Changeset 1534
- Timestamp:
- 08/12/11 16:42:33 (13 years ago)
- Location:
- CMIP5/1pctCO2/v5.1pctCO2MR1
- Files:
-
- 12 edited
Legend:
- Unmodified
- Added
- Removed
-
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/lim2.card
r1384 r1534 40 40 GatherWithInternal = (nav_lon, nav_lat, time_counter, time_counter_bnds) 41 41 TimeSeriesVars2D = (iicethic, iicevelu, iicevelv, ileadfra) 42 ChunckJob2D = 200Y 42 ###ChunckJob2D = 200Y 43 ChunckJob2D = OFF 43 44 TimeSeriesVars3D = () 44 45 ChunckJob3D = NONE -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/lmdz.card
r1507 r1534 41 41 [BoundaryFiles] 42 42 List= () 43 ListNonDel= (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/SOLARANDVOLCANOES_1610_2008.txt, .),\ 44 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CO2_1765_2005.txt, .),\ 45 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CH4_1765_2005.txt, .),\ 46 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/N2O_1765_2005.txt, .),\ 47 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CFC11_1765_2005.txt, .),\ 48 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/HISTORIQUE/CFC12_1765_2005.txt, .),\ 49 (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_1855_v3.nc, aerosols.nat.nc) 43 ListNonDel= (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_1855_v5.nc, aerosols.nat.nc),\ 44 (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/climoz_LMDZ_1855_v2.nc, climoz_LMDZ.nc), \ 45 (${R_BC}/ATM/${config_UserChoices_TagName}/IPCC_AR5/1ptCo2/CMIP_CO2_1850_2050.txt,.) 50 46 51 47 [SmoothFiles] 52 # With AR5 aerosols (including ASSO4M(=SO4), CSSO4M, AIBCM, ASBCM, AIPOMM, ASPOMM, ASSSM, CSSSM, SSSSM, CIDUSTM) 53 # With AR5 ozone(tropo + strato from LMDZOR-INCA-REPROBUS simulations) 54 List= (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/aerosols_11YearsClim_${year}_v3.nc, aerosols${year}.nc, 1:12:), \ 55 (${R_BC}/ATM/${config_UserChoices_TagName}/${RESOL_ATM}/AR5/HISTORIQUE/climoz_LMDZ_${year}_v2.nc, climoz_LMDZ.nc, 1:12:) 48 List= () 56 49 57 50 [ParametersFiles] … … 69 62 [OutputText] 70 63 List= () 71 #List= (lmdz.x.prt)72 64 73 65 [OutputFiles] 74 List= (histmth.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc, Post_1M_histmth),\75 (histmthCOSP.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthCOSP.nc, Post_1M_histmthCOSP),\76 (histmthNMC.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthNMC.nc, Post_1M_histmthNMC),\77 (dynzon.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_dynzon.nc, Post_1M_dynzon),\78 (paramLMDZ_phy.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_paramLMDZ_phy.nc, Post_1M_paramLMDZ_phy),\79 (histday .nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histday.nc, Post_1D_histday),\80 (histday COSP.nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayCOSP.nc, Post_1D_histdayCOSP),\81 (hist dayNMC.nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayNMC.nc, Post_1D_histdayNMC),\82 (histhf .nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhf.nc, Post_HF_histhf),\83 (histhf COSP.nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfCOSP.nc, Post_HF_histhfCOSP),\84 (histhf NMC.nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfNMC.nc, Post_HF_histhfNMC),\85 (histhf3h.nc, ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3h.nc, Post_3H_histhf3h),\86 ( histhf3hm.nc, ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3hm.nc, Post_3H_histhf3hm)66 List= (histmth.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmth.nc, Post_1M_histmth), \ 67 (histmthCOSP.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthCOSP.nc, Post_1M_histmthCOSP), \ 68 (histmthNMC.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_histmthNMC.nc, Post_1M_histmthNMC), \ 69 (dynzon.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_dynzon.nc, Post_1M_dynzon), \ 70 (histday.nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histday.nc, Post_1D_histday), \ 71 (histdayCOSP.nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayCOSP.nc, Post_1D_histdayCOSP), \ 72 (histdayNMC.nc, ${R_OUT_ATM_O_D}/${PREFIX}_1D_histdayNMC.nc, Post_1D_histdayNMC), \ 73 (histhf.nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhf.nc, Post_HF_histhf), \ 74 (histhfCOSP.nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfCOSP.nc, Post_HF_histhfCOSP), \ 75 (histhfNMC.nc, ${R_OUT_ATM_O_H}/${PREFIX}_HF_histhfNMC.nc, Post_HF_histhfNMC), \ 76 (histhf3h.nc, ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3h.nc, Post_3H_histhf3h), \ 77 (histhf3hm.nc, ${R_OUT_ATM_O_H}/${PREFIX}_3H_histhf3hm.nc, Post_3H_histhf3hm), \ 78 (paramLMDZ_phy.nc, ${R_OUT_ATM_O_M}/${PREFIX}_1M_paramLMDZ_phy.nc, Post_1M_paramLMDZ_phy) 87 79 88 80 [Post_1M_histmth] … … 91 83 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, swtoacf_zero, swsrfcf_zero) 92 84 ChunckJob2D = NONE 93 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, Aga, rlu, rsu, rld, rsd, rlucs, rsucs, rldcs, rsdcs, tnt, dtdyn, dtphy, dtlschr, tntr, tntc, tntscpbl, tnhus, dqdyn, tnhusc, dqvdf, tnhusscpbl, dqphy, evu, kz, mcd) 94 ChunckJob3D = 100Y 85 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, Aga) 86 ###ChunckJob3D = 50Y 87 ChunckJob3D = OFF 95 88 Seasonal=ON 96 89 … … 99 92 GatherWithInternal = (lon, lat, pressure2, height, sza, time_counter, time_counter_bnds) 100 93 TimeSeriesVars2D = (cllcalipso, clmcalipso, clhcalipso, cltcalipso, tclisccp, albisccp, ctpisccp) 101 ChunckJob2D = NONE 94 ###ChunckJob2D = NONE 95 ChunckJob2D = OFF 102 96 TimeSeriesVars3D = (clcalipso, clisccp2_c01, clisccp2_c02, clisccp2_c03, clisccp2_c04, clisccp2_c05, clisccp2_c06, clisccp2_c07, parasol_refl) 103 ChunckJob3D = 100Y 97 ###ChunckJob3D = 50Y 98 ChunckJob3D = OFF 104 99 Seasonal=OFF 105 100 … … 110 105 ChunckJob2D = NONE 111 106 TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap, psbg, uv, vq, vT, wq, vphi, wT, uxu, vxv, TxT, tro3, tro3_daylight) 112 ChunckJob3D = 100Y 107 ###ChunckJob3D = 100Y 108 ChunckJob3D = OFF 113 109 Seasonal=ON 