Changeset 6443 for CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL
- Timestamp:
- 05/10/23 12:56:33 (14 months ago)
- Location:
- CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL
- Files:
-
- 86 added
- 80 deleted
- 10 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/DRIVER/lmdz.driver
r6338 r6443 212 212 IGCM_comp_modifyXmlFile nonblocker file_def_histday_lmdz.xml histday enabled TRUE 213 213 IGCM_comp_modifyXmlFile nonblocker file_def_histday_lmdz.xml histday output_level ${lmdz_UserChoices_output_level_histday} 214 fi 215 216 # histmthtune 217 if [ X${lmdz_UserChoices_output_level_histmthtune} = X ] || [ X${lmdz_UserChoices_output_level_histmthtune} = XNONE ] ; then 218 IGCM_comp_modifyXmlFile nonblocker file_def_histmthtune_lmdz.xml histmthtune enabled FALSE 219 IGCM_comp_modifyXmlFile nonblocker file_def_histmthtune_lmdz.xml histmthtune output_level 0 220 else 221 IGCM_comp_modifyXmlFile nonblocker file_def_histmthtune_lmdz.xml histmthtune enabled TRUE 222 IGCM_comp_modifyXmlFile nonblocker file_def_histmthtune_lmdz.xml histmthtune output_level ${lmdz_UserChoices_output_level_histmthtune} 223 fi 224 225 # histdaytune 226 if [ X${lmdz_UserChoices_output_level_histdaytune} = X ] || [ X${lmdz_UserChoices_output_level_histdaytune} = XNONE ] ; then 227 IGCM_comp_modifyXmlFile nonblocker file_def_histdaytune_lmdz.xml histday enabled FALSE 228 IGCM_comp_modifyXmlFile nonblocker file_def_histdaytune_lmdz.xml histdaytune output_level 0 229 else 230 IGCM_comp_modifyXmlFile nonblocker file_def_histdaytune_lmdz.xml histdaytune enabled TRUE 231 IGCM_comp_modifyXmlFile nonblocker file_def_histdaytune_lmdz.xml histdaytune output_level ${lmdz_UserChoices_output_level_histdaytune} 214 232 fi 215 233 -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/DRIVER/opa9.driver
r6013 r6443 16 16 supergrep () { grep "^ *$1 *=" $2 | sed -e "s% *\!.*%%" -e "s%^ *$1 *=%%" ; } 17 17 ##--Variables used by OPA -- 18 NAMELIST_OPA_CFG=${SUBMIT_DIR}/PARAM/ namelist_${RESOL_OCE}_cfg18 NAMELIST_OPA_CFG=${SUBMIT_DIR}/PARAM/NEMO/namelist_${RESOL_OCE}_cfg 19 19 IGCM_debug_Print 1 "namelist_cfg : ${NAMELIST_OPA_CFG}" 20 20 if [ ! -r ${NAMELIST_OPA_CFG} ] ; then … … 22 22 IGCM_debug_Verif_Exit 23 23 fi 24 OPA_RDT=$( supergrep rn_ rdt ${NAMELIST_OPA_CFG} )24 OPA_RDT=$( supergrep rn_Dt ${NAMELIST_OPA_CFG} ) 25 25 OPA_NN_FSBC=$( supergrep nn_fsbc ${NAMELIST_OPA_CFG} ) 26 26 # … … 131 131 if [ "${opa9_UserChoices_mesh_mask}" = "y" ]; then 132 132 OPA_NMSH=.TRUE. 133 export opa9_UserChoices_mesh_mask=n134 133 IGCM_card_WriteOption ${SUBMIT_DIR}/COMP/opa9.card UserChoices mesh_mask "n" 135 134 fi -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/DRIVER/orchidee.driver
r6263 r6443 67 67 fi 68 68 69 # Set parameters related to ROUTING in orchidee.def 70 if [ X${orchidee_UserChoices_ROUTING} = X ] || [ X${orchidee_UserChoices_ROUTING} = Xstandard ]; then 71 # Nothing is set or ROUTING=standard in orchidee.def, default option 72 IGCM_comp_modifyDefFile nonblocker orchidee.def RIVER_ROUTING y 73 IGCM_comp_modifyDefFile nonblocker orchidee.def ROUTING_METHOD standard 74 elif [ X${orchidee_UserChoices_ROUTING} = Xsimple ]; then 75 # ROUTING=simple is set in orchidee.card 76 IGCM_comp_modifyDefFile nonblocker orchidee.def RIVER_ROUTING y 77 IGCM_comp_modifyDefFile nonblocker orchidee.def ROUTING_METHOD simple 78 elif [ X${orchidee_UserChoices_ROUTING} = Xhighres ]; then 79 # ROUTING=highres is set in orchidee.card 80 IGCM_comp_modifyDefFile nonblocker orchidee.def RIVER_ROUTING y 81 IGCM_comp_modifyDefFile nonblocker orchidee.def ROUTING_METHOD highres 82 else 83 # ROUTING=off, routing will be deactivated 84 IGCM_comp_modifyDefFile nonblocker orchidee.def RIVER_ROUTING n 85 IGCM_comp_modifyDefFile nonblocker orchidee.def ROUTING_METHOD standard 69 70 if [ X${orchidee_UserChoices_AtmCo2} != X ] ; then 71 ##-- CO2 forcing : update CO2 value in orchidee.def with the value defined in orchidee.card 72 ATM_CO2=${orchidee_UserChoices_AtmCo2} 73 echo '(ORCHIDEE) FORCE_CO2_VEG = y' 74 echo '(ORCHIDEE) ATM_CO2='${ATM_CO2} 75 IGCM_comp_modifyDefFile nonblocker orchidee.def FORCE_CO2_VEG y 76 IGCM_comp_modifyDefFile nonblocker orchidee.def ATM_CO2 ${ATM_CO2} 77 else 78 IGCM_comp_modifyDefFile nonblocker orchidee.def FORCE_CO2_VEG DEFAULT 79 IGCM_comp_modifyDefFile nonblocker orchidee.def ATM_CO2 DEFAULT 86 80 fi 87 81 … … 164 158 # In iodef.xml add on the next line after "COMPONENT CONTEXT" 165 159 echo '<context id="orchidee" src="./context_orchidee.xml"/>' > add.tmp 166 167 160 # Add inclusion of file context_input_orchidee.xml if this file exists 168 161 if [ -f context_input_orchidee.xml ] ; then 169 162 echo '<context id="orchidee" src="./context_input_orchidee.xml"/>' >> add.tmp 170 163 fi 171 172 # Add inclusion of file context_routing_orchidee.xml if this file exists173 if [ -f context_routing_orchidee.xml ] ; then174 echo '<context id="orchidee" src="./context_routing_orchidee.xml"/>' >> add.tmp175 fi176 177 164 # Include xml files for output configuration if running with workflow CMIP6 178 if ( [ X"$( echo ${config_UserChoices_ExpType} | grep CMIP6 )" != "X" ] || [ X${config_Post_dr2xmlIPSL} = XTRUE ] ); then179 180 165 if [ X"$( echo ${config_UserChoices_ExpType} | grep CMIP6 )" != "X" ] ; then 166 echo '<context id="orchidee" src="./ping_orchidee.xml"/>' >> add.tmp 167 echo '<context id="orchidee" src="./dr2xml_orchidee.xml"/>' >> add.tmp 181 168 fi 182 169 cp iodef.xml iodef.xml.tmp -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/DRIVER/pisces.driver
r5066 r6443 76 76 fi 77 77 78 79 ##-- CO2 forcing : update atcco2 value in namelist_pisces_cfg with the same one used in LMDZ 80 IGCM_debug_Print 1 "Take same CO2 as for LMDZ, in parameter file config.def." 81 # ATM_Update is done before MBG_Update and therefore config.def file contains the correct value for CO2. 82 IGCM_debug_Print 1 'Update atcco2 in namelist_pisces_cfg with same value as for LMDZ' 83 LMDZ_CO2=$( lmdzgrep2 co2_ppm config.def ) 84 IGCM_debug_Print 1 "LMDZ_CO2 : ${LMDZ_CO2} " 85 IGCM_comp_modifyNamelist force namelist_pisces_cfg atcco2 ${LMDZ_CO2} 78 if [ X${pisces_UserChoices_AtmCo2} != X ] ; then 79 ##-- CO2 forcing : update atcco2 value in namelist_pisces_cfg with the value defined in pisces.card 80 IGCM_debug_Print 1 "the atmospheric CO2 is specfied in pisces.card" 81 ATM_CO2=${pisces_UserChoices_AtmCo2} 82 else 83 ##-- CO2 forcing : update atcco2 value in namelist_pisces_cfg with the same one used in LMDZ 84 IGCM_debug_Print 1 "Take same atpmospheric CO2 as for LMDZ, in parameter file config.def." 85 # ATM_Update is done before MBG_Update and therefore config.def file contains the correct value for CO2. 86 ATM_CO2=$( lmdzgrep2 co2_ppm config.def ) 87 fi 88 IGCM_debug_Print 1 "Update atcco2 in namelist_pisces_cfg with value AtmCO2 : ${ATM_CO2}" 89 IGCM_comp_modifyNamelist force namelist_pisces_cfg atcco2 ${ATM_CO2} 90 86 91 87 92 if [ X${config_UserChoices_ConfigType} = XESMCO2 ] ; then -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_opa9_ORCA1.cfg
