- Timestamp:
- 12/02/21 20:03:12 (2 years ago)
- Location:
- CONFIG/UNIFORM/v6/LMDZREPR_v6
- Files:
-
- 1 added
- 5 edited
Legend:
- Unmodified
- Added
- Removed
-
CONFIG/UNIFORM/v6/LMDZREPR_v6/EXPERIMENTS/LMDZREPR/amip/COMP/lmdz.card
r5882 r5999 71 71 List= (${R_IN}/ATM/LIMIT/AMIP.v20170419/interpol/${RESOL_ATM_XY}_eORCA1.2_gregorian/limit_${year}.nc, limit.nc),\ 72 72 (${R_IN}/ATM/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_${year}_v5.nc, aerosols${year}.nc),\ 73 (${R_IN}/ATM/OZONE/UReading/historical.v20160711.v2/interpol/${RESOL_ATM_XY}/climoz_LMDZ_${year}.nc, climoz_LMDZ.nc),\74 73 (${R_IN}/ATM/SOLAR/CCMI-2022/Historical/daily/solarforcing_daily_3.2_6bands_${year}.nc, solarforcing.nc),\ 75 (${R_IN}/ATM/STRATAERO/CMIP6/v 1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/taulwstrat.2D.${year}.nc, taulwstrat.2D.nc),\76 (${R_IN}/ATM/STRATAERO/CMIP6/v 1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/tauswstrat.2D.${year}.nc, tauswstrat.2D.nc)74 (${R_IN}/ATM/STRATAERO/CMIP6/v4/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/taulwstrat.2D.${year}.nc, taulwstrat.2D.nc),\ 75 (${R_IN}/ATM/STRATAERO/CMIP6/v4/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/tauswstrat.2D.${year}.nc, tauswstrat.2D.nc) 77 76 78 77 -
CONFIG/UNIFORM/v6/LMDZREPR_v6/EXPERIMENTS/LMDZREPR/amip_CMIP6/COMP/lmdz.card
r5944 r5999 19 19 # The parameter file PARAM/config.def_$ConfType will be used. 20 20 # ConfType=preind/actuel/annuel 21 ConfType=a ctuel21 ConfType=annuel 22 22 23 23 # Activate the call to phytrac to run tracer simulation … … 25 25 26 26 # Manage radiative aerosol effect and ozone 27 flag_aerosol= 028 ok_ade= n29 ok_aie= n27 flag_aerosol=6 28 ok_ade=y 29 ok_aie=y 30 30 aerosol_couple=n 31 31 read_climoz=0 32 ok_cdnc= n32 ok_cdnc=y 33 33 34 34 # ByPass_hgardfou_teta=y : modify teta_ parameters for following CumulPeriod only … … 47 47 # output_level_filename=10 : activate the corresponding file with high output level 48 48 # output_level_filename=NONE : the file will not be written 49 output_level_histmth = NONE49 output_level_histmth = 1 50 50 output_level_histday = NONE 51 51 output_level_histhf = NONE … … 69 69 [BoundaryFiles] 70 70 # With CMIP6 aerosols version 1 71 List= (${R_IN}/ATM/LIMIT/AMIP.v20170419/interpol/${RESOL_ATM_XY}_eORCA1.2_gregorian/limit_${year}.nc, limit.nc),\ 72 (${R_IN}/ATM/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_${year}_v5.nc, aerosols${year}.nc),\ 73 (${R_IN}/ATM/OZONE/UReading/historical.v20160711.v2/interpol/${RESOL_ATM_XY}/climoz_LMDZ_${year}.nc, climoz_LMDZ.nc),\ 71 List= (${R_IN}/ATM/LIMIT/CMIP6/CM61-LR-hist-03.1910/interpol/${RESOL_ATM_XY}_eORCA1.2_gregorian/limit_${year}.nc, limit.nc),\ 72 (${R_IN}/ATM/AEROSOLS/CMIP6/v1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/aerosols${year}_from_inca.nc, aerosols${year}.nc),\ 74 73 (${R_IN}/ATM/SOLAR/CCMI-2022/Historical/daily/solarforcing_daily_3.2_6bands_${year}.nc, solarforcing.nc),\ 75 (${R_IN}/ATM/STRATAERO/CMIP6/v 1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/taulwstrat.2D.${year}.nc, taulwstrat.2D.nc),\76 (${R_IN}/ATM/STRATAERO/CMIP6/v 1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/tauswstrat.2D.