#- $Id: lmdz.card 70 2007-06-21 14:20:42Z acosce $ [Compatibility] libIGCM=1.0 [UserChoices] # Physics package to use : # LMDZ_Physics=AP for standard/old physics(defalut), can be used with LMDZ4_AR5 or LMDZ5/trunk sources # LMDZ_Physics=NPv3.2 for new physics, to be used with LMDZ5/trunk revision 1554 or later # LMDZ_Physics=NPv5.4 for new physics to be used with LMDZ5/trunk revision 2449 or later LMDZ_Physics=AP # Use XIOS as output library XIOS=y # Set the variable CREATE needed further below to find the initial and boundary condition files. CREATE=ELC-${RESOL_ATM_3D} # ByPass_hgardfou_teta=y : modify teta_ parameters for following CumulPeriod only ByPass_hgardfou_teta=n # ByPass_hgardfou_mats=y : set parameter purmats=y for following CumulPeriod only ByPass_hgardfou_mats=n # Set ConfType to choose parameters for aerosols, solar and green house gazes. # The parameter file PARAM/config.def_$ConfType will be used. # ConfType=preind/actuel/annuel ConfType=actuel # manage radiative aerosol effect and ozone flag_aerosol=6 ok_ade=y ok_aie=n aerosol_couple=y read_climoz=0 ok_cdnc=y # Set OutLevel to choose the level of output for LMDZ. # OutLevel=low/medium/high OutLevel=low # COSP activation and choose of output frequency for COSP (monthly, daily, HF) = y/n LMDZ_COSP_OK=n LMDZ_COSP_monthly=n LMDZ_COSP_daily=n LMDZ_COSP_hf=n # Set NMC Outputs frequency (monthly, daily, HF) = y/n LMDZ_NMC_monthly=n LMDZ_NMC_daily=n LMDZ_NMC_hf=n # Nugding : ok_guide=y/n # If ok_guide=y, add nudging files(u.nc, v.nc, hur.nc,...) in BoundaryFiles section below. ok_guide=n [InitialStateFiles] # start and startphy are the clim files computed with CLIM_CREATE (create_etat0_limit) job List= (${R_IN}/CHM/INCA${RESOL_CHM}/start_nitrate.nc , start.nc ) \ (${R_IN}/CHM/INCA${RESOL_CHM}/startphy_nitrate.nc , startphy.nc ) [BoundaryFiles] List= (${R_IN}/ATM/${RESOL_ATM}/LIMIT/ERAI/leap/limit_${year}.nc , limit.nc) # (${R_IN}/ATM/${RESOL_ATM}/NUDGE_FILES/ERAI/AN${year}/u_ecmwf_${year}${month}.nc , u.nc ),\ # (${R_IN}/ATM/${RESOL_ATM}/NUDGE_FILES/ERAI/AN${year}/v_ecmwf_${year}${month}.nc , v.nc ) ListNonDel= () [ParametersFiles] List= (${SUBMIT_DIR}/PARAM/physiq.def_${LMDZ_Physics}, physiq.def), \ (${SUBMIT_DIR}/PARAM/gcm.def_${RESOL_ATM_XY}, gcm.def), \ (${SUBMIT_DIR}/PARAM/vert.def_L${RESOL_ATM_Z}, vert.def), \ (${SUBMIT_DIR}/PARAM/cosp_input_nl.txt, .), \ (${SUBMIT_DIR}/PARAM/cosp_output_nl.txt, .), \ (${SUBMIT_DIR}/PARAM/config.def_${ConfType}, config.def), \ (${SUBMIT_DIR}/PARAM/guide.def, .), \ (${SUBMIT_DIR}/PARAM/run.def, .), \ (${SUBMIT_DIR}/PARAM/traceur.def_h2o_${LMDZ_Physics}, traceur.def), \ (${SUBMIT_DIR}/PARAM/iodef.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histmth_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histmthCOSP_lmdz.xml, .), \ (${SUBMIT_DIR}/PARAM/file_def_histmthNMC_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histday_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histdayCOSP_lmdz.xml, .), \ (${SUBMIT_DIR}/PARAM/file_def_histdayNMC_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histhf_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histhfCOSP_lmdz.xml, .), \ (${SUBMIT_DIR}/PARAM/file_def_histhfNMC_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histstn_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histins_lmdz.xml, . ), \ (${SUBMIT_DIR}/PARAM/file_def_histLES_lmdz.xml, . ), \ (${MODIPSL}/modeles/LMDZ/DefLists/context_lmdz.xml, . ), \ (${MODIPSL}/modeles/LMDZ/DefLists/field_def_lmdz.xml, . ) [RestartFiles] List= (restart.nc, restart.nc, start.nc), \ (restartphy.nc, restartphy.nc, startphy.nc) [OutputText] List= (physiq.def, gcm.def, vert.def, run.def, traceur.def, guide.def, config.def, used_run.def, iodef.xml, context_lmdz.xml, field_def_lmdz.xml, file_def_*lmdz.xml, debug.01, lmdz.prt,out_gcm.e.err, out_gcm.e.out) [OutputFiles] List= (histmth.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc, Post_1M_histmth ) [Post_1M_histmth] Patches= () GatherWithInternal = (lon, lat, presnivs, time_counter, time_centered, time_centered_bounds, aire) TimeSeriesVars2D = (bils, cldh, cldl, cldm, cldq, cldt, evap, flat, ftime_con, iwp, lwp, LWdnSFC, LWdnSFCclr, LWupSFCclr, LWdn200, LWdn200clr, LWup200, LWup200clr, precip, prw, pluc, psol, q2m, rh2m, sens, sicf, slp, snow, soll0, soll, sols0, sols, SWdnSFC, SWupSFC, SWup200, SWdnTOA, SWupTOA, SWdn200, SWdnSFCclr, SWupSFCclr, SWupTOAclr, t2m, t2m_max, t2m_min, taux, taux_ter, taux_sic, taux_lic, taux_oce, tauy, tauy_ter, tauy_sic, tauy_lic, tauy_oce, lat_ter, lat_sic, lat_lic, lat_oce, nettop, pbase, ptop, topl0, topl, tops0, tops, topswad, topswai, tsol, tsol_ter, tsol_lic, tsol_oce, tsol_sic , u10m, u500, v10m, v500, w500, pourc_ter, pourc_oce, pourc_sic, pourc_lic, wind10m, od550aer, od550lt1aer, absvisaer, loadoa, loadbc, loadso4, loaddust, loadss, sconcoa, sconcbc, sconcso4, sconcdust, sconcss, reffclwtop, cldncl, swtoaas_ant, swtoacs_ant, swtoacf_ant, swsrfas_ant, swsrfcs_ant, swsrfcf_ant, swtoaas_nat, swtoacs_nat, swtoacf_nat, swsrfas_nat, swsrfcs_nat, swsrfcf_nat, solswai, solswad, swtoacf_zero, swsrfcf_zero) ChunckJob2D = 100Y TimeSeriesVars3D = (upwd, lwcon, iwcon, lcc3dcon, lcc3dstra, temp, theta, ovap, ovapinit, geop, vitu, vitv, vitw, pres, rneb, rnebcon, rhum, mc, paprs, scdnc, ec550aer, concoa, concbc, concso4, concss, concdust, reffclws, reffclwc, tnt, dtdyn, dtphy, dtlschr, tntr, tntscpbl, tnhus, dqdyn, dqvdf, tnhusscpbl, dqphy, evu, mcd) ChunckJob3D = 100Y Seasonal=ON