r5679 r6443 38 38 # field | files patterns | files additionnal | operations | title | units | calcul of area 39 39 #----------------------------------------------------------------------------------------------------------------- 40 sosstsst_global_prio | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (GLOBAL)" | "degC" | "mask[k=1,d=2]*area[d=2]"41 sosaline_global | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (GLOBAL)" | "PSU" | "mask[k=1,d=2]*area[d=2]"42 sossheig_global | "zos" | eORCA1. 3_grid.nc | "(zos[d=1])" | "Sea Surface Heigh (GLOBAL)" | "m" | "mask[k=1,d=2]*area[d=2]"43 sohefldo_global | "nshfls rsntds" | eORCA1. 3_grid.nc | "(nshfls[d=1]+rsntds[d=2])" | "Net Downward Heat Flux (GLOBAL)" | "W/m^2" | "mask[k=1,d=3]*area[d=3]"44 somxl010_north | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (NORTH)" | "m" | "(if lat[d=2] gt 0 then mask[k=1,d=2]*area[d=2])"45 somxl010_south | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (SOUTH)" | "m" | "(if lat[d=2] lt 0 then mask[k=1,d=2]*area[d=2])"46 somxl010_SubpolarNorthAtl | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=262:300,j=260:281])" | "Mixed layer depth (Subpolar North Atlantic, annual Max)" | "m" | "mask[k=1,d=2,i=262:300,j=260:281]*area[d=2,i=262:300,j=260:281]" | "@SMX:12"47 somxl010_Labrador | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=228:248,j=265:288])" | "Mixed layer depth (Labrador Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=228:248,j=265:288]*area[d=2,i=228:248,j=265:288]" | "@SMX:12"48 somxl010_Barents | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=272:295,j=313:330])" | "Mixed layer depth (Barents Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=272:295,j=313:330]*area[d=2,i=272:295,j=313:330]" | "@SMX:12"49 somxl010_Irminger | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=248:268,j=272:285])" | "Mixed layer depth (Irminger Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=248:268,j=272:285]*area[d=2,i=248:268,j=272:285]" | "@SMX:12"50 somxl010_NordicSeas | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])" | "Mixed layer depth (Nordic Seas, Annual Max)" | "m" | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"51 somxl010_Rockall | "mldr10_1" | eORCA1. 3_grid.nc | "(mldr10_1[d=1,i=262:300,j=284:313])" | "Mixed layer depth (Rockall, Annual Max)" | "m" | "mask[k=1,d=2,i=262:300,j=284:313]*area[d=2,i=262:300,j=284:313]" | "@SMX:12"52 friver_global | "friver" | eORCA1. 3_grid.nc | "(friver[d=1])" | "River input" | "kg/s" | "mask[k=1,d=2]*area[d=2]"53 friver_int | "friver" | eORCA1. 3_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)" | "River input" | "Sv" | "2"54 friver_coastal | "friver" | eORCA1. 3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input" | "Sv" | "2"55 friver_noncoastal| "friver" | eORCA1. 3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv" | "2"56 friver_background| "friver" | eORCA1. 3_grid.nc | "(mask[k=1,d=2]*area[d=2]*friver[d=1,i=140,j=190]*1E-9)" | "Runoff correction (conservation)" | "Sv" | "2"57 sosstsst_70N_90N | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (70N-90N)" | "degC" | "(if lat[d=2] ge 70 then mask[k=1,d=2]*area[d=2])"58 sosstsst_50N_70N | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50N-70N)" | "degC" | "(if lat[d=2] ge 50 and lat[d=2] le 70 then mask[k=1,d=2]*area[d=2])"59 sosstsst_30N_50N | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (30N-50N)" | "degC" | "(if lat[d=2] ge 30 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])"60 sosstsst_10N_30N | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (10N-30N)" | "degC" | "(if lat[d=2] ge 10 and lat[d=2] le 30 then mask[k=1,d=2]*area[d=2])"61 sosstsst_10S_10N | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (10S-10N)" | "degC" | "(if lat[d=2] ge -10 and lat[d=2] le 10 then mask[k=1,d=2]*area[d=2])"62 sosstsst_30S_10S | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (30S-10S)" | "degC" | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"63 sosstsst_50S_30S | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50S-30S)" | "degC" | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"64 sosstsst_70S_50S | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (70S-50S)" | "degC" | "(if lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"65 sosstsst_50S_50N_prio | "tos" | eORCA1. 3_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50S-50N)" | "degC" | "(if lat[d=2] ge -50 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])"66 sosaline_70N_90N | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (70N-90N)" | "PSU" | "(if lat[d=2] ge 70 then mask[k=1,d=2]*area[d=2])"67 sosaline_50N_70N | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (50N-70N)" | "PSU" | "(if lat[d=2] ge 50 and lat[d=2] le 70 then mask[k=1,d=2]*area[d=2])"68 sosaline_30N_50N | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (30N-50N)" | "PSU" | "(if lat[d=2] ge 30 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])"69 sosaline_10N_30N | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (10N-30N)" | "PSU" | "(if lat[d=2] ge 10 and lat[d=2] le 30 then mask[k=1,d=2]*area[d=2])"70 sosaline_10S_10N | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (10S-10N)" | "PSU" | "(if lat[d=2] ge -10 and lat[d=2] le 10 then mask[k=1,d=2]*area[d=2])"71 sosaline_30S_10S | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (30S-10S)" | "PSU" | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])"72 sosaline_50S_30S | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (50S-30S)" | "PSU" | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])"73 sosaline_70S_50S | "sos" | eORCA1. 3_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (70S-50S)" | "PSU" | "(if lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])"74 hc300_global | "hc300" | eORCA1. 3_grid.nc | "(hc300[d=1])" | "Heat content 0-300m (GLOBAL)" | "J/m2" | "mask[k=1,d=2]*area[d=2]"75 wfo_global | "wfo" | eORCA1. 