[Compatibility] libIGCM=1.0 [UserChoices] #============================================================== #-- Name of directory for COMMON ACCOUNT at idris or CCRT #-- available directories are: v3, v3_1, v3_2 #-- related to NEMO_tag_revision (nemo_v3, nemo_v3_1, nemo_v3_2_beta) #-- NOTE: if you use COMMON ACCOUNT you have to de-comment it OPA_version=v3.6_stable R_FORCING=/workgpfs/rech/gzi/rgzi002/IGCM/BC/OCE/core #============================================================== [InitialStateFiles] List= (${SUBMIT_DIR}/PARAM/EMPave_old.dat, EMPave_old.dat) #================================================================================================== #-- Surface Boundary Condition. For interannual run, needs 3 consecutives years for each forcing file #-- Structure : to simulate year 2000, needs u_10_y1999.nc, u_10_y2000.nc & u_10_y2001.nc #================================================================================================== [BoundaryFiles] List= (${opa9_UserChoices_R_FORCING}/u_10.${year_m1}_fill.nc , u_10_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/v_10.${year_m1}_fill.nc , v_10_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/t_10.${year_m1}_fill.nc , t_10_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/q_10.${year_m1}_fill.nc , q_10_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year_m1}_fill.nc , radsw_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year_m1}_fill.nc , radlw_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year_m1}_fill.nc , precip_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year_m1}_fill.nc , snow_y${year_m1}.nc), \ (${opa9_UserChoices_R_FORCING}/u_10.${year}_fill.nc , u_10_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/v_10.${year}_fill.nc , v_10_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/t_10.${year}_fill.nc , t_10_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/q_10.${year}_fill.nc , q_10_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year}_fill.nc , radsw_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year}_fill.nc , radlw_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year}_fill.nc , precip_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year}_fill.nc , snow_y${year}.nc), \ (${opa9_UserChoices_R_FORCING}/u_10.${year_p1}_fill.nc , u_10_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/v_10.${year_p1}_fill.nc , v_10_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/t_10.${year_p1}_fill.nc , t_10_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/q_10.${year_p1}_fill.nc , q_10_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year_p1}_fill.nc , radsw_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_rad.${year_p1}_fill.nc , radlw_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year_p1}_fill.nc , precip_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/ncar_precip.${year_p1}_fill.nc , snow_y${year_p1}.nc), \ (${opa9_UserChoices_R_FORCING}/weights_core_orca2_bilinear_noc.nc , weights_bilinear.nc), \ (${opa9_UserChoices_R_FORCING}/weights_core_orca2_bicubic_noc.nc , weights_bicubic.nc) ListNonDel= (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/ahmcoef.nc, .), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/bathy_level.nc, .), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/bathy_meter.nc, .), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/coordinates.nc, .), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/potT_PHC3WOA_ORCA2_IOVI.nc, data_1m_potential_temperature_nomask.nc), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/Salt_corr_PHC3WOA09.nc, data_1m_salinity_nomask.nc), \ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/geothermal_heating.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/runoff_core_monthly.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/sss_corr_PHC3WOA09.nc, sss_data.nc),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/sst_PHC3WOA_ORCA2_IOVI.nc, sst_data.nc),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/chlorophyll.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/mixing_power_bot.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/mixing_power_pyc.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/mixing_power_cri.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/decay_scale_bot.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/decay_scale_cri.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/K1rowdrg.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/M2rowdrg.