : Total evap (a->o 10) 300 236 # 301 COTOTEVA OTotEvap 25 <freq_coupling> 3 flxat.nc <output_mode> 302 96 96 182 149 tlmd torc LAG=<lag_atm> 303 P 0 P 2 304 CHECKIN MAPPING CHECKOUT 305 # CHECKIN: indicate computation of global, land and sea field integrals. 306 INT=1 307 # Interpolation method ou parametres mozaic 308 rmp_tlmd_to_torc_MOSAIC.nc src 309 # CHECKOUT: indicate computation of global, land and sea field integrals. 310 INT=1 237 COTOTEVA OTotEvap 25 <freq_coupling> 1 flxat.nc <output_mode> 238 96 96 182 149 tlmd torc LAG=<lag_atm> 239 P 0 P 2 240 MAPPING 241 # Interpolation method ou parametres mozaic 242 rmp_tlmd_to_torc_MOSAIC.nc src 311 243 # 312 244 ########################################################################## … … 314 246 # Field 18 : Evaporation Ice (a->o 11) 315 247 # 316 COICEVAP OIceEvap 41 <freq_coupling> 3 flxat.nc <output_mode> 317 96 96 182 149 tlmd torc LAG=<lag_atm> 318 P 0 P 2 319 CHECKIN MAPPING CHECKOUT 320 # CHECKIN: indicate computation of global, land and sea field integrals. 321 INT=1 322 # Interpolation method ou parametres mozaic 323 rmp_tlmd_to_torc_MOSAIC.nc src 324 # CHECKOUT: indicate computation of global, land and sea field integrals. 325 INT=1 248 COICEVAP OIceEvap 41 <freq_coupling> 1 flxat.nc <output_mode> 249 96 96 182 149 tlmd torc LAG=<lag_atm> 250 P 0 P 2 251 MAPPING 252 # Interpolation method ou parametres mozaic 253 rmp_tlmd_to_torc_MOSAIC.nc src 326 254 # 327 255 ########################################################################## … … 329 257 # Field 19 : Total solar heat flux (a->o 12) 330 258 # 331 COQSRMIX O_QsrMix 7 <freq_coupling> 3 flxat.nc <output_mode> 332 96 96 182 149 tlmd torc LAG=<lag_atm> 333 P 0 P 2 334 CHECKIN MAPPING CHECKOUT 335 # CHECKIN: indicate computation of global, land and sea field integrals. 336 INT=1 259 COQSRMIX O_QsrMix 7 <freq_coupling> 1 flxat.nc <output_mode> 260 96 96 182 149 tlmd torc LAG=<lag_atm> 261 P 0 P 2 262 MAPPING 337 263 # Interpolation method or mozaic parameters 338 264 rmp_tlmd_to_torc_MOSAIC.nc src 339 # CHECKOUT: indicate computation of global, land and sea field integrals.340 INT=1341 265 # 342 266 ######################################################################### … … 344 268 # Field 20 : Total Non solar heat flux (a->o 13) 345 269 # 346 COQNSMIX O_QnsMix 6 <freq_coupling> 3flxat.nc <output_mode>270 COQNSMIX O_QnsMix 6 <freq_coupling> 1 flxat.nc <output_mode> 347 271 96 96 182 149 tlmd torc LAG=<lag_atm> 348 272 P 0 P 2 349 CHECKIN MAPPING CHECKOUT 350 # CHECKIN: indicate computation of global, land and sea field integrals. 351 INT=1 352 # Interpolation method ou parametres mozaic 353 rmp_tlmd_to_torc_MOSAIC.nc src 354 # CHECKOUT: indicate computation of global, land and sea field integrals. 355 INT=1 273 MAPPING 274 # Interpolation method ou parametres mozaic 275 rmp_tlmd_to_torc_MOSAIC.nc src 356 276 # 357 277 ########################################################################### … … 359 279 # Field 21 : solar heat flux on ice (a->o 14) 360 280 # 361 COSHFICE O_QsrIce 7 <freq_coupling> 3 flxat.nc <output_mode> 362 96 96 182 149 tlmd torc LAG=<lag_atm> 363 P 0 P 2 364 CHECKIN MAPPING CHECKOUT 365 # CHECKIN: indicate computation of global, land and sea field integrals. 