${year}.nc, tauswstrat.2D.nc)74 (${R_IN}/ATM/STRATAERO/CMIP6/v4/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/taulwstrat.2D.${year}.nc, taulwstrat.2D.nc),\ 75 (${R_IN}/ATM/STRATAERO/CMIP6/v4/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/tauswstrat.2D.${year}.nc, tauswstrat.2D.nc) 77 76 78 77 … … 84 83 (${R_IN}/ATM/GHG/CCMI-2022/REFD1/HFC134aeq_ref-d1_0000-2019.txt, CFC11.txt),\ 85 84 (${R_IN}/ATM/GHG/CCMI-2022/REFD1/CFC12eq_ref-d1_0000-2019.txt, CFC12.txt),\ 86 (${R_IN}/ATM/ ${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_1855_v5.nc, aerosols.nat.nc)85 (${R_IN}/ATM/AEROSOLS/CMIP6/v1/${RESOL_ATM_XY}/L${RESOL_ATM_Z}/aerosols1855_from_inca.nc, aerosols.nat.nc) 87 86 88 87 … … 127 126 128 127 [OutputFiles] 129 List= (histmth.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc, NONE), \128 List= (histmth.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc, Post_1M_histmth), \ 130 129 (histmthCOSP.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthCOSP.nc, NONE), \ 131 130 (histmthNMC.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthNMC.nc, NONE), \ … … 143 142 GatherWithInternal = (lon, lat, presnivs, time_counter, time_centered, time_centered_bounds, aire) 144 143 TimeSeriesVars2D = (bils, cldh, cldl, cldm, cldq, cldt, evap, flat, ftime_con, iwp, lwp, LWdnSFC, LWdnSFCclr, LWupSFC, 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, ave_t2m_daily_max, ave_t2m_daily_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, od550_STRAT, 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, R_ecc, R_peri, R_incl, solaire, rsun1, co2_ppm, CH4_ppb, N2O_ppb, CFC11_ppt, CFC12_ppt, colO3_strat, colO3_trop) 145 ChunckJob2D = 100Y144 ChunckJob2D = OFF 146 145 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) 147 ChunckJob3D = 100Y148 Seasonal=O N146 ChunckJob3D = OFF 147 Seasonal=OFF 149 148 150 149 [Post_1M_histmthCOSP] -
CONFIG/UNIFORM/v6/LMDZREPR_v6/EXPERIMENTS/LMDZREPR/amip_CMIP6/COMP/reprobus.card
r5963 r5999 10 10 # output_level_filename=10 : activate the corresponding file with high output level 11 11 # output_level_filename=NONE : the file will not be written 12 output_level_reprobus_species = NONE13 output_level_reprobus_speciesm = NONE12 output_level_reprobus_species = 5 13 output_level_reprobus_speciesm = 1 14 14 15 15 … … 54 54 55 55 [OutputFiles] 56 List= (reprobus_species.nc, ${R_OUT_CHM_O_D}/${PREFIX}_1D_reprobus_species.nc, NONE),\56 List= (reprobus_species.nc, ${R_OUT_CHM_O_D}/${PREFIX}_1D_reprobus_species.nc, Post_1D_reprobus_species),\ 57 57 (reprobus_speciesm.nc, ${R_OUT_CHM_O_M}/${PREFIX}_1M_reprobus_speciesm.nc, NONE) 58 59 60 [Post_1D_reprobus_species] 61 Patches= () 62 GatherWithInternal = (lon, lat, presnivs, time_centered, time_centered_bounds, time_counter, area) 63 TimeSeriesVars2D = (colo3) 64 ChunckJob2D = NONE 65 TimeSeriesVars3D = (CH4, H2Orep, NO2, N2O, HNO3, N2O5, NO, NOy, O3, HBr, BrONO2, BrO, HOBr, BrCl, Br, HCl, ClONO2, ClO, Cl2O2, HOCl, OClO, Cl) 66 ChunckJob3D = NONE 67 Seasonal=OFF 68 69 -
CONFIG/UNIFORM/v6/LMDZREPR_v6/EXPERIMENTS/LMDZREPR/amip_CMIP6/config.card
