Changeset 5832 for branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/1_namelist_cfg

-                      r4329
+                      r5832
+/
 !-----------------------------------------------------------------------
+&namsplit      !   time splitting parameters                            ("key_dynspg_ts")
+!-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&namcrs        !   Grid coarsening for dynamics output and/or
+               !   passive tracer coarsened online simulations
+!-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
 &namtsd    !   data : Temperature  & Salinity
 !-----------------------------------------------------------------------
 …
+/
 !-----------------------------------------------------------------------
+&namsbc_core   !   namsbc_core  CORE bulk formulea
+!-----------------------------------------------------------------------
+&namsbc_core   !   namsbc_core  CORE bulk formulae
+!-----------------------------------------------------------------------
+!              !  file name                    ! frequency (hours) ! variable  ! time interp. !  clim  ! 'yearly'/ ! weights                               ! rotation ! land/sea mask !
+!              !                               !  (if <0  months)  !   name    !   (logical)  !  (T/F) ! 'monthly' ! filename                              ! pairing  ! filename      !
+   sn_wndi     = 'u_10.15JUNE2009_fill'        ,         6         , 'U_10_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bicubic.nc'      , 'Uwnd'   , ''
+   sn_wndj     = 'v_10.15JUNE2009_fill'        ,         6         , 'V_10_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bicubic.nc'      , 'Vwnd'   , ''
+   sn_qsr      = 'ncar_rad.15JUNE2009_fill'    ,        24         , 'SWDN_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_qlw      = 'ncar_rad.15JUNE2009_fill'    ,        24         , 'LWDN_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_tair     = 't_10.15JUNE2009_fill'        ,         6         , 'T_10_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_humi     = 'q_10.15JUNE2009_fill'        ,         6         , 'Q_10_MOD',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_prec     = 'ncar_precip.15JUNE2009_fill' ,        -1         , 'PRC_MOD1',   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_snow     = 'ncar_precip.15JUNE2009_fill' ,        -1         , 'SNOW'    ,   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   sn_tdif     = 'taudif_core'                 ,        24         , 'taudif'  ,   .false.    , .true. , 'yearly'  , 'weights_core2_agrif_bilinear.nc'     , ''       , ''
+   cn_dir      = './'      !  root directory for the location of the bulk files
+   ln_taudif   = .false.   !  HF tau contribution: use "mean of stress module - module of the mean stress" data
+   rn_zqt      = 10.        !  Air temperature and humidity reference height (m)
+   rn_zu       = 10.        !  Wind vector reference height (m)
+   rn_pfac     = 1.        !  multiplicative factor for precipitation (total & snow)
+   rn_efac     = 1.        !  multiplicative factor for evaporation (0. or 1.)
+   rn_vfac     = 0.        !  multiplicative factor for ocean/ice velocity
+                           !  in the calculation of the wind stress (0.=absolute winds or 1.=relative winds)
+/
 !-----------------------------------------------------------------------
 &namtra_qsr    !   penetrative solar radiation
 !-----------------------------------------------------------------------
+!              !  file name  ! frequency (hours) ! variable  ! time interp. !  clim  ! 'yearly'/ ! weights  ! rotation !
+!              !             !  (if <0  months)  !   name    !   (logical)  !  (T/F) ! 'monthly' ! filename ! pairing  !