3_grid.nc | "(wfo[d=1])" | "Water flux (GLOBAL)" | "kg/m2/s" | "mask[k=1,d=2]*area[d=2]"40 sosstsst_global_prio | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (GLOBAL)" | "degC" | "mask[k=1,d=2]*area[d=2]" 41 sosaline_global | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (GLOBAL)" | "PSU" | "mask[k=1,d=2]*area[d=2]" 42 sossheig_global | "zos" | eORCA1.4.2_grid.nc | "(zos[d=1])" | "Sea Surface Heigh (GLOBAL)" | "m" | "mask[k=1,d=2]*area[d=2]" 43 sohefldo_global | "nshfls rsntds" | eORCA1.4.2_grid.nc | "(nshfls[d=1]+rsntds[d=2])" | "Net Downward Heat Flux (GLOBAL)" | "W/m^2" | "mask[k=1,d=3]*area[d=3]" 44 somxl010_north | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (NORTH)" | "m" | "(if lat[d=2] gt 0 then mask[k=1,d=2]*area[d=2])" 45 somxl010_south | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1])" | "Mixed layer depth (SOUTH)" | "m" | "(if lat[d=2] lt 0 then mask[k=1,d=2]*area[d=2])" 46 somxl010_SubpolarNorthAtl | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=261:299,j=260:281])" | "Mixed layer depth (Subpolar North Atlantic, annual Max)" | "m" | "mask[k=1,d=2,i=261:299,j=260:281]*area[d=2,i=261:299,j=260:281]" | "@SMX:12" 47 somxl010_Labrador | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=227:249,j=265:288])" | "Mixed layer depth (Labrador Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=227:247,j=265:288]*area[d=2,i=227:247,j=265:288]" | "@SMX:12" 48 somxl010_Barents | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=271:294,j=313:330])" | "Mixed layer depth (Barents Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=271:294,j=313:330]*area[d=2,i=271:294,j=313:330]" | "@SMX:12" 49 somxl010_Irminger | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=247:267,j=272:285])" | "Mixed layer depth (Irminger Sea, Annual Max)" | "m" | "mask[k=1,d=2,i=247:267,j=272:285]*area[d=2,i=247:267,j=272:285]" | "@SMX:12" 50 somxl010_NordicSeas | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=261:299,j=284:313])" | "Mixed layer depth (Nordic Seas, Annual Max)" | "m" | "mask[k=1,d=2,i=261:299,j=284:313]*area[d=2,i=261:299,j=284:313]" | "@SMX:12" 51 somxl010_Rockall | "mldr10_1" | eORCA1.4.2_grid.nc | "(mldr10_1[d=1,i=261:299,j=284:313])" | "Mixed layer depth (Rockall, Annual Max)" | "m" | "mask[k=1,d=2,i=261:299,j=284:313]*area[d=2,i=261:299,j=284:313]" | "@SMX:12" 52 friver_global | "friver" | eORCA1.4.2_grid.nc | "(friver[d=1])" | "River input" | "kg/s" | "mask[k=1,d=2]*area[d=2]" 53 friver_int | "friver" | eORCA1.4.2_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)" | "River input" | "Sv" | "2" 54 friver_coastal | "friver" | eORCA1.4.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input" | "Sv" | "2" 55 friver_noncoastal| "friver" | eORCA1.4.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[d=2,k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv" | "2" 56 friver_background| "friver" | eORCA1.4.2_grid.nc | "(mask[k=1,d=2]*area[d=2]*friver[d=1,i=139,j=190]*1E-9)" | "Runoff correction (conservation)" | "Sv" | "2" 57 sosstsst_70N_90N | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (70N-90N)" | "degC" | "(if lat[d=2] ge 70 then mask[k=1,d=2]*area[d=2])" 58 sosstsst_50N_70N | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50N-70N)" | "degC" | "(if lat[d=2] ge 50 and lat[d=2] le 70 then mask[k=1,d=2]*area[d=2])" 59 sosstsst_30N_50N | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (30N-50N)" | "degC" | "(if lat[d=2] ge 30 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])" 60 sosstsst_10N_30N | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (10N-30N)" | "degC" | "(if lat[d=2] ge 10 and lat[d=2] le 30 then mask[k=1,d=2]*area[d=2])" 61 sosstsst_10S_10N | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (10S-10N)" | "degC" | "(if lat[d=2] ge -10 and lat[d=2] le 10 then mask[k=1,d=2]*area[d=2])" 62 sosstsst_30S_10S | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (30S-10S)" | "degC" | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])" 63 sosstsst_50S_30S | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50S-30S)" | "degC" | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])" 64 sosstsst_70S_50S | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (70S-50S)" | "degC" | "(if lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])" 65 sosstsst_50S_50N_prio | "tos" | eORCA1.4.2_grid.nc | "(tos[d=1])" | "Sea Surface Temperature (50S-50N)" | "degC" | "(if lat[d=2] ge -50 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])" 66 sosaline_70N_90N | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (70N-90N)" | "PSU" | "(if lat[d=2] ge 70 then mask[k=1,d=2]*area[d=2])" 67 sosaline_50N_70N | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (50N-70N)" | "PSU" | "(if lat[d=2] ge 50 and lat[d=2] le 70 then mask[k=1,d=2]*area[d=2])" 68 sosaline_30N_50N | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (30N-50N)" | "PSU" | "(if lat[d=2] ge 30 and lat[d=2] le 50 then mask[k=1,d=2]*area[d=2])" 69 sosaline_10N_30N | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (10N-30N)" | "PSU" | "(if lat[d=2] ge 10 and lat[d=2] le 30 then mask[k=1,d=2]*area[d=2])" 70 sosaline_10S_10N | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (10S-10N)" | "PSU" | "(if lat[d=2] ge -10 and lat[d=2] le 10 then mask[k=1,d=2]*area[d=2])" 71 sosaline_30S_10S | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (30S-10S)" | "PSU" | "(if lat[d=2] ge -30 and lat[d=2] le -10 then mask[k=1,d=2]*area[d=2])" 72 sosaline_50S_30S | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (50S-30S)" | "PSU" | "(if lat[d=2] ge -50 and lat[d=2] le -30 then mask[k=1,d=2]*area[d=2])" 73 sosaline_70S_50S | "sos" | eORCA1.4.2_grid.nc | "(sos[d=1])" | "Sea Surface Salinity (70S-50S)" | "PSU" | "(if lat[d=2] le -50 then mask[k=1,d=2]*area[d=2])" 74 hc300_global | "hc300" | eORCA1.4.2_grid.nc | "(hc300[d=1])" | "Heat content 0-300m (GLOBAL)" | "J/m2" | "mask[k=1,d=2]*area[d=2]" 75 wfo_global | "wfo" | eORCA1.4.2_grid.nc | "(wfo[d=1])" | "Water flux (GLOBAL)" | "kg/m2/s" | "mask[k=1,d=2]*area[d=2]" 76 76 nadw_ocean_prio | "msftyz_atl" | "" | "(msftyz_atl[z=500:6000@max,J=212:266@max,d=1])" | "North Atlantic Deep Water" | "Sv" | "1" 77 77 npdw_ocean | "msftyz_ind" | "" | "(msftyz_ind[z=500:6000@max,J=212:266@max,d=1])" | "North Pacific Deep Water" | "Sv" | "1" 78 78 aabw_ocean | "msftyz_glo" | "" | "(msftyz_glo[z=2000:6000@max,J=115:274@max,d=1])" | "Antarctic Bottom Water" | "Sv" | "1" 79 79 deacon_ocean | "msftyz_glo" | "" | "(msftyz_glo[z=2000:6000@max,J=31:140@max,d=1])" | "Deacon Cell" | "Sv" | "1" 80 thetao_0100m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=24])" | "Sea Water Temperature @100m" | "degC" | "mask[k=24,d=2]*area[d=2]"81 thetao_0200m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=31])" | "Sea Water Temperature @200m" | "degC" | "mask[k=31,d=2]*area[d=2]"82 thetao_0500m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=40])" | "Sea Water Temperature @500m" | "degC" | "mask[k=40,d=2]*area[d=2]"83 thetao_1000m_prio | "thetao" | eORCA1.3_grid.nc | "(thetao[d=1,k=47])" | "Sea Water Temperature @1000m" | "degC" | "mask[k=47,d=2]*area[d=2]"84 thetao_2000m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=54])" | "Sea Water temperature @2000m" | "degC" | "mask[k=54,d=2]*area[d=2]"85 thetao_3000m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=60])" | "Sea Water Temperature @3000m" | "degC" | "mask[k=60,d=2]*area[d=2]"86 thetao_4000m | "thetao" | eORCA1. 