114 110 … … 126 122 GatherWithInternal = (lon, lat, time_counter, time_counter_bnds) 127 123 TimeSeriesVars2D =(R_ecc, R_peri, R_incl, solaire, co2_ppm, CH4_ppb, N2O_ppb, CFC11_ppt, CFC12_ppt) 128 ChunckJob2D = NONE124 ChunckJob2D = 50Y 129 125 TimeSeriesVars3D = () 130 126 ChunckJob3D = NONE 131 Seasonal=O FF127 Seasonal=ON 132 128 133 129 [Post_1D_histday] … … 135 131 GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds) 136 132 TimeSeriesVars2D = (bils, cldh, cldl, cldm, cldq, cldt, evap, flat, iwp, lwp, pbase, ptop, precip, pluc, plul, prw, psol, rh2m, rh2m_min, rh2m_max, q2m, sens, sicf, slp, soll, sols, snow, LWdnSFC, LWdnSFCclr, SWdnSFC, SWdnSFCclr, SWdnTOA, LWupSFCclr, SWupSFC, SWupSFCclr, SWupTOA, SWupTOAclr, t2m, t2m_max, t2m_min, topl, topl0, tops, tsol, t700, u10m, v10m, wind10m, wind10max, w500) 137 ChunckJob2D = 50Y 133 ###ChunckJob2D = 50Y 134 ChunckJob2D = OFF 138 135 TimeSeriesVars3D = (lwcon, iwcon, mc, rhum, rneb, temp, theta, ovap, geop, vitu, vitv, vitw, pres, paprs) 139 ChunckJob3D = 10Y 136 ###ChunckJob3D = 10Y 137 ChunckJob3D = OFF 140 138 Seasonal=OFF 141 139 … … 144 142 GatherWithInternal = (lon, lat, pressure2, height, sza, time_counter, time_counter_bnds) 145 143 TimeSeriesVars2D = (cllcalipso, clmcalipso, clhcalipso, cltcalipso, tclisccp, albisccp, ctpisccp) 146 ChunckJob2D = 200Y 144 ###ChunckJob2D = 20Y 145 ChunckJob2D = OFF 147 146 TimeSeriesVars3D = (clcalipso, clisccp2_c01, clisccp2_c02, clisccp2_c03, clisccp2_c04, clisccp2_c05, clisccp2_c06, clisccp2_c07, parasol_refl) 148 ChunckJob3D = 10Y 147 ###ChunckJob3D = 10Y 148 ChunckJob3D = OFF 149 149 Seasonal=OFF 150 150 … … 155 155 ChunckJob2D = NONE 156 156 TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap) 157 ChunckJob3D = 10Y 157 ###ChunckJob3D = 10Y 158 ChunckJob3D = OFF 158 159 Seasonal=OFF 159 160 … … 162 163 GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds) 163 164 TimeSeriesVars2D = (cldt, psol, q2m, slp, SWnetOR, SWdownOR, LWdownOR, precip, pluc, plul, t2m, tsol, u10m, v10m) 164 ChunckJob2D = 50Y 165 ###ChunckJob2D = 20Y 166 ChunckJob2D = OFF 165 167 TimeSeriesVars3D = (temp, theta, ovap, vitu, vitv) 166 ChunckJob3D = 10Y 168 ###ChunckJob3D = 10Y 169 ChunckJob3D = OFF 167 170 Seasonal=OFF 168 171 … … 182 185 ChunckJob2D = NONE 183 186 TimeSeriesVars3D = (ta, zg, hus, hur, ua, va, wap) 184 ChunckJob3D = 10Y 187 ###ChunckJob3D = 10Y 188 ChunckJob3D = OFF 185 189 Seasonal=OFF 186 190 … … 188 192 Patches= () 189 193 GatherWithInternal = (lon, lat, presnivs, time_counter) 190 TimeSeriesVars2D = (phis, tsol, t2m, q2m, u10m, v10m, psol, topl, bils, t100, u100, v100, w100, t50, u50, v50, w50, t10, u10, v10, w10) 191 ChunckJob2D = 50Y 194 TimeSeriesVars2D = (phis, tsol, t2m, q2m, u10m, v10m, psol, topl, bils) 195 ###ChunckJob2D = 20Y 196 ChunckJob2D = OFF 192 197 TimeSeriesVars3D = () 193 198 ChunckJob3D = OFF … … 198 203 GatherWithInternal = (lon, lat, presnivs, time_counter, time_counter_bnds) 199 204 TimeSeriesVars2D = (precip, flat, sens, LWdnSFC, LWupSFC, SWdnSFC, SWupSFC, pluc, snow, LWdnSFCclr, SWdnSFCclr, LWupSFCclr, SWupSFCclr, cldt) 200 ChunckJob2D = 50Y 201 TimeSeriesVars3D = () 202 ChunckJob3D = OFF 203 Seasonal=OFF 205 ###ChunckJob2D = 20Y 206 ChunckJob2D = OFF 207 TimeSeriesVars3D = () 208 ChunckJob3D = OFF 209 Seasonal=OFF -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/lmdz.driver