+   sn_chl      ='chlorophyll',        -1         , 'CHLA'    ,   .true.     , .true. , 'yearly'  , 'weights_bilin.nc'       , ''
+/
 !-----------------------------------------------------------------------
 …
 &nameos        !   ocean physical parameters
 !-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&namtra_dmp    !   tracer: T & S newtonian damping
+!-----------------------------------------------------------------------
+   ln_tradmp   =  .false.   !  add a damping termn (T) or not (F)
+/
 !-----------------------------------------------------------------------
 …
 !-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&namobs       !  observation usage                                      ('key_diaobs')
+!-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&nam_asminc   !   assimilation increments                               ('key_asminc')
+!-----------------------------------------------------------------------
+/

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/iodef.xml

-                      r4272
+                      r5832
    <file id="file1" name_suffix="_grid_T" description="ocean T grid variables" >
+     <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                       />
+     <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                          />
+     <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                />
+     <field field_ref="toce"         name="thetao"   long_name="sea_water_potential_temperature"               />
+     <field field_ref="soce"         name="so"       long_name="sea_water_salinity"                            />
+     <field field_ref="sst2"         name="tossq"    long_name="square_of_sea_surface_temperature"             />
+     <field field_ref="ssh2"         name="zossq"    long_name="square_of_sea_surface_height_above_geoid"      />
+     <field field_ref="mldkz5"       />
+     <field field_ref="mldr10_1"     />
+     <field field_ref="empmr"        name="wfo"      long_name="water_flux_into_sea_water"                     />
+     <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="saltflx"      name="sosflxdo"  />
+     <field field_ref="taum"         name="taum" />
+     <field field_ref="wspd"         name="sowindsp"  />
+          <field field_ref="precip"       name="soprecip" />
+     <field field_ref="e3t"                          />
+     <field field_ref="toce"         name="thetao"                                                                      operation="instant" freq_op="5d" > @toce_e3t / @e3t </field>
+     <field field_ref="soce"         name="so"                                                                          operation="instant" freq_op="5d" > @soce_e3t / @e3t </field>
+     <field field_ref="sst"          name="tos"      />
+     <field field_ref="sss"          name="sos"      />
+     <field field_ref="ssh"          name="zos"      />
+     <field field_ref="sst"          name="tosstd"       long_name="sea surface temperature standard deviation"         operation="instant" freq_op="5d" > sqrt( @sst2 - @sst * @sst ) </field>
+     <field field_ref="ssh"          name="zosstd"       long_name="sea surface height above geoid standard deviation"  operation="instant" freq_op="5d" > sqrt( @ssh2 - @ssh * @ssh ) </field>
+     <field field_ref="sst"          name="sstdcy"       long_name="amplitude of sst diurnal cycle"                     operation="average" freq_op="1d" > @sstmax - @sstmin </field>
+     <field field_ref="mldkz5"                       />
+     <field field_ref="mldr10_1"                     />
+     <field field_ref="mldr10_1"     name="mldr10_1dcy"  long_name="amplitude of mldr10_1 diurnal cycle"                operation="average" freq_op="1d" > @mldr10_1max - @mldr10_1min </field>
+     <field field_ref="empmr"        name="wfo"      />
+     <field field_ref="qsr"          name="rsntds"   />
+     <field field_ref="qt"           name="tohfls"   />
+     <field field_ref="saltflx"      name="sosflxdo" />
+     <field field_ref="taum"                         />
+     <field field_ref="wspd"         name="sowindsp" />
+      <field field_ref="precip"       name="soprecip" />
+     <field field_ref="sbt"                          />
    </file>
    <file id="file3" name_suffix="_grid_U" description="ocean U grid variables" >
+     <field field_ref="suoce"        name="uos"     long_name="sea_surface_x_velocity"    />
+     <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity"      />
+     <field field_ref="utau"         name="tauuo"   long_name="surface_downward_x_stress" />
+          <!-- variables available with MLE
+          <field field_ref="psiu_mle"     name="psiu_mle"  long_name="MLE_streamfunction_along_i-axis" />
+     -->
+     <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="file4" name_suffix="_grid_V" description="ocean V grid variables" >
+     <field field_ref="svoce"        name="vos"     long_name="sea_surface_y_velocity"    />
+     <field field_ref="voce"         name="vo"      long_name="sea_water_y_velocity"      />
+     <field field_ref="vtau"         name="tauvo"   long_name="surface_downward_y_stress" />
+          <!-- variables available with MLE
+          <field field_ref="psiv_mle"     name="psiv_mle"  long_name="MLE_streamfunction_along_j-axis" />
+     -->
+     <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="file5" name_suffix="_grid_W" description="ocean W grid variables" >