3_grid.nc | "(thetao[d=1,k=66])" | "Sea Water Temperature @4000m" | "degC" | "mask[k=66,d=2]*area[d=2]"87 so_0100m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=24])" | "Sea Water Salinity @100m" | "PSU" | "mask[k=24,d=2]*area[d=2]"88 so_0200m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=31])" | "Sea Water Salinity @200m" | "PSU" | "mask[k=31,d=2]*area[d=2]"89 so_0500m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=40])" | "Sea Water Salinity @500m" | "PSU" | "mask[k=40,d=2]*area[d=2]"90 so_1000m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=47])" | "Sea Water Salinity @1000m" | "PSU" | "mask[k=47,d=2]*area[d=2]"91 so_2000m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=54])" | "Sea Water Salinity @2000m" | "PSU" | "mask[k=54,d=2]*area[d=2]"92 so_3000m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=60])" | "Sea Water Salinity @3000m" | "PSU" | "mask[k=60,d=2]*area[d=2]"93 so_4000m | "so" | eORCA1. 3_grid.nc | "(so[d=1,k=66])" | "Sea Water Salinity @4000m" | "PSU" | "mask[k=66,d=2]*area[d=2]"80 thetao_0100m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=24])" | "Sea Water Temperature @100m" | "degC" | "mask[k=24,d=2]*area[d=2]" 81 thetao_0200m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=31])" | "Sea Water Temperature @200m" | "degC" | "mask[k=31,d=2]*area[d=2]" 82 thetao_0500m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=40])" | "Sea Water Temperature @500m" | "degC" | "mask[k=40,d=2]*area[d=2]" 83 thetao_1000m_prio | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=47])" | "Sea Water Temperature @1000m" | "degC" | "mask[k=47,d=2]*area[d=2]" 84 thetao_2000m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=54])" | "Sea Water temperature @2000m" | "degC" | "mask[k=54,d=2]*area[d=2]" 85 thetao_3000m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=60])" | "Sea Water Temperature @3000m" | "degC" | "mask[k=60,d=2]*area[d=2]" 86 thetao_4000m | "thetao" | eORCA1.4.2_grid.nc | "(thetao[d=1,k=66])" | "Sea Water Temperature @4000m" | "degC" | "mask[k=66,d=2]*area[d=2]" 87 so_0100m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=24])" | "Sea Water Salinity @100m" | "PSU" | "mask[k=24,d=2]*area[d=2]" 88 so_0200m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=31])" | "Sea Water Salinity @200m" | "PSU" | "mask[k=31,d=2]*area[d=2]" 89 so_0500m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=40])" | "Sea Water Salinity @500m" | "PSU" | "mask[k=40,d=2]*area[d=2]" 90 so_1000m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=47])" | "Sea Water Salinity @1000m" | "PSU" | "mask[k=47,d=2]*area[d=2]" 91 so_2000m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=54])" | "Sea Water Salinity @2000m" | "PSU" | "mask[k=54,d=2]*area[d=2]" 92 so_3000m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=60])" | "Sea Water Salinity @3000m" | "PSU" | "mask[k=60,d=2]*area[d=2]" 93 so_4000m | "so" | eORCA1.4.2_grid.nc | "(so[d=1,k=66])" | "Sea Water Salinity @4000m" | "PSU" | "mask[k=66,d=2]*area[d=2]" 94 94 hc_ocean | "scvoltot sctemtot" | "" | "(scvoltot[d=1]*sctemtot[d=2]*1026.*3991.86795711963/5.1011127E+14)" | "ocean heat content" | "J/m2" | "1" 95 95 hc_ice | "ibgheat_tot" | "" | "ibgheat_tot[d=1]*1.e20/5.1011127E+14" | "ocean sea ice heat content" | "J/m2" | "1" -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_opa9_ORCA2.cfg
r5109 r6443 26 26 # - Separator between fields is '|' character 27 27 # - Operations must use the ferret syntax 28 # - Each variable must be referenced to its dataset ie var[ D=x]28 # - Each variable must be referenced to its dataset ie var[d=x] 29 29 # - files patterns, operations,title,units must be enclosed with character '"' 30 30 # - fields will be presented through an html page with thumbnails global, north, south, land, ocean. … … 38 38 # field | files patterns | files additionnal | operations | title | units | calcul of area 39 39 #----------------------------------------------------------------------------------------------------------------- 40 sosstsst_global | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (Global)" | "degC" | "mask[K=1,D=2]*area[D=2]" 41 sosaline_global | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (Global)" | "PSU" | "mask[K=1,D=2]*area[D=2]" 42 sossheig_global | "zos" | ORCA2.3_grid.nc | "(zos[D=1])" | "Sea Surface Heigh (Global)" | "m" | "mask[K=1,D=2]*area[D=2]" 43 wfo_global | "wfo" | ORCA2.3_grid.nc | "(wfo[D=1])" | "Total Water flux (Global, upward)"| "kg/m2/s" | "mask[K=1,D=2]*area[D=2]" 44 friver_global | "friver" | ORCA2.3_grid.nc | "(friver[D=1])" | "River input (Global)" | "kg/m2/s" | "mask[K=1,D=2]*area[D=2]" 45 friver_int | "friver" | ORCA2.3_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)" | "River input" | "Sv" | "2" 46 friver_coastal | "friver" | ORCA2.3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input" | "Sv" | "2" 47 friver_noncoastal | "friver" | ORCA2.3_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv" | "2" 48 hc300_global | "hc300" | ORCA2.3_grid.nc | "(hc300[D=1])" | "Heat content 300 m (Global)" | "W" | "mask[K=1,D=2]*area[D=2]" 49 sohefldo_global | "sohefldo" | ORCA2.3_grid.nc | "(nshfls[D=1]+rsntds[D=1])" | "Net Downward Heat Flux (Global)" | "W/m^2" | "mask[K=1,D=2]*area[D=2]" 50 nadw_ocean | "msftyz_atl" | "" | "(msftyz_atl[Z=500:6000@MAX,J=90:120@MAX,L=2,D=1])" | "North Atlantic Deep Water" | "Sv" | "1" 51 npdw_ocean | "msftyz_ind" | "" | "(msftyz_ind[Z=500:6000@MAX,J=90:120@MAX,L=3,D=1])" | "North Pacific Deep Water" | "Sv" | "1" 52 aabw_ocean | "msftyz_glo" | "" | "(msftyz_glo[Z=2000:6000@MAX,J=37:118@MAX,L=1,D=1])" | "Antarctic Bottom Water" | "Sv" | "1" 53 deacon_ocean | "msftyz_glo" | "" | "(msftyz_glo[Z=2000:6000@MAX,J=2:50@MAX,L=1,D=1])" | "Deacon Cell" | "Sv" | "1" 54 somxl010_north | "mldr10_1" | ORCA2.3_grid.nc | "(mldr10_1[D=1])" | "Mixed layer depth (North)" | "m" | "(IF lat[D=2] GT 0 THEN mask[K=1,D=2]*area[D=2])" 55 somxl010_south | "mldr10_1" | ORCA2.3_grid.nc | "(mldr10_1[D=1])" | "Mixed layer depth (South)" | "m" | "(IF lat[D=2] LT 0 THEN mask[K=1,D=2]*area[D=2])" 56 