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  • nemo/nemo
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arch/arch-osx_gfortran.fcm
View file @ 4dbfc9bb
......@@ -35,8 +35,8 @@
%CPP cpp -Dkey_nosignedzero
%FC mpif90
%PROD_FCFLAGS -fdefault-real-8 -O3 -funroll-all-loops -fcray-pointer -ffree-line-length-none -fallow-argument-mismatch
%DEBUG_FCFLAGS -fdefault-real-8 -O0 -g -fbacktrace -funroll-all-loops -fcray-pointer -ffree-line-length-none -fcheck=all -finit-real=nan
%PROD_FCFLAGS -fdefault-real-8 -O3 -funroll-all-loops -fcray-pointer -ffree-line-length-none -fallow-argument-mismatch
%DEBUG_FCFLAGS -fdefault-real-8 -O0 -g -fbacktrace -funroll-all-loops -fcray-pointer -ffree-line-length-none -fcheck=all -finit-real=nan -fallow-argument-mismatch
%FFLAGS %FCFLAGS
%LD %FC
%LDFLAGS
......
cfgs/AGRIF_DEMO/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -34,6 +34,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<!-- ice and snow -->
......@@ -44,7 +46,6 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" operation="instant" freq_op="5d" > @uoce_e3u / @e3u </field>
<field field_ref="utau" name="tauuo" />
<field field_ref="uocetr_eff" name="uocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="u_masstr" name="vozomatr" />
......@@ -56,7 +57,6 @@
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" operation="instant" freq_op="5d" > @voce_e3v / @e3v </field>
<field field_ref="vtau" name="tauvo" />
<field field_ref="vocetr_eff" name="vocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="v_masstr" name="vomematr" />
......
cfgs/AMM12/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -100,6 +100,8 @@
<field field_ref="qsr" name="rsntds" />
<field field_ref="qt" name="tohfls" />
<field field_ref="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="mldkz5" />
<field field_ref="mldr10_1" />
</file>
......@@ -107,13 +109,11 @@
<file id="file5" name_suffix="_grid_U" description="ocean U grid variables" >
<field field_ref="uoce" name="uo" />
<field field_ref="ssu" name="uos" />
<field field_ref="utau" name="tauuo" />
</file>
<file id="file6" name_suffix="_grid_V" description="ocean V grid variables" >
<field field_ref="voce" name="vo" />
<field field_ref="ssv" name="vos" />
<field field_ref="vtau" name="tauvo" />
</file>
<file id="file7" name_suffix="_grid_W" description="ocean W grid variables" >
......
cfgs/GYRE_PISCES/EXPREF/file_def_nemo.xml
View file @ 4dbfc9bb
......@@ -32,16 +32,16 @@
<field field_ref="qt" name="sohefldo" />
<field field_ref="mldr10_1" name="somxl010" />
<field field_ref="mldkz5" name="somixhgt" />
<field field_ref="utau" name="sozotaux" />
<field field_ref="vtau" name="sometauy" />
</file>
<file id="file2" name_suffix="_grid_U" description="ocean U grid variables" >
<field field_ref="uoce" name="vozocrtx" />
<field field_ref="utau" name="sozotaux" />
</file>
<file id="file3" name_suffix="_grid_V" description="ocean V grid variables" >
<field field_ref="voce" name="vomecrty" />
<field field_ref="vtau" name="sometauy" />
</file>
<file id="file4" name_suffix="_grid_W" description="ocean W grid variables" >
......
cfgs/ORCA2_ICE_ABL/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -30,6 +30,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<!-- ice and snow -->
......@@ -40,14 +42,12 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" />
<field field_ref="utau" name="tauuo" />
</file>
<file id="file13" name_suffix="_grid_V" description="ocean V grid variables" >
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" />
<field field_ref="vtau" name="tauvo" />
</file>
<file id="file14" name_suffix="_grid_ABL" description="ABL grid variables" >
......
cfgs/ORCA2_ICE_PISCES/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -34,6 +34,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<!-- ice and snow -->
......@@ -44,7 +46,6 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" operation="instant" freq_op="5d" > @uoce_e3u / @e3u </field>
<field field_ref="utau" name="tauuo" />
<field field_ref="uocetr_eff" name="uocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="u_masstr" name="vozomatr" />
......@@ -56,7 +57,6 @@
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" operation="instant" freq_op="5d" > @voce_e3v / @e3v </field>
<field field_ref="vtau" name="tauvo" />
<field field_ref="vocetr_eff" name="vocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="v_masstr" name="vomematr" />
......
cfgs/ORCA2_OFF_TRC/EXPREF/file_def_nemo-innerttrc.xml
View file @ 4dbfc9bb
......@@ -36,12 +36,23 @@
<field field_ref="ssh" name="zos" />
</file>
<file id="file1" name_suffix="_trc" description="passive tracers variables" >
<file id="file2" name_suffix="_trc" description="passive tracers variables" >
<field field_ref="Age" name="Age" operation="average" freq_op="1y" > @Age_e3t / @e3t </field>
<field field_ref="CFC11" name="CFC11" operation="average" freq_op="1y" > @CFC11_e3t / @e3t </field>
<field field_ref="CFC12" name="CFC12" operation="average" freq_op="1y" > @CFC12_e3t / @e3t </field>
<field field_ref="SF6" name="SF6" operation="average" freq_op="1y" > @SF6_e3t / @e3t </field>
<field field_ref="RC14" name="RC14" operation="average" freq_op="1y" > @RC14_e3t / @e3t </field>
<field field_ref="RC14" name="RC14" operation="average" freq_op="1y" > @RC14_e3t / @e3t </field>
<field field_ref="qtr_CFC11" />
<field field_ref="qint_CFC11" />
<field field_ref="qtr_CFC12" />
<field field_ref="qint_CFC12" />
<field field_ref="qtr_SF6" />
<field field_ref="qint_SF6" />
<field field_ref="qtr_c14" />
<field field_ref="qint_c14" />
<field field_ref="DeltaC14" />
<field field_ref="C14Age" />
<field field_ref="RAge" />
</file>
</file_group>
......
cfgs/ORCA2_SAS_ICE/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -34,6 +34,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<!-- ice and snow -->
......@@ -44,7 +46,6 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" operation="instant" freq_op="5d" > @uoce_e3u / @e3u </field>
<field field_ref="utau" name="tauuo" />
<field field_ref="uocetr_eff" name="uocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="u_masstr" name="vozomatr" />
......@@ -56,7 +57,6 @@
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" operation="instant" freq_op="5d" > @voce_e3v / @e3v </field>
<field field_ref="vtau" name="tauvo" />
<field field_ref="vocetr_eff" name="vocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="v_masstr" name="vomematr" />
......
cfgs/SHARED/field_def_nemo-ice.xml
View file @ 4dbfc9bb
......@@ -18,7 +18,7 @@
<field_group id="SBC" > <!-- time step automaticaly defined based on nn_fsbc -->
<!-- 2D variables -->
<field_group id="SBC_2D" grid_ref="grid_T_2D" >
<field_group id="SBC_2D" grid_ref="grid_T_2D_inner" >
<!-- =================== -->
<!-- standard ice fields -->
......@@ -311,7 +311,7 @@
</field_group> <!-- SBC_2D -->
<!-- categories -->
<field_group id="SBC_3D" grid_ref="grid_T_ncatice" >
<field_group id="SBC_3D" grid_ref="grid_T_ncatice_inner" >
<!-- standard ice fields -->
<field id="iceconc_cat" long_name="Sea-ice concentration per category" unit="" />
......@@ -386,7 +386,7 @@
-->
<!-- output variables for my configuration (example) -->
<field_group id="myvarICE" grid_ref="grid_T_2D" >
<field_group id="myvarICE" >
<!-- ice mask -->
<field field_ref="icemask" name="simsk" />
<field field_ref="icemask05" name="simsk05" />
......@@ -495,7 +495,7 @@
</field_group>
<field_group id="myvarICE_cat" grid_ref="grid_T_ncatice" >
<field_group id="myvarICE_cat" >
<!-- categories -->
<field field_ref="icemask_cat" name="simskcat"/>
......@@ -524,7 +524,7 @@
<field field_ref="ilbgvol_tot" name="ilbgvol_tot" />
</field_group>
<field_group id="ICE_budget" grid_ref="grid_T_2D" >
<field_group id="ICE_budget" >
<!-- general -->
<field field_ref="icemask" name="simsk" />
<field field_ref="iceconc" name="siconc" />
......@@ -579,7 +579,7 @@
</field_group>
<!-- SIMIP daily fields -->
<field_group id="SIday_fields" grid_ref="grid_T_2D" >
<field_group id="SIday_fields" >
<field field_ref="icepres" name="sitimefrac" />
<field field_ref="iceconc_pct" name="siconc" />
<field field_ref="icethic_cmip" name="sithick" />
......@@ -591,7 +591,7 @@
</field_group>
<!-- SIMIP monthly fields -->
<field_group id="SImon_fields" grid_ref="grid_T_2D" >
<field_group id="SImon_fields" >
<!-- Sea-ice state variables -->
<field field_ref="icepres" name="sitimefrac" />
<field field_ref="iceconc_pct" name="siconc" />
......
cfgs/SHARED/field_def_nemo-innerttrc.xml
View file @ 4dbfc9bb
......@@ -16,7 +16,7 @@
-->
<field_group id="inerttrc" grid_ref="grid_T_2D">
<field_group id="inerttrc" grid_ref="grid_T_2D_inner">
<!-- CFC11 : variables available with ln_cfc11 -->
<field id="CFC11" long_name="Chlorofluoro carbon11 Concentration" unit="umol/m3" grid_ref="grid_T_3D" />
......@@ -39,8 +39,8 @@
<!-- C14 : variables available with ln_c14 -->
<field id="RC14" long_name="Radiocarbon ratio" unit="-" grid_ref="grid_T_3D" />
<field id="RC14_e3t" long_name="RC14 * e3t" unit="m" grid_ref="grid_T_3D" > RC14 * e3t </field >
<field id="DeltaC14" long_name="Delta C14" unit="permil" grid_ref="grid_T_3D" />
<field id="C14Age" long_name="Radiocarbon age" unit="yr" grid_ref="grid_T_3D" />
<field id="DeltaC14" long_name="Delta C14" unit="permil" grid_ref="grid_T_3D_inner" />
<field id="C14Age" long_name="Radiocarbon age" unit="yr" grid_ref="grid_T_3D_inner" />
<field id="RAge" long_name="Reservoir Age" unit="yr" />
<field id="qtr_c14" long_name="Air-sea flux of C14" unit="1/m2/s" />
<field id="qint_c14" long_name="Cumulative air-sea flux of C14" unit="1/m2" />
......@@ -52,7 +52,7 @@
<!-- AGE : variables available with ln_age -->
<field id="Age" long_name="Sea water age since surface contact" unit="yr" grid_ref="grid_T_3D" />
<field id="Age_e3t" long_name="Age * e3t" unit="yr * m" grid_ref="grid_T_3D" > Age * e3t </field >
<field id="Age_e3t" long_name="Age * e3t" unit="yr * m" grid_ref="grid_T_3D" > Age * e3t </field >
</field_group>
......
cfgs/SHARED/field_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -25,7 +25,7 @@ that are available in the tidal-forcing implementation (see
-->
<!-- Time -->
<field id="diamlr_time" grid_ref="diamlr_grid_T_2D" prec="8" />
<field id="diamlr_time" grid_ref="diamlr_grid_T_2D_inner" prec="8" />
<!-- Regressors for tidal harmonic analysis -->
<field id="diamlr_r001" field_ref="diamlr_time" expr="sin( __TDE_M2_omega__ * diamlr_time )" enabled=".TRUE." comment="harmonic:sin:M2" />
......@@ -109,62 +109,60 @@ that are available in the tidal-forcing implementation (see
<!-- T grid -->
<field_group id="grid_T" grid_ref="grid_T_2D" >
<field id="e3t" long_name="T-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_T_3D" />
<field id="e3ts" long_name="T-cell thickness" field_ref="e3t" standard_name="cell_thickness" unit="m" grid_ref="grid_T_SFC"/>
<field id="e3t_0" long_name="Initial T-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_T_3D" />
<field id="e3tb" long_name="bottom T-cell thickness" standard_name="bottom_cell_thickness" unit="m" grid_ref="grid_T_2D"/>
<field id="e3t_300" field_ref="e3t" grid_ref="grid_T_zoom_300" detect_missing_value="true" />
<field id="e3t_vsum300" field_ref="e3t_300" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="masscello" long_name="Sea Water Mass per unit area" standard_name="sea_water_mass_per_unit_area" unit="kg/m2" grid_ref="grid_T_3D"/>
<field id="volcello" long_name="Ocean Volume" standard_name="ocean_volume" unit="m3" grid_ref="grid_T_3D"/>
<field id="toce" long_name="temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D"/>
<field id="toce_e3t" long_name="temperature (thickness weighted)" unit="degC" grid_ref="grid_T_3D" > toce * e3t </field >
<field id="soce" long_name="salinity" standard_name="sea_water_practical_salinity" unit="1e-3" grid_ref="grid_T_3D"/>
<field id="soce_e3t" long_name="salinity (thickness weighted)" unit="1e-3" grid_ref="grid_T_3D" > soce * e3t </field >
<field id="toce_e3t_300" field_ref="toce_e3t" unit="degree_C" grid_ref="grid_T_zoom_300" detect_missing_value="true" />
<field id="toce_e3t_vsum300" field_ref="toce_e3t_300" unit="degress_C*m" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="toce_vmean300" field_ref="toce_e3t_vsum300" unit="degree_C" grid_ref="grid_T_vsum" detect_missing_value="true" > toce_e3t_vsum300/e3t_vsum300 </field>
<field id="e3t" long_name="T-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_T_3D" />
<field id="e3ts" long_name="T-cell thickness" field_ref="e3t" standard_name="cell_thickness" unit="m" grid_ref="grid_T_SFC" />
<field id="e3t_0" long_name="Initial T-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_T_3D" />
<field id="e3tb" long_name="bottom T-cell thickness" standard_name="bottom_cell_thickness" unit="m" grid_ref="grid_T_2D_inner" />
<field id="e3t_300" field_ref="e3t" grid_ref="grid_T_zoom_300" detect_missing_value="true" />
<field id="e3t_vsum300" field_ref="e3t_300" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="masscello" long_name="Sea Water Mass per unit area" standard_name="sea_water_mass_per_unit_area" unit="kg/m2" grid_ref="grid_T_3D_inner"/>
<field id="volcello" long_name="Ocean Volume" standard_name="ocean_volume" unit="m3" grid_ref="grid_T_3D_inner"/>
<field id="toce" long_name="temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D"/>
<field id="toce_e3t" long_name="temperature (thickness weighted)" unit="degC" grid_ref="grid_T_3D" > toce * e3t </field >
<field id="soce" long_name="salinity" standard_name="sea_water_practical_salinity" unit="1e-3" grid_ref="grid_T_3D"/>
<field id="soce_e3t" long_name="salinity (thickness weighted)" unit="1e-3" grid_ref="grid_T_3D" > soce * e3t </field >
<field id="toce_e3t_300" field_ref="toce_e3t" unit="degree_C" grid_ref="grid_T_zoom_300" detect_missing_value="true" />
<field id="toce_e3t_vsum300" field_ref="toce_e3t_300" unit="degress_C*m" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="toce_vmean300" field_ref="toce_e3t_vsum300" unit="degree_C" grid_ref="grid_T_vsum" detect_missing_value="true" > toce_e3t_vsum300/e3t_vsum300 </field>
<!-- AGRIF sponge -->
<field id="agrif_spt" long_name=" AGRIF t-sponge coefficient" unit=" " />
<!-- additions to diawri.F90 -->
<field id="sssgrad" long_name="module of surface salinity gradient" unit="1e-3/m" grid_ref="grid_T_2D_inner"/>
<field id="sssgrad2" long_name="square of module of surface salinity gradient" unit="1e-6/m2" grid_ref="grid_T_2D_inner"/>
<field id="ke" long_name="kinetic energy" standard_name="specific_kinetic_energy_of_sea_water" unit="m2/s2" grid_ref="grid_T_3D" />
<field id="ke_int" long_name="vertical integration of kinetic energy" unit="m3/s2" grid_ref="grid_T_2D_inner" />
<field id="sssgrad" long_name="module of surface salinity gradient" unit="1e-3/m" grid_ref="grid_T_2D_inner" />
<field id="sssgrad2" long_name="square of module of surface salinity gradient" unit="1e-6/m2" grid_ref="grid_T_2D_inner" />
<field id="ke" long_name="kinetic energy" standard_name="specific_kinetic_energy_of_sea_water" unit="m2/s2" grid_ref="grid_T_3D_inner" />
<field id="ke_int" long_name="vertical integration of kinetic energy" unit="m3/s2" grid_ref="grid_T_2D_inner" />
<field id="taubot" long_name="bottom stress module" unit="N/m2" grid_ref="grid_T_2D_inner" />
<!-- t-eddy viscosity coefficients (ldfdyn) -->