r1172 r1534 149 149 [ ${CumulPeriod} -gt 1 ] && ( IGCM_sys_Get ${R_OUT_ATM_D}/${config_UserChoices_JobName}_Bands_${RESOL_ATM_3D}_${NUM_PROC_ATM}prc.dat_${RefPeriod} Bands_${RESOL_ATM_3D}_${NUM_PROC_ATM}prc.dat ; IGCM_sys_Chmod u+w Bands_${RESOL_ATM_3D}_${NUM_PROC_ATM}prc.dat ) 150 150 151 ##-- GHG forcing for the current year 152 IPCC_SOLAR=`grep Annee_${year} SOLARANDVOLCANOES_1610_2008.txt | awk -F= '{print $2}'` 153 IPCC_CO2=`grep Annee_${year} CO2_1765_2005.txt | awk -F= '{print $2}'` 154 IPCC_CH4=`grep Annee_${year} CH4_1765_2005.txt | awk -F= '{print $2}'` 155 IPCC_N2O=`grep Annee_${year} N2O_1765_2005.txt | awk -F= '{print $2}'` 156 IPCC_CFC11=`grep Annee_${year} CFC11_1765_2005.txt | awk -F= '{print $2}'` 157 IPCC_CFC12=`grep Annee_${year} CFC12_1765_2005.txt | awk -F= '{print $2}'` 158 159 ##-- For historical daily cosp must be output during 1979-2005 period 160 [ ${year} -ge 1979 ] && LMDZ_COSP_daily=y 151 ## CO2 forcing for the current year 152 IPCC_CO2=`grep Annee_${year} CMIP_CO2_1850_2050.txt | awk -F= '{print $2}'` 153 echo IPCC_CO2=${IPCC_CO2} 154 155 ##-- For 1pctCO2 daily cosp must be output during year 121-140 ie 1970-1990 156 [ ${year} -ge 1970 ] && LMDZ_COSP_daily=y 161 157 162 158 ## physiq.def parameters modified from initial physiq_L${RESOL_ATM_Z} … … 164 160 LMDZ_sed physiq.def OK_journe ${OK_journe} 165 161 LMDZ_sed physiq.def OK_mensuel ${OK_mensuel} 166 #LMDZ_sed physiq.def lev_histmth ${lev_histmth}167 162 LMDZ_sed physiq.def ok_hf ${ok_hf} 168 163 LMDZ_sed physiq.def ecrit_mth ${LMDZ_ecrit_mth} … … 173 168 LMDZ_sed physiq.def ok_hfCOSP ${LMDZ_COSP_hf} 174 169 LMDZ_sed physiq.def ok_histNMC "${LMDZ_NMC_monthly}, ${LMDZ_NMC_daily}, ${LMDZ_NMC_hf}" 175 LMDZ_sed physiq.def solaire ${IPCC_SOLAR}176 170 LMDZ_sed physiq.def co2_ppm ${IPCC_CO2} 177 LMDZ_sed physiq.def CH4_ppb ${IPCC_CH4}178 LMDZ_sed physiq.def N2O_ppb ${IPCC_N2O}179 LMDZ_sed physiq.def CFC11_ppt ${IPCC_CFC11}180 LMDZ_sed physiq.def CFC12_ppt ${IPCC_CFC12}181 171 182 172 ## gcm.def parameters : no change since gcm.def_${RESOL_ATM_3D} is used and already modified -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/oasis.card
