- Timestamp:
- 12/15/16 10:58:34 (8 years ago)
- Location:
- CONFIG/UNIFORM/v6/LMDZORINCA_v6
- Files:
-
- 25 added
- 20 deleted
- 22 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZ/CREATE_amip/COMP/lmdz.card
r2954 r3061 6 6 [UserChoices] 7 7 # Physics package to use 8 LMDZ_Physics=NPv5. 658 LMDZ_Physics=NPv5.80bz0 9 9 10 10 # Manage radiative aerosol effect and ozone … … 44 44 [ParametersFiles] 45 45 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 46 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def),\46 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 47 47 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 48 48 (${SUBMIT_DIR}/PARAM/config.def_actuel , config.def), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZOR/amip/COMP/lmdz.card
r2954 r3061 9 9 # LMDZ_Physics=NPv5.67 for new physics to be used with LMDZ5/testing revision 2546 or later 10 10 # LMDZ_Physics=NPv5.70 for new physics to be used with LMDZ5/testing revision 2595 or later 11 LMDZ_Physics=AP 12 13 # Set the variable CREATE needed further below to find the initial and boundary condition files. 14 CREATE=ELI-${RESOL_ATM_3D} 11 # LMDZ_Physics=NPv5.80bz0 for new physics to be used with LMDZ5/trunk revision 2699 or later 12 LMDZ_Physics=NPv5.80bz0 15 13 16 14 # Set ConfType to choose parameters for aerosols, solar and green house gazes. … … 53 51 54 52 [InitialStateFiles] 55 List= (${ ARCHIVE}/IGCM_OUT/LMDZ/${CREATE}/ATM/Output/Restart/${CREATE}_${year}_start.nc,start.nc),\56 (${ ARCHIVE}/IGCM_OUT/LMDZ/${CREATE}/ATM/Output/Restart/${CREATE}_${year}_startphy.nc, startphy.nc)53 List= (${R_IN}/ATM/IPSLCM6/eORCA1.2xLMD${RESOL_ATM_XY}/start_eORCA1.2xLMD${RESOL_ATM_3D}.nc, start.nc),\ 54 (${R_IN}/ATM/IPSLCM6/eORCA1.2xLMD${RESOL_ATM_XY}/startphy_eORCA1.2xLMD${RESOL_ATM_3D}.nc, startphy.nc) 57 55 58 56 [BoundaryFiles] 59 List= (${ ARCHIVE}/IGCM_OUT/LMDZ/${CREATE}/ATM/Output/Boundary/${CREATE}_${year}_limit.nc,limit.nc),\57 List= (${R_IN}/ATM/LIMIT/AMIP.v20160609/interpol/${RESOL_ATM_XY}_eORCA1.2_365d/limit_${year}.nc, limit.nc),\ 60 58 (${R_IN}/ATM/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_${year}_v5.nc, aerosols${year}.nc),\ 61 (${ARCHIVE}/IGCM_OUT/LMDZ/${CREATE}/ATM/Output/Boundary/${CREATE}_${year}_climoz_LMDZ.nc, climoz_LMDZ.nc) 62 63 ListNonDel= (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/SOLARANDVOLCANOES_1610_2008.txt, SOLARANDVOLCANOES.txt),\ 64 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/CO2_1765_2005.txt, CO2.txt),\ 65 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/CH4_1765_2005.txt, CH4.txt),\ 66 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/N2O_1765_2005.txt, N2O.txt),\ 67 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/CFC11_1765_2005.txt, CFC11.txt),\ 68 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/CFC12_1765_2005.txt, CFC12.txt),\ 59 (${R_IN}/ATM/${RESOL_ATM}/AR5/HISTORIQUE/climoz_LMDZ_${year}_v2.nc, climoz_LMDZ.nc),\ 60 (${R_IN}/ATM/SOLAR/CMIP6/v3.1/Historical/solarforcing_daily_3.1_6bands_${year}.nc, solarforcing.nc),\ 61 (${R_IN}/ATM/STRATAERO/CMIP6/v1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/taulwstrat.2D.