<field id="ahmt_2d" long_name=" surface t-eddy viscosity coefficient" unit="m2/s or m4/s" />
<field id="ahmt_3d" long_name=" 3D t-eddy viscosity coefficient" unit="m2/s or m4/s" grid_ref="grid_T_3D"/>
<field id="sst" long_name="Bulk sea surface temperature" standard_name="bulk_sea_surface_temperature" unit="degC" />
<field id="t_skin" long_name="Skin temperature aka SSST" standard_name="skin_temperature" unit="degC" />
<field id="sss" long_name="sea surface salinity" standard_name="sea_surface_salinity" unit="1e-3" />
<field id="sst2" long_name="square of sea surface temperature" standard_name="square_of_sea_surface_temperature" unit="degC2" > sst * sst </field >
<field id="sss2" long_name="square of sea surface salinity" unit="1e-6" > sss * sss </field >
<field id="sstmax" long_name="max of sea surface temperature" field_ref="sst" operation="maximum" />
<field id="sssmax" long_name="max of sea surface salinity" field_ref="sss" operation="maximum" />
<field id="sstmin" long_name="min of sea surface temperature" field_ref="sst" operation="minimum" />
<field id="sssmin" long_name="min of sea surface salinity" field_ref="sss" operation="minimum" />
<field id="sstgrad" long_name="module of sst gradient" unit="degC/m" grid_ref="grid_T_2D_inner" />
<field id="sstgrad2" long_name="square of module of sst gradient" unit="degC2/m2" grid_ref="grid_T_2D_inner" />
<field id="sbt" long_name="sea bottom temperature" unit="degC" grid_ref="grid_T_2D_inner" />
<field id="tosmint" long_name="vertical integral of temperature times density" standard_name="integral_wrt_depth_of_product_of_density_and_potential_temperature" unit="(kg m2) degree_C" grid_ref="grid_T_2D_inner" />
<field id="sst_wl" long_name="Delta SST of warm layer" unit="degC" />
<field id="sst_cs" long_name="Delta SST of cool skin" unit="degC" />
<field id="temp_3m" long_name="temperature at 3m" unit="degC" />
<field id="sss" long_name="sea surface salinity" standard_name="sea_surface_salinity" unit="1e-3" />
<field id="sss2" long_name="square of sea surface salinity" unit="1e-6" > sss * sss </field >
<field id="sssmax" long_name="max of sea surface salinity" field_ref="sss" operation="maximum" />
<field id="sssmin" long_name="min of sea surface salinity" field_ref="sss" operation="minimum" />
<field id="sbs" long_name="sea bottom salinity" unit="0.001" grid_ref="grid_T_2D_inner" />
<field id="somint" long_name="vertical integral of salinity times density" standard_name="integral_wrt_depth_of_product_of_density_and_salinity" unit="(kg m2) x (1e-3)" grid_ref="grid_T_2D_inner" />
<field id="sbs" long_name="sea bottom salinity" unit="0.001" grid_ref="grid_T_2D_inner" />
<field id="sst_wl" long_name="Delta SST of warm layer" unit="degC" grid_ref="grid_T_2D_inner" />
<field id="sst_cs" long_name="Delta SST of cool skin" unit="degC" grid_ref="grid_T_2D_inner" />
<field id="taubot" long_name="bottom stress module" unit="N/m2" grid_ref="grid_T_2D_inner" />
<field id="tosmint" long_name="vertical integral of temperature times density" standard_name="integral_wrt_depth_of_product_of_density_and_potential_temperature" unit="(kg m2) degree_C" grid_ref="grid_T_2D_inner" />
<field id="somint" long_name="vertical integral of salinity times density" standard_name="integral_wrt_depth_of_product_of_density_and_salinity" unit="(kg m2) x (1e-3)" grid_ref="grid_T_2D_inner" />
<!-- Case EOS = TEOS-10 : output potential temperature -->
<field id="toce_pot" long_name="Sea Water Potential Temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D"/>
<field id="sst_pot" long_name="potential sea surface temperature" standard_name="sea_surface_temperature" unit="degC" />
<field id="tosmint_pot" long_name="vertical integral of potential temperature times density" standard_name="integral_wrt_depth_of_product_of_density_and_potential_temperature" unit="(kg m2) degree_C" />
<field id="toce_pot" long_name="Sea Water Potential Temperature" standard_name="sea_water_potential_temperature" unit="degC" grid_ref="grid_T_3D_inner"/>
<field id="sst_pot" long_name="potential sea surface temperature" standard_name="sea_surface_temperature" unit="degC" grid_ref="grid_T_2D_inner"/>
<field id="tosmint_pot" long_name="vertical integral of potential temperature times density" standard_name="integral_wrt_depth_of_product_of_density_and_potential_temperature" unit="(kg m2) degree_C" grid_ref="grid_T_2D_inner"/>
<field id="ht" long_name="water column height at T point" standard_name="water_column_height_T" unit="m" />
<field id="ssh" long_name="sea surface height" standard_name="sea_surface_height_above_geoid" unit="m" />
......@@ -172,13 +170,13 @@ that are available in the tidal-forcing implementation (see
<field id="wetdep" long_name="wet depth" standard_name="wet_depth" unit="m" />
<field id="sshmax" long_name="max of sea surface height" field_ref="ssh" operation="maximum" />
<field id="mldkz5" long_name="Turbocline depth (Kz = 5e-4)" standard_name="ocean_mixed_layer_thickness_defined_by_vertical_tracer_diffusivity" unit="m" />
<field id="mldr10_1" long_name="Mixed Layer Depth (dsigma = 0.01 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" />
<field id="mldr10_1max" long_name="Max of Mixed Layer Depth (dsigma = 0.01 wrt 10m)" field_ref="mldr10_1" operation="maximum" />
<field id="mldr10_1min" long_name="Min of Mixed Layer Depth (dsigma = 0.01 wrt 10m)" field_ref="mldr10_1" operation="minimum" />
<field id="heatc" long_name="Heat content vertically integrated" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" grid_ref="grid_T_2D_inner" />
<field id="saltc" long_name="Salt content vertically integrated" unit="PSU*kg/m2" grid_ref="grid_T_2D_inner" />
<field id="salt2c" long_name="square of Salt content vertically integrated" unit="PSU2*kg/m2" grid_ref="grid_T_2D_inner" />
<field id="mldkz5" long_name="Turbocline depth (Kz = 5e-4)" standard_name="ocean_mixed_layer_thickness_defined_by_vertical_tracer_diffusivity" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mldr10_1" long_name="Mixed Layer Depth (dsigma = 0.01 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mldr10_1max" long_name="Max of Mixed Layer Depth (dsigma = 0.01 wrt 10m)" field_ref="mldr10_1" operation="maximum" grid_ref="grid_T_2D_inner" />
<field id="mldr10_1min" long_name="Min of Mixed Layer Depth (dsigma = 0.01 wrt 10m)" field_ref="mldr10_1" operation="minimum" grid_ref="grid_T_2D_inner" />
<field id="heatc" long_name="Heat content vertically integrated" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" grid_ref="grid_T_2D_inner" />
<field id="saltc" long_name="Salt content vertically integrated" unit="PSU*kg/m2" grid_ref="grid_T_2D_inner" />
<field id="salt2c" long_name="square of Salt content vertically integrated" unit="PSU2*kg/m2" grid_ref="grid_T_2D_inner" />
<!-- EOS -->
<field id="alpha" long_name="thermal expansion" unit="degC-1" grid_ref="grid_T_3D" />
......@@ -199,46 +197,46 @@ that are available in the tidal-forcing implementation (see
<field id="wi_cff" long_name="Fraction of implicit vertical velocity" unit="#" grid_ref="grid_T_3D" />
<!-- next variables available with key_diahth -->
<field id="mlddzt" long_name="Thermocline Depth (depth of max dT/dz)" standard_name="depth_at_maximum_upward_derivative_of_sea_water_potential_temperature" unit="m" />
<field id="mldr10_3" long_name="Mixed Layer Depth (dsigma = 0.03 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" />
<field id="mldr0_1" long_name="Mixed Layer Depth (dsigma = 0.01 wrt sfc)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" />
<field id="mldr0_3" long_name="Mixed Layer Depth (dsigma = 0.03 wrt sfc)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" />
<field id="mld_dt02" long_name="Mixed Layer Depth (|dT| = 0.2 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_temperature" unit="m" />
<field id="topthdep" long_name="Top of Thermocline Depth (dT = -0.2 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_temperature" unit="m" />
<field id="pycndep" long_name="Pycnocline Depth (dsigma[dT=-0.2] wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" />
<field id="BLT" long_name="Barrier Layer Thickness" unit="m" > topthdep - pycndep </field>
<field id="tinv" long_name="Max of vertical invertion of temperature" unit="degC" />
<field id="depti" long_name="Depth of max. vert. inv. of temperature" unit="m" />
<field id="20d" long_name="Depth of 20C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_20C" />
<field id="26d" long_name="Depth of 26C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_26C" />
<field id="28d" long_name="Depth of 28C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" axis_ref="iax_28C" />
<field id="hc300" long_name="Heat content 0-300m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" />
<field id="hc700" long_name="Heat content 0-700m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" />
<field id="hc2000" long_name="Heat content 0-2000m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" />
<field id="mlddzt" long_name="Thermocline Depth (depth of max dT/dz)" standard_name="depth_at_maximum_upward_derivative_of_sea_water_potential_temperature" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mldr10_3" long_name="Mixed Layer Depth (dsigma = 0.03 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mldr0_1" long_name="Mixed Layer Depth (dsigma = 0.01 wrt sfc)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mldr0_3" long_name="Mixed Layer Depth (dsigma = 0.03 wrt sfc)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" grid_ref="grid_T_2D_inner" />
<field id="mld_dt02" long_name="Mixed Layer Depth (|dT| = 0.2 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_temperature" unit="m" grid_ref="grid_T_2D_inner" />
<field id="topthdep" long_name="Top of Thermocline Depth (dT = -0.2 wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_temperature" unit="m" grid_ref="grid_T_2D_inner" />
<field id="pycndep" long_name="Pycnocline Depth (dsigma[dT=-0.2] wrt 10m)" standard_name="ocean_mixed_layer_thickness_defined_by_sigma_theta" unit="m" grid_ref="grid_T_2D_inner" />
<field id="BLT" long_name="Barrier Layer Thickness" unit="m" grid_ref="grid_T_2D_inner" > topthdep - pycndep </field>
<field id="tinv" long_name="Max of vertical invertion of temperature" unit="degC" grid_ref="grid_T_2D_inner" />
<field id="depti" long_name="Depth of max. vert. inv. of temperature" unit="m" grid_ref="grid_T_2D_inner" />
<field id="20d" long_name="Depth of 20C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" grid_ref="grid_T_2D_inner" axis_ref="iax_20C" />
<field id="26d" long_name="Depth of 26C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" grid_ref="grid_T_2D_inner" axis_ref="iax_26C" />
<field id="28d" long_name="Depth of 28C isotherm" standard_name="depth_of_isosurface_of_sea_water_potential_temperature" unit="m" grid_ref="grid_T_2D_inner" axis_ref="iax_28C" />
<field id="hc300" long_name="Heat content 0-300m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" grid_ref="grid_T_2D_inner" />
<field id="hc700" long_name="Heat content 0-700m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" grid_ref="grid_T_2D_inner" />
<field id="hc2000" long_name="Heat content 0-2000m" standard_name="integral_of_sea_water_potential_temperature_wrt_depth_expressed_as_heat_content" unit="J/m2" grid_ref="grid_T_2D_inner" />
<!-- variables available with diaar5 -->
<field id="botpres" long_name="Sea Water Pressure at Sea Floor" standard_name="sea_water_pressure_at_sea_floor" unit="dbar" />
<field id="botpres" long_name="Sea Water Pressure at Sea Floor" standard_name="sea_water_pressure_at_sea_floor" unit="dbar" grid_ref="grid_T_2D_inner" />
<field id="sshdyn" long_name="dynamic sea surface height" standard_name="dynamic_sea_surface_height_above_geoid" unit="m" />
<field id="sshdyn2" long_name="square of dynamic sea surface height" standard_name="dynamic_sea_surface_height_above_geoid_squared" unit="m2" > sshdyn * sshdyn </field>
<field id="tnpeo" long_name="Tendency of ocean potential energy content" unit="W/m2" />
<field id="tnpeo" long_name="Tendency of ocean potential energy content" unit="W/m2" grid_ref="grid_T_2D_inner" />
<!-- variables available ln_linssh=.FALSE. -->
<field id="tpt_dep" long_name="T-point depth" standard_name="depth_below_geoid" unit="m" grid_ref="grid_T_3D" />
<field id="tpt_dep" long_name="T-point depth" standard_name="depth_below_geoid" unit="m" grid_ref="grid_T_3D_inner" />
<field id="e3tdef" long_name="T-cell thickness deformation" unit="%" grid_ref="grid_T_3D" />
<!-- variables available with ln_diacfl=.true. -->
<field id="cfl_cu" long_name="u-courant number" unit="#" />
<field id="cfl_cv" long_name="v-courant number" unit="#" />
<field id="cfl_cw" long_name="w-courant number" unit="#" />
<field id="cfl_cu" long_name="u-courant number" unit="#" grid_ref="grid_T_2D_inner" />
<field id="cfl_cv" long_name="v-courant number" unit="#" grid_ref="grid_T_2D_inner" />
<field id="cfl_cw" long_name="w-courant number" unit="#" grid_ref="grid_T_2D_inner" />
<!-- variables available with ln_zdfmfc=.true. -->
<field id="mf_Tp" long_name="plume_temperature" standard_name="plume_temperature" unit="degC" grid_ref="grid_T_3D" />
<field id="mf_Sp" long_name="plume_salinity" standard_name="plume_salinity" unit="1e-3" grid_ref="grid_T_3D" />
<field id="mf_mf" long_name="mass flux" standard_name="mf_mass_flux" unit="m" grid_ref="grid_T_3D" />
<field id="mf_mf" long_name="mass flux" standard_name="mf_mass_flux" unit="m" grid_ref="grid_T_3D_inner" />
<!-- fluxes from damping -->
<field id="sflx_dmp_cea" long_name="salt flux due to damping" standard_name="salt_flux_due_to_damping" unit="g/m2/s" />
<field id="hflx_dmp_cea" long_name="heat flux due to damping" standard_name="heat_flux_due_to_damping" unit="W/m2" />
<field id="sflx_dmp_cea" long_name="salt flux due to damping" standard_name="salt_flux_due_to_damping" unit="g/m2/s" grid_ref="grid_T_2D_inner" />
<field id="hflx_dmp_cea" long_name="heat flux due to damping" standard_name="heat_flux_due_to_damping" unit="W/m2" grid_ref="grid_T_2D_inner" />
<!-- * variable related to ice shelf forcing * -->
......@@ -410,7 +408,7 @@ that are available in the tidal-forcing implementation (see
<!-- SBC -->
<field_group id="SBC" > <!-- time step automaticaly defined based on nn_fsbc -->
<field_group id="SBC_2D" grid_ref="grid_T_2D" >
<field_group id="SBC_2D" grid_ref="grid_T_2D_inner" >
<field id="empmr" long_name="Net Upward Water Flux" standard_name="water_flux_out_of_sea_ice_and_sea_water" unit="kg/m2/s" />
<field id="empbmr" long_name="Net Upward Water Flux at pre. tstep" standard_name="water_flux_out_of_sea_ice_and_sea_water" unit="kg/m2/s" />
......@@ -423,48 +421,51 @@ that are available in the tidal-forcing implementation (see
<field id="precip" long_name="Total precipitation" standard_name="precipitation_flux" unit="kg/m2/s" />
<field id="wclosea" long_name="closed sea empmr correction" standard_name="closea_empmr" unit="kg/m2/s" />
<field id="qt" long_name="Net Downward Heat Flux" standard_name="surface_downward_heat_flux_in_sea_water" unit="W/m2" />
<field id="qns" long_name="non solar Downward Heat Flux" unit="W/m2" />
<field id="qsr" long_name="Shortwave Radiation" standard_name="net_downward_shortwave_flux_at_sea_water_surface" unit="W/m2" />