r1449 r1534 11 11 [BoundaryFiles] 12 12 List= () 13 ListNonDel= (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/grids.nc, grids.nc),\ 14 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/masks.nc, masks.nc),\ 15 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/areas.nc, areas.nc),\ 16 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o, wa2o.flx),\ 17 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wo2a, wo2a.tsg),\ 18 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o.runoff, wa2o.run),\ 19 (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o.calvin, wa2o.cal) 13 ##ListNonDel= (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/grids.nc, grids.nc),\ 14 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/masks.nc, masks.nc),\ 15 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/areas.nc, areas.nc),\ 16 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o, wa2o.flx),\ 17 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wo2a, wo2a.tsg),\ 18 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o.runoff, wa2o.run),\ 19 ## (${R_BC}/CPL/${config_UserChoices_TagName}/${opa9_UserChoices_ORCA_version}x${RESOL_ATM}/mozaic.wa2o.calvin, wa2o.cal) 20 21 ListNonDel= (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/grids.nc, grids.nc),\ 22 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/masks.nc, masks.nc),\ 23 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/areas.nc, areas.nc),\ 24 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/mozaic.wa2o, wa2o.flx),\ 25 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/mozaic.wo2a, wo2a.tsg),\ 26 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/mozaic.wa2o.runoff, wa2o.run),\ 27 (/dmnfs/cont003/p86mart/IGCM/BC/CPL/IPSLCM5A-MR/ORCA2.3xLMD144142_v2/mozaic.wa2o.calvin, wa2o.cal) 28 20 29 21 30 [SmoothFiles] … … 32 41 [OutputText] 33 42 List= (cplout) 34 #List= (cplout, Oasis.prt)35 43 36 44 [OutputFiles] -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/opa9.card
r1449 r1534 46 46 [OutputText] 47 47 List= (ocean.output, solver.stat) 48 #List= (ocean.output, oceanx.prt, solver.stat)49 48 50 49 [OutputFiles] … … 121 120 GatherWithInternal = (nav_lon, nav_lat, time_counter, time_counter_bnds) 122 121 TimeSeriesVars2D = (omldamax, sosstsst, sosaline, sossheig, tossq) 123 ChunckJob2D = 200Y 122 ###ChunckJob2D = 200Y 123 ChunckJob2D = OFF 124 124 TimeSeriesVars3D = (vosaline,votemper) 125 ChunckJob3D = 10Y 125 ###ChunckJob3D = 10Y 126 ChunckJob3D = OFF 126 127 Seasonal=OFF 127 128 … … 132 133 ChunckJob2D = 200Y 133 134 TimeSeriesVars3D = (vozocrtx) 134 ChunckJob3D = 10Y 135 ###ChunckJob3D = 10Y 136 ChunckJob3D = OFF 135 137 Seasonal=OFF 136 138 … … 141 143 ChunckJob2D = 200Y 142 144 TimeSeriesVars3D = (vomecrty) 143 ChunckJob3D = 10Y 145 ###ChunckJob3D = 10Y 146 ChunckJob3D = OFF 144 147 Seasonal=OFF 145 148 -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/orchidee.card
r1171 r1534 15 15 16 16 [SmoothFiles] 17 List=( ${R_BC}/SRF/${config_UserChoices_TagName}/PFTmap_1850to2005_AR5_LUHa.rc2/PFTmap_IPCC_${year_p1}.nc, PFTmap.nc, 12:12:)17 List=() 18 18 19 19 [ParametersFiles] … … 45 45 GatherWithInternal= (lon, lat, veget, time_counter, time_counter_bnds, Areas, Contfrac) 46 46 TimeSeriesVars2D= (mrsos, mrro) 47 ChunckJob2D= 50Y 47 ###ChunckJob2D= 10Y 48 ChunckJob2D= OFF 48 49 TimeSeriesVars3D= (ptn) 49 ChunckJob3D= 10Y 50 ###ChunckJob3D= 10Y 51 ChunckJob3D= OFF 50 52 Seasonal= OFF -