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/mask_itf.nc, .),\ (${R_BC}/OCE/${config_UserChoices_TagName}/${opa9_UserChoices_OPA_version}/resto.nc, .) [ParametersFiles] List= (${SUBMIT_DIR}/PARAM/namelist_ref , namelist_ref), \ (${SUBMIT_DIR}/PARAM/namelist_${RESOL_OCE}${EXPTYPE}_cfg, namelist_cfg), \ (${SUBMIT_DIR}/PARAM/iodef.xml , iodef.xml), \ (${SUBMIT_DIR}/PARAM/context_nemo.xml , context_nemo.xml ), \ (${SUBMIT_DIR}/PARAM/domain_def_nemo.xml , domain_def_nemo.xml ), \ (${SUBMIT_DIR}/PARAM/field_def_nemo-opa.xml , field_def_nemo-opa.xml ), \ (${SUBMIT_DIR}/PARAM/file_def_nemo-opa.xml , file_def_nemo-opa.xml ) [RestartFiles] List= (${config_UserChoices_JobName}_${NEMO_END}_restart.nc, restart.nc, restart.nc), \ (EMPave.dat, EMPave.dat, EMPave_old.dat) [OutputText] List= (ocean.output, solver.stat, STRAIT.dat, namelist_ref, namelist_cfg) [OutputFiles] List= \ (${PREFIX_WF1}_grid_T.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_grid_T.nc, Post_1D_grid_T ),\ (${PREFIX_WF1}_scalar.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_scalar.nc, Post_1D_scalar ),\ (${PREFIX_WF1}_SBC_scalar.nc,${R_OUT_OCE_WF1}/${PREFIX}_${WF1}_SBC_scalar.nc,Post_1D_scalar ),\ (${PREFIX_WF2}_SBC.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_SBC.nc, NONE),\ (${PREFIX_WF2}_grid_T.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_T.nc, NONE ),\ (${PREFIX_WF2}_grid_U.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_U.nc, NONE ),\ (${PREFIX_WF2}_grid_V.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_V.nc, NONE ),\ (${PREFIX_WF2}_grid_W.nc,${R_OUT_OCE_WF2}/${PREFIX}_${WF2}_grid_W.nc, NONE ),\ (${PREFIX_WF3}_grid_T.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_T.nc, Post_1M_grid_T ),\ (${PREFIX_WF3}_grid_U.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_U.nc, Post_1M_grid_U ),\ (${PREFIX_WF3}_grid_V.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_V.nc, Post_1M_grid_V ),\ (${PREFIX_WF3}_grid_W.nc,${R_OUT_OCE_WF3}/${PREFIX}_${WF3}_grid_W.nc, Post_1M_grid_W ),\ (${PREFIX_WF4}_grid_T.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_T.nc, Post_1Y_grid_T ),\ (${PREFIX_WF4}_grid_U.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_U.nc, Post_1Y_grid_U ),\ (${PREFIX_WF4}_grid_V.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_V.nc, Post_1Y_grid_V ),\ (${PREFIX_WF4}_grid_W.nc,${R_OUT_OCE_WF4}/${PREFIX}_${WF4}_grid_W.nc, Post_1Y_grid_W ),\ (mesh_mask.nc , ${R_OUT_OCE_O}/${config_UserChoices_JobName}_mesh_mask.nc, NONE),\ (output.abort.nc , ${R_OUT_OCE_D}/${PREFIX}_output.abort.nc, NONE),\ (output.init.nc , ${R_OUT_OCE_O_I}/${config_UserChoices_JobName}_${PeriodDateBegin}_output.init.nc, NONE) # Daily analysis [Post_1D_scalar] Patches = () GatherWithInternal = (time_counter) TimeSeriesVars2D = (masstot, voltot, sshtot, sshsteric, sshthster, temptot, saltot) ChunckJob2D = NONE TimeSeriesVars3D = () ChunckJob3D = NONE Seasonal=OFF [Post_1D_grid_T] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (tos, sos, zos, mldr10_1dcy, sstdcy) ChunckJob2D = NONE TimeSeriesVars3D = () ChunckJob3D = NONE Seasonal=OFF # Monthly analysis [Post_1M_grid_T] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (friver, hfcorr, mldkz5, mldr10_1, nshfls, omlmax, pbo, rsntds, sos, tos, wfo, wfcorr, zos, zossq) ChunckJob2D = NONE TimeSeriesVars3D = (rhopoto, rsds, so, thetao) ChunckJob3D = 10Y Seasonal=OFF [Post_1M_grid_U] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (uos,tauuo) ChunckJob2D = NONE TimeSeriesVars3D = (uo) ChunckJob3D = 10Y Seasonal=OFF [Post_1M_grid_V] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (vos, tauvo) ChunckJob2D = NONE TimeSeriesVars3D = (vo) ChunckJob3D = 10Y Seasonal=OFF [Post_1M_grid_W] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = () ChunckJob2D = NONE TimeSeriesVars3D = (difvho, wo) ChunckJob3D = 10Y Seasonal=OFF ## Yearly analysis [Post_1Y_grid_T] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (friver, nshfls, omlmax, rsntds, soprecip, sos, sosflxdo, sowindsp, tos, tohfls, wfo, wfcorr, zos, zossq) ChunckJob2D = NONE TimeSeriesVars3D = (rsds, so, thetao) ChunckJob3D = 10Y Seasonal=OFF [Post_1Y_grid_U] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (tauuo, uos) ChunckJob2D = NONE TimeSeriesVars3D = (uo, uocetr_eff) ChunckJob3D = 10Y Seasonal=OFF [Post_1Y_grid_V] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = (tauvo, vos) ChunckJob2D = NONE TimeSeriesVars3D = (vo, vocetr_eff) ChunckJob3D = 10Y Seasonal=OFF [Post_1Y_grid_W] Patches = () GatherWithInternal = (nav_lon, nav_lat, time_counter) TimeSeriesVars2D = () ChunckJob2D = NONE TimeSeriesVars3D = (difvho, wo, wocetr_eff) ChunckJob3D = 10Y Seasonal=OFF