<field id="qsr3d" long_name="Shortwave Radiation 3D distribution" standard_name="downwelling_shortwave_flux_in_sea_water" unit="W/m2" grid_ref="grid_T_3D" />
<field id="qrp" long_name="Surface Heat Flux: Damping" standard_name="heat_flux_into_sea_water_due_to_newtonian_relaxation" unit="W/m2" />
<field id="qt" long_name="Net Downward Heat Flux" standard_name="surface_downward_heat_flux_in_sea_water" unit="W/m2" />
<field id="qns" long_name="non solar Downward Heat Flux" unit="W/m2" />
<field id="qsr" long_name="Shortwave Radiation" standard_name="net_downward_shortwave_flux_at_sea_water_surface" unit="W/m2" />
<field id="qsr3d" long_name="Shortwave Radiation 3D distribution" standard_name="downwelling_shortwave_flux_in_sea_water" unit="W/m2" grid_ref="grid_T_3D" />
<field id="qrp" long_name="Surface Heat Flux: Damping" standard_name="heat_flux_into_sea_water_due_to_newtonian_relaxation" unit="W/m2" />
<field id="qclosea" long_name="closed sea heat content flux" standard_name="closea_heat_content_downward_flux" unit="W/m2" />
<field id="erp" long_name="Surface Water Flux: Damping" standard_name="water_flux_out_of_sea_water_due_to_newtonian_relaxation" unit="kg/m2/s" />
<field id="taum" long_name="wind stress module" standard_name="magnitude_of_surface_downward_stress" unit="N/m2" />
<field id="wspd" long_name="wind speed module" standard_name="wind_speed" unit="m/s" />
<field id="erp" long_name="Surface Water Flux: Damping" standard_name="water_flux_out_of_sea_water_due_to_newtonian_relaxation" unit="kg/m2/s" />
<field id="taum" long_name="wind stress module" standard_name="magnitude_of_surface_downward_stress" unit="N/m2" />
<field id="wspd" long_name="wind speed module" standard_name="wind_speed" unit="m/s" />
<field id="utau" long_name="Wind Stress along i-axis" standard_name="surface_downward_x_stress" unit="N/m2" />
<field id="vtau" long_name="Wind Stress along j-axis" standard_name="surface_downward_y_stress" unit="N/m2" />
<!-- * variable relative to atmospheric pressure forcing : available with ln_apr_dyn -->
<field id="ssh_ib" long_name="Inverse barometer sea surface height" standard_name="sea_surface_height_correction_due_to_air_pressure_at_low_frequency" unit="m" />
<field id="ssh_ib" long_name="Inverse barometer sea surface height" standard_name="sea_surface_height_correction_due_to_air_pressure_at_low_frequency" unit="m" grid_ref="grid_T_2D" />
<!-- *_oce variables available with ln_blk_clio or ln_blk_core -->
<field id="rho_air" long_name="Air density at 10m above sea surface" standard_name="rho_air_10m" unit="kg/m3" />
<field id="dt_skin" long_name="SSST-SST temperature difference" standard_name="SSST-SST" unit="K" />
<field id="qlw_oce" long_name="Longwave Downward Heat Flux over open ocean" standard_name="surface_net_downward_longwave_flux" unit="W/m2" />
<field id="qsb_oce" long_name="Sensible Downward Heat Flux over open ocean" standard_name="surface_downward_sensible_heat_flux" unit="W/m2" />
<field id="qla_oce" long_name="Latent Downward Heat Flux over open ocean" standard_name="surface_downward_latent_heat_flux" unit="W/m2" />
<field id="evap_oce" long_name="Evaporation over open ocean" standard_name="evaporation" unit="kg/m2/s" />
<field id="qt_oce" long_name="total flux at ocean surface" standard_name="surface_downward_heat_flux_in_sea_water" unit="W/m2" />
<field id="qsr_oce" long_name="solar heat flux at ocean surface" standard_name="net_downward_shortwave_flux_at_sea_water_surface" unit="W/m2" />
<field id="qns_oce" long_name="non-solar heat flux at ocean surface (including E-P)" unit="W/m2" />
<field id="qemp_oce" long_name="Downward Heat Flux from E-P over open ocean" unit="W/m2" />
<field id="taum_oce" long_name="wind stress module over open ocean" standard_name="magnitude_of_surface_downward_stress" unit="N/m2" />
<field id="rho_air" long_name="Air density at 10m above sea surface" standard_name="rho_air_10m" unit="kg/m3" />
<field id="t_skin" long_name="Skin temperature aka SSST" standard_name="skin_temperature" unit="degC" />
<field id="dt_skin" long_name="SSST-SST temperature difference" standard_name="SSST-SST" unit="K" />
<field id="qlw_oce" long_name="Longwave Downward Heat Flux over open ocean" standard_name="surface_net_downward_longwave_flux" unit="W/m2" />
<field id="qsb_oce" long_name="Sensible Downward Heat Flux over open ocean" standard_name="surface_downward_sensible_heat_flux" unit="W/m2" />
<field id="qla_oce" long_name="Latent Downward Heat Flux over open ocean" standard_name="surface_downward_latent_heat_flux" unit="W/m2" />
<field id="evap_oce" long_name="Evaporation over open ocean" standard_name="evaporation" unit="kg/m2/s"/>
<field id="qt_oce" long_name="total flux at ocean surface" standard_name="surface_downward_heat_flux_in_sea_water" unit="W/m2" />
<field id="qsr_oce" long_name="solar heat flux at ocean surface" standard_name="net_downward_shortwave_flux_at_sea_water_surface" unit="W/m2" />
<field id="qns_oce" long_name="non-solar heat flux at ocean surface (including E-P)" unit="W/m2" />
<field id="qemp_oce" long_name="Downward Heat Flux from E-P over open ocean" unit="W/m2" />
<field id="taum_oce" long_name="wind stress module over open ocean" standard_name="magnitude_of_surface_downward_stress" unit="N/m2" />
<field id="utau_oce" long_name="Wind Stress along i-axis over open ocean (T-points)" standard_name="surf_down_x_stress_open_oce_Tpoints" unit="N/m2" />
<field id="vtau_oce" long_name="Wind Stress along j-axis over open ocean (T-points)" standard_name="surf_down_y_stress_open_oce_Tpoints" unit="N/m2" />
<field id="vtau_oce" long_name="Wind Stress along j-axis over open ocean (T-points)" standard_name="surf_down_y_stress_open_oce_Tpoints" unit="N/m2" />
<!-- variables computed by the bulk parameterization algorithms (ln_blk) -->
<field id="Cd_oce" long_name="Drag coefficient over open ocean" standard_name="drag_coefficient_water" unit="" />
<field id="Ce_oce" long_name="Evaporaion coefficient over open ocean" standard_name="evap_coefficient_water" unit="" />
<field id="Ch_oce" long_name="Sensible heat coefficient over open ocean" standard_name="sensible_heat_coefficient_water" unit="" />
<field id="Cd_oce" long_name="Drag coefficient over open ocean" standard_name="drag_coefficient_water" unit="" />
<field id="Ce_oce" long_name="Evaporaion coefficient over open ocean" standard_name="evap_coefficient_water" unit="" />
<field id="Ch_oce" long_name="Sensible heat coefficient over open ocean" standard_name="sensible_heat_coefficient_water" unit="" />
<field id="theta_zt" long_name="Potential air temperature at z=zt" standard_name="potential_air_temperature_at_zt" unit="degC" />
<field id="q_zt" long_name="Specific air humidity at z=zt" standard_name="specific_air_humidity_at_zt" unit="kg/kg" />
<field id="q_zt" long_name="Specific air humidity at z=zt" standard_name="specific_air_humidity_at_zt" unit="kg/kg"/>
<field id="theta_zu" long_name="Potential air temperature at z=zu" standard_name="potential_air_temperature_at_zu" unit="degC" />
<field id="q_zu" long_name="Specific air humidity at z=zu" standard_name="specific_air_humidity_at_zu" unit="kg/kg" />
<field id="ssq" long_name="Saturation specific humidity of air at z=0" standard_name="surface_air_saturation_spec_humidity" unit="kg/kg" />
<field id="wspd_blk" long_name="Bulk wind speed at z=zu" standard_name="bulk_wind_speed_at_zu" unit="m/s" />
<field id="q_zu" long_name="Specific air humidity at z=zu" standard_name="specific_air_humidity_at_zu" unit="kg/kg"/>
<field id="ssq" long_name="Saturation specific humidity of air at z=0" standard_name="surface_air_saturation_spec_humidity" unit="kg/kg"/>
<field id="wspd_blk" long_name="Bulk wind speed at z=zu" standard_name="bulk_wind_speed_at_zu" unit="m/s" />
<!-- ln_blk + key_si3 -->
<field id="Cd_ice" long_name="Drag coefficient over ice" standard_name="drag_coefficient_ice" unit="" />
<field id="Ce_ice" long_name="Evaporaion coefficient over ice" standard_name="evap_coefficient_ice" unit="" />
<field id="Ch_ice" long_name="Sensible heat coefficient over ice" standard_name="sensible_heat_coefficient_ice" unit="" />
<field id="Cd_ice" long_name="Drag coefficient over ice" standard_name="drag_coefficient_ice" unit="" />
<field id="Ce_ice" long_name="Evaporaion coefficient over ice" standard_name="evap_coefficient_ice" unit="" />
<field id="Ch_ice" long_name="Sensible heat coefficient over ice" standard_name="sensible_heat_coefficient_ice" unit="" />
<!-- available key_oasis3 -->
<field id="snow_ao_cea" long_name="Snow over ice-free ocean (cell average)" standard_name="snowfall_flux" unit="kg/m2/s" />
......@@ -510,22 +511,22 @@ that are available in the tidal-forcing implementation (see
<field id="vflx_fwb_cea" long_name="volume flux due to fwb" standard_name="volume_flux_due_to_fwb" unit="kg/m2/s" />
<!-- ice field (nn_ice=1) -->
<field id="ice_cover" long_name="Ice fraction" standard_name="sea_ice_area_fraction" unit="1" />
<field id="ice_cover" long_name="Ice fraction" standard_name="sea_ice_area_fraction" unit="1" grid_ref="grid_T_2D" />
<!-- dilution -->
<field id="emp_x_sst" long_name="Concentration/Dilution term on SST" unit="kg*degC/m2/s" />
<field id="emp_x_sss" long_name="Concentration/Dilution term on SSS" unit="kg*1e-3/m2/s" />
<field id="rnf_x_sst" long_name="Runoff term on SST" unit="kg*degC/m2/s" />
<field id="rnf_x_sss" long_name="Runoff term on SSS" unit="kg*1e-3/m2/s" />
<field id="emp_x_sst" long_name="Concentration/Dilution term on SST" unit="kg*degC/m2/s" grid_ref="grid_T_2D" />
<field id="emp_x_sss" long_name="Concentration/Dilution term on SSS" unit="kg*1e-3/m2/s" grid_ref="grid_T_2D" />
<field id="rnf_x_sst" long_name="Runoff term on SST" unit="kg*degC/m2/s" grid_ref="grid_T_2D" />
<field id="rnf_x_sss" long_name="Runoff term on SSS" unit="kg*1e-3/m2/s" grid_ref="grid_T_2D" />
<!-- sbcssm variables -->
<field id="sst_m" unit="degC" />
<field id="sss_m" unit="psu" />
<field id="ssu_m" unit="m/s" />
<field id="ssv_m" unit="m/s" />
<field id="ssh_m" unit="m" />
<field id="e3t_m" unit="m" />
<field id="frq_m" unit="-" />
<field id="sst_m" unit="degC" grid_ref="grid_T_2D" />
<field id="sss_m" unit="psu" grid_ref="grid_T_2D" />
<field id="ssu_m" unit="m/s" grid_ref="grid_T_2D" />
<field id="ssv_m" unit="m/s" grid_ref="grid_T_2D" />
<field id="ssh_m" unit="m" grid_ref="grid_T_2D" />
<field id="e3t_m" unit="m" grid_ref="grid_T_2D" />
<field id="frq_m" unit="-" grid_ref="grid_T_2D" />
</field_group>
......@@ -580,18 +581,17 @@ that are available in the tidal-forcing implementation (see
<field_group id="grid_U" grid_ref="grid_U_2D">
<field id="hu" long_name="water column height at U point" standard_name="water_column_height_U" unit="m" />
<field id="e2u" long_name="U-cell width in meridional direction" standard_name="cell_width" unit="m" />
<field id="e3u" long_name="U-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_U_3D" />
<field id="e3u_0" long_name="Initial U-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_U_3D"/>
<field id="utau" long_name="Wind Stress along i-axis" standard_name="surface_downward_x_stress" unit="N/m2" />
<field id="uoce" long_name="ocean current along i-axis" standard_name="sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" />
<field id="uoce_e3u" long_name="ocean current along i-axis (thickness weighted)" unit="m/s" grid_ref="grid_U_3D" > uoce * e3u </field>
<field id="uoce_e3u_vsum" long_name="ocean current along i-axis * e3u summed on the vertical" field_ref="uoce_e3u" unit="m3/s" grid_ref="grid_U_vsum"/>
<field id="uocetr_vsum" long_name="ocean transport along i-axis summed on the vertical" field_ref="e2u" unit="m3/s"> this * uoce_e3u_vsum </field>
<field id="uocetr_vsum_op" long_name="ocean current along i-axis * e3u * e2u summed on the vertical" read_access="true" freq_op="1mo" field_ref="e2u" unit="m3/s"> @uocetr_vsum </field>
<field id="e2u" long_name="U-cell width in meridional direction" standard_name="cell_width" unit="m" />
<field id="e3u" long_name="U-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_U_3D" />
<field id="e3u_0" long_name="Initial U-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_U_3D" />
<field id="uoce" long_name="ocean current along i-axis" standard_name="sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" />
<field id="uoce_e3u" long_name="ocean current along i-axis (thickness weighted)" unit="m/s" grid_ref="grid_U_3D" > uoce * e3u </field>
<field id="uoce_e3u_vsum" long_name="ocean current along i-axis * e3u summed on the vertical" field_ref="uoce_e3u" unit="m3/s" grid_ref="grid_U_vsum" />
<field id="uocetr_vsum" long_name="ocean transport along i-axis summed on the vertical" field_ref="e2u" unit="m3/s" > this * uoce_e3u_vsum </field>
<field id="uocetr_vsum_op" long_name="ocean current along i-axis * e3u * e2u summed on the vertical" read_access="true" freq_op="1mo" field_ref="e2u" unit="m3/s" > @uocetr_vsum </field>
<field id="uocetr_vsum_cumul" long_name="ocean current along i-axis * e3u * e2u cumulated from southwest point" freq_offset="_reset_" operation="instant" freq_op="1mo" unit="m3/s" />
<field id="msftbarot" long_name="ocean_barotropic_mass_streamfunction" unit="kg s-1" > uocetr_vsum_cumul * $rho0 </field>
<field id="msftbarot" long_name="ocean_barotropic_mass_streamfunction" unit="kg s-1" > uocetr_vsum_cumul * $rho0 </field>
<field id="ssu" long_name="ocean surface current along i-axis" unit="m/s" />
......@@ -605,21 +605,21 @@ that are available in the tidal-forcing implementation (see
<field id="agrif_spu" long_name=" AGRIF u-sponge coefficient" unit=" " />
<!-- u-eddy diffusivity coefficients (available if ln_traldf_OFF=F) -->
<field id="ahtu_2d" long_name=" surface u-eddy diffusivity coefficient" unit="m2/s or m4/s" />
<field id="ahtu_3d" long_name=" 3D u-EIV coefficient" unit="m2/s or m4/s" grid_ref="grid_U_3D"/>
<field id="ahtu_3d" long_name=" 3D u-EIV coefficient" unit="m2/s or m4/s" grid_ref="grid_U_3D" />
<!-- u-eiv diffusivity coefficients (available if ln_ldfeiv=F) -->
<field id="aeiu_2d" long_name=" surface u-EIV coefficient" unit="m2/s" />
<field id="aeiu_3d" long_name=" 3D u-EIV coefficient" unit="m2/s" grid_ref="grid_U_3D"/>
<field id="aeiu_2d" long_name=" surface u-EIV coefficient" unit="m2/s" />
<field id="aeiu_3d" long_name=" 3D u-EIV coefficient" unit="m2/s" grid_ref="grid_U_3D" />
<!-- variables available with MLE (ln_mle=T) -->
<field id="psiu_mle" long_name="MLE streamfunction along i-axis" unit="m3/s" grid_ref="grid_U_3D" />
<field id="psiu_mle" long_name="MLE streamfunction along i-axis" unit="m3/s" grid_ref="grid_U_3D" />
<!-- uoce_eiv: available EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) -->
<field id="uoce_eiv" long_name="EIV ocean current along i-axis" standard_name="bolus_sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D" />
<field id="ueiv_masstr" long_name="EIV Ocean Mass X Transport" standard_name="bolus_ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D" />
<field id="ueiv_heattr" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" />
<field id="ueiv_salttr" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" />
<field id="ueiv_heattr3d" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" grid_ref="grid_U_3D" />
<field id="ueiv_salttr3d" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_U_3D" />