+     <field field_ref="woce"         name="wo"      long_name="ocean vertical velocity"         />
+     <field field_ref="avt"          name="difvho"  long_name="ocean_vertical_heat_diffusivity" />
+     <field field_ref="e3w"                        />
+     <field field_ref="woce"         name="wo"     />
+     <field field_ref="avt"          name="difvho" />
    </file>
    <file id="file6" name_suffix="_icemod" description="ice variables" >
+     <field field_ref="ice_pres"                     />
+     <field field_ref="snowthic_cea" name="snd"     long_name="surface_snow_thickness"   />
+     <field field_ref="icethic_cea"  name="sit"     long_name="sea_ice_thickness"        />
+     <field field_ref="iceprod_cea"  name="sip"     long_name="sea_ice_thickness"        />
+     <field field_ref="ist_ipa"      />
+     <field field_ref="ioceflxb"     />
+     <field field_ref="uice_ipa"     />
+     <field field_ref="vice_ipa"     />
+     <field field_ref="utau_ice"     />
+     <field field_ref="vtau_ice"     />
+     <field field_ref="qsr_io_cea"   />
+     <field field_ref="qns_io_cea"   />
+     <field field_ref="snowpre"      />
+     <field field_ref="ice_pres"   />
+     <field field_ref="snowthic_cea" name="snd" />
+     <field field_ref="icethic_cea"  name="sit" />
+     <field field_ref="iceprod_cea"  name="sip" />
+     <field field_ref="ist_ipa"    />
+     <field field_ref="uice_ipa"   />
+     <field field_ref="vice_ipa"   />
+     <field field_ref="utau_ice"   />
+     <field field_ref="vtau_ice"   />
+     <field field_ref="qsr_io_cea" />
+     <field field_ref="qns_io_cea" />
+     <field field_ref="snowpre"    />
    </file>
 …
    </file>
    -->
       </file_group>
       <file_group id="1m" output_freq="1mo" output_level="10" enabled=".TRUE."/> <!-- real monthly files -->
       <file_group id="2m" output_freq="2mo" output_level="10" enabled=".TRUE."/> <!-- real 2m files -->
       <file_group id="3m" output_freq="3mo" output_level="10" enabled=".TRUE."/> <!-- real 3m files -->
 …
    <axis_definition>
+      <axis id="deptht" long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat" long_name="Float number"      unit="-"  />
+      <axis id="icbcla" long_name="Iceberg class"     unit="-"  />
+      <axis id="deptht"  long_name="Vertical T levels"  unit="m" positive="down" />
+      <axis id="depthu"  long_name="Vertical U levels"  unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels"  unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels"  unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"       unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"      unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"       unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"   unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"   unit="degC"              />
    </axis_definition>
    <domain_definition src="./domain_def.xml"/>
 …
      <grid id="grid_W_2D" domain_ref="grid_W"/>
      <grid id="grid_W_3D" domain_ref="grid_W" axis_ref="depthw"/>
+     <grid id="gznl_T_2D" domain_ref="gznl"/>
+     <grid id="gznl_T_3D" domain_ref="gznl" axis_ref="deptht"/>
+     <grid id="gznl_W_3D" domain_ref="gznl" axis_ref="depthw"/>
     </grid_definition>
   </context>
 …
         We must have buffer_size > jpi*jpj*jpk*8 (with jpi and jpj the subdomain size)
 -->
      <variable id="buffer_size"               type="integer">5000000</variable>
+     <variable id="buffer_size"               type="integer">50000000</variable>
      <variable id="buffer_server_factor_size" type="integer">2</variable>
      <variable id="info_level"                type="integer">0</variable>

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/iodef_ar5.xml

-                      r4153
+                      r5832
       <file_group id="1d" output_freq="1d"  enabled=".TRUE.">                      <!-- 1d files -->
    <file id="file1" name_suffix="_grid_T_table2.2" >         <!-- grid T  -->
      <field field_ref="sst"          name='tos'      long_name="sea_surface_temperature"                              level="2"                      />
      <field field_ref="sst2"         name='tossq'    long_name="square_of_sea_surface_temperature"                    level="2"                      />
      <field field_ref="mldkz5"       name='omldamax' long_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" level="2" operation="maximum" />
+     <field field_ref="sst"          name='tos'      long_name="sea_surface_temperature"                              level="2" />
+     <field field_ref="sst2"         name='tossq'    long_name="square_of_sea_surface_temperature"                    level="2" />
+     <field field_ref="mldkz5"       name='omldamax' long_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" standard_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" level="2" operation="maximum" />
    </file>
       </file_group>
 …
 ++++++++++++++++++++++++++++++++++++++++++++++   monthly   +++++++++++++++++++++++++++++++++++++++++++++++++
      -->
       <file_group id="1m" output_freq="1mo"     enabled=".TRUE.">                      <!-- real monthly files -->
+      <file_group id="1m" output_freq="1mo" enabled=".TRUE.">                      <!-- real monthly files -->
    <!--
 ..............................................    grid T   .................................................