${year}.nc, taulwstrat.2D.nc),\ 62 (${R_IN}/ATM/STRATAERO/CMIP6/v1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/tauswstrat.2D.${year}.nc, tauswstrat.2D.nc) 63 64 # Note: the SOLARANDVOLCANOES.txt is only used for LMDZ_Physics=AP and NPv3.2 (if ok_suntime_rrtm=n) 65 ListNonDel= (${R_IN}/ATM/GHG/CMIP6/historical/CO2_CMIP6_0000_2014.txt, CO2.txt),\ 66 (${R_IN}/ATM/GHG/CMIP6/historical/CH4_CMIP6_0000_2014.txt, CH4.txt),\ 67 (${R_IN}/ATM/GHG/CMIP6/historical/N2O_CMIP6_0000_2014.txt, N2O.txt),\ 68 (${R_IN}/ATM/GHG/CMIP6/historical/CFC11eq_CMIP6_0000_2014.txt, CFC11.txt),\ 69 (${R_IN}/ATM/GHG/CMIP6/historical/CFC12eq_CMIP6_0000_2014.txt, CFC12.txt),\ 70 (${R_IN}/ATM/IPCC_AR5/HISTORIQUE/SOLARANDVOLCANOES_1610_2008.txt, SOLARANDVOLCANOES.txt),\ 69 71 (${R_IN}/ATM/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_1855_v5.nc, aerosols.nat.nc) 70 72 … … 74 76 [ParametersFiles] 75 77 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def),\78 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def),\ 77 79 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 78 80 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZOR/amip/COMP/orchidee.card
r3024 r3061 7 7 # Sef DefSuffix=Choi (default) to activate default 2-layer Choisnel hydrology 8 8 # Set DefSuffix=CWRR to activate 11-layer CWRR hydrology 9 DefSuffix=C hoi9 DefSuffix=CWRR 10 10 11 11 VEGET_UPDATE=1Y … … 19 19 20 20 [BoundaryFiles] 21 List=(${R_IN}/SRF/PFT map_1850to2005_AR5_LUHa.rc2/PFTmap_IPCC_${year}.nc, PFTmap.nc)21 List=(${R_IN}/SRF/PFTMAPS/CMIP5/PFTmap_1850to2005_AR5_LUHa.rc2/PFTmap_IPCC_${year}.nc, PFTmap.nc) 22 22 ListNonDel= () 23 23 -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZOR/amip/config.card
r2694 r3061 40 40 [Executable] 41 41 #D- For each component: Real name of executable, Name of executable in the run directory 42 ATM= (gcm.e, lmdz.x, 31MPI, 1OMP) 42 #D- Here is set 47MPI*8OMP which is suitable for resolution 144x142x79 43 #D- Change to 31MPI*4OMP for resolution 96x95x39 44 ATM= (gcm.e, lmdz.x, 47MPI, 8OMP) 43 45 SRF= ("", "") 44 46 SBG= ("", "") -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/AER/COMP/inca.card
r2979 r3061 17 17 #choose sedimentation multilayer or one layer 18 18 multilayer_sedim=y 19 #coupled model with ORCH 20 CoupOrchInca=n 21 #active or not chemistry flux in output 22 calcul_flux=n 19 23 20 24 # Use XIOS and/or IOIPSL as output library -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/AER/COMP/lmdz.card
r3026 r3061 74 74 [ParametersFiles] 75 75 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 77 77 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 78 78 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/CREATE_erai/COMP/lmdz.card
r3012 r3061 46 46 [ParametersFiles] 47 47 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 48 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \48 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 49 49 (${SUBMIT_DIR}/PARAM/traceur.def_h2o_${LMDZ_Physics}, traceur.def), \ 50 50 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/DUSS/COMP/inca.card