<field id="uoce_eiv" long_name="EIV ocean current along i-axis" standard_name="bolus_sea_water_x_velocity" unit="m/s" grid_ref="grid_U_3D_inner" />
<field id="ueiv_masstr" long_name="EIV Ocean Mass X Transport" standard_name="bolus_ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D_inner" />
<field id="ueiv_heattr" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" grid_ref="grid_U_2D_inner" />
<field id="ueiv_salttr" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" grid_ref="grid_U_2D_inner" />
<field id="ueiv_heattr3d" long_name="ocean bolus heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_bolus_advection" unit="W" grid_ref="grid_U_3D_inner" />
<field id="ueiv_salttr3d" long_name="ocean bolus salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_U_3D_inner" />
<!-- uoce_bbl: available with ln_trabbl=T and nn_bbl_adv=1 -->
<field id="uoce_bbl" long_name="BBL ocean current along i-axis" unit="m/s" />
......@@ -634,24 +634,23 @@ that are available in the tidal-forcing implementation (see
<field id="utbl" long_name="zonal current in the Losh tbl" unit="m/s" />
<!-- variables available with diaar5 -->
<field id="u_masstr" long_name="Ocean Mass X Transport" standard_name="ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D" />
<field id="u_masstr_vint" long_name="vertical integral of ocean eulerian mass transport along i-axis" standard_name="vertical_integral_of_ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_2D_inner" />
<field id="u_heattr" long_name="ocean eulerian heat transport along i-axis" standard_name="ocean_heat_x_transport" unit="W" grid_ref="grid_U_2D_inner" />
<field id="u_masstr" long_name="Ocean Mass X Transport" standard_name="ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_3D_inner" />
<field id="u_masstr_vint" long_name="vertical integral of ocean eulerian mass transport along i-axis" standard_name="vertical_integral_of_ocean_mass_x_transport" unit="kg/s" grid_ref="grid_U_2D_inner" />
<field id="u_heattr" long_name="ocean eulerian heat transport along i-axis" standard_name="ocean_heat_x_transport" unit="W" grid_ref="grid_U_2D_inner" />
<field id="u_salttr" long_name="ocean eulerian salt transport along i-axis" standard_name="ocean_salt_x_transport" unit="1e-3*kg/s" grid_ref="grid_U_2D_inner" />
<field id="uadv_heattr" long_name="ocean advective heat transport along i-axis" standard_name="advectice_ocean_heat_x_transport" unit="W" />
<field id="uadv_salttr" long_name="ocean advective salt transport along i-axis" standard_name="advectice_ocean_salt_x_transport" unit="1e-3*kg/s" />
<field id="udiff_heattr" long_name="ocean diffusion heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_diffusion" unit="W" />
<field id="udiff_salttr" long_name="ocean diffusion salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_diffusion" unit="1e-3*kg/s" />
<field id="uadv_heattr" long_name="ocean advective heat transport along i-axis" standard_name="advectice_ocean_heat_x_transport" unit="W" grid_ref="grid_U_2D_inner" />
<field id="uadv_salttr" long_name="ocean advective salt transport along i-axis" standard_name="advectice_ocean_salt_x_transport" unit="1e-3*kg/s" grid_ref="grid_U_2D_inner" />
<field id="udiff_heattr" long_name="ocean diffusion heat transport along i-axis" standard_name="ocean_heat_x_transport_due_to_diffusion" unit="W" grid_ref="grid_U_2D_inner" />
<field id="udiff_salttr" long_name="ocean diffusion salt transport along i-axis" standard_name="ocean_salt_x_transport_due_to_diffusion" unit="1e-3*kg/s" grid_ref="grid_U_2D_inner" />
</field_group>
<!-- V grid -->
<field_group id="grid_V" grid_ref="grid_V_2D">
<field id="e1v" long_name="V-cell width in longitudinal direction" standard_name="cell_width" unit="m" />
<field id="e1v" long_name="V-cell width in longitudinal direction" standard_name="cell_width" unit="m" />
<field id="e3v" long_name="V-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_V_3D" />
<field id="e3v_0" long_name="Initial V-cell thickness" standard_name="ref_cell_thickness" unit="m" grid_ref="grid_V_3D" />
<field id="hv" long_name="water column height at V point" standard_name="water_column_height_V" unit="m" />
<field id="vtau" long_name="Wind Stress along j-axis" standard_name="surface_downward_y_stress" unit="N/m2" />
<field id="voce" long_name="ocean current along j-axis" standard_name="sea_water_y_velocity" unit="m/s" grid_ref="grid_V_3D" />
<field id="voce_e3v" long_name="ocean current along j-axis (thickness weighted)" unit="m/s" grid_ref="grid_V_3D" > voce * e3v </field>
<field id="ssv" long_name="ocean surface current along j-axis" unit="m/s" />
......@@ -665,21 +664,21 @@ that are available in the tidal-forcing implementation (see
<field id="agrif_spv" long_name=" AGRIF v-sponge coefficient" unit=" " />
<!-- v-eddy diffusivity coefficients (available if ln_traldf_OFF=F) -->
<field id="ahtv_2d" long_name=" surface v-eddy diffusivity coefficient" unit="m2/s or (m4/s)^1/2" />
<field id="ahtv_3d" long_name=" 3D v-eddy diffusivity coefficient" unit="m2/s or (m4/s)^1/2" grid_ref="grid_V_3D"/>
<field id="ahtv_3d" long_name=" 3D v-eddy diffusivity coefficient" unit="m2/s or (m4/s)^1/2" grid_ref="grid_V_3D" />
<!-- v-eiv diffusivity coefficients (available if ln_ldfeiv=F) -->
<field id="aeiv_2d" long_name=" surface v-EIV coefficient" unit="m2/s" />
<field id="aeiv_3d" long_name=" 3D v-EIV coefficient" unit="m2/s" grid_ref="grid_V_3D" />
<field id="aeiv_2d" long_name=" surface v-EIV coefficient" unit="m2/s" />
<field id="aeiv_3d" long_name=" 3D v-EIV coefficient" unit="m2/s" grid_ref="grid_V_3D" />
<!-- variables available with MLE (ln_mle=T) -->
<field id="psiv_mle" long_name="MLE streamfunction along j-axis" unit="m3/s" grid_ref="grid_V_3D" />
<field id="psiv_mle" long_name="MLE streamfunction along j-axis" unit="m3/s" grid_ref="grid_V_3D" />
<!-- voce_eiv: available EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) -->
<field id="voce_eiv" long_name="EIV ocean current along j-axis" standard_name="bolus_sea_water_y_velocity" unit="m/s" grid_ref="grid_V_3D" />
<field id="veiv_masstr" long_name="EIV Ocean Mass Y Transport" standard_name="bolus_ocean_mass_y_transport" unit="kg/s" grid_ref="grid_V_3D" />
<field id="veiv_heattr" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" />
<field id="veiv_salttr" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" />
<field id="veiv_heattr3d" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" grid_ref="grid_V_3D" />
<field id="veiv_salttr3d" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_V_3D" />
<field id="voce_eiv" long_name="EIV ocean current along j-axis" standard_name="bolus_sea_water_y_velocity" unit="m/s" grid_ref="grid_V_3D_inner" />
<field id="veiv_masstr" long_name="EIV Ocean Mass Y Transport" standard_name="bolus_ocean_mass_y_transport" unit="kg/s" grid_ref="grid_V_3D_inner" />
<field id="veiv_heattr" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" grid_ref="grid_V_2D_inner" />
<field id="veiv_salttr" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_x_transport_due_to_bolus_advection" unit="Kg" grid_ref="grid_V_2D_inner" />
<field id="veiv_heattr3d" long_name="ocean bolus heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_bolus_advection" unit="W" grid_ref="grid_V_3D_inner" />
<field id="veiv_salttr3d" long_name="ocean bolus salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_V_3D_inner" />
<!-- voce_bbl: available with ln_trabbl=T and nn_bbl_adv=1 -->
......@@ -695,13 +694,13 @@ that are available in the tidal-forcing implementation (see
<field id="vtbl" long_name="meridional current in the Losh tbl" unit="m/s" />
<!-- variables available with diaar5 -->
<field id="v_masstr" long_name="ocean eulerian mass transport along j-axis" standard_name="ocean_mass_y_transport" unit="kg/s" grid_ref="grid_V_3D" />
<field id="v_masstr" long_name="ocean eulerian mass transport along j-axis" standard_name="ocean_mass_y_transport" unit="kg/s" grid_ref="grid_V_3D_inner" />
<field id="v_heattr" long_name="ocean eulerian heat transport along j-axis" standard_name="ocean_heat_y_transport" unit="W" grid_ref="grid_V_2D_inner" />
<field id="v_salttr" long_name="ocean eulerian salt transport along i-axis" standard_name="ocean_salt_y_transport" unit="1e-3*kg/s" grid_ref="grid_V_2D_inner" />
<field id="vadv_heattr" long_name="ocean advective heat transport along j-axis" standard_name="advectice_ocean_heat_y_transport" unit="W" />
<field id="vadv_salttr" long_name="ocean advective salt transport along j-axis" standard_name="advectice_ocean_salt_y_transport" unit="1e-3*kg/s" />
<field id="vdiff_heattr" long_name="ocean diffusion heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_diffusion" unit="W" />
<field id="vdiff_salttr" long_name="ocean diffusion salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_diffusion" unit="1e-3*kg/s" />
<field id="vadv_heattr" long_name="ocean advective heat transport along j-axis" standard_name="advectice_ocean_heat_y_transport" unit="W" grid_ref="grid_V_2D_inner" />
<field id="vadv_salttr" long_name="ocean advective salt transport along j-axis" standard_name="advectice_ocean_salt_y_transport" unit="1e-3*kg/s" grid_ref="grid_V_2D_inner" />
<field id="vdiff_heattr" long_name="ocean diffusion heat transport along j-axis" standard_name="ocean_heat_y_transport_due_to_diffusion" unit="W" grid_ref="grid_V_2D_inner" />
<field id="vdiff_salttr" long_name="ocean diffusion salt transport along j-axis" standard_name="ocean_salt_y_transport_due_to_diffusion" unit="1e-3*kg/s" grid_ref="grid_V_2D_inner" />
</field_group>
<!-- W grid -->
......@@ -712,70 +711,70 @@ that are available in the tidal-forcing implementation (see
<field id="woce_e3w" long_name="ocean vertical velocity * e3w" unit="m2/s" > woce * e3w </field>
<field id="wocetr_eff" long_name="effective ocean vertical transport" unit="m3/s" />
<!-- woce_eiv: available with EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) -->
<field id="woce_eiv" long_name="EIV ocean vertical velocity" standard_name="bolus_upward_sea_water_velocity" unit="m/s" />
<field id="weiv_masstr" long_name="EIV Upward Ocean Mass Transport" standard_name="bolus_upward_ocean_mass_transport" unit="kg/s" />
<field id="weiv_heattr3d" long_name="ocean bolus heat transport" standard_name="ocean_heat_z_transport_due_to_bolus_advection" unit="W" />
<field id="weiv_salttr3d" long_name="ocean bolus salt transport" standard_name="ocean_salt_z_transport_due_to_bolus_advection" unit="kg" />
<!-- variables available with WAVE (ln_wave=T) -->
<field id="wstokes" long_name="Stokes Drift vertical velocity" standard_name="upward_StokesDrift_velocity" unit="m/s" />
<field id="avt" long_name="vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" />
<field id="avt_e3w" long_name="vertical heat diffusivity * e3w" unit="m3/s" > avt * e3w </field>
<field id="logavt" long_name="logarithm of vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" />
<field id="avm" long_name="vertical eddy viscosity" standard_name="ocean_vertical_momentum_diffusivity" unit="m2/s" />
<field id="avm_e3w" long_name="vertical eddy viscosity * e3w" unit="m3/s" > avm * e3w </field>
<!-- woce_eiv: available with EIV (ln_ldfeiv=T and ln_ldfeiv_dia=T) -->
<field id="woce_eiv" long_name="EIV ocean vertical velocity" standard_name="bolus_upward_sea_water_velocity" unit="m/s" grid_ref="grid_W_3D_inner" />
<field id="weiv_masstr" long_name="EIV Upward Ocean Mass Transport" standard_name="bolus_upward_ocean_mass_transport" unit="kg/s" grid_ref="grid_W_3D_inner" />
<field id="weiv_heattr3d" long_name="ocean bolus heat transport" standard_name="ocean_heat_z_transport_due_to_bolus_advection" unit="W" grid_ref="grid_W_3D_inner" />
<field id="weiv_salttr3d" long_name="ocean bolus salt transport" standard_name="ocean_salt_z_transport_due_to_bolus_advection" unit="kg" grid_ref="grid_W_3D_inner" />
<!-- avt, avm -->
<field id="avt" long_name="vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="avt_e3w" long_name="vertical heat diffusivity * e3w" unit="m3/s" > avt * e3w </field>
<field id="logavt" long_name="logarithm of vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="avm" long_name="vertical eddy viscosity" standard_name="ocean_vertical_momentum_diffusivity" unit="m2/s" />
<field id="avm_e3w" long_name="vertical eddy viscosity * e3w" unit="m3/s" > avm * e3w </field>
<!-- avs: /= avt with ln_zdfddm=T -->
<field id="avs" long_name="salt vertical eddy diffusivity" standard_name="ocean_vertical_salt_diffusivity" unit="m2/s" />
<field id="avs_e3w" long_name="vertical salt diffusivity * e3w" unit="m3/s" > avs * e3w </field>
<field id="logavs" long_name="logarithm of salt vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" />
<field id="avs" long_name="salt vertical eddy diffusivity" standard_name="ocean_vertical_salt_diffusivity" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="avs_e3w" long_name="vertical salt diffusivity * e3w" unit="m3/s" > avs * e3w </field>
<field id="logavs" long_name="logarithm of salt vertical eddy diffusivity" standard_name="ocean_vertical_heat_diffusivity" unit="m2/s" grid_ref="grid_W_3D_inner" />
<!-- avt_evd and avm_evd: available with ln_zdfevd -->
<field id="avt_evd" long_name="convective enhancement of vertical diffusivity" standard_name="ocean_vertical_tracer_diffusivity_due_to_convection" unit="m2/s" />
<field id="avt_evd_e3w" long_name="convective enhancement to vertical diffusivity * e3w " unit="m3/s" > avt_evd * e3w </field>
<field id="avm_evd" long_name="convective enhancement of vertical viscosity" standard_name="ocean_vertical_momentum_diffusivity_due_to_convection" unit="m2/s" />
<field id="avt_evd" long_name="convective enhancement of vertical diffusivity" standard_name="ocean_vertical_tracer_diffusivity_due_to_convection" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="avt_evd_e3w" long_name="convective enhancement to vertical diffusivity * e3w " unit="m3/s" > avt_evd * e3w </field>
<field id="avm_evd" long_name="convective enhancement of vertical viscosity" standard_name="ocean_vertical_momentum_diffusivity_due_to_convection" unit="m2/s" grid_ref="grid_W_3D_inner" />
<!-- mf_app and mf_wp: available with ln_zdfmfc -->
<field id="mf_app" long_name="convective area" standard_name="mf_convective_area" unit="%" grid_ref="grid_W_3D" />
<field id="mf_wp" long_name="convective velocity" standard_name="mf_convective_velo" unit="m/s" grid_ref="grid_W_3D" />
<field id="mf_app" long_name="convective area" standard_name="mf_convective_area" unit="%" grid_ref="grid_W_3D_inner" />
<field id="mf_wp" long_name="convective velocity" standard_name="mf_convective_velo" unit="m/s" grid_ref="grid_W_3D_inner" />
<!-- avt_tide: available with ln_zdfiwm=T -->
<field id="av_ratio" long_name="S over T diffusivity ratio" standard_name="salinity_over_temperature_diffusivity_ratio" unit="1" />
<field id="av_wave" long_name="internal wave-induced vertical diffusivity" standard_name="ocean_vertical_tracer_diffusivity_due_to_internal_waves" unit="m2/s" />
<field id="bflx_iwm" long_name="internal wave-induced buoyancy flux" standard_name="buoyancy_flux_due_to_internal_waves" unit="W/kg" />
<field id="pcmap_iwm" long_name="power consumed by wave-driven mixing" standard_name="vertically_integrated_power_consumption_by_wave_driven_mixing" unit="W/m2" grid_ref="grid_W_2D" />