r5944 r5999 121 121 #D- TimeSeriesFreqency determines the frequency of post-processing submission 122 122 #D- Set NONE to deactivate the creation of all time series 123 TimeSeriesFrequency= NONE123 TimeSeriesFrequency=1M 124 124 #D- SeasonalFrequency determines the length for each seasonal average 125 125 #D- Set NONE to deactivate the creation of all seasonal avereage -
CONFIG/UNIFORM/v6/LMDZREPR_v6/GENERAL/POST/monitoring01_lmdz.cfg
r5608 r5999 50 50 evap_global | "evap" | "" | "evap[d=1]" | "Evaporation (GLOBAL)" | "kg/(s*m2)" | "aire[d=1]" 51 51 evap_land | "evap pourc_ter pourc_lic" | "" | "evap[d=1]" | "Evaporation (LAND)" | "kg/(s*m2)" | "aire[d=1]*((pourc_ter[d=2]+pourc_lic[d=3])/100.)" 52 flat_global | "flat" | "" | "flat[d=1]" | "Surf. latent heat flux (GLOBAL)" | "W/m^2" | "aire[d=1]"52 # flat_global | "flat" | "" | "flat[d=1]" | "Surf. latent heat flux (GLOBAL)" | "W/m^2" | "aire[d=1]" 53 53 prw_global | "prw" | "" | "prw[d=1]" | "Precipitable water (GLOBAL)" | "kg/m^2" | "aire[d=1]" 54 54 ener_global | "nettop precip snow sols soll sens" | "" | "nettop[d=1,x=@ave,y=@ave]+(precip[d=2,x=@ave,y=@ave]-snow[d=3,x=@ave,y=@ave])*2.5008E+6+snow[d=3,x=@ave,y=@ave]*2.8345E+6-sols[d=4,x=@ave,y=@ave]-soll[d=5,x=@ave,y=@ave]-sens[d=6,x=@ave,y=@ave]" | "Destruction d energie par l atmosphere" | "W/m^2" | "1" | 55 bils_corrected_global | "bils precip snow flat" | "" | "bils[d=1,x=@ave,y=@ave]-flat[d=4,x=@ave,y=@ave]-(precip[d=2,x=@ave,y=@ave]-snow[d=3,x=@ave,y=@ave])*2.5008E+6-snow[d=3,x=@ave,y=@ave]*2.8345E+6" | "Corrected energy budget at surface" | "W/m^2" | "1" |55 # bils_corrected_global | "bils precip snow flat" | "" | "bils[d=1,x=@ave,y=@ave]-flat[d=4,x=@ave,y=@ave]-(precip[d=2,x=@ave,y=@ave]-snow[d=3,x=@ave,y=@ave])*2.5008E+6-snow[d=3,x=@ave,y=@ave]*2.8345E+6" | "Corrected energy budget at surface" | "W/m^2" | "1" | 56 56 vitu_qbo | "vitu" | "" | "vitu[y=-5:5@ave,x=-180:180@ave,z=5000,d=1]" | "vitu at 5000 Pa for QBO +5deg/-5deg" | "m/s" | "1" 57 od550aer_tropo_forcing | "od550aer" | "" | "od550aer[d=1]" | "Total aerosol optical depth at 550nm" | "-" | "aire[d=1]"58 od550aer_strat_forcing | "od550_STRAT" | "" | "od550_STRAT[d=1]" | "Aerosol optical depth at 550nm" | "-" | "aire[d=1]"59 od550lt1aer_forcing | "od550lt1aer" | "" | "od550lt1aer[d=1]" | "Fine mode optical depth" | "-" | "aire[d=1]"60 tro3_strato_forcing_DU | "colO3_strat" | "" | "colO3_strat[x=@ave,y=@ave,d=1]" | "colonne ozone strato" | "DU" | ""61 tro3_tropo_forcing_DU | "colO3_trop" | "" | "colO3_trop[x=@ave,y=@ave,d=1]" | "colonne ozone trop" | "DU" | ""57 # od550aer_tropo_forcing | "od550aer" | "" | "od550aer[d=1]" | "Total aerosol optical depth at 550nm" | "-" | "aire[d=1]" 58 # od550aer_strat_forcing | "od550_STRAT" | "" | "od550_STRAT[d=1]" | "Aerosol optical depth at 550nm" | "-" | "aire[d=1]" 59 # od550lt1aer_forcing | "od550lt1aer" | "" | "od550lt1aer[d=1]" | "Fine mode optical depth" | "-" | "aire[d=1]" 60 # tro3_strato_forcing_DU | "colO3_strat" | "" | "colO3_strat[x=@ave,y=@ave,d=1]" | "colonne ozone strato" | "DU" | "" 61 # tro3_tropo_forcing_DU | "colO3_trop" | "" | "colO3_trop[x=@ave,y=@ave,d=1]" | "colonne ozone trop" | "DU" | "" 62 62 solaire_forcing | "solaire" | "" | "solaire[d=1]" | "Constante solaire" | "W/m^2" | "1" 63 63 rsun1_forcing | "rsun1" | "" | "rsun1[d=1]" | "Fraction bande 1" | "-" | "1"
Note: See TracChangeset
for help on using the changeset viewer.