r2981 r3061 19 19 #coupled model with ORCH 20 20 CoupOrchInca=n 21 #active or not chemistry flux in output 22 calcul_flux=n 21 23 22 24 # Use XIOS and/or IOIPSL as output library -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/DUSS/COMP/lmdz.card
r3026 r3061 74 74 [ParametersFiles] 75 75 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 77 77 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 78 78 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/GES/COMP/inca.card
r2954 r3061 13 13 # 86400 = daily output 14 14 freq_write_chem=86400 15 #choose sedimentation multilayer or one layer 16 multilayer_sedim=n 17 #coupled model with ORCH 18 CoupOrchInca=n 19 #active or not chemistry flux in output 20 calcul_flux=n 15 21 16 22 # Use XIOS and/or IOIPSL as output library -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/GES/COMP/lmdz.card
r3026 r3061 75 75 [ParametersFiles] 76 76 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 77 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \77 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 78 78 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 79 79 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/NMHC/COMP/inca.card
r2981 r3061 19 19 #coupled model with ORCH 20 20 CoupOrchInca=n 21 #active or not chemistry flux in output 22 calcul_flux=n 21 23 22 24 -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/NMHC/COMP/lmdz.card
r3026 r3061 74 74 [ParametersFiles] 75 75 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 77 77 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 78 78 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/NMHC_AER/COMP/inca.card
r2954 r3061 19 19 #coupled model with ORCH 20 20 CoupOrchInca=n 21 21 #active or not chemistry flux in output 22 calcul_flux=n 22 23 23 24 # Use XIOS and/or IOIPSL as output library -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/EXPERIMENTS/LMDZORINCA/NMHC_AER/COMP/lmdz.card
r3026 r3061 10 10 # LMDZ_Physics=NPv5.67 for new physics to be used with LMDZ5/testing revision 2546 or later 11 11 # LMDZ_Physics=NPv5.70 for new physics to be used with LMDZ5/testing revision 2595 or later 12 # LMDZ_Physics=NPv5.80bz0 for new physics to be used with LMDZ5/trunk revision 2699 or later 12 13 LMDZ_Physics=AP 13 14 … … 59 60 60 61 [InitialStateFiles] 61 # start and startphy are the clim files computed with CLIM_CREATE (create_etat0_limit) job62 62 List= (${R_IN}/CHM/INCA${RESOL_CHM}/start_nitrate.nc , start.nc ) \ 63 63 (${R_IN}/CHM/INCA${RESOL_CHM}/startphy_nitrate.nc , startphy.nc ) … … 74 74 [ParametersFiles] 75 75 List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ 76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY} , gcm.def), \76 (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}_${LMDZ_Physics}, gcm.def), \ 77 77 (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ 78 78 (${MODIPSL}/modeles/LMDZ/DefLists/cosp_input_nl.txt, .), \ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/DRIVER/inca.driver