<field id="emix_iwm" long_name="power density available for mixing" standard_name="power_available_for_mixing_from_breaking_internal_waves" unit="W/kg" />
<!-- variables available with WAVE (ln_wave=T) -->
<field id="wstokes" long_name="Stokes Drift vertical velocity" standard_name="upward_StokesDrift_velocity" unit="m/s" />
<field id="av_ratio" long_name="S over T diffusivity ratio" standard_name="salinity_over_temperature_diffusivity_ratio" unit="1" grid_ref="grid_W_3D_inner" />
<field id="av_wave" long_name="internal wave-induced vertical diffusivity" standard_name="ocean_vertical_tracer_diffusivity_due_to_internal_waves" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="bflx_iwm" long_name="internal wave-induced buoyancy flux" standard_name="buoyancy_flux_due_to_internal_waves" unit="W/kg" grid_ref="grid_W_3D_inner" />
<field id="pcmap_iwm" long_name="power consumed by wave-driven mixing" standard_name="vertically_integrated_power_consumption_by_wave_driven_mixing" unit="W/m2" grid_ref="grid_W_2D_inner" />
<field id="emix_iwm" long_name="power density available for mixing" standard_name="power_available_for_mixing_from_breaking_internal_waves" unit="W/kg" grid_ref="grid_W_3D_inner" />
<!-- variables available with diaar5 -->
<field id="w_masstr" long_name="vertical mass transport" standard_name="upward_ocean_mass_transport" unit="kg/s" />
<field id="w_masstr2" long_name="square of vertical mass transport" standard_name="square_of_upward_ocean_mass_transport" unit="kg2/s2" />
<field id="w_masstr" long_name="vertical mass transport" standard_name="upward_ocean_mass_transport" unit="kg/s" grid_ref="grid_W_3D_inner" />
<field id="w_masstr2" long_name="square of vertical mass transport" standard_name="square_of_upward_ocean_mass_transport" unit="kg2/s2" grid_ref="grid_W_3D_inner" />
<!-- EOS -->
<field id="bn2" long_name="squared Brunt-Vaisala frequency" unit="s-2" />
<!-- dissipation diagnostics (note: ediss_k is only available with tke scheme) -->
<field id="avt_k" long_name="vertical eddy diffusivity from closure schemes" standard_name="ocean_vertical_eddy_diffusivity" unit="m2/s" />
<field id="avm_k" long_name="vertical eddy viscosity from closure schemes" standard_name="ocean_vertical_eddy_viscosity" unit="m2/s" />
<field id="ediss_k" long_name="Kolmogorov energy dissipation (tke scheme)" standard_name="Kolmogorov_energy_dissipation" unit="W/kg" />
<field id="eshear_k" long_name="energy source from vertical shear" standard_name="energy_source_from_shear" unit="W/kg" />
<field id="estrat_k" long_name="energy sink from stratification" standard_name="energy_sink_from_stratification" unit="W/kg" />
<field id="avt_k" long_name="vertical eddy diffusivity from closure schemes" standard_name="ocean_vertical_eddy_diffusivity" unit="m2/s" grid_ref="grid_W_3D_inner" />
<field id="ediss_k" long_name="Kolmogorov energy dissipation (tke scheme)" standard_name="Kolmogorov_energy_dissipation" unit="W/kg" grid_ref="grid_W_3D_inner" />
<field id="eshear_k" long_name="energy source from vertical shear" standard_name="energy_source_from_shear" unit="W/kg" grid_ref="grid_W_3D_inner" />
<field id="estrat_k" long_name="energy sink from stratification" standard_name="energy_sink_from_stratification" unit="W/kg" grid_ref="grid_W_3D_inner" />
</field_group>
<!-- F grid -->
<field_group id="grid_F" grid_ref="grid_F_2D">
<field id="e3f" long_name="F-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_F_3D" />
<field id="e3f_0" long_name="F-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_F_3D" />
<field id="hf" long_name="water column height at F point" standard_name="water_column_height_F" unit="m" />
<field id="ssKEf" long_name="surface kinetic energy at F point" standard_name="specific_kinetic_energy_of_sea_water" unit="m2/s2" grid_ref="grid_F_2D_inner" />
<field id="ssrelvor" long_name="surface relative vorticity" standard_name="relative_vorticity" unit="1/s" grid_ref="grid_F_2D_inner" />
<field id="ssplavor" long_name="surface planetary vorticity" standard_name="planetary_vorticity" unit="1/s" />
<field id="ssrelpotvor" long_name="surface relative potential vorticity" standard_name="relpot_vorticity" unit="1/m.s" grid_ref="grid_F_2D_inner" />
<field id="ssabspotvor" long_name="surface absolute potential vorticity" standard_name="abspot_vorticity" unit="1/m.s" grid_ref="grid_F_2D_inner" />
<field id="ssEns" long_name="surface enstrophy" standard_name="enstrophy" unit="1/m2.s2" grid_ref="grid_F_2D_inner" />
<field id="e3f" long_name="F-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_F_3D" />
<field id="e3f_0" long_name="F-cell thickness" standard_name="cell_thickness" unit="m" grid_ref="grid_F_3D" />
<field id="hf" long_name="water column height at F point" standard_name="water_column_height_F" unit="m" />
<field id="ssKEf" long_name="surface kinetic energy at F point" standard_name="specific_kinetic_energy_of_sea_water" unit="m2/s2" grid_ref="grid_F_2D_inner" />
<field id="ssrelvor" long_name="surface relative vorticity" standard_name="relative_vorticity" unit="1/s" grid_ref="grid_F_2D_inner" />
<field id="ssplavor" long_name="surface planetary vorticity" standard_name="planetary_vorticity" unit="1/s" grid_ref="grid_F_2D_inner" />
<field id="ssrelpotvor" long_name="surface relative potential vorticity" standard_name="relpot_vorticity" unit="1/m.s" grid_ref="grid_F_2D_inner" />
<field id="ssabspotvor" long_name="surface absolute potential vorticity" standard_name="abspot_vorticity" unit="1/m.s" grid_ref="grid_F_2D_inner" />
<field id="ssEns" long_name="surface enstrophy" standard_name="enstrophy" unit="1/m2.s2" grid_ref="grid_F_2D_inner" />
</field_group>
<!-- AGRIF sponge -->
......@@ -816,16 +815,16 @@ that are available in the tidal-forcing implementation (see
<!-- transects -->
<field_group id="oce_straits">
<field id="uoce_e3u_ave" long_name="Monthly average of u*e3u" field_ref="uoce_e3u" freq_op="1mo" freq_offset="_reset_" > @uoce_e3u </field>
<field id="uoce_e3u_ave_vsum" long_name="Vertical sum of u*e3u" field_ref="uoce_e3u_ave" grid_ref="grid_U_vsum" />
<field id="uoce_e3u_ave" long_name="Monthly average of u*e3u" field_ref="uoce_e3u" freq_op="1mo" freq_offset="_reset_" > @uoce_e3u </field>
<field id="uoce_e3u_ave_vsum" long_name="Vertical sum of u*e3u" field_ref="uoce_e3u_ave" grid_ref="grid_U_vsum" />
<field id="uocetr_vsum_section" long_name="Total 2D transport in i-direction" field_ref="uoce_e3u_ave_vsum" grid_ref="grid_U_scalar" detect_missing_value="true"> this * e2u </field>
<field id="uocetr_strait" long_name="Total transport across lines in i-direction" field_ref="uocetr_vsum_section" grid_ref="grid_U_4strait" />
<field id="u_masstr_strait" long_name="Sea water transport across line in i-direction" field_ref="uocetr_strait" grid_ref="grid_U_4strait_hsum" unit="kg/s"> this * maskMFO_u * $rho0 </field>
<field id="voce_e3v_ave" long_name="Monthly average of v*e3v" field_ref="voce_e3v" freq_op="1mo" freq_offset="_reset_" > @voce_e3v </field>
<field id="voce_e3v_ave_vsum" long_name="Vertical sum of v*e3v" field_ref="voce_e3v_ave" grid_ref="grid_V_vsum" />
<field id="voce_e3v_ave" long_name="Monthly average of v*e3v" field_ref="voce_e3v" freq_op="1mo" freq_offset="_reset_" > @voce_e3v </field>
<field id="voce_e3v_ave_vsum" long_name="Vertical sum of v*e3v" field_ref="voce_e3v_ave" grid_ref="grid_V_vsum" />
<field id="vocetr_vsum_section" long_name="Total 2D transport of in j-direction" field_ref="voce_e3v_ave_vsum" grid_ref="grid_V_scalar" detect_missing_value="true"> this * e1v </field>
<field id="vocetr_strait" long_name="Total transport across lines in j-direction" field_ref="vocetr_vsum_section" grid_ref="grid_V_4strait" />
<field id="vocetr_strait" long_name="Total transport across lines in j-direction" field_ref="vocetr_vsum_section" grid_ref="grid_V_4strait" />
<field id="v_masstr_strait" long_name="Sea water transport across line in j-direction" field_ref="vocetr_strait" grid_ref="grid_V_4strait_hsum" unit="kg/s"> this * maskMFO_v * $rho0 </field>
<field id="masstr_strait" long_name="Sea water transport across line" grid_ref="grid_4strait" > u_masstr_strait + v_masstr_strait </field>
......@@ -1018,7 +1017,7 @@ that are available in the tidal-forcing implementation (see
</field_group>
<!-- Total trends calculated every time step-->
<field_group id="trendT" grid_ref="grid_T_3D">
<field_group id="trendT" grid_ref="grid_T_3D_inner">
<field id="ttrd_tot" long_name="temperature-trend: total model trend" unit="degC/s" />
<field id="strd_tot" long_name="salinity -trend: total model trend" unit="1e-3/s" />
<!-- Thickness weighted versions: -->
......@@ -1034,10 +1033,10 @@ that are available in the tidal-forcing implementation (see
<field id="ketrd_spg" long_name="ke-trend: surface pressure gradient" unit="W/s^3" />
<field id="ketrd_spgexp" long_name="ke-trend: surface pressure gradient (explicit)" unit="W/s^3" />
<field id="ketrd_spgflt" long_name="ke-trend: surface pressure gradient (filter)" unit="W/s^3" />
<field id="ssh_flt" long_name="filtered contribution to ssh (dynspg_flt)" unit="m" grid_ref="grid_T_2D" />
<field id="w0" long_name="surface vertical velocity" unit="m/s" grid_ref="grid_T_2D" />
<field id="pw0_exp" long_name="surface pressure flux due to ssh" unit="W/s^2" grid_ref="grid_T_2D" />
<field id="pw0_flt" long_name="surface pressure flux due to filtered ssh" unit="W/s^2" grid_ref="grid_T_2D" />
<field id="ssh_flt" long_name="filtered contribution to ssh (dynspg_flt)" unit="m" grid_ref="grid_T_2D_inner" />
<field id="w0" long_name="surface vertical velocity" unit="m/s" grid_ref="grid_T_2D_inner" />
<field id="pw0_exp" long_name="surface pressure flux due to ssh" unit="W/s^2" grid_ref="grid_T_2D_inner" />
<field id="pw0_flt" long_name="surface pressure flux due to filtered ssh" unit="W/s^2" grid_ref="grid_T_2D_inner" />
<field id="ketrd_keg" long_name="ke-trend: KE gradient or hor. adv." unit="W/s^3" />
<field id="ketrd_rvo" long_name="ke-trend: relative vorticity or metric term" unit="W/s^3" />
<field id="ketrd_pvo" long_name="ke-trend: planetary vorticity" unit="W/s^3" />
......@@ -1045,24 +1044,18 @@ that are available in the tidal-forcing implementation (see
<field id="ketrd_udx" long_name="ke-trend: U.dx[U]" unit="W/s^3" />
<field id="ketrd_ldf" long_name="ke-trend: lateral diffusion" unit="W/s^3" />
<field id="ketrd_zdf" long_name="ke-trend: vertical diffusion" unit="W/s^3" />
<field id="ketrd_tau" long_name="ke-trend: wind stress " unit="W/s^3" grid_ref="grid_T_2D" />
<field id="ketrd_tau" long_name="ke-trend: wind stress " unit="W/s^3" grid_ref="grid_T_2D_inner" />
<field id="ketrd_bfr" long_name="ke-trend: bottom friction (explicit)" unit="W/s^3" />
<field id="ketrd_bfri" long_name="ke-trend: bottom friction (implicit)" unit="W/s^3" />
<field id="ketrd_atf" long_name="ke-trend: asselin time filter trend" unit="W/s^3" />
<field id="ketrd_convP2K" long_name="ke-trend: conversion (potential to kinetic)" unit="W/s^3" />
<field id="KE" long_name="kinetic energy: u(n)*u(n+1)/2" unit="W/s^2" />
<!-- variables available when explicit lateral mixing is used (ln_dynldf_OFF=F) -->
<field id="dispkexyfo" long_name="KE-trend: lateral mixing induced dissipation" standard_name="ocean_kinetic_energy_dissipation_per_unit_area_due_to_xy_friction" unit="W/m^2" grid_ref="grid_T_2D" />
<field id="dispkevfo" long_name="KE-trend: vertical mixing induced dissipation" standard_name="ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction" unit="W/m^2" grid_ref="grid_T_2D" />
<!-- variables available with ln_traadv_eiv=T and ln_diaeiv=T -->
<field id="eketrd_eiv" long_name="EKE-trend due to parameterized eddy advection" standard_name="tendency_of_ocean_eddy_kinetic_energy_content_due_to_parameterized_eddy_advection" unit="W/m^2" grid_ref="grid_T_2D" />
<!-- variables available with ln_PE_trd -->
<field id="petrd_xad" long_name="pe-trend: i-advection" unit="W/m^3" />
<field id="petrd_yad" long_name="pe-trend: j-advection" unit="W/m^3" />
<field id="petrd_zad" long_name="pe-trend: k-advection" unit="W/m^3" />
<field id="petrd_sad" long_name="pe-trend: surface adv. (linssh true)" unit="W/m^3" grid_ref="grid_T_2D" />
<field id="petrd_sad" long_name="pe-trend: surface adv. (linssh true)" unit="W/m^3" grid_ref="grid_T_2D_inner" />
<field id="petrd_ldf" long_name="pe-trend: lateral diffusion" unit="W/m^3" />
<field id="petrd_zdf" long_name="pe-trend: vertical diffusion" unit="W/m^3" />
<field id="petrd_zdfp" long_name="pe-trend: pure vert. diffusion" unit="W/m^3" />
......@@ -1080,42 +1073,42 @@ that are available in the tidal-forcing implementation (see
<field_group id="trendU" grid_ref="grid_U_3D">
<!-- variables available with ln_dyn_trd -->
<field id="utrd_hpg" long_name="i-trend: hydrostatic pressure gradient" unit="m/s^2" />
<field id="utrd_spg" long_name="i-trend: surface pressure gradient" unit="m/s^2" />
<field id="utrd_spgexp" long_name="i-trend: surface pressure gradient (explicit)" unit="m/s^2" />
<field id="utrd_spgflt" long_name="i-trend: surface pressure gradient (filtered)" unit="m/s^2" />
<field id="utrd_keg" long_name="i-trend: KE gradient or hor. adv." unit="m/s^2" />
<field id="utrd_rvo" long_name="i-trend: relative vorticity or metric term" unit="m/s^2" />
<field id="utrd_pvo" long_name="i-trend: planetary vorticity" unit="m/s^2" />
<field id="utrd_zad" long_name="i-trend: vertical advection" unit="m/s^2" />
<field id="utrd_udx" long_name="i-trend: U.dx[U]" unit="m/s^2" />
<field id="utrd_ldf" long_name="i-trend: lateral diffusion" unit="m/s^2" />
<field id="utrd_zdf" long_name="i-trend: vertical diffusion" unit="m/s^2" />
<field id="utrd_tau" long_name="i-trend: wind stress " unit="m/s^2" grid_ref="grid_U_2D" />
<field id="utrd_bfr" long_name="i-trend: bottom friction (explicit)" unit="m/s^2" />
<field id="utrd_bfri" long_name="i-trend: bottom friction (implicit)" unit="m/s^2" />
<field id="utrd_tot" long_name="i-trend: total momentum trend before atf" unit="m/s^2" />
<field id="utrd_atf" long_name="i-trend: asselin time filter trend" unit="m/s^2" />
<field id="utrd_hpg" long_name="i-trend: hydrostatic pressure gradient" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_spg" long_name="i-trend: surface pressure gradient" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_spgexp" long_name="i-trend: surface pressure gradient (explicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_spgflt" long_name="i-trend: surface pressure gradient (filtered)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_keg" long_name="i-trend: KE gradient or hor. adv." unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_rvo" long_name="i-trend: relative vorticity or metric term" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_pvo" long_name="i-trend: planetary vorticity" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_zad" long_name="i-trend: vertical advection" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_udx" long_name="i-trend: U.dx[U]" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_ldf" long_name="i-trend: lateral diffusion" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_zdf" long_name="i-trend: vertical diffusion" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_tau" long_name="i-trend: wind stress " unit="m/s^2" grid_ref="grid_U_2D_inner" />