      -->
    <file id="file2" name_suffix="_grid_T_table2.2" >
      <field field_ref="botpres"      name="pbo"      long_name="sea_water_pressure_at_sea_floor"                               />
+     <field field_ref="botpres"      name="pbo"      long_name="sea_water_pressure_at_sea_floor" />
      <!-- pso : sea_water_pressure_at_sea_water_surface = 0 -->
      <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                                 />
      <field field_ref="ssh2"         name="zossq"    long_name="square_of_sea_surface_height_above_geoid"             level="2" />
      <!-- masscello : sea_water_mass_per_unit_area = cellthc*rau0                                          no time changes -->
      <field field_ref="cellthc"      name="thkcello" long_name="cell_thickness"                                                 /> <!-- no time changes -->
      <field field_ref="toce"         name="thetao"   long_name="sea_water_potential_temperature"                                />
      <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                              level="1" />
      <field field_ref="sst2"         name="tossq"    long_name="square_of_sea_surface_temperature"                    level="2" />
      <field field_ref="soce"         name="so"       long_name="sea_water_salinity"                                             />
      <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                                 level="1" />
      <field field_ref="rhop"         name="rhopoto"  long_name="sea_water_potential_density"                          level="2" />
+     <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"  />
+     <field field_ref="ssh2"         name="zossq"    long_name="square_of_sea_surface_height_above_geoid"  level="2" />
+     <!-- masscello : sea_water_mass_per_unit_area = e3t*rau0                                          no time changes -->
+     <field field_ref="e3t"          name="thkcello" long_name="cell_thickness"                  /> <!-- no time changes -->
+     <field field_ref="toce"         name="thetao"   long_name="sea_water_potential_temperature" />
+     <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                   level="1" />
+     <field field_ref="sst2"         name="tossq"    long_name="square_of_sea_surface_temperature"         level="2" />
+     <field field_ref="soce"         name="so"       long_name="sea_water_salinity"              />
+     <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                      level="1" />
+     <field field_ref="rhop"         name="rhopoto"  long_name="sea_water_potential_density"               level="2" />
      <!-- no agessc : sea_water_age_since_surface_contact -->
      <!-- no cfc11  : moles_per_unit_mass_of_cfc11_in_sea_water -->
 …
      <!-- mlotst    :           ocean_mixed_layer_thickness_defined_by_sigma_t : must be done offline -->
      <!-- mlotstsq  : square_of_ocean_mixed_layer_thickness_defined_by_sigma_t : must be done offline -->
      <field field_ref="mldkz5"       name='omlmax'   long_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" level="2" operation="maximum" />
+     <field field_ref="mldkz5"       name='omlmax'   long_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" standard_name="ocean_mixed_layer_thickness_defined_by_mixing_scheme" level="2" operation="maximum" />
    </file>
    <file id="file3" name_suffix="_grid_T_table2.5" >
+     <field field_ref="rain"         name="pr"       long_name="rainfall_flux"                                           level="1" />
+     <field field_ref="snow_ao_cea"  name="prsn"     long_name="snowfall_flux"                                           level="1" />
+     <field field_ref="evap_ao_cea"  name="evs"      long_name="water_evaporation_flux"                                  level="1" />
+     <field field_ref="runoffs"      name="friver"   long_name="water_flux_into_sea_water_from_rivers"                   level="1" />
+     <field field_ref="calving"      name="ficeberg" long_name="water_flux_into_sea_water_from_icebergs"                 level="1" />
+     <field field_ref="isnwmlt_cea"  name="fsitherm" long_name="water_flux_into_sea_water_due_to_sea_ice_thermodynamics" level="1" />
+     <field field_ref="empmr"        name="wfo"      long_name="water_flux_into_sea_water"                               level="1" />
+     <field field_ref="rain"         name="pr"       long_name="rainfall_flux"                           level="1" />