temp_500m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=20])" | "Temperature at 500m (Global)" | "degC" | "mask[K=20,D=2]*area[D=2]" 57 temp_1000m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=22])" | "Temperature at 1000m (Global)" | "degC" | "mask[K=22,D=2]*area[D=2]" 58 temp_2000m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=24:25@AVE])" | "Temperature at 2000m (Global)" | "degC" | "mask[K=25,D=2]*area[D=2]" 59 temp_3000m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=26:27@AVE])" | "Temperature at 2000m (Global)" | "degC" | "mask[K=27,D=2]*area[D=2]" 60 temp_4000m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=28:29@AVE])" | "Temperature at 4000m (Global)" | "degC" | "mask[K=29,D=2]*area[D=2]" 61 temp_5000m_global | "thetao" | ORCA2.3_grid.nc | "(thetao[D=1,K=30])" | "Temperature at 5000m (Global)" | "degC" | "mask[K=30,D=2]*area[D=2]" 62 salini_500m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=20])" | "Salinity at 500m (Global)" | "PSU" | "mask[K=20,D=2]*area[D=2]" 63 salini_1000m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=23])" | "Salinity at 1000m (Global)" | "PSU" | "mask[K=23,D=2]*area[D=2]" 64 salini_2000m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=24:25@AVE])" | "Salinity at 2000m (Global)" | "PSU" | "mask[K=25,D=2]*area[D=2]" 65 salini_3000m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=26:27@AVE])" | "Salinity at 2000m (Global)" | "PSU" | "mask[K=27,D=2]*area[D=2]" 66 salini_4000m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=28:29@AVE])" | "Salinity at 4000m (Global)" | "PSU" | "mask[K=29,D=2]*area[D=2]" 67 salini_5000m_global | "so" | ORCA2.3_grid.nc | "(so[D=1,K=30])" | "Salinity at 5000m (Global)" | "PSU" | "mask[K=30,D=2]*area[D=2]" 68 sosstsst_70N_90N | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (70N-90N)" | "degC" | "(IF lat[D=2] GE 70 THEN mask[K=1,D=2]*area[D=2])" 69 sosstsst_50N_70N | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (50N-70N)" | "degC" | "(IF lat[D=2] GE 50 AND lat[D=2] LE 70 THEN mask[K=1,D=2]*area[D=2])" 70 sosstsst_30N_50N | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (30N-50N)" | "degC" | "(IF lat[D=2] GE 30 AND lat[D=2] LE 50 THEN mask[K=1,D=2]*area[D=2])" 71 sosstsst_10N_30N | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (10N-30N)" | "degC" | "(IF lat[D=2] GE 10 AND lat[D=2] LE 30 THEN mask[K=1,D=2]*area[D=2])" 72 sosstsst_10S_10N | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (10S-10N)" | "degC" | "(IF lat[D=2] GE -10 AND lat[D=2] LE 10 THEN mask[K=1,D=2]*area[D=2])" 73 sosstsst_30S_10S | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (30S-10S)" | "degC" | "(IF lat[D=2] GE -30 AND lat[D=2] LE -10 THEN mask[K=1,D=2]*area[D=2])" 74 sosstsst_50S_30S | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (50S-30S)" | "degC" | "(IF lat[D=2] GE -50 AND lat[D=2] LE -30 THEN mask[K=1,D=2]*area[D=2])" 75 sosstsst_70S_50S | "tos" | ORCA2.3_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (70S-50S)" | "degC" | "(IF lat[D=2] LE -50 THEN mask[K=1,D=2]*area[D=2])" 76 sosaline_70N_90N | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (70N-90N)" | "PSU" | "(IF lat[D=2] GE 70 THEN mask[K=1,D=2]*area[D=2])" 77 sosaline_50N_70N | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (50N-70N)" | "PSU" | "(IF lat[D=2] GE 50 AND lat[D=2] LE 70 THEN mask[K=1,D=2]*area[D=2])" 78 sosaline_30N_50N | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (30N-50N)" | "PSU" | "(IF lat[D=2] GE 30 AND lat[D=2] LE 50 THEN mask[K=1,D=2]*area[D=2])" 79 sosaline_10N_30N | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (10N-30N)" | "PSU" | "(IF lat[D=2] GE 10 AND lat[D=2] LE 30 THEN mask[K=1,D=2]*area[D=2])" 80 sosaline_10S_10N | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (10S-10N)" | "PSU" | "(IF lat[D=2] GE -10 AND lat[D=2] LE 10 THEN mask[K=1,D=2]*area[D=2])" 81 sosaline_30S_10S | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (30S-10S)" | "PSU" | "(IF lat[D=2] GE -30 AND lat[D=2] LE -10 THEN mask[K=1,D=2]*area[D=2])" 82 sosaline_50S_30S | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (50S-30S)" | "PSU" | "(IF lat[D=2] GE -50 AND lat[D=2] LE -30 THEN mask[K=1,D=2]*area[D=2])" 83 sosaline_70S_50S | "sos" | ORCA2.3_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (70S-50S)" | "PSU" | "(IF lat[D=2] LE -50 THEN mask[K=1,D=2]*area[D=2])" 40 sosstsst_global | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (Global)" | "degC" | "mask[K=1,D=2]*area[D=2]" 41 sosaline_global | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (Global)" | "PSU" | "mask[K=1,D=2]*area[D=2]" 42 sossheig_global | "zos" | ORCA2.4.2_grid.nc | "(zos[D=1])" | "Sea Surface Heigh (Global)" | "m" | "mask[K=1,D=2]*area[D=2]" 43 wfo_global | "wfo" | ORCA2.4.2_grid.nc | "(wfo[D=1])" | "Total Water flux (Global, upward)"| "kg/m2/s" | "mask[K=1,D=2]*area[D=2]" 44 friver_global | "friver" | ORCA2.4.2_grid.nc | "(friver[D=1])" | "River input (Global)" | "kg/m2/s" | "mask[K=1,D=2]*area[D=2]" 45 friver_int | "friver" | ORCA2.4.2_grid.nc | "(friver[d=1]*mask[k=1,d=2]*area[d=2]*1E-9)" | "River input" | "Sv" | "2" 46 friver_coastal | "friver" | ORCA2.4.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) ne missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[k=1]*area[d=2]*friver[d=1]*1E-9)" | "Coastal river input" | "Sv" | "2" 47 friver_noncoastal | "friver" | ORCA2.4.2_grid.nc | "(if missing(maskdraw[k=1,d=2],0.1) eq missing(maskdraw[i=@sbx,j=@sbx,k=1,d=2],0.1) then mask[k=1]*area[d=2]*friver[d=1]*1E-9)" | "Non coastal river input" | "Sv" | "2" 48 hc300_global | "hc300" | ORCA2.4.2_grid.nc | "(hc300[D=1])" | "Heat content 300 m (Global)" | "W" | "mask[K=1,D=2]*area[D=2]" 49 sohefldo_global | "sohefldo" | ORCA2.4.2_grid.nc | "(nshfls[D=1]+rsntds[D=1])" | "Net Downward Heat Flux (Global)" | "W/m^2" | "mask[K=1,D=2]*area[D=2]" 50 nadw_ocean | "msftyz" | "" | "(msftyz[Z=500:6000@MAX,J=90:120@MAX,L=2,D=1])" | "North Atlantic Deep Water" | "Sv" | "1" 51 npdw_ocean | "msftyz" | "" | "(msftyz[Z=500:6000@MAX,J=90:120@MAX,L=3,D=1])" | "North Pacific Deep Water" | "Sv" | "1" 52 aabw_ocean | "msftyz" | "" | "(msftyz[Z=2000:6000@MAX,J=37:118@MAX,L=1,D=1])" | "Antarctic Bottom Water" | "Sv" | "1" 53 deacon_ocean | "msftyz" | "" | "(msftyz[Z=2000:6000@MAX,J=2:50@MAX,L=1,D=1])" | "Deacon Cell" | "Sv" | "1" 54 somxl010_north | "mldr10_1" | ORCA2.4.2_grid.nc | "(mldr10_1[D=1])" | "Mixed layer depth (North)" | "m" | "(IF lat[D=2] GT 0 THEN mask[K=1,D=2]*area[D=2])" 55 somxl010_south | "mldr10_1" | ORCA2.4.2_grid.nc | "(mldr10_1[D=1])" | "Mixed layer depth (South)" | "m" | "(IF lat[D=2] LT 0 THEN mask[K=1,D=2]*area[D=2])" 56 