CMIP5/1pctCO2/v5.1pctCO2MR1/COMP/pisces.driver
r1437 r1534 75 75 IGCM_sys_Mv iodef.xml.tmp iodef.xml 76 76 77 ##-- GHG forcing for the current year78 IPCC_PIS_CO2=`grep Annee_${year} C O2_1765_2005.txt | awk -F= '{print $2}'`77 ##-- CO2 forcing for the current year for +1pctCO2 78 IPCC_PIS_CO2=`grep Annee_${year} CMIP_CO2_1850_2050.txt | awk -F= '{print $2}'` 79 79 80 80 ##-- Update namelist_top and namelist_pisces -
CMIP5/1pctCO2/v5.1pctCO2MR1/PARAM/orchidee.def
r1013 r1534 743 743 # The veget datas will be update each this time step. 744 744 # If LAND_USE 745 VEGET_UPDATE = 1Y745 VEGET_UPDATE = 0Y 746 746 # default = 1Y 747 747 … … 751 751 # deforestation. 752 752 # If LAND_USE 753 LAND_COVER_CHANGE = y753 LAND_COVER_CHANGE = n 754 754 # default = y 755 755 -
CMIP5/1pctCO2/v5.1pctCO2MR1/PARAM/physiq.def_L39
r1507 r1534 23 23 cvl_corr=1.0 24 24 ## Facteur additif pour l'albedo 25 pmagic= 0.025 pmagic=-0.01 26 26 # 27 27 # … … 29 29 # Parametres fichiers de sortie 30 30 # 31 ### type_run = type run par rapport aux fichiers et variables de sortie 32 # - type_run = CLIM/ENSP (=1) 33 # - type_run = AMIP/CFMI (=2) 34 type_run=CLIM 31 35 ### OK_journe= y sortir fichier journalier histday.nc, =n pas de fichier histday.nc 32 36 OK_journe=n … … 38 42 ok_hf=n 39 43 # Noms des fichiers 40 phys_out_filenames= histmth histday histhf histhf3h histhf3hm histstn44 phys_out_filenames= histmth histday histhf histhf3h histhf3hm 41 45 # Sortir ou non les fichiers 42 phys_out_filekeys= y y y y y n46 phys_out_filekeys= y y y y y 43 47 # Niveaux de sorties 44 phys_out_filelevels= 5 5 5 5 5 5 45 ### Type de fichier : global (n) ou stations (y) 46 phys_out_filestations = n n n n n y 47 ### Frequences des sorties 48 phys_out_filetimesteps = 1.mth, 1.day, 0.25day, 0.125day, 0.125day, 1800.s 49 ### variables niveaux pressions 100, 50, 10 hPa a 3h-inst - F.Lott 50 flag_t100 = 1, 7, 7, 5, 10, 10 51 flag_u100 = 1, 7, 7, 5, 10, 10 52 flag_v100 = 1, 7, 7, 5, 10, 10 53 flag_w100 = 1, 7, 7, 5, 10, 10 54 flag_t50 = 1, 7, 7, 5, 10, 10 55 flag_u50 = 1, 7, 7, 5, 10, 10 56 flag_v50 = 1, 7, 7, 5, 10, 10 57 flag_w50 = 1, 7, 7, 5, 10, 10 58 flag_t10 = 1, 7, 7, 5, 10, 10 59 flag_u10 = 1, 7, 7, 5, 10, 10 60 flag_v10 = 1, 7, 7, 5, 10, 10 61 flag_w10 = 1, 7, 7, 5, 10, 10 62 # more variables for level 5 histday/month: vitw and pres 48 phys_out_filelevels= 5 5 5 5 5 49 # more variables for level 5 : vitw and pres 63 50 # Vertical wind 64 flag_vitw = 2, 3, 7, 6, 6, 6 51 flag_vitw = 2, 3, 7, 6, 6 52 name_vitw = vitw 65 53 # Air pressure 66 flag_pres = 2, 3, 7, 6, 6, 6 54 flag_pres = 2, 3, 7, 6, 6 55 name_pres = pres 67 56 # w500 for histday 68 flag_w500 = 1, 5, 3, 10, 10, 10 57 flag_w500 = 1, 5, 3, 10, 10 58 name_w500 = w500 69 59 # t700 for histday 70 flag_t700 = 1, 5, 3, 10, 10, 10 60 flag_t700 = 1, 5, 3, 10, 10 61 name_t700 = t700 71 62 # Cloud fraction 72 flag_rneb = 2, 5, 10, 5, 10, 10 73 # Aga sortie avec niveau 2 74 flag_Aga = 2, 10, 10, 10, 10, 10 75 # niveaux maximum 5 mensuel pour variables CFMIP 76 flag_rlu = 5, 10, 10, 10, 10, 10 77 flag_rsu = 5, 10, 10, 10, 10, 10 78 flag_rld = 5, 10, 10, 10, 10, 10 79 flag_rsd = 5, 10, 10, 10, 10, 10 80 flag_rlucs = 5, 10, 10, 10, 10, 10 81 flag_rsucs = 5, 10, 10, 10, 10, 10 82 flag_rldcs = 5, 10, 10, 10, 10, 10 83 flag_rsdcs = 5, 10, 10, 10, 10, 10 84 flag_tnt = 5, 10, 10, 10, 10, 10 85 flag_dtdyn = 4, 10, 10, 10, 10, 10 86 flag_dtphy = 4, 10, 10, 10, 10, 10 87 flag_dtlschr = 5, 10, 10, 10, 10, 10 88 flag_tntr = 5, 10, 10, 10, 10, 10 89 flag_tntc = 5, 10, 10, 10, 10, 10 90 flag_tntscpbl = 5, 10, 10, 10, 10, 10 91 flag_tnhus = 5, 10, 10, 10, 10, 10 92 flag_dqdyn = 4, 10, 10, 10, 10, 10 93 flag_tnhusc = 5, 10, 10, 10, 10, 10 94 flag_dqvdf = 5, 10, 10, 10, 10, 10 95 flag_tnhusscpbl = 5, 10, 10, 10, 10, 10 96 flag_dqphy = 2, 10, 10, 10, 10, 10 97 flag_evu = 5, 10, 10, 10, 10, 10 98 flag_kz = 4, 10, 10, 10, 10, 10 99 ### 100 # more variables for t tendency monthly 101 ### 102 flag_dtvdf = 5, 10, 10, 10, 10, 10 103 flag_dteva = 5, 10, 10, 10, 10, 10 104 flag_dtcon = 4, 10, 10, 10, 10, 10 105 flag_dtajs = 4, 10, 10, 10, 10, 10 106 flag_dtlsc = 4, 10, 10, 10, 10, 10 107 flag_dtoro = 4, 10, 10, 10, 10, 10 108 flag_dtlif = 4, 10, 10, 10, 10, 10 109 flag_dthin = 4, 10, 10, 10, 10, 10 110 flag_dtec = 4, 10, 10, 10, 10, 10 111 ### more variables for q tendency monthly 112 flag_dqeva = 5, 10, 10, 10, 10, 10 113 flag_dqcon = 4, 10, 10, 10, 10, 10 114 flag_dqajs = 4, 10, 10, 10, 10, 10 115 flag_dqlsc = 5, 10, 10, 10, 10, 10 116 ### nouvelle physique monthly 117 flag_dtthe = 4, 10, 10, 10, 10, 10 118 flag_dtwak = 4, 5, 10, 10, 10, 10 119 flag_dqthe = 4, 10, 10, 10, 10, 10 120 flag_dqwak = 4, 5, 10, 10, 10, 10 121 flag_ftime_th = 4, 10, 10, 5, 10, 10 63 flag_rneb = 2, 5, 10, 5, 10 64 name_rneb = rneb 122 65 # 123 66 # Parametres niveau de sorties differents fichiers … … 142 85 # - lev_histmth=4 => champs tendances 3d 143 86 lev_histmth=5 87 ### Aga sortie avec niveau 2 88 flag_Aga = 2, 10, 10, 10, 10 144 89 ### parametres pour hist*NMC.nc 145 90 #lev_histdayNMC: nombre de niveaux sur la verticale dans le fichier … … 148 93 ### - ok_histNMC = y/n, y/n, y/n pour avoir les sorties NMC mensuelles, journalieres et haute frequence 149 94 ok_histNMC = y, n, n 95 ### ecrit_LES = frequence ecriture fichier histhf3hm.nc en jours 96 ecrit_LES=0.125 97 ### ecrit_ins = frequence ecriture fichier histhf3h.nc en jours 98 ecrit_ins=0.125 99 ### ecrit_hf = frequence ecriture fichier histhf.nc en jours 100 ecrit_hf=0.250 150 101 ### ecrit_day = frequence ecriture fichier histday.nc en jours 151 102 ecrit_day=1. … … 246 197 # 247 198 ### co2_ppm = taux CO2 en ppm 248 co2_ppm = 0. 36886500E+03199 co2_ppm = 0.28472500E+03 249 200 ### CH4_ppb = taux CH4 en ppb 250 CH4_ppb = 0. 17510225E+04201 CH4_ppb = 0.79097924E+03 251 202 ### N2O_ppb = taux N2O en ppb 252 N2O_ppb = 0. 31585000E+03203 N2O_ppb = 0.27542506E+03 253 204 ### CFC11_ppt = taux CFC11 en ppt 254 CFC11_ppt = 5.18015181E+01205 CFC11_ppt = 0. 