+     <field field_ref="snow_ao_cea"  name="prsn"     long_name="snowfall_flux"                           level="1" />
+     <field field_ref="evap_ao_cea"  name="evs"      long_name="water_evaporation_flux"                  level="1" />
+     <field field_ref="runoffs"      name="friver"   long_name="water_flux_into_sea_water_from_rivers"   level="1" />
+     <field field_ref="calving_cea"  name="ficeberg" long_name="water_flux_into_sea_water_from_icebergs" level="1" />
+      <!-- Referenced variable "isnwmlt_cea" is snow melt flux only? -->
+     <field field_ref="isnwmlt_cea"  name="fsitherm" long_name="water_flux_into_sea_water_due_to_sea_ice_thermodynamics" standard_name="water_flux_into_sea_water_due_to_sea_ice_thermodynamics" level="1" />
+     <!-- Referenced variable "empmr" is positive upward, "wfo" is positive downward -->
+     <field field_ref="empmr"        name="wfo"      long_name="water_flux_into_sea_water"                               standard_name="water_flux_into_sea_water"                               level="1" />
      <!-- wfonocorr : water_flux_into_sea_water_without_flux_correction : emp - erp -->
+     <field field_ref="erp"          name="wfcorr"   long_name="water_flux_correction"                                   level="1" /> <!-- usually = 0 -->
+      <!-- Referenced variable "erp" is newtonian damping term -->
+     <field field_ref="erp"          name="wfcorr"   long_name="water_flux_correction"                                   standard_name="water_flux_correction"                                   level="1" /> <!-- usually = 0 -->
    </file>
 …
      <!-- vsf      : virtual_salt_flux_into_sea_water = fsal_virtual + fsal_real -->
      <!-- wfcorr   : virtual_salt_flux_correction                        = 0 -->
+     <field field_ref="fsal_virt_cea" name="sfdsi"  long_name="downward_sea_ice_basal_salt_flux"                               level="1" />
+      <!-- Should be field_ref = "fsal_real_cea"? -->
+     <field field_ref="fsal_virt_cea" name="sfdsi"  long_name="downward_sea_ice_basal_salt_flux" standard_name="downward_sea_ice_basal_salt_flux" level="1" />
      <!-- sfriver  : salt_flux_into_sea_water_from_rivers                = 0 -->
    </file>
 …
      <field field_ref="qns"           name="nshfls"      long_name="surface_net_downward_non_solar_flux"                                         level="1" />
      <field field_ref="qsr"           name="rsntds"      long_name="surface_net_downward_shortwave_flux"                                         level="1" />
+     <!-- Should be name="rsdo" -->
      <field field_ref="qsr3d"         name="rsds"        long_name="downwelling_shortwave_flux_in_sea_water"                                     level="1" />
+     <field field_ref="qrp"           name="hfcorr"      long_name="heat_flux_correction"                                                        level="1" />
+      <!-- Referenced variable "qrp" is newtonian damping term -->
+     <field field_ref="qrp"           name="hfcorr"      long_name="heat_flux_correction" standard_name="heat_flux_correction"                   level="1" />
    </file>
    <!--
 …
    -->
    <file id="file6" name_suffix="_grid_U_table2.3" >
      <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity"                                       />
      <field field_ref="u_masstr"     name="umo"     long_name="ocean_mass_x_transport"                           level="1" />
      <field field_ref="u_heattr"     name="hfx"     long_name="ocean_heat_x_transport"                           level="1" />
      <field field_ref="ueiv_heattr"  name="hfxba"   long_name="ocean_heat_x_transport_due_to_bolus_advection"    level="2" />
      <field field_ref="udiff_heattr" name="hfxdiff" long_name="ocean_heat_x_transport_due_to_diffusion"          level="2" />
+     <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity" />
+     <field field_ref="u_masstr"     name="umo"     long_name="ocean_mass_x_transport"                        level="1" />
+     <field field_ref="u_heattr"     name="hfx"     long_name="ocean_heat_x_transport"                        level="1" />
+     <field field_ref="ueiv_heattr"  name="hfxba"   long_name="ocean_heat_x_transport_due_to_bolus_advection" level="2" />
+     <field field_ref="udiff_heattr" name="hfxdiff" long_name="ocean_heat_x_transport_due_to_diffusion"       level="2" />
    </file>
    <file id="file7" name_suffix="_grid_U_table2.8" >
      <field field_ref="utau"         name="tauuo" long_name="surface_downward_x_stress"                          level="1" />