temp_500m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=20])" | "Temperature at 500m (Global)" | "degC" | "mask[K=20,D=2]*area[D=2]" 57 temp_1000m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=22])" | "Temperature at 1000m (Global)" | "degC" | "mask[K=22,D=2]*area[D=2]" 58 temp_2000m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=24:25@AVE])" | "Temperature at 2000m (Global)" | "degC" | "mask[K=25,D=2]*area[D=2]" 59 temp_3000m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=26:27@AVE])" | "Temperature at 2000m (Global)" | "degC" | "mask[K=27,D=2]*area[D=2]" 60 temp_4000m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=28:29@AVE])" | "Temperature at 4000m (Global)" | "degC" | "mask[K=29,D=2]*area[D=2]" 61 temp_5000m_global | "thetao" | ORCA2.4.2_grid.nc | "(thetao[D=1,K=30])" | "Temperature at 5000m (Global)" | "degC" | "mask[K=30,D=2]*area[D=2]" 62 salini_500m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=20])" | "Salinity at 500m (Global)" | "PSU" | "mask[K=20,D=2]*area[D=2]" 63 salini_1000m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=23])" | "Salinity at 1000m (Global)" | "PSU" | "mask[K=23,D=2]*area[D=2]" 64 salini_2000m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=24:25@AVE])" | "Salinity at 2000m (Global)" | "PSU" | "mask[K=25,D=2]*area[D=2]" 65 salini_3000m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=26:27@AVE])" | "Salinity at 2000m (Global)" | "PSU" | "mask[K=27,D=2]*area[D=2]" 66 salini_4000m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=28:29@AVE])" | "Salinity at 4000m (Global)" | "PSU" | "mask[K=29,D=2]*area[D=2]" 67 salini_5000m_global | "so" | ORCA2.4.2_grid.nc | "(so[D=1,K=30])" | "Salinity at 5000m (Global)" | "PSU" | "mask[K=30,D=2]*area[D=2]" 68 sosstsst_70N_90N | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (70N-90N)" | "degC" | "(IF lat[D=2] GE 70 THEN mask[K=1,D=2]*area[D=2])" 69 sosstsst_50N_70N | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (50N-70N)" | "degC" | "(IF lat[D=2] GE 50 AND lat[D=2] LE 70 THEN mask[K=1,D=2]*area[D=2])" 70 sosstsst_30N_50N | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (30N-50N)" | "degC" | "(IF lat[D=2] GE 30 AND lat[D=2] LE 50 THEN mask[K=1,D=2]*area[D=2])" 71 sosstsst_10N_30N | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (10N-30N)" | "degC" | "(IF lat[D=2] GE 10 AND lat[D=2] LE 30 THEN mask[K=1,D=2]*area[D=2])" 72 sosstsst_10S_10N | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (10S-10N)" | "degC" | "(IF lat[D=2] GE -10 AND lat[D=2] LE 10 THEN mask[K=1,D=2]*area[D=2])" 73 sosstsst_30S_10S | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (30S-10S)" | "degC" | "(IF lat[D=2] GE -30 AND lat[D=2] LE -10 THEN mask[K=1,D=2]*area[D=2])" 74 sosstsst_50S_30S | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (50S-30S)" | "degC" | "(IF lat[D=2] GE -50 AND lat[D=2] LE -30 THEN mask[K=1,D=2]*area[D=2])" 75 sosstsst_70S_50S | "tos" | ORCA2.4.2_grid.nc | "(tos[D=1])" | "Sea Surface Temperature (70S-50S)" | "degC" | "(IF lat[D=2] LE -50 THEN mask[K=1,D=2]*area[D=2])" 76 sosaline_70N_90N | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (70N-90N)" | "PSU" | "(IF lat[D=2] GE 70 THEN mask[K=1,D=2]*area[D=2])" 77 sosaline_50N_70N | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (50N-70N)" | "PSU" | "(IF lat[D=2] GE 50 AND lat[D=2] LE 70 THEN mask[K=1,D=2]*area[D=2])" 78 sosaline_30N_50N | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (30N-50N)" | "PSU" | "(IF lat[D=2] GE 30 AND lat[D=2] LE 50 THEN mask[K=1,D=2]*area[D=2])" 79 sosaline_10N_30N | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (10N-30N)" | "PSU" | "(IF lat[D=2] GE 10 AND lat[D=2] LE 30 THEN mask[K=1,D=2]*area[D=2])" 80 sosaline_10S_10N | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (10S-10N)" | "PSU" | "(IF lat[D=2] GE -10 AND lat[D=2] LE 10 THEN mask[K=1,D=2]*area[D=2])" 81 sosaline_30S_10S | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (30S-10S)" | "PSU" | "(IF lat[D=2] GE -30 AND lat[D=2] LE -10 THEN mask[K=1,D=2]*area[D=2])" 82 sosaline_50S_30S | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (50S-30S)" | "PSU" | "(IF lat[D=2] GE -50 AND lat[D=2] LE -30 THEN mask[K=1,D=2]*area[D=2])" 83 sosaline_70S_50S | "sos" | ORCA2.4.2_grid.nc | "(sos[D=1])" | "Sea Surface Salinity (70S-50S)" | "PSU" | "(IF lat[D=2] LE -50 THEN mask[K=1,D=2]*area[D=2])" 84 hc_ocean | "scvoltot sctemtot" | "" | "(scvoltot[d=1]*sctemtot[d=2]*1026.*3991.86795711963/5.1011127E+14)" | "ocean heat content" | "J/m2" | "1" 85 hc_ice | "ibgheat_tot" | "" | "ibgheat_tot[d=1]*1.e20/5.1011127E+14" | "ocean sea ice heat content" | "J/m2" | "1" 86 hc_snow | "sbgheat_tot" | "" | "sbgheat_tot[d=1]*1.e20/5.1011127E+14" | "ocean snow on sea ice heat content" | "J/m2" | "1" 87 #----------------------------------------------------------------------------------------------------------------- -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_pisces_ORCA1.cfg
r5066 r6443 39 39 # field | files patterns | files additionnal | operations | title | units | calcul of area 40 40 #----------------------------------------------------------------------------------------------------------------- 41 no3_global | "pno3tot" | "" | "pno3tot[d=1] " | "global mean nitrogen concentration" | "umolN" | "1"42 po4_global | "ppo4tot" | "" | "ppo4tot[d=1] " | "global mean phosphorus concentration" | "umolP" | "1"41 no3_global | "pno3tot" | "" | "pno3tot[d=1]*122./117." | "global mean nitrogen concentration" | "umolN" | "1" 42 po4_global | "ppo4tot" | "" | "ppo4tot[d=1]*122./117." | "global mean phosphorus concentration" | "umolP" | "1" 43 43 sil_global | "psiltot" | "" | "psiltot[d=1]" | "global mean silicate concentration" | "umolC" | "1" 44 44 fer_global | "pfertot" | "" | "pfertot[d=1]" | "global mean iron concentration" | "nmolFe" | "1" -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_pisces_ORCA2.cfg