r2833 r3061 111 111 fi 112 112 113 #inca.def : choose calcul interactif des diagnostiques flux chimique ou non 114 if [ ! X${inca_UserChoices_calcul_flux} = X ]; then 115 IGCM_comp_modifyDefFile nonblocker inca.def calcul_flux ${inca_UserChoices_calcul_flux} 116 else 117 IGCM_comp_modifyDefFile nonblocker inca.def calcul_flux n 118 fi 119 113 120 #inca.def : choose output library 114 121 if [ X${inca_UserChoices_XIOS} = Xy ] ; then … … 144 151 fi 145 152 146 # Long Name as global attribute(if LongName is not empty)153 # Add LongName as global attribute in XIOS output files (if LongName is not empty) 147 154 if [ ! "X${config_UserChoices_LongName}" = "X" ] ; then 148 155 listfile=$(ls file_def*inca.xml) -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/DRIVER/lmdz.driver
r2954 r3061 277 277 278 278 279 ## gcm.def parameters :280 # Modification of variable iphysiq depending on the physics281 if [ X${LMDZ_Physics} = X"AP" ] ; then282 if [ ${RESOL_ATM_3D} = 96x95x39 ]; then283 value=10284 elif [ ${RESOL_ATM_3D} = 144x142x39 ]; then285 value=15286 else287 IGCM_debug_Print 1 "LMDZ_Physics=${LMDZ_Physics} has not been tested for the current resolution RESOL_ATM_3D=${RESOL_ATM_3D}. "288 IGCM_debug_Print 1 "iphysiq must be defined for the current combination of resolution and phyiscs package"289 IGCM_debug_Exit "You need to add a special case in lmdz.driver to handle the above combination."290 fi291 elif [ X${LMDZ_Physics} = X"NPv3.1" ] ; then292 if [ ${RESOL_ATM_3D} = 96x95x39 ] ; then293 value=5294 elif [ ${RESOL_ATM_3D} = 144x142x39 ] ; then295 value=5296 else297 IGCM_debug_Print 1 "LMDZ_Physics=${LMDZ_Physics} has not been tested for the current resolution RESOL_ATM_3D=${RESOL_ATM_3D}. "298 IGCM_debug_Print 1 "iphysiq must be defined for the current combination of resolution and phyiscs package"299 IGCM_debug_Exit "You need to add a special case in lmdz.driver to handle the above combination."300 fi301 elif [ X${LMDZ_Physics} = X"NPv3.2" ] ; then302 if [ ${RESOL_ATM_3D} = 96x95x39 ] ; then303 value=5304 elif [ ${RESOL_ATM_3D} = 144x142x39 ] ; then305 value=5306 elif [ ${RESOL_ATM_3D} = 128x118x39 ] ; then307 value=15308 else309 IGCM_debug_Print 1 "LMDZ_Physics=${LMDZ_Physics} has not been tested for the current resolution RESOL_ATM_3D=${RESOL_ATM_3D}. "310 IGCM_debug_Print 1 "iphysiq must be defined for the current combination of resolution and phyiscs package"311 IGCM_debug_Exit "You need to add a special case in lmdz.driver to handle the above combination."312 fi313 else314 # Take default value set in gcm.def315 value=DEFAULT316 fi317 IGCM_comp_modifyDefFile nonblocker gcm.def iphysiq $value318 319 279 320 280 ## run.def parameters -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/DRIVER/orchidee.driver