<field id="utrd_bfr" long_name="i-trend: bottom friction (explicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_bfri" long_name="i-trend: bottom friction (implicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_tot" long_name="i-trend: total momentum trend before atf" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="utrd_atf" long_name="i-trend: asselin time filter trend" unit="m/s^2" grid_ref="grid_T_3D_inner" />
</field_group>
<field_group id="trendV" grid_ref="grid_V_3D">
<!-- variables available with ln_dyn_trd -->
<field id="vtrd_hpg" long_name="j-trend: hydrostatic pressure gradient" unit="m/s^2" />
<field id="vtrd_spg" long_name="j-trend: surface pressure gradient" unit="m/s^2" />
<field id="vtrd_spgexp" long_name="j-trend: surface pressure gradient (explicit)" unit="m/s^2" />
<field id="vtrd_spgflt" long_name="j-trend: surface pressure gradient (filtered)" unit="m/s^2" />
<field id="vtrd_keg" long_name="j-trend: KE gradient or hor. adv." unit="m/s^2" />
<field id="vtrd_rvo" long_name="j-trend: relative vorticity or metric term" unit="m/s^2" />
<field id="vtrd_pvo" long_name="j-trend: planetary vorticity" unit="m/s^2" />
<field id="vtrd_zad" long_name="j-trend: vertical advection" unit="m/s^2" />
<field id="vtrd_vdy" long_name="i-trend: V.dx[V]" unit="m/s^2" />
<field id="vtrd_ldf" long_name="j-trend: lateral diffusion" unit="m/s^2" />
<field id="vtrd_zdf" long_name="j-trend: vertical diffusion" unit="m/s^2" />
<field id="vtrd_tau" long_name="j-trend: wind stress " unit="m/s^2" grid_ref="grid_V_2D" />
<field id="vtrd_bfr" long_name="j-trend: bottom friction (explicit)" unit="m/s^2" />
<field id="vtrd_bfri" long_name="j-trend: bottom friction (implicit)" unit="m/s^2" />
<field id="vtrd_tot" long_name="j-trend: total momentum trend before atf" unit="m/s^2" />
<field id="vtrd_atf" long_name="j-trend: asselin time filter trend" unit="m/s^2" />
<field id="vtrd_hpg" long_name="j-trend: hydrostatic pressure gradient" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_spg" long_name="j-trend: surface pressure gradient" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_spgexp" long_name="j-trend: surface pressure gradient (explicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_spgflt" long_name="j-trend: surface pressure gradient (filtered)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_keg" long_name="j-trend: KE gradient or hor. adv." unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_rvo" long_name="j-trend: relative vorticity or metric term" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_pvo" long_name="j-trend: planetary vorticity" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_zad" long_name="j-trend: vertical advection" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_vdy" long_name="i-trend: V.dx[V]" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_ldf" long_name="j-trend: lateral diffusion" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_zdf" long_name="j-trend: vertical diffusion" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_tau" long_name="j-trend: wind stress " unit="m/s^2" grid_ref="grid_V_2D_inner" />
<field id="vtrd_bfr" long_name="j-trend: bottom friction (explicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_bfri" long_name="j-trend: bottom friction (implicit)" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_tot" long_name="j-trend: total momentum trend before atf" unit="m/s^2" grid_ref="grid_T_3D_inner" />
<field id="vtrd_atf" long_name="j-trend: asselin time filter trend" unit="m/s^2" grid_ref="grid_T_3D_inner" />
</field_group>
<!-- shared variables available with TOP interface -->
......@@ -1189,6 +1182,8 @@ that are available in the tidal-forcing implementation (see
<field field_ref="qsr" name="rsntds" long_name="surface_net_downward_shortwave_flux" />
<field field_ref="qt" name="tohfls" long_name="surface_net_downward_total_heat_flux" />
<field field_ref="taum" />
<field field_ref="utau" name="tauuo" long_name="surface_downward_x_stress" />
<field field_ref="vtau" name="tauvo" long_name="surface_downward_y_stress" />
<field field_ref="20d" />
<field field_ref="mldkz5" />
<field field_ref="mldr10_1" />
......@@ -1203,12 +1198,10 @@ that are available in the tidal-forcing implementation (see
<field_group id="groupU" >
<field field_ref="uoce" name="uo" long_name="sea_water_x_velocity" />
<field field_ref="utau" name="tauuo" long_name="surface_downward_x_stress" />
</field_group>
<field_group id="groupV" >
<field field_ref="voce" name="vo" long_name="sea_water_y_velocity" />
<field field_ref="vtau" name="tauvo" long_name="surface_downward_y_stress" />
</field_group>
<field_group id="groupW" >
......
cfgs/SHARED/field_def_nemo-pisces.xml
View file @ 4dbfc9bb
......@@ -172,129 +172,137 @@
<!-- PISCES additional diagnostics on T grid -->
<field_group id="diad_T" grid_ref="grid_T_2D">
<field id="PH" long_name="PH" unit="1" grid_ref="grid_T_3D" />
<field id="CO3" long_name="Bicarbonates" unit="mol/m3" grid_ref="grid_T_3D" />
<field id="CO3sat" long_name="CO3 saturation" unit="mol/m3" grid_ref="grid_T_3D" />
<field id="PAR" long_name="Photosynthetically Available Radiation" unit="W/m2" grid_ref="grid_T_3D" />
<field id="PPPHYN" long_name="Primary production of nanophyto" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PPPHYP" long_name="Primary production of picophyto" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PPPHYD" long_name="Primary production of diatoms" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PPNEWN" long_name="New Primary production of nanophyto" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PPNEWP" long_name="New Primary production of picophyto" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PPNEWD" long_name="New Primary production of diatoms" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PBSi" long_name="Primary production of Si diatoms" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PFeN" long_name="Primary production of nano iron" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PFeP" long_name="Primary production of pico iron" unit="molC/m3/s" grid_ref="grid_T_3D" />
<field id="PFeD" long_name="Primary production of diatoms iron" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="xfracal" long_name="Calcifying fraction" unit="1" grid_ref="grid_T_3D" />
<field id="PCAL" long_name="Calcite production" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="DCAL" long_name="Calcite dissolution" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="GRAZ1" long_name="Grazing by microzooplankton" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="GRAZ2" long_name="Grazing by mesozooplankton" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="REMIN" long_name="Oxic remineralization of OM" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="DENIT" long_name="Anoxic remineralization of OM" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="REMINP" long_name="Oxic remineralization rate of POC" unit="d-1" grid_ref="grid_T_3D" />
<field id="REMING" long_name="Oxic remineralization rate of GOC" unit="d-1" grid_ref="grid_T_3D" />
<field id="Nfix" long_name="Nitrogen fixation" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="Mumax" long_name="Maximum growth rate" unit="s-1" grid_ref="grid_T_3D" />
<field id="MuN" long_name="Realized growth rate for nanophyto" unit="s-1" grid_ref="grid_T_3D" />
<field id="MuP" long_name="Realized growth rate for picophyto" unit="s-1" grid_ref="grid_T_3D" />
<field id="MuD" long_name="Realized growth rate for diatomes" unit="s-1" grid_ref="grid_T_3D" />
<field id="MunetN" long_name="Net growth rate for nanophyto" unit="s-1" grid_ref="grid_T_3D" />
<field id="MunetP" long_name="Net growth rate for picophyto" unit="s-1" grid_ref="grid_T_3D" />
<field id="MunetD" long_name="Net growth rate for diatomes" unit="s-1" grid_ref="grid_T_3D" />
<field id="LNnut" long_name="Nutrient limitation term in Nanophyto" unit="" grid_ref="grid_T_3D" />
<field id="LPnut" long_name="Nutrient limitation term in Picophyto" unit="-" grid_ref="grid_T_3D" />
<field id="LDnut" long_name="Nutrient limitation term in Diatoms" unit="" grid_ref="grid_T_3D" />
<field id="LNFe" long_name="Iron limitation term in Nanophyto" unit="" grid_ref="grid_T_3D" />
<field id="LPFe" long_name="Iron limitation term in Picophyto" unit="-" grid_ref="grid_T_3D" />
<field id="LDFe" long_name="Iron limitation term in Diatoms" unit="" grid_ref="grid_T_3D" />
<field id="LNlight" long_name="Light limitation term in Nanophyto" unit="" grid_ref="grid_T_3D" />
<field id="LPlight" long_name="Light limitation term in Picophyto" unit="-" grid_ref="grid_T_3D" />
<field id="LDlight" long_name="Light limitation term in Diatoms" unit="" grid_ref="grid_T_3D" />
<field id="SIZEN" long_name="Mean relative size of nanophyto." unit="-" grid_ref="grid_T_3D" />
<field id="SIZEP" long_name="Mean relative size of picophyto." unit="-" grid_ref="grid_T_3D" />
<field id="SIZED" long_name="Mean relative size of diatoms" unit="-" grid_ref="grid_T_3D" />
<field id="RASSD" long_name="Size of the protein machinery (Diat.)" unit="-" grid_ref="grid_T_3D" />
<field id="RASSN" long_name="Size of the protein machinery (Nano.)" unit="-" grid_ref="grid_T_3D" />
<field id="RASSP" long_name="Size of the protein machinery (Pico.)" unit="-" grid_ref="grid_T_3D" />
<field id="Fe3" long_name="Iron III concentration" unit="nmol/m3" grid_ref="grid_T_3D" />
<field id="FeL1" long_name="Complexed Iron concentration with L1" unit="nmol/m3" grid_ref="grid_T_3D" />
<field id="TL1" long_name="Total L1 concentration" unit="nmol/m3" grid_ref="grid_T_3D" />
<field id="pdust" long_name="dust concentration" unit="g/m3" />
<field id="Totlig" long_name="Total ligand concentation" unit="nmol/m3" grid_ref="grid_T_3D" />
<field id="Biron" long_name="Bioavailable iron" unit="nmol/m3" grid_ref="grid_T_3D" />
<field id="Sdenit" long_name="Nitrate reduction in the sediments" unit="mol/m2/s" />
<field id="Ironice" long_name="Iron input/uptake due to sea ice" unit="mol/m2/s" />
<field id="SedCal" long_name="Calcite burial in the sediments" unit="molC/m2/s" />
<field id="SedSi" long_name="Silicon burial in the sediments" unit="molSi/m2/s" />
<field id="SedC" long_name="Organic C burial in the sediments" unit="molC/m2/s" />
<field id="HYDR" long_name="Iron input from hydrothemal vents" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="EPC100" long_name="Export of carbon particles at 100 m" unit="mol/m2/s" />
<field id="EPFE100" long_name="Export of biogenic iron at 100 m" unit="mol/m2/s" />
<field id="EPSI100" long_name="Export of Silicate at 100 m" unit="mol/m2/s" />
<field id="EPCAL100" long_name="Export of Calcite at 100 m" unit="mol/m2/s" />
<field id="EXPC" long_name="Export of carbon" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="EXPFE" long_name="Export of biogenic iron" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="EXPSI" long_name="Export of Silicate" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="EXPCAL" long_name="Export of Calcite" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="Cflx" long_name="DIC flux" unit="mol/m2/s" />
<field id="Oflx" long_name="Oxygen flux" unit="mol/m2/s" />
<field id="Kg" long_name="Gas transfer" unit="mol/m2/s/uatm" />
<field id="Dpco2" long_name="Delta CO2" unit="uatm" />
<field id="pCO2sea" long_name="surface ocean pCO2" unit="uatm" />
<field id="Dpo2" long_name="Delta O2" unit="uatm" />
<field id="Heup" long_name="Euphotic layer depth" unit="m" />
<field id="AtmCo2" long_name="Atmospheric CO2 concentration" unit="ppm" />
<field id="Irondep" long_name="Iron deposition from dust" unit="mol/m2/s" />
<field id="Ironsed" long_name="Iron deposition from sediment" unit="mol/m2/s" grid_ref="grid_T_3D" />
<field id="FESCAV" long_name="Scavenging of Iron" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D" />
<field id="FECOLL" long_name="Colloidal Pumping of FeL" unit="mmol-FeL/m3/s" grid_ref="grid_T_3D" />
<field id="LGWCOLL" long_name="Coagulation loss of ligands" unit="mmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="REMINF" long_name="Oxic remineralization suppy of Fe" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D" />
<field id="BACT" long_name="Bacterial Biomass" unit="mmol/m3" grid_ref="grid_T_3D" />
<field id="FEBACT" long_name="Bacterial uptake of Fe" unit="molFe/m3/s" grid_ref="grid_T_3D" />
<field id="FEPREC" long_name="Precipitation of Fe" unit="molFe/m3/s" grid_ref="grid_T_3D" />
<field id="LPRODR" long_name="OM remineralisation ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LPRODP" long_name="phytoplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LIGREM" long_name="Remineralisation loss of ligands" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LIGPR" long_name="Photochemical loss of ligands" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LDETP" long_name="Ligand destruction during phytoplankton uptake" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LPRODZ2" long_name="mesozooplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="LPRODZ" long_name="microzooplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D" />
<field id="FEZOO" long_name="microzooplankton iron recycling rate" unit="nmol-FeL/m3/s" grid_ref="grid_T_3D" />
<field id="FEZOO2" long_name="mesozooplankton iron recycling rate" unit="nmol-FeL/m3/s" grid_ref="grid_T_3D" />
<field_group id="diad_T" grid_ref="grid_T_2D_inner" >
<field id="PH" long_name="PH" unit="1" grid_ref="grid_T_3D_inner" />
<field id="CO3" long_name="Bicarbonates" unit="mol/m3" grid_ref="grid_T_3D_inner" />
<field id="CO3sat" long_name="CO3 saturation" unit="mol/m3" grid_ref="grid_T_3D_inner" />
<field id="DCAL" long_name="Calcite dissolution" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PAR" long_name="Photosynthetically Available Radiation" unit="W/m2" grid_ref="grid_T_3D_inner" />
<field id="PPPHYN" long_name="Primary production of nanophyto" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PPPHYP" long_name="Primary production of picophyto" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PPPHYD" long_name="Primary production of diatoms" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PPNEWN" long_name="New Primary production of nanophyto" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PPNEWP" long_name="New Primary production of picophyto" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PPNEWD" long_name="New Primary production of diatoms" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PBSi" long_name="Primary production of Si diatoms" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PFeN" long_name="Primary production of nano iron" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PFeP" long_name="Primary production of pico iron" unit="molC/m3/s" grid_ref="grid_T_3D_inner" />
<field id="PFeD" long_name="Primary production of diatoms iron" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="xfracal" long_name="Calcifying fraction" unit="1" grid_ref="grid_T_3D_inner" />
<field id="PCAL" long_name="Calcite production" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="GRAZ1" long_name="Grazing by microzooplankton" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="GRAZ2" long_name="Grazing by mesozooplankton" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="REMIN" long_name="Oxic remineralization of OM" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="DENIT" long_name="Anoxic remineralization of OM" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="REMINP" long_name="Oxic remineralization rate of POC" unit="d-1" grid_ref="grid_T_3D_inner" />