+     <field field_ref="utau"         name="tauuo"   long_name="surface_downward_x_stress"                     level="1" />
      <!-- tauucorr : surface_downward_x_stress_correction = 0 -->
    </file>
 …
    -->
    <file id="file8" name_suffix="_grid_V_table2.3" >
      <field field_ref="voce"         name="vo"      long_name="sea_water_y_velocity"                                       />
      <field field_ref="v_masstr"     name="vmo"     long_name="ocean_mass_y_transport"                           level="1" />
      <field field_ref="v_heattr"     name="hfy"     long_name="ocean_heat_y_transport"                           level="1" />
      <field field_ref="veiv_heattr"  name="hfyba"   long_name="ocean_heat_y_transport_due_to_bolus_advection"    level="2" />
      <field field_ref="vdiff_heattr" name="hfydiff" long_name="ocean_heat_y_transport_due_to_diffusion"          level="2" />
+     <field field_ref="voce"         name="vo"      long_name="sea_water_y_velocity" />
+     <field field_ref="v_masstr"     name="vmo"     long_name="ocean_mass_y_transport"                        level="1" />
+     <field field_ref="v_heattr"     name="hfy"     long_name="ocean_heat_y_transport"                        level="1" />
+     <field field_ref="veiv_heattr"  name="hfyba"   long_name="ocean_heat_y_transport_due_to_bolus_advection" level="2" />
+     <field field_ref="vdiff_heattr" name="hfydiff" long_name="ocean_heat_y_transport_due_to_diffusion"       level="2" />
    </file>
    <file id="file9" name_suffix="_grid_V_table2.8" >
      <field field_ref="vtau"         name="tauvo" long_name="surface_downward_y_stress"                          level="1" />
+     <field field_ref="vtau"         name="tauvo"   long_name="surface_downward_y_stress"                     level="1" />
      <!-- tauvcorr : surface_downward_y_stress_correction = 0 -->
    </file>
 …
    -->
    <file id="file10" name_suffix="_grid_W_table2.3" >
      <field field_ref="w_masstr"   name="wmo"   long_name="upward_ocean_mass_transport"                                    />
      <field field_ref="w_masstr2"  name="wmosq" long_name="square_pf_upward_ocean_mass_transport"                          />
+     <field field_ref="w_masstr"   name="wmo"   long_name="upward_ocean_mass_transport"           />
+     <field field_ref="w_masstr2"  name="wmosq" long_name="square_pf_upward_ocean_mass_transport" />
    </file>
    <file id="file11" name_suffix="_grid_W_table2.9" >
      <field field_ref="avt"     name="difvho"   long_name="ocean_vertical_heat_diffusivity"                  level="2" />
      <field field_ref="avs"     name="difvso"   long_name="ocean_vertical_salt_diffusivity"                  level="2" />
+     <field field_ref="avt"     name="difvho"   long_name="ocean_vertical_heat_diffusivity"                level="2" />
+     <field field_ref="avs"     name="difvso"   long_name="ocean_vertical_salt_diffusivity"                level="2" />
      <!-- difvtrbo : ocean_vertical_tracer_diffusivity_due_to_background : cte with time, see namelist parameters nn_avb and  nn_havtb -->
      <field field_ref="av_tide" name="difvtrto" long_name="ocean_vertical_tracer_diffusivity_due_to_tides"   level="2" />
+     <field field_ref="av_tide" name="difvtrto" long_name="ocean_vertical_tracer_diffusivity_due_to_tides" level="2" />
      <!-- tnpeo     : tendency_of_ocean_potential_energy_content                   : not available -->
      <!-- tnpeot    : tendency_of_ocean_potential_energy_content_due_to_tides      : not available -->
      <!-- tnpeotb   : tendency_of_ocean_potential_energy_content_due_to_background : not available -->
      <field field_ref="avm"     name="difvmo"   long_name="ocean_vertical_momentum_diffusivity"              level="2" />
+     <field field_ref="avm"     name="difvmo"   long_name="ocean_vertical_momentum_diffusivity"            level="2" />
      <!-- difvmbo : ocean_vertical_momentum_diffusivity_due_to_background : cte with time, see namelist parameters nn_avb -->
      <field field_ref="av_tide" name="difvmto"  long_name="ocean_vertical_momentum_diffusivity_due_to_tides" level="2" /> <!-- same as tracer -->
+     <field field_ref="av_tide" name="difvmto"  long_name="ocean_vertical_momentum_diffusivity_due_to_tides" standard_name="ocean_vertical_momentum_diffusivity_due_to_tides" level="2" /> <!-- same as tracer -->
      <!-- difvmfdo : ocean_vertical_momentum_diffusivity_due_to_form_drag : ??? -->
      <!-- dispkevfo : ocean_kinetic_energy_dissipation_per_unit_area_due_to_vertical_friction : not available -->
 …