r2907 r3061 1 1 #!/bin/ksh 2 # D- Driver du script pourORCHIDEE2 ## Driver for the component SRF corresponding to the sechiba part of ORCHIDEE 3 3 #----------------------------------------------------------------- 4 4 function SRF_Initialize … … 63 63 ## 2. Mangement of output and modifications of related xml files 64 64 65 # Set default values for sechiba1_enabled, sechiba1_freq and sechiba2_enabled. 65 # Set default values for sechiba1_enabled and sechiba1_freq. 66 # These variables are used only to modify file_def_orchidee.xml 66 67 sechiba1_enabled=.FALSE. 67 68 sechiba2_enabled=.FALSE. 68 69 sechiba1_freq=0s 70 sechiba2_freq=0s 69 71 70 # Get WriteFrenquecies from config.card for SECHIBA 71 # Note that it is only possible to have one HF and one other option. 72 # If more options are set in config.card only the latest will be used. 72 73 # Get WriteFrenquecy for SRF (SECHIBA) from config.card 74 # 1 or 2 frequencies can be set in WriteFrenquecy for SRF 75 # The first frequency will always be used for the sechiba_history file and the 76 # second frequency will be used for the sechiba_out_2.nc file. 77 # The files are activated only if its corresponding frequency is set in WriteFrequency 78 ifreq=0 73 79 for frequency in ${config_SRF_WriteFrequency} ; do 74 80 case ${frequency} in … … 76 82 NbYears=$( echo ${frequency} | awk -F '[yY]' '{print $1}' ) 77 83 NbDaysYear=$( IGCM_date_DaysInYear ${year} ) 78 sechiba1_enabled=.TRUE.79 sechiba1_freq=${NbYears}y ;;84 file_enabled=.TRUE. 85 file_freq=${NbYears}y ;; 80 86 *M|*m) 81 87 NbMonths=$( echo ${frequency} | awk -F '[mM]' '{print $1}' ) 82 sechiba1_enabled=.TRUE.83 sechiba1_freq=${NbMonths}mo ;;88 file_enabled=.TRUE. 89 file_freq=${NbMonths}mo ;; 84 90 *D|*d) 85 91 NbDays=$( echo ${frequency} | awk -F '[dD]' '{print $1}' ) 86 sechiba1_enabled=.TRUE.87 sechiba1_freq=${NbDays}d ;;92 file_enabled=.TRUE. 93 file_freq=${NbDays}d ;; 88 94 *s) 89 95 WriteInSeconds=$( echo ${frequency} | awk -F '[s]' '{print $1}' ) 90 sechiba1_enabled=.TRUE.91 sechiba1_freq=${WriteInSeconds}s ;;96 file_enabled=.TRUE. 97 file_freq=${WriteInSeconds}s ;; 92 98 HF|hf) 93 sechiba2_enabled=.TRUE. ;; 99 file_enabled=.TRUE. 100 file_freq=10800s ;; 94 101 *) 95 IGCM_debug_Exit "SRF WriteFrequency=${frequency} is invalid. Choose between xY, xM, xD, xs and HF for Sechiba." ;; 102 IGCM_debug_Exit "SRF_Update " ${frequency} " invalid WriteFrequency : choose in xY, xM, xD, xs and HF" 103 IGCM_debug_Verif_Exit ;; 104 esac 105 106 (( ifreq = ifreq + 1 )) 107 case ${ifreq} in 108 1) 109 sechiba1_enabled=${file_enabled} 110 sechiba1_freq=${file_freq} ;; 111 2) 112 sechiba2_enabled=${file_enabled} 113 sechiba2_freq=${file_freq} ;; 114 *) 115 IGCM_debug_Exit "SRF_Update: It is not possible to set more than 2 output files for sechiba from config.card" 116 IGCM_debug_Exit "You must correct WriteFrequancy in SRF secion in config.card." 117 IGCM_debug_Exit "Adapt file_def_orchidee.xml directly if you want more output files" 118 IGCM_debug_Verif_Exit ;; 96 119 esac 97 120 done 98 121 99 # Do the modifications in file_def_orchidee.xml 122 123 # Modify file_def_orchidee.xml file 100 124 IGCM_comp_modifyXmlFile nonblocker file_def_orchidee.xml sechiba1 enabled ${sechiba1_enabled} 101 125 IGCM_comp_modifyXmlFile nonblocker file_def_orchidee.xml sechiba1 output_freq ${sechiba1_freq} 102 126 IGCM_comp_modifyXmlFile