r5066 r6443 39 39 # field | files patterns | files additionnal | operations | title | units | calcul of area 40 40 #----------------------------------------------------------------------------------------------------------------- 41 no3_global | "NO3" | "ORCA2.3_grid.nc" | "(NO3[d=1,k=1])" | "Nitrate Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 42 dic_global | "DIC" | "ORCA2.3_grid.nc" | "(DIC[d=1,k=1])" | "DIC Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 43 alk_global | "Alkalini" | "ORCA2.3_grid.nc" | "(Alkalini[d=1,k=1])" | "Alkalinity Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 44 o2_global | "O2" | "ORCA2.3_grid.nc" | "(O2[d=1,k=1])" | "Oxygen Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 45 si_global | "Si" | "ORCA2.3_grid.nc" | "(Si[d=1,k=1])" | "Silicate Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 46 po4_global | "PO4" | "ORCA2.3_grid.nc" | "(PO4[d=1,k=1])" | "Phosphorus Concentration at surface" | "mmol/m3" | "mask[d=2,k=1]*area[d=2]" 47 cflx_global | "Cflx" | "ORCA2.3_grid.nc" | "(Cflx[d=1]*3600*24*365*12)" | "Ocean carbon flux (GLOBAL)" | "gC/m2/yr" | "mask[k=1,d=2]*area[d=2]" 48 epc_global | "EPC100" | "ORCA2.3_grid.nc" | "(EPC100[d=1]*3600*24*365*12)" | "Carbon export at 100m (GLOBAL)" | "gC/m2/yr" | "mask[k=1,d=2]*area[d=2]" 41 no3_global | "pno3tot" | "" | "pno3tot[d=1]" | "global mean nitrogen concentration" | "umolN" | "1" 42 po4_global | "ppo4tot" | "" | "ppo4tot[d=1]" | "global mean phosphorus concentration" | "umolP" | "1" 43 sil_global | "psiltot" | "" | "psiltot[d=1]" | "global mean silicate concentration" | "umolC" | "1" 44 fer_global | "pfertot" | "" | "pfertot[d=1]" | "global mean iron concentration" | "nmolFe" | "1" 45 alk_global | "palktot" | "" | "palktot[d=1]" | "global mean alkalinity concentration" | "umolC" | "1" 46 cflx_global | "tcflx" | "" | "tcflx[d=1]" | "total flux of Carbon out of the ocean" | "PgC/yr" | "1" 47 epc_global | "tcexp" | "" | "tcexp[d=1]" | "total flux of Carbon export at 100m" | "PgC/yr" | "1" 48 tintpp_global | "tintpp" | "" | "tintpp[d=1]" | "global total integrated primary production" | "PgC/yr" | "1" 49 tdenit_global | "tdenit" | "" | "tdenit[d=1]" | "Total denitrification" | "TgN/yr" | "1" 50 tnfix_global | "tnfix" | "" | "tnfix[d=1]" | "global total nitrogen fixation" | "TgN/yr" | "1" 49 51 #----------------------------------------------------------------------------------------------------------------- -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_si3_ORCA1.cfg
r5679 r6443 43 43 # icesurf_south | "siconc" | eORCA1.1_grid.nc | "(if lat[d=2] le 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Surface (SOUTH)" | "m2" | "2" 44 44 # Temporary fix 45 siconc_north | "sivolu sithic" | eORCA1. 3_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]"46 siconc_south | "sivolu sithic" | eORCA1. 3_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]"47 snowvol_north | "snvolu" | eORCA1. 3_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (NORTH)" | "m3" | "2"48 snowvol_south | "snvolu" | eORCA1. 3_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (SOUTH)" | "m3" | "2"49 icevol_north | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (NORTH)" | "m3" | "2"50 icevol_north_MAR | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)" | "m3" | "2" | "@FNR"51 icevol_north_SEP_prio | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)" | "m3" | "2" | "@FNR"52 icevol_south | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (SOUTH)" | "m3" | "2"53 icevol_south_MAR | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)" | "m3" | "2" | "@FNR"54 icevol_south_SEP | "sivolu" | eORCA1. 3_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)" | "m3" | "2" | "@FNR"55 iicethic_north | "sithic" | eORCA1. 3_grid.nc | "(sithic[d=1])" | "Ice thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"56 iicethic_south | "sithic" | eORCA1. 3_grid.nc | "(sithic[d=1])" | "Ice thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"57 isnowthi_north | "snvolu" | eORCA1. 3_grid.nc | "(snvolu[d=1])" | "Snow thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"58 isnowthi_south | "snvolu" | eORCA1. 3_grid.nc | "(snvolu[d=1])" | "Snow thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"45 siconc_north | "sivolu sithic" | eORCA1.4.2_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]" 46 siconc_south | "sivolu sithic" | eORCA1.4.2_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]" 47 snowvol_north | "snvolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (NORTH)" | "m3" | "2" 48 snowvol_south | "snvolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (SOUTH)" | "m3" | "2" 49 icevol_north | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (NORTH)" | "m3" | "2" 50 icevol_north_MAR | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)" | "m3" | "2" | "@FNR" 51 icevol_north_SEP_prio | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)" | "m3" | "2" | "@FNR" 52 icevol_south | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (SOUTH)" | "m3" | "2" 53 icevol_south_MAR | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)" | "m3" | "2" | "@FNR" 54 icevol_south_SEP | "sivolu" | eORCA1.4.2_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)" | "m3" | "2" | "@FNR" 55 iicethic_north | "sithic" | eORCA1.4.2_grid.nc | "(sithic[d=1])" | "Ice thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 56 iicethic_south | "sithic" | eORCA1.4.2_grid.nc | "(sithic[d=1])" | "Ice thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 57 isnowthi_north | "snvolu" | eORCA1.4.2_grid.nc | "(snvolu[d=1])" | "Snow thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 58 isnowthi_south | "snvolu" | eORCA1.4.2_grid.nc | "(snvolu[d=1])" | "Snow thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 59 59 # Following fields should be weighted by siconc 60 sisali_north | "sisali" | eORCA1. 3_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"61 sisali_south | "sisali" | eORCA1. 3_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"62 sitemp_north | "sitemp" | eORCA1. 3_grid.nc | "(sitemp[d=1])" | "Ice Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"63 sitemp_south | "sitemp" | eORCA1. 3_grid.nc | "(sitemp[d=1])" | "Ice Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"64 sistem_north | "sistem" | eORCA1. 3_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"65 sistem_south | "sistem" | eORCA1. 3_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"60 sisali_north | "sisali" | eORCA1.4.2_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 61 sisali_south | "sisali" | eORCA1.4.2_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 62 sitemp_north | "sitemp" | eORCA1.4.2_grid.nc | "(sitemp[d=1])" | "Ice Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 63 sitemp_south | "sitemp" | eORCA1.4.2_grid.nc | "(sitemp[d=1])" | "Ice Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 64 sistem_north | "sistem" | eORCA1.4.2_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 65 sistem_south | "sistem" | eORCA1.4.2_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 66 66 #----------------------------------------------------------------------------------------------------------------- 67 67 -
CONFIG/UNIFORM/v6/IPSLCM6.5/GENERAL/POST/monitoring01_si3_ORCA2.cfg