366 INT=1 281 COSHFICE O_QsrIce 7 <freq_coupling> 1 flxat.nc <output_mode> 282 96 96 182 149 tlmd torc LAG=<lag_atm> 283 P 0 P 2 284 MAPPING 367 285 # Interpolation method or mozaic parameters 368 286 rmp_tlmd_to_torc_MOSAIC.nc src 369 # CHECKOUT: indicate computation of global, land and sea field integrals.370 INT=1371 287 # 372 288 ############################################################################ … … 374 290 # Field 22 : Non solar heat flux on ice (a->o 15) 375 291 # 376 CONSFICE O_QnsIce 6 <freq_coupling> 3 flxat.nc <output_mode> 377 96 96 182 149 tlmd torc LAG=<lag_atm> 378 P 0 P 2 379 CHECKIN MAPPING CHECKOUT 380 # CHECKIN: indicate computation of global, land and sea field integrals. 381 INT=1 382 # Interpolation method ou parametres mozaic 383 rmp_tlmd_to_torc_MOSAIC.nc src 384 # CHECKOUT: indicate computation of global, land and sea field integrals. 385 INT=1 292 CONSFICE O_QnsIce 6 <freq_coupling> 1 flxat.nc <output_mode> 293 96 96 182 149 tlmd torc LAG=<lag_atm> 294 P 0 P 2 295 MAPPING 296 # Interpolation method ou parametres mozaic 297 rmp_tlmd_to_torc_MOSAIC.nc src 386 298 # 387 299 ############################################################################ … … 389 301 # Field 23 : Non solar heat flux derivative (a->o 16) 390 302 # 391 CODFLXDT O_dQnsdT 35 <freq_coupling> 3 flxat.nc <output_mode> 392 96 96 182 149 tlmd torc LAG=<lag_atm> 393 P 0 P 2 394 CHECKIN MAPPING CHECKOUT 395 # CHECKIN: indicate computation of global, land and sea field integrals. 396 INT=1 397 # Interpolation method ou parametres mozaic 398 rmp_tlmd_to_torc_MOSAIC.nc src 399 # CHECKOUT: indicate computation of global, land and sea field integrals. 400 INT=1 303 CODFLXDT O_dQnsdT 35 <freq_coupling> 1 flxat.nc <output_mode> 304 96 96 182 149 tlmd torc LAG=<lag_atm> 305 P 0 P 2 306 MAPPING 307 # Interpolation method ou parametres mozaic 308 rmp_tlmd_to_torc_MOSAIC.nc src 401 309 # 402 310 ######################################################################### … … 404 312 # Field 24 : iceberg calving (a->o 17) 405 313 # 406 COCALVIN OCalving 36 <freq_coupling> 3 flxat.nc <output_mode> 407 96 96 182 149 tlmd torc LAG=<lag_atm> 408 P 0 P 2 409 CHECKIN MAPPING CHECKOUT 410 # CHECKIN: indicate computation of global, land and sea field integrals. 411 INT=1 314 COCALVIN OCalving 36 <freq_coupling> 1 flxat.nc <output_mode> 315 96 96 182 149 tlmd torc LAG=<lag_atm> 316 P 0 P 2 317 MAPPING 412 318 # Interpolation method ou parametres mozaic 413 319 rmp_tlmd_to_torc_MOSAIC_calvin.nc src 414 # CHECKOUT: indicate computation of global, land and sea field integrals.415 INT=1416 320 # 417 321 ######################################################################### … … 419 323 # Field 25 : liquid run-off (river + direct) (a->o 18) 420 324 # 421 COLIQRUN O_Runoff 32 <freq_coupling> 5flxat.nc <output_mode>325 COLIQRUN O_Runoff 32 <freq_coupling> 3 flxat.nc <output_mode> 422 326 96 96 182 149 aone otot LAG=<lag_atm> 423 327 P 0 P 2 424 CHECKIN MAPPING CONSERV BLASNEW CHECKOUT 425 # CHECKIN: indicate computation of global, land and sea field integrals. 426 INT=1 328 MAPPING CONSERV BLASNEW 427 329 # Interpolation method ou parametres mozaic 428 330 # weights convert from kg/s to kg/m^2/s … … 432 334 # change units from m/s to kg/s 433 335 1000.0 0 434 # CHECKOUT: indicate computation of global, land and sea field integrals.435 INT=1436 336 # 437 337 ######################################################################### -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/namelist_ORCA2_cfg