nonblocker file_def_orchidee.xml sechiba2 enabled ${sechiba2_enabled} 127 IGCM_comp_modifyXmlFile nonblocker file_def_orchidee.xml sechiba2 output_freq ${sechiba2_freq} 128 103 129 104 130 # Add include of orchidee context in iodef.xml … … 110 136 rm iodef.xml.tmp add.tmp 111 137 112 #Long Name as global attribute (if LongName is not empty) 113 if [ ! "X${config_UserChoices_LongName}" = "X" ] ; then 114 listfile=$(ls file_def*orchidee.xml) 115 echo "<variable id=\"LongName\" type=\"string\">${config_UserChoices_LongName}</variable>" > add.tmp 116 for file in ${listfile} 117 do 118 cp ${file} ${file}.tmp 119 sed -e "/<file id/r add.tmp" \ 120 ${file}.tmp > ${file} 121 rm ${file}.tmp 122 done 123 rm add.tmp 124 fi 138 # Add LongName as global attribute in XIOS output files (if LongName is not empty) 139 if [ ! "X${config_UserChoices_LongName}" = "X" ] ; then 140 listfile=$(ls file_def*orchidee.xml) 141 echo "<variable id=\"LongName\" type=\"string\">${config_UserChoices_LongName}</variable>" > add.tmp 142 for file in ${listfile} 143 do 144 cp ${file} ${file}.tmp 145 sed -e "/<file id/r add.tmp" \ 146 ${file}.tmp > ${file} 147 rm ${file}.tmp 148 done 149 rm add.tmp 150 fi 151 125 152 126 153 IGCM_debug_PopStack "SRF_Update" -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/PARAM/config.def_actuel
r3024 r3061 24 24 #solaire = _AUTO_ : DEFAULT = 1366.0896 25 25 solaire = _AUTO_ : DEFAULT = 1361.20 26 ### constante solaire lue dans un fichier par defaut => temporairement dans physiq.def 27 ## ok_suntime_rrtm=y 26 28 # 27 29 # Taux gaz a effet de serre 28 30 # 29 ### co2_ppm = taux CO2 en ppm 30 co2_ppm = _AUTO_: DEFAULT = 0.36886500E+0331 ### CH4_ppb = taux CH4 en ppb 32 CH4_ppb = _AUTO_ : DEFAULT = 0.17510225E+0433 ### N2O_ppb = taux N2O en ppb 34 N2O_ppb = _AUTO_ : DEFAULT = 0.31585000E+0335 ### CFC11_ppt = taux CFC11eq CMIP6 en ppt31 ### co2_ppm = taux CO2 en ppm, l'année 2000 forcage CMIP6 32 co2_ppm = _AUTO_: DEFAULT = 3.6912e+02 33 ### CH4_ppb = taux CH4 en ppb, l'année 2000 forcage CMIP6 34 CH4_ppb = _AUTO_ : DEFAULT = 1.7780e+03 35 ### N2O_ppb = taux N2O en ppb, l'année 2000 forcage CMIP6 36 N2O_ppb = _AUTO_ : DEFAULT = 3.1576e+02 37 ### CFC11_ppt = taux en ppt, l'année 2000 forcage CFC11eq_CMIP6 36 38 CFC11_ppt = _AUTO_ : DEFAULT = 6.3990e+01 37 ### CFC12_ppt = taux CFC12eq CMIP6 en ppt39 ### CFC12_ppt = taux en ppt, l'année 2000 forcage CFC12eq_CMIP6 38 40 CFC12_ppt = _AUTO_ : DEFAULT = 1.0511e+03 39 41 # … … 65 67 # 2: read two ozone climatologies, the average day and night climatology and the daylight climatology 66 68 read_climoz=_AUTO_ 69 # 70 # Aerosols stratospheriques utilises par defaut => temporairement dans physiq.def 71 ##flag_aerosol_strat=2 72 # 67 73 # COSP 68 74 ok_cosp=_AUTO_ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/PARAM/config.def_preind