r5066 r6443 38 38 #----------------------------------------------------------------------------------------------------------------- 39 39 # Commented until siconc is fixes in icemod.nc 40 # siconc_north | "siconc" | eORCA1.1_grid.nc | "(siconc[d=1])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"41 # siconc_south | "siconc" | eORCA1.1_grid.nc | "(siconc[d=1])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"42 # icesurf_north | "siconc" | eORCA1.1_grid.nc | "(if lat[d=2] ge 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Surface (NORTH)" | "m2" | "2"43 # icesurf_south | "siconc" | eORCA1.1_grid.nc | "(if lat[d=2] le 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Surface (SOUTH)" | "m2" | "2"40 # siconc_north | "siconc" | ORCA2.4.2_grid.nc | "(siconc[d=1])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 41 # siconc_south | "siconc" | ORCA2.4.2_grid.nc | "(siconc[d=1])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 42 # icesurf_north | "siconc" | ORCA2.4.2_grid.nc | "(if lat[d=2] ge 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Surface (NORTH)" | "m2" | "2" 43 # icesurf_south | "siconc" | ORCA2.4.2_grid.nc | "(if lat[d=2] le 0 then siconc[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Surface (SOUTH)" | "m2" | "2" 44 44 # Temporary fix 45 siconc_north | "sivolu sithic" | ORCA2. 3_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]"46 siconc_south | "sivolu sithic" | ORCA2. 3_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]"47 snowvol_north | "snvolu" | ORCA2. 3_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (NORTH)" | "m3" | "2"48 snowvol_south | "snvolu" | ORCA2. 3_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (SOUTH)" | "m3" | "2"49 icevol_north | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (NORTH)" | "m3" | "2"50 icevol_north_MAR | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)" | "m3" | "2" | "@FNR"51 icevol_north_SEP_prio | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)" | "m3" | "2" | "@FNR"52 icevol_south | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (SOUTH)" | "m3" | "2"53 icevol_south_MAR | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)" | "m3" | "2" | "@FNR"54 icevol_south_SEP | "sivolu" | ORCA2. 3_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)" | "m3" | "2" | "@FNR"55 iicethic_north | "sithic" | ORCA2. 3_grid.nc | "(sithic[d=1])" | "Ice thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"56 iicethic_south | "sithic" | ORCA2. 3_grid.nc | "(sithic[d=1])" | "Ice thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"57 isnowthi_north | "snvolu" | ORCA2. 3_grid.nc | "(snvolu[d=1])" | "Snow thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"58 isnowthi_south | "snvolu" | ORCA2. 3_grid.nc | "(snvolu[d=1])" | "Snow thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"45 siconc_north | "sivolu sithic" | ORCA2.4.2_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (NORTH)" | "-" | "if lat[d=3] ge 0 then mask[k=1,d=3]*area[d=3]" 46 siconc_south | "sivolu sithic" | ORCA2.4.2_grid.nc | "(sivolu[d=1]/sithic[d=2])" | "Ice Fraction (SOUTH)" | "-" | "if lat[d=3] le 0 then mask[k=1,d=3]*area[d=3]" 47 snowvol_north | "snvolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] ge 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (NORTH)" | "m3" | "2" 48 snowvol_south | "snvolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] le 0 then snvolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Snow Volume (SOUTH)" | "m3" | "2" 49 icevol_north | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] ge 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (NORTH)" | "m3" | "2" 50 icevol_north_MAR | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (March)" | "m3" | "2" | "@FNR" 51 icevol_north_SEP_prio | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] ge 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (NORTH) (September)" | "m3" | "2" | "@FNR" 52 icevol_south | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] le 0 then sivolu[d=1]*mask[k=1,d=2]*area[d=2])" | "Ice Volume (SOUTH)" | "m3" | "2" 53 icevol_south_MAR | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"MAR\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (March)" | "m3" | "2" | "@FNR" 54 icevol_south_SEP | "sivolu" | ORCA2.4.2_grid.nc | "(if lat[d=2] le 0 and STRINDEX(TAX_DATESTRING(t[gt=sivolu[d=1]], sivolu[i=1,j=1,k=1,d=1], \"month\"), \"SEP\") then sivolu[d=1]*area[d=2]*mask[k=1,d=2])" | "Ice volume (SOUTH) (September)" | "m3" | "2" | "@FNR" 55 iicethic_north | "sithic" | ORCA2.4.2_grid.nc | "(sithic[d=1])" | "Ice thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 56 iicethic_south | "sithic" | ORCA2.4.2_grid.nc | "(sithic[d=1])" | "Ice thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 57 isnowthi_north | "snvolu" | ORCA2.4.2_grid.nc | "(snvolu[d=1])" | "Snow thickness (NORTH)" | "m" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 58 isnowthi_south | "snvolu" | ORCA2.4.2_grid.nc | "(snvolu[d=1])" | "Snow thickness (SOUTH)" | "m" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 59 59 # Following fields should be weighted by siconc 60 sisali_north | "sisali" | ORCA2. 3_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"61 sisali_south | "sisali" | ORCA2. 3_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"62 sitemp_north | "sitemp" | ORCA2. 3_grid.nc | "(sitemp[d=1])" | "Ice Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"63 sitemp_south | "sitemp" | ORCA2. 3_grid.nc | "(sitemp[d=1])" | "Ice Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"64 sistem_north | "sistem" | ORCA2. 3_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]"65 sistem_south | "sistem" | ORCA2. 3_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]"60 sisali_north | "sisali" | ORCA2.4.2_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 61 sisali_south | "sisali" | ORCA2.4.2_grid.nc | "(sisali[d=1])" | "Ice Salinity (NORTH)" | "PSS" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 62 sitemp_north | "sitemp" | ORCA2.4.2_grid.nc | "(sitemp[d=1])" | "Ice Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 63 sitemp_south | "sitemp" | ORCA2.4.2_grid.nc | "(sitemp[d=1])" | "Ice Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 64 sistem_north | "sistem" | ORCA2.4.2_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (NORTH)" | "C" | "if lat[d=2] ge 0 then mask[k=1,d=2]*area[d=2]" 65 sistem_south | "sistem" | ORCA2.4.2_grid.nc | "(sistem[d=1])" | "Ice Surface Temperature (SOUTH)" | "C" | "if lat[d=2] le 0 then mask[k=1,d=2]*area[d=2]" 66 66 #----------------------------------------------------------------------------------------------------------------- 67 67
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