<field id="REMING" long_name="Oxic remineralization rate of GOC" unit="d-1" grid_ref="grid_T_3D_inner" />
<field id="Nfix" long_name="Nitrogen fixation" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="Mumax" long_name="Maximum growth rate" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MuN" long_name="Realized growth rate for nanophyto" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MuP" long_name="Realized growth rate for picophyto" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MuD" long_name="Realized growth rate for diatomes" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MunetN" long_name="Net growth rate for nanophyto" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MunetP" long_name="Net growth rate for picophyto" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="MunetD" long_name="Net growth rate for diatomes" unit="s-1" grid_ref="grid_T_3D_inner" />
<field id="LNnut" long_name="Nutrient limitation term in Nanophyto" unit="" grid_ref="grid_T_3D_inner" />
<field id="LPnut" long_name="Nutrient limitation term in Picophyto" unit="-" grid_ref="grid_T_3D_inner" />
<field id="LDnut" long_name="Nutrient limitation term in Diatoms" unit="" grid_ref="grid_T_3D_inner" />
<field id="LNFe" long_name="Iron limitation term in Nanophyto" unit="" grid_ref="grid_T_3D_inner" />
<field id="LPFe" long_name="Iron limitation term in Picophyto" unit="-" grid_ref="grid_T_3D_inner" />
<field id="LDFe" long_name="Iron limitation term in Diatoms" unit="" grid_ref="grid_T_3D_inner" />
<field id="LNlight" long_name="Light limitation term in Nanophyto" unit="" grid_ref="grid_T_3D_inner" />
<field id="LPlight" long_name="Light limitation term in Picophyto" unit="-" grid_ref="grid_T_3D_inner" />
<field id="LDlight" long_name="Light limitation term in Diatoms" unit="" grid_ref="grid_T_3D_inner" />
<field id="SIZEN" long_name="Mean relative size of nanophyto." unit="-" grid_ref="grid_T_3D_inner" />
<field id="SIZEP" long_name="Mean relative size of picophyto." unit="-" grid_ref="grid_T_3D_inner" />
<field id="SIZED" long_name="Mean relative size of diatoms" unit="-" grid_ref="grid_T_3D_inner" />
<field id="RASSD" long_name="Size of the protein machinery (Diat.)" unit="-" grid_ref="grid_T_3D_inner" />
<field id="RASSN" long_name="Size of the protein machinery (Nano.)" unit="-" grid_ref="grid_T_3D_inner" />
<field id="RASSP" long_name="Size of the protein machinery (Pico.)" unit="-" grid_ref="grid_T_3D_inner" />
<field id="Fe3" long_name="Iron III concentration" unit="nmol/m3" grid_ref="grid_T_3D_inner" />
<field id="FeL1" long_name="Complexed Iron concentration with L1" unit="nmol/m3" grid_ref="grid_T_3D_inner" />
<field id="TL1" long_name="Total L1 concentration" unit="nmol/m3" grid_ref="grid_T_3D_inner" />
<field id="pdust" long_name="dust concentration" unit="g/m3" />
<field id="Totlig" long_name="Total ligand concentation" unit="nmol/m3" grid_ref="grid_T_3D_inner" />
<field id="Biron" long_name="Bioavailable iron" unit="nmol/m3" grid_ref="grid_T_3D_inner" />
<field id="Sdenit" long_name="Nitrate reduction in the sediments" unit="mol/m2/s" />
<field id="Ironice" long_name="Iron input/uptake due to sea ice" unit="mol/m2/s" />
<field id="SedCal" long_name="Calcite burial in the sediments" unit="molC/m2/s" />
<field id="SedSi" long_name="Silicon burial in the sediments" unit="molSi/m2/s" />
<field id="SedC" long_name="Organic C burial in the sediments" unit="molC/m2/s" />
<field id="HYDR" long_name="Iron input from hydrothemal vents" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="EPC100" long_name="Export of carbon particles at 100 m" unit="mol/m2/s" />
<field id="EPFE100" long_name="Export of biogenic iron at 100 m" unit="mol/m2/s" />
<field id="EPSI100" long_name="Export of Silicate at 100 m" unit="mol/m2/s" />
<field id="EPCAL100" long_name="Export of Calcite at 100 m" unit="mol/m2/s" />
<field id="EXPC" long_name="Export of carbon" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="EXPFE" long_name="Export of biogenic iron" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="EXPSI" long_name="Export of Silicate" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="EXPCAL" long_name="Export of Calcite" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="Cflx" long_name="DIC flux" unit="mol/m2/s" />
<field id="Oflx" long_name="Oxygen flux" unit="mol/m2/s" />
<field id="Kg" long_name="Gas transfer" unit="mol/m2/s/uatm" />
<field id="Dpco2" long_name="Delta CO2" unit="uatm" />
<field id="pCO2sea" long_name="surface ocean pCO2" unit="uatm" />
<field id="Dpo2" long_name="Delta O2" unit="uatm" />
<field id="Heup" long_name="Euphotic layer depth" unit="m" grid_ref="grid_T_2D_inner" />
<field id="AtmCo2" long_name="Atmospheric CO2 concentration" unit="ppm" />
<field id="Irondep" long_name="Iron deposition from dust" unit="mol/m2/s" />
<field id="Ironsed" long_name="Iron deposition from sediment" unit="mol/m2/s" grid_ref="grid_T_3D_inner" />
<field id="FESCAV" long_name="Scavenging of Iron" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D_inner" />
<field id="FECOLL" long_name="Colloidal Pumping of FeL" unit="mmol-FeL/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LGWCOLL" long_name="Coagulation loss of ligands" unit="mmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="REMINF" long_name="Oxic remineralization suppy of Fe" unit="mmol-Fe/m3/s" grid_ref="grid_T_3D_inner" />
<field id="BACT" long_name="Bacterial Biomass" unit="mmol/m3" grid_ref="grid_T_3D_inner" />
<field id="FEBACT" long_name="Bacterial uptake of Fe" unit="molFe/m3/s" grid_ref="grid_T_3D_inner" />
<field id="FEPREC" long_name="Precipitation of Fe" unit="molFe/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LPRODR" long_name="OM remineralisation ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LPRODP" long_name="phytoplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LIGREM" long_name="Remineralisation loss of ligands" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LIGPR" long_name="Photochemical loss of ligands" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LDETP" long_name="Ligand destruction during phytoplankton uptake" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LPRODZ2" long_name="mesozooplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="LPRODZ" long_name="microzooplankton ligand production rate" unit="nmol-L/m3/s" grid_ref="grid_T_3D_inner" />
<field id="FEZOO" long_name="microzooplankton iron recycling rate" unit="nmol-FeL/m3/s" grid_ref="grid_T_3D_inner" />
<field id="FEZOO2" long_name="mesozooplankton iron recycling rate" unit="nmol-FeL/m3/s" grid_ref="grid_T_3D_inner" />
<!-- PISCES tracers trends -->
<field id="INTdtAlk" long_name="Vertically int. of change of alkalinity" unit="mol/m2/s" />
<field id="INTdtDIC" long_name="Vertically int. of change of dissic " unit="mol/m2/s" />
<field id="INTdtFer" long_name="Vertically int. of change of iron " unit="mol/m2/s" />
<field id="INTdtDIN" long_name="Vertically int. of change of nitrogen " unit="mol/m2/s" />
<field id="INTdtDIP" long_name="Vertically int. of change of phophate " unit="mol/m2/s" />
<field id="INTdtSil" long_name="Vertically int. of change of silicon " unit="mol/m2/s" />
<field id="INTdtAlk" long_name="Vertically int. of change of alkalinity" unit="mol/m2/s" />
<field id="INTdtDIC" long_name="Vertically int. of change of dissic " unit="mol/m2/s" />
<field id="INTdtFer" long_name="Vertically int. of change of iron " unit="mol/m2/s" />
<field id="INTdtDIN" long_name="Vertically int. of change of nitrogen " unit="mol/m2/s" />
<field id="INTdtDIP" long_name="Vertically int. of change of phophate " unit="mol/m2/s" />
<field id="INTdtSil" long_name="Vertically int. of change of silicon " unit="mol/m2/s" />
<!-- dbio_T on T grid : variables available with diaar5 -->
<field id="TPP" long_name="Total Primary production of phyto" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="TPNEW" long_name="New Primary production of phyto" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="TPBFE" long_name="Total biogenic iron production" unit="mol/m3/s" grid_ref="grid_T_3D" />
<field id="TPP" long_name="Total Primary production of phyto" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="TPNEW" long_name="New Primary production of phyto" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="TPBFE" long_name="Total biogenic iron production" unit="mol/m3/s" grid_ref="grid_T_3D_inner" />
<field id="INTDIC" long_name="DIC content" unit="kg/m2" />
<field id="O2MIN" long_name="Oxygen minimum concentration" unit="mol/m3" />
<field id="ZO2MIN" long_name="Depth of oxygen minimum concentration" unit="m" />
<field id="INTNFIX" long_name="Nitrogen fixation rate : vert. integrated" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > Nfix * e3t </field >
<field id="INTPPPHYN" long_name="Vertically integrated primary production by nanophy" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYN * e3t </field >
<field id="INTPPPHYD" long_name="Vertically integrated primary production by diatom" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYD * e3t </field >
<field id="INTPPPHYP" long_name="Vertically integrated primary production by picophy" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PPPHYP * e3t </field >
<field id="INTPP" long_name="Vertically integrated primary production by phyto" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPP * e3t </field >
<field id="INTPNEW" long_name="Vertically integrated new primary production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPNEW * e3t </field >
<field id="INTPBFE" long_name="Vertically integrated of biogenic iron production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > TPBFE * e3t </field >
<field id="INTPBSI" long_name="Vertically integrated of biogenic Si production" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" > PBSi * e3t </field >
<field id="Nfix_e3t" long_name="Nfix * e3t" unit="molN/m2/s" grid_ref="grid_T_3D_inner" > Nfix * e3t </field >
<field id="PPPHYN_e3t" long_name="PPPHYN * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > PPPHYN * e3t </field >
<field id="PPPHYD_e3t" long_name="PPPHYD * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > PPPHYD * e3t </field >
<field id="PPPHYP_e3t" long_name="PPPHYP * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > PPPHYP * e3t </field >
<field id="PBSi_e3t" long_name="PBSi * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > PBSi * e3t </field >
<field id="TPP_e3t" long_name="TPP * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > TPP * e3t </field >
<field id="TPNEW_e3t" long_name="TPNEW * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > TPNEW * e3t </field >
<field id="TPBFE_e3t" long_name="TPBFE * e3t" unit="mol/m2/s" grid_ref="grid_T_3D_inner" > TPBFE * e3t </field >
<field id="INTNFIX" long_name="Nitrogen fixation rate : vert. integrated" field_ref="Nfix_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPPPHYN" long_name="Vertically integrated primary production by nanophy" field_ref="PPPHYN_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPPPHYD" long_name="Vertically integrated primary production by diatom" field_ref="PPPHYD_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPPPHYP" long_name="Vertically integrated primary production by picophy" field_ref="PPPHYP_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPP" long_name="Vertically integrated primary production by phyto" field_ref="TPP_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPNEW" long_name="Vertically integrated new primary production" field_ref="TPNEW_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPBFE" long_name="Vertically integrated of biogenic iron production" field_ref="TPBFE_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<field id="INTPBSI" long_name="Vertically integrated of biogenic Si production" field_ref="PBSi_e3t" unit="mol/m2/s" grid_ref="grid_T_vsum" detect_missing_value="true" />
<!-- PISCES light : variables available with key_pisces_reduced -->
<field id="FNO3PHY" long_name="FNO3PHY" unit="" grid_ref="grid_T_3D" />
<field id="FNH4PHY" long_name="FNH4PHY" unit="" grid_ref="grid_T_3D" />
<field id="FNH4NO3" long_name="FNH4NO3" unit="" grid_ref="grid_T_3D" />
<field id="FNO3PHY" long_name="FNO3PHY" unit="" grid_ref="grid_T_3D_inner" />
<field id="FNH4PHY" long_name="FNH4PHY" unit="" grid_ref="grid_T_3D_inner" />
<field id="FNH4NO3" long_name="FNH4NO3" unit="" grid_ref="grid_T_3D_inner" />
<field id="TNO3PHY" long_name="TNO3PHY" unit="" />
<field id="TNH4PHY" long_name="TNH4PHY" unit="" />
<field id="TPHYDOM" long_name="TPHYDOM" unit="" />
......
cfgs/SHARED/grid_def_nemo.xml
View file @ 4dbfc9bb
......@@ -336,41 +336,44 @@
<scalar />
</grid>
<grid id="diamlr_grid_T_2D" >
<domain domain_ref="grid_T" />
<domain domain_ref="grid_T_inner" />
<scalar />
</grid>
<grid id="diamlr_grid_T_2D_inner" >
<domain domain_ref="grid_T_inner" />
</grid>
<grid id="diamlr_grid_U_2D" >
<domain domain_ref="grid_U" />
<domain domain_ref="grid_U_inner" />
<scalar />
</grid>
<grid id="diamlr_grid_V_2D" >
<domain domain_ref="grid_V" />
<domain domain_ref="grid_V_inner" />
<scalar />
</grid>
<grid id="diamlr_grid_W_2D" >
<domain domain_ref="grid_W" />
<domain domain_ref="grid_W_inner" />
<scalar />
</grid>
<grid id="diamlr_grid_2D_to_grid_T_3D" >
<domain domain_ref="grid_T" />
<domain domain_ref="grid_T_inner" />
<axis axis_ref="deptht">
<duplicate_scalar />
</axis>
</grid>
<grid id="diamlr_grid_2D_to_grid_U_3D" >
<domain domain_ref="grid_U" />
<domain domain_ref="grid_U_inner" />
<axis axis_ref="depthu">
<duplicate_scalar />
</axis>
</grid>
<grid id="diamlr_grid_2D_to_grid_V_3D" >
<domain domain_ref="grid_V" />
<domain domain_ref="grid_V_inner" />
<axis axis_ref="depthv">
<duplicate_scalar />
</axis>
</grid>
<grid id="diamlr_grid_2D_to_grid_W_3D" >
<domain domain_ref="grid_W" />
<domain domain_ref="grid_W_inner" />
<axis axis_ref="depthw">
<duplicate_scalar />
</axis>
......@@ -383,37 +386,37 @@
</grid>
<!-- grid definitions for the computation of daily detided model diagnostics (diadetide) -->
<grid id="diadetide_grid_T_2D" >
<domain domain_ref="grid_T" />
<domain domain_ref="grid_T_inner" />
<scalar />
</grid>
<grid id="diadetide_grid_U_2D" >
<domain domain_ref="grid_U" />
<domain domain_ref="grid_U_inner" />
<scalar />
</grid>
<grid id="diadetide_grid_V_2D" >
<domain domain_ref="grid_V" />
<domain domain_ref="grid_V_inner" />
<scalar />
</grid>
<grid id="diadetide_grid_2D_to_grid_T_3D" >
<domain domain_ref="grid_T" />
<domain domain_ref="grid_T_inner" />
<axis axis_ref="deptht">
<duplicate_scalar />
</axis>
</grid>
<grid id="diadetide_grid_2D_to_grid_U_3D" >
<domain domain_ref="grid_U" />
<domain domain_ref="grid_U_inner" />
<axis axis_ref="depthu">
<duplicate_scalar />
</axis>
</grid>
<grid id="diadetide_grid_2D_to_grid_V_3D" >
<domain domain_ref="grid_V" />
<domain domain_ref="grid_V_inner" />
<axis axis_ref="depthv">
<duplicate_scalar />
</axis>
</grid>
<grid id="diadetide_grid_2D_to_grid_W_3D" >
<domain domain_ref="grid_W" />
<domain domain_ref="grid_W_inner" />
<axis axis_ref="depthw">
<duplicate_scalar />
</axis>
......