r3024 r3061 25 25 ### solaire = Constante solaire 26 26 solaire = _AUTO_: DEFAULT = 1361.20 27 ### constante solaire lue dans un fichier par defaut => temporairement dans physiq.def 28 ##ok_suntime_rrtm=y 27 29 # 28 30 # Taux gaz a effet de serre 29 31 # 30 ### co2_ppm = taux CO2 en ppm 31 co2_ppm = _AUTO_: DEFAULT = 0.28472500E+0332 ### CH4_ppb = taux CH4 en ppb 33 CH4_ppb = _AUTO_: DEFAULT = 0.79097924E+0334 ### N2O_ppb = taux N2O en ppb 35 N2O_ppb = _AUTO_: DEFAULT = 0.27542506E+0336 ### CFC11_ppt = taux CFC11eq CMIP6 en ppt32 ### co2_ppm = taux CO2 en ppm, l'année 1850 forcage CMIP6 33 co2_ppm = _AUTO_: DEFAULT = 2.8432e+02 34 ### CH4_ppb = taux CH4 en ppb, l'année 1850 forcage CMIP6 35 CH4_ppb = _AUTO_: DEFAULT = 8.0825e+02 36 ### N2O_ppb = taux N2O en ppb, l'année 1850 forcage CMIP6 37 N2O_ppb = _AUTO_: DEFAULT = 2.7302e+02 38 ### CFC11_ppt = taux en ppt, l'année 2000 forcage CFC11eq_CMIP6 37 39 CFC11_ppt = _AUTO_: DEFAULT = 1.1726e+01 38 ### CFC12_ppt = taux CFC12eq CMIP6 en ppt40 ### CFC12_ppt = taux en ppt, l'année 2000 forcage CFC12eq_CMIP6 39 41 CFC12_ppt = _AUTO_: DEFAULT = 1.6513e+01 40 42 # … … 66 68 # 2: read two ozone climatologies, the average day and night climatology and the daylight climatology 67 69 read_climoz=_AUTO_ 70 # 71 # Aerosols stratospheriques utilises par defaut => temporairement dans physiq.def 72 # 73 ##flag_aerosol_strat=2 74 # 68 75 # COSP 76 # 69 77 ok_cosp=_AUTO_ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/PARAM/inca.def
r2735 r3061 20 20 #coupled model with orchidee 21 21 CoupOrchInca=_AUTO_ 22 22 #output diagnostic for chemistry flux 23 calcul_flux=_AUTO_ -
CONFIG/UNIFORM/v6/LMDZORINCA_v6/GENERAL/POST/monitoring01_lmdz.cfg
r2784 r3061 61 61 tro3_strato_forcing | "tro3" | "" | "tro3[x=@din,y=@din,k=1:7@sum,d=1]" | "ozone strato k=1:7@sum" | "Mole" | "" 62 62 tro3_tropo_forcing | "tro3" | "" | "tro3[x=@din,y=@din,k=8:17@sum,d=1]" | "ozone trop k=8:17@sum" | "Mole" | "" 63 solaire_forcing | "solaire" | "" | "solaire[d=1]" | "Constante solaire" | "W/m^2" | "1"64 co2_ppm_forcing | "co2_ppm" | "" | "co2_ppm[d=1]" | "Concentration du CO2" | "ppm" | "1"65 CH4_ppb_forcing | "CH4_ppb" | "" | "CH4_ppb[d=1]" | "Concentration du CH4" | "ppb" | "1"66 N2O_ppb_forcing | "N2O_ppb" | "" | "N2O_ppb[d=1]" | "Concentration du N2O" | "ppb" | "1"67 CFC11_ppt_forcing | "CFC11_ppt" | "" | "CFC11_ppt[d=1]" | "Concentration du CFC11" | "ppt" | "1"68 CFC12_ppt_forcing | "CFC12_ppt" | "" | "CFC12_ppt[d=1]" | "Concentration du CFC12" | "ppt" | "1"63 ## solaire_forcing | "solaire" | "" | "solaire[d=1]" | "Constante solaire" | "W/m^2" | "1" 64 ## co2_ppm_forcing | "co2_ppm" | "" | "co2_ppm[d=1]" | "Concentration du CO2" | "ppm" | "1" 65 ## CH4_ppb_forcing | "CH4_ppb" | "" | "CH4_ppb[d=1]" | "Concentration du CH4" | "ppb" | "1" 66 ## N2O_ppb_forcing | "N2O_ppb" | "" | "N2O_ppb[d=1]" | "Concentration du N2O" | "ppb" | "1" 67 ## CFC11_ppt_forcing | "CFC11_ppt" | "" | "CFC11_ppt[d=1]" | "Concentration du CFC11" | "ppt" | "1" 68 ## CFC12_ppt_forcing | "CFC12_ppt" | "" | "CFC12_ppt[d=1]" | "Concentration du CFC12" | "ppt" | "1" 69 69 ## R_ecc_forcing | "R_ecc" | "" | "R_ecc[d=1]" | "Excentricite" | "-" | "1" 70 70 ## R_peri_forcing | "R_peri" | "" | "R_peri[d=1]" | "Equinoxe" | "-" | "1"
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