r2699 r2966 155 155 &namsbc_alb ! albedo parameters 156 156 !----------------------------------------------------------------------- 157 rn_cloud = 0.00 ! cloud correction to snow and ice albedo 158 rn_albice = 0.5 ! albedo of melting ice in the arctic and antarctic 159 rn_alphd = 0.80 ! coefficients for linear interpolation used to 160 rn_alphc = 0.65 ! compute albedo between two extremes values 161 rn_alphdi = 0.72 ! (Pyane, 1972) 157 nn_ice_alb = 0 ! parameterization of ice/snow albedo 158 ! 0: Shine & Henderson-Sellers (JGR 1985) 159 ! 1: "home made" based on Brandt et al. (J. Climate 2005) 160 ! and Grenfell & Perovich (JGR 2004) 161 rn_albice = 0.5 ! albedo of bare puddled ice (values from 0.49 to 0.58) 162 ! 0.53 (default) => if nn_ice_alb=0 163 ! 0.50 (default) => if nn_ice_alb=1 162 164 / 163 165 !----------------------------------------------------------------------- … … 284 286 nn_buffer = 0 ! size in bytes of exported buffer ('B' case), 0 no exportation 285 287 ln_nnogather= .false. ! activate code to avoid mpi_allgather use at the northfold 286 jpni = 1! jpni number of processors following i (set automatically if < 1)287 jpnj = 31! jpnj number of processors following j (set automatically if < 1)288 jpnij = 31! jpnij number of local domains (set automatically if < 1)288 jpni = 3 ! jpni number of processors following i (set automatically if < 1) 289 jpnj = 15 ! jpnj number of processors following j (set automatically if < 1) 290 jpnij = 45 ! jpnij number of local domains (set automatically if < 1) 289 291 / 290 292 !----------------------------------------------------------------------- -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/namelist_lim2_ORCA2_cfg
r2451 r2966 14 14 &namicedyn ! ice dynamic 15 15 !----------------------------------------------------------------------- 16 rn_creepl = 2.0e-08 ! creep limit 16 17 / 17 18 !----------------------------------------------------------------------- -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/namelist_pisces_ORCA2_cfg
r2839 r2966 59 59 &nampisdmp ! Damping 60 60 !,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, 61 nn_pisdmp = _AUTO_: DEFAULT=8760 ! Frequency of Relaxation 61 62 / 62 63 !''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''' -
CONFIG/UNIFORM/v6/IPSLCM5A2/GENERAL/PARAM/physiq.def_AP
r2758 r2966 34 34 # 35 35 ### cld_lc_lsc contenu en eau liquide des nuages large-scale (fisrtilp) 36 cld_lc_lsc = 4.16e-436 cld_lc_lsc = 3.25e-4 37 37 ### cld_lc_con contenu en eau liquide des nuages convectifs (fisrtilp) 38 cld_lc_con = 4.16e-438 cld_lc_con = 3.25e-4 39 39 ### cld_tau_lsc cte de temps utilisee pour eliminer l eau large-scale (fisrtilp) 40 40 cld_tau_lsc = 1800.
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