255 206 ### CFC12_ppt = taux CFC12 en ppt 256 CFC12_ppt = 0. 99862742E+03207 CFC12_ppt = 0. 257 208 # 258 209 # Parametres effets directs/indirects des "aerosols" … … 263 214 ok_aie=y 264 215 ### aer_type = Aerosol variation type : actuel / preind / scenario / annuel 265 aer_type= annuel216 aer_type=preind 266 217 ### type of coupled aerosol =1 (default) =2 => bc only =3 => pom only =4 => seasalt only =5 => dust only =6 => all aerosol 267 218 flag_aerosol=6 -
CMIP5/1pctCO2/v5.1pctCO2MR1/POST/monitoring01_lmdz.cfg
r1503 r1534 78 78 CFC11_ppt_forcing | "CFC11_ppt" | "" | "CFC11_ppt[d=1]" | "Concentration du CFC11" | "ppt" | "1" 79 79 CFC12_ppt_forcing | "CFC12_ppt" | "" | "CFC12_ppt[d=1]" | "Concentration du CFC12" | "ppt" | "1" 80 80 81 ## R_ecc_forcing | "R_ecc" | "" | "R_ecc[d=1]" | "Excentricite" | "-" | "1" 81 82 ## R_peri_forcing | "R_peri" | "" | "R_peri[d=1]" | "Equinoxe" | "-" | "1" -
CMIP5/1pctCO2/v5.1pctCO2MR1/README
r1171 r1534 1 IPSLCM5A 1 IPSLCM5A-MR 2 2 3 22/10/2010 3 31/5/2011 4 4 5 5 Experiment Name comes from CMIP5 DRS. See: http://cmip-pcmdi.llnl.gov/cmip5/docs/cmip5_data_reference_syntax.pdf 6 Output files are stored into : login/IGCM_OUT/IPSLCM5A /DEVT/historical/EXP00directory6 Output files are stored into : login/IGCM_OUT/IPSLCM5A-MR/PROD/1pctCO2/v5.1pctCO2MR1 directory 7 7 8 config.card : set the name of the simulation used as restart. 8 v5.1pctCO2MR1 9 10 aerosols v5 11 pmagic=-0.01 9 12 10 13 14 1929 et 1930 a refaire entierement (file system full lors des rebuilds) 15 16 17 18 19 -
CMIP5/1pctCO2/v5.1pctCO2MR1/config.card
r1502 r1534 9 9 [UserChoices] 10 10 #============================ 11 JobName= EXP0011 JobName=v5.1pctCO2MR1 12 12 #----- Short Name of Experiment 13 ExperimentName= historical13 ExperimentName=1pctCO2 14 14 #----- DEVT TEST PROD 15 SpaceName= DEVT16 LongName="IPSLCM5A CMIP5 DEVT phase historical example with large outputs"17 TagName=IPSLCM5A 15 SpaceName=PROD 16 LongName="IPSLCM5A CMIP5 MR 1pctCO2 with aerosols v5" 17 TagName=IPSLCM5A-MR 18 18 #============================ 19 19 #-- leap, noleap, 360d … … 22 22 #-- "YYYY-MM-DD" 23 23 DateBegin=1850-01-01 24 DateEnd=1 850-12-3124 DateEnd=1989-12-31 25 25 #============================ 26 26 #-- 1Y, 1M, 5D, 1D Period Length of one trunk of simulation … … 56 56 OverRule=y 57 57 #D- Last day of the experience used as restart for all components 58 RestartDate=18 99-12-3158 RestartDate=1849-12-31 59 59 #D- Define restart simulation name for all components 60 60 # For historical simulation you have to start from an other simulation 61 RestartJobName= XXXXXXX61 RestartJobName=piControlMR3 62 62 #D- Path Server Group Login 63 RestartPath=${ARCHIVE}/IGCM_OUT/IPSLCM5A /DEVT/piControl63 RestartPath=${ARCHIVE}/IGCM_OUT/IPSLCM5A-MR/PROD/piControl 64 64 65 65 #========================================================================
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