cfgs/SHARED/namelist_ref
View file @ 4dbfc9bb
......@@ -370,7 +370,7 @@
!*** receive ***
sn_rcv_w10m = 'none' , 'no' , '' , '' , ''
sn_rcv_taumod = 'coupled' , 'no' , '' , '' , ''
sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward' , 'U,V'
sn_rcv_tau = 'oce only' , 'no' , 'cartesian' , 'eastward-northward' , ''
sn_rcv_dqnsdt = 'coupled' , 'no' , '' , '' , ''
sn_rcv_qsr = 'oce and ice' , 'no' , '' , '' , ''
sn_rcv_qns = 'oce and ice' , 'no' , '' , '' , ''
......@@ -381,21 +381,22 @@
sn_rcv_iceflx = 'none' , 'no' , '' , '' , ''
sn_rcv_mslp = 'none' , 'no' , '' , '' , ''
sn_rcv_ts_ice = 'none' , 'no' , '' , '' , ''
sn_rcv_qtrice = 'none' , 'no' , '' , '' , ''
sn_rcv_isf = 'none' , 'no' , '' , '' , ''
sn_rcv_icb = 'none' , 'no' , '' , '' , ''
sn_rcv_hsig = 'none' , 'no' , '' , '' , 'T'
sn_rcv_phioc = 'none' , 'no' , '' , '' , 'T'
sn_rcv_sdrfx = 'none' , 'no' , '' , '' , 'T'
sn_rcv_sdrfy = 'none' , 'no' , '' , '' , 'T'
sn_rcv_wper = 'none' , 'no' , '' , '' , 'T'
sn_rcv_wnum = 'none' , 'no' , '' , '' , 'T'
sn_rcv_wstrf = 'none' , 'no' , '' , '' , 'T'
sn_rcv_wdrag = 'none' , 'no' , '' , '' , 'T'
sn_rcv_charn = 'none' , 'no' , '' , '' , 'T'
sn_rcv_taw = 'none' , 'no' , '' , '' , 'U,V'
sn_rcv_bhd = 'none' , 'no' , '' , '' , 'T'
sn_rcv_tusd = 'none' , 'no' , '' , '' , 'T'
sn_rcv_tvsd = 'none' , 'no' , '' , '' , 'T'
sn_rcv_hsig = 'none' , 'no' , '' , '' , ''
sn_rcv_phioc = 'none' , 'no' , '' , '' , ''
sn_rcv_sdrfx = 'none' , 'no' , '' , '' , ''
sn_rcv_sdrfy = 'none' , 'no' , '' , '' , ''
sn_rcv_wper = 'none' , 'no' , '' , '' , ''
sn_rcv_wnum = 'none' , 'no' , '' , '' , ''
sn_rcv_wstrf = 'none' , 'no' , '' , '' , ''
sn_rcv_wdrag = 'none' , 'no' , '' , '' , ''
sn_rcv_charn = 'none' , 'no' , '' , '' , ''
sn_rcv_taw = 'none' , 'no' , '' , '' , ''
sn_rcv_bhd = 'none' , 'no' , '' , '' , ''
sn_rcv_tusd = 'none' , 'no' , '' , '' , ''
sn_rcv_tvsd = 'none' , 'no' , '' , '' , ''
/
!-----------------------------------------------------------------------
&namsbc_sas ! Stand-Alone Surface module: ocean data (SAS_SRC only)
......@@ -883,6 +884,9 @@
!
! ! S-EOS coefficients (ln_seos=T):
! ! rd(T,S,Z)*rho0 = -a0*(1+.5*lambda*dT+mu*Z+nu*dS)*dT+b0*dS
! ! dT = T-rn_T0 ; dS = S-rn_S0
rn_T0 = 10. ! reference temperature
rn_S0 = 35. ! reference salinity
rn_a0 = 1.6550e-1 ! thermal expension coefficient
rn_b0 = 7.6554e-1 ! saline expension coefficient
rn_lambda1 = 5.9520e-2 ! cabbeling coeff in T^2 (=0 for linear eos)
......
cfgs/SPITZ12/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -34,6 +34,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<!-- ice and snow -->
......@@ -44,7 +46,6 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" operation="instant" freq_op="5d" > @uoce_e3u / @e3u </field>
<field field_ref="utau" name="tauuo" />
<field field_ref="uocetr_eff" name="uocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="u_masstr" name="vozomatr" />
......@@ -56,7 +57,6 @@
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" operation="instant" freq_op="5d" > @voce_e3v / @e3v </field>
<field field_ref="vtau" name="tauvo" />
<field field_ref="vocetr_eff" name="vocetr_eff" />
<!-- available with diaar5 -->
<field field_ref="v_masstr" name="vomematr" />
......
cfgs/WED025/EXPREF/file_def_nemo-oce.xml
View file @ 4dbfc9bb
......@@ -31,6 +31,8 @@
<field field_ref="qt_oce" name="qt_oce" />
<field field_ref="saltflx" name="sfx" />
<field field_ref="taum" name="taum" />
<field field_ref="utau" name="tauuo" />
<field field_ref="vtau" name="tauvo" />
<field field_ref="wspd" name="windsp" />
<field field_ref="precip" name="precip" />
<field field_ref="snowpre" />
......@@ -67,14 +69,12 @@
<field field_ref="e3u" />
<field field_ref="ssu" name="uos" />
<field field_ref="uoce" name="uo" operation="instant" freq_op="5d" > @uoce_e3u / @e3u </field>
<field field_ref="utau" name="tauuo" />
</file>
<file id="file13" name_suffix="_grid_V" description="ocean V grid variables" >
<field field_ref="e3v" />
<field field_ref="ssv" name="vos" />
<field field_ref="voce" name="vo" operation="instant" freq_op="5d" > @voce_e3v / @e3v </field>
<field field_ref="vtau" name="tauvo" />
</file>
<file id="file14" name_suffix="_grid_W" description="ocean W grid variables" >
......
makenemo
View file @ 4dbfc9bb
......@@ -101,7 +101,7 @@ MAIN_DIR=${MAIN_DIR%/ext*}
MAIN_DIR=${MAIN_DIR%/arch*}
export MAIN_DIR
#
export CONFIG_DIR=${MAIN_DIR}/cfgs
export CFGS_DIR=${MAIN_DIR}/cfgs
export TESTS_DIR=${MAIN_DIR}/tests
export TOOLS_DIR=${MAIN_DIR}/tools
export COMPIL_DIR=${MAIN_DIR}/mk
......@@ -109,7 +109,6 @@ export NEMO_DIR=${MAIN_DIR}/${x_s}
export AGRIFUSE='10'
list_key='0'; chk_key='1'
list_add_key=''; list_def_key=''; list_del_key=''
conf_file=ref_cfgs.txt
#-
#- FCM and functions location ---
export PATH=${MAIN_DIR}/ext/FCM/bin:$PATH
......@@ -224,7 +223,7 @@ done
if [ -n "$x_name" ] # is the configuration existing in cfgs or tests? or is it a new conf?
then
incfg=$( find $CONFIG_DIR -type d -name $x_name | wc -l ) # this configuration exists in CONFIG_DIR
incfg=$( find $CFGS_DIR -type d -name $x_name | wc -l ) # this configuration exists in CFGS_DIR
intst=$( find $TESTS_DIR -type d -name $x_name | wc -l ) # this configuration exists in TESTS_DIR
[[ $incfg -eq 0 && $intst -eq 0 ]] && x_n=$x_name # this is a new configuration -> dedine/overwrite x_n
[[ $incfg -eq 1 && -z "$x_r" ]] && x_r=$x_name # this is a reference configuration -> dedine/overwrite x_r
......@@ -237,20 +236,19 @@ CMP_NAM=${x_m}
NEM_SUBDIR=${x_d}
REF_CONF=${x_r}
DEMO_CONF=${x_a}
TML_CONF=${REF_CONF}
export NEMO_DIR=${MAIN_DIR}/${x_s}
NEMO_DBG=${x_b}
[ "${CMP_NAM}" == 'all' ] && . ${COMPIL_DIR}/Flist_archfile.sh all && exit
## No ref. cfg, demo case, nor remote cfg selected
## No ref. cfg or demo selected
if [[ -z "${REF_CONF}" && -z "${DEMO_CONF}" ]]; then
## Reuse last configuration compiled if any (existing 'work_cfgs.txt')
# if [[ $( find ./cfgs ./tests -name work_cfgs.txt ) ]]; then
# CONFIG_DIR=${MAIN_DIR}/$( ls -rt */work_cfgs.txt | awk -F/ 'END{ print $1}' )
# TML_CONF=$( tail -1 ${CONFIG_DIR}/work_cfgs.txt | awk '{ print $1 }' )
# CFGS_DIR=${MAIN_DIR}/$( ls -rt */work_cfgs.txt | awk -F/ 'END{ print $1}' )
# TML_CONF=$( tail -1 ${CFGS_DIR}/work_cfgs.txt | awk '{ print $1 }' )
# else
## No ${REF_CONF}, ${DEMO_CONF} nor ${NEM_SUBDIR} and 1st compilation => exit
# echo -e "\033[0;33m\nNo previous build found!"
......@@ -259,52 +257,51 @@ if [[ -z "${REF_CONF}" && -z "${DEMO_CONF}" ]]; then
${COMPIL_DIR}/Flist_cfgs.sh
exit 2
# fi
fi
## At least one config has been requested
else
## 'all' arg: list all available configurations
if [[ "${REF_CONF}" == 'all' || "${DEMO_CONF}" == 'all' ]]; then
${COMPIL_DIR}/Flist_cfgs.sh
exit 2
## Probably useless but who knows?
elif [[ -n "${REF_CONF}" && -n "${DEMO_CONF}" ]]; then
echo -e "\033[0;31m\nYou have to choose whether you work with:"
echo -e " - LTS configurations in ./cfgs ('-r') or"
echo -e " - Unsupported cases in ./tests ('-a')\033[0m\n"
exit 2
fi
## Demo case
if [ -n "${DEMO_CONF}" ]; then
conf_file=demo_cfgs.txt; CONFIG_DIR=${MAIN_DIR}/tests; TML_CONF=${DEMO_CONF}
fi
## 'all' arg: list all available configurations
if [[ "${REF_CONF}" == 'all' || "${DEMO_CONF}" == 'all' ]]; then
${COMPIL_DIR}/Flist_cfgs.sh
exit 2
## Probably useless but who knows?
elif [[ -n "${REF_CONF}" && -n "${DEMO_CONF}" ]]; then
echo -e "\033[0;31m\nYou have to choose whether you work with:"
echo -e " - LTS configurations in ./cfgs ('-r') or"
echo -e " - Unsupported cases in ./tests ('-a')\033[0m\n"
exit 2
elif [ -n "${REF_CONF}" ]; then
conf_file=ref_cfgs.txt ; export CONFIG_DIR=${CFGS_DIR} ; TML_CONF=${REF_CONF}
elif [ -n "${DEMO_CONF}" ]; then
conf_file=demo_cfgs.txt; export CONFIG_DIR=${TESTS_DIR}; TML_CONF=${DEMO_CONF}
fi
## Reuse a working cfg
grep -q "${TML_CONF} " ${CONFIG_DIR}/work_cfgs.txt 2>/dev/null && conf_file=work_cfgs.txt
## Test if ref. cfg or demo case does exist
if [[ ! $( grep "${TML_CONF} " ${CONFIG_DIR}/*_cfgs.txt ) ]]; then
echo -e "\033[0;31m\nThe reference configuration ('-r'), demonstration case ('-a') or "
echo -e "remote configuration ('-u') selected is not available!!!"
echo -e "Check the option used and the available items in .txt files\033[0m"
${COMPIL_DIR}/Flist_cfgs.sh
exit 2
if (! grep -q "${TML_CONF} " ${CONFIG_DIR}/$conf_file ); then
echo -e "\033[0;31m\nThe reference configuration ('-r') or "
echo -e "demonstration case ('-a') selected is not available!!!"
echo -e "Check the option used and the available items in .txt files\033[0m"
${COMPIL_DIR}/Flist_cfgs.sh
exit 2
fi
## If new cfg exists, work in it
if [ -n "${NEW_CONF}" ]
then
echo
printf "\nYou are installing a new configuration %s from %s " ${NEW_CONF} ${TML_CONF}
printf "with sub-components: %s\n" "${NEM_SUBDIR}"
echo
else
NEW_CONF=${TML_CONF}
fi
## Reuse a working cfg
if [[ -f ${CONFIG_DIR}/work_cfgs.txt && $( grep "${TML_CONF} " ${CONFIG_DIR}/work_cfgs.txt ) ]]; then
conf_file=work_cfgs.txt
fi
## If new cfg exists, work in it
[ -z "${NEW_CONF}" ] && NEW_CONF=${TML_CONF}
## Update sub-comps if needed
if [ -z "${NEM_SUBDIR}" ]; then
NEM_SUBDIR=$( grep "${TML_CONF} " ${CONFIG_DIR}/${conf_file} | awk '{$1 = ""; print $0}' )
fi
## Update sub-comps if needed
if [ -z "${NEM_SUBDIR}" ]; then
NEM_SUBDIR=$( grep "${TML_CONF} " ${CONFIG_DIR}/${conf_file} | awk '{$1 = ""; print $0}' )
fi
export NEMO_TDIR=${x_t:-$CONFIG_DIR}
......@@ -316,14 +313,6 @@ echo ${NEW_CONF} "${NEM_SUBDIR}" >> ${CONFIG_DIR}/work_cfgs.txt
cd ${CONFIG_DIR}
if [ -n "${NEW_CONF}" ]
then
echo
printf "\nYou are installing a new configuration %s from %s " ${NEW_CONF} ${TML_CONF}
printf "with sub-components: %s\n" "${NEM_SUBDIR}"
echo
fi
## Create new config even in existing one (mkdir with -p option, cp with -n)
${COMPIL_DIR}/Fmake_config.sh ${NEW_CONF} ${TML_CONF}
......
mk/bldxag.cfg
View file @ 4dbfc9bb
......@@ -14,6 +14,7 @@ search_src 1
src::ioipsl $MAIN_DIR/ext/IOIPSL/src
src::nemo $CONFIG_DIR/$NEW_CONF/WORK
src::ppr_1d $MAIN_DIR/ext/PPR/src
bld::target nemo.exe
bld::exe_dep
......@@ -35,8 +36,10 @@ bld::tool::make %MK
# Pre-process code before analysing dependencies
bld::pp::ioipsl 1
bld::pp::nemo 1
bld::pp::ppr_1d 1
bld::tool::fppflags::nemo %FPPFLAGS
bld::tool::fppflags::ioipsl %FPPFLAGS
bld::tool::fppflags::ppr_1d %FPPFLAGS
# Ignore the following dependencies
bld::excl_dep inc::netcdf.inc
......
mk/bldxagxcdf.cfg
View file @ 4dbfc9bb
......@@ -15,6 +15,7 @@ search_src 1
src::nocdf $MAIN_DIR/ext/DUMMY_NETCDF
src::ioipsl $MAIN_DIR/ext/IOIPSL/src
src::nemo $CONFIG_DIR/$NEW_CONF/WORK
src::ppr_1d $MAIN_DIR/ext/PPR/src
bld::target nemo.exe
bld::exe_dep
......@@ -37,9 +38,11 @@ bld::tool::make %MK
bld::pp::nocdf 1
bld::pp::ioipsl 1
bld::pp::nemo 1
bld::pp::ppr_1d 1
bld::tool::fppflags::nemo %FPPFLAGS
bld::tool::fppflags::nocdf %FPPFLAGS
bld::tool::fppflags::ioipsl %FPPFLAGS
bld::tool::fppflags::ppr_1d %FPPFLAGS
# Ignore the following dependencies
bld::excl_dep inc::VT.inc
......
sette/BATCH_TEMPLATE/batch-X64_JEANZAY
View file @ 4dbfc9bb
......@@ -2,6 +2,7 @@
#SBATCH -A GROUP_IDRIS@cpu
#SBATCH --job-name=SETTE_JOB # nom du job
#SBATCH --partition=cpu_p1 # Nom de la partition d'exécution
#SBATCH --qos=qos_cpu-dev # quality of service
#SBATCH --ntasks=NPROCS # Nombre total de processus MPI
#SBATCH --ntasks-per-node=40 # Nombre de processus MPI par noeud
# /!\ Attention, la ligne suivante est trompeuse mais dans le vocabulaire
......