    <file id="file12" name_suffix="_grid_W_table2.10" >
      <!-- if ln_traldf_lap    =  .true. -->
      <field field_ref="aht2d_eiv" name="diftrblo" long_name="ocean_tracer_bolus_laplacian_diffusivity"                     level="2" />
+     <field field_ref="aht2d_eiv" name="diftrblo" long_name="ocean_tracer_bolus_laplacian_diffusivity" level="2" />
      <!-- diftrelo : ocean_tracer_epineutral_laplacian_diffusivity : cte with time, see ln_traldf_iso -->
      <!-- diftrxylo : ocean_tracer_xy_laplacian_diffusivity : cte with time -->
 …
    -->
    <file id="file13" name_suffix="_scalar_table2.2" >         <!-- scalar -->
      <field field_ref="masstot"    name="masso"    long_name="sea_water_mass"                                />
      <field field_ref="voltot"     name="volo"     long_name="sea_water_volume"                              />
      <field field_ref="sshtot"     name="zosga"    long_name="global_average_sea_level_change"               />
      <field field_ref="sshsteric"  name="zossga"   long_name="global_average_steric_sea_level_change"        />
      <field field_ref="sshthster"  name="zostoga"  long_name="global_average_thermosteric_sea_level_change"  />
      <field field_ref="temptot"    name="thetaoga" long_name="sea_water_potential_temperature"               />
      <field field_ref="saltot"     name="soga"     long_name="sea_water_salinity"                            />
+     <field field_ref="masstot"    name="masso"    long_name="sea_water_mass"                               />
+     <field field_ref="voltot"     name="volo"     long_name="sea_water_volume"                             />
+     <field field_ref="sshtot"     name="zosga"    long_name="global_average_sea_level_change"              />
+     <field field_ref="sshsteric"  name="zossga"   long_name="global_average_steric_sea_level_change"       />
+     <field field_ref="sshthster"  name="zostoga"  long_name="global_average_thermosteric_sea_level_change" />
+     <field field_ref="temptot"    name="thetaoga" long_name="sea_water_potential_temperature"              />
+     <field field_ref="saltot"     name="soga"     long_name="sea_water_salinity"                           />
    </file>
    <!--
 …
    -->
    <file id="file14" name_suffix="_icemod_table2.2" >         <!-- scalar -->
      <field field_ref="ice_pres"                     />
      <field field_ref="ice_cover"    name="sic"        long_name="sea_ice_area_fraction"                            />
      <field field_ref="icethic_cea"  name="sit"        long_name="sea_ice_thickness"                                />
      <field field_ref="subl_ai_cea"  name="evap"       long_name="water_evaporation_flux"                           />
      <field field_ref="snowthic_cea" name="snd"        long_name="surface_snow_thickness"                           />
+     <field field_ref="ice_pres" />
+     <field field_ref="ice_cover"    name="sic"       long_name="sea_ice_area_fraction"                                           />
+     <field field_ref="icethic_cea"  name="sit"       long_name="sea_ice_thickness"                                               />
+     <field field_ref="subl_ai_cea"  name="evap"      long_name="water_evaporation_flux" standard_name="water_evaporation_flux"   />
+     <field field_ref="snowthic_cea" name="snd"       long_name="surface_snow_thickness"                                          />
      <!-- snc : surface_snow_area_fraction : same as sic -->
      <field field_ref="icealb_cea"   name="ialb"       long_name="Bare Sea Ice Albedo"                              />
+     <field field_ref="icealb_cea"   name="ialb"      long_name="Bare Sea Ice Albedo"                                             />
      <!-- ssi : Sea Ice Salinity : cte = sice = 6, expect in baltic sea = 2 -->
      <field field_ref="ist_cea"      name="tsice"      long_name="Surface Temperature of Sea Ice"                   />
+     <field field_ref="ist_cea"      name="tsice"     long_name="Surface Temperature of Sea Ice"                                  />
      <!-- tsnint : Temperature at Interface Between Sea Ice and Snow : not available -->
      <!-- pr : Surface Rainfall Rate into the Sea Ice Portion of the Grid Cell = 0 -->
      <field field_ref="snow_ai_cea"  name="prsn"       long_name="Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" />
+     <field field_ref="snow_ai_cea"  name="prsn"      long_name="Surface Snowfall Rate into the Sea Ice Portion of the Grid Cell" />
      <!-- ageice   : Age of Sea Ice : not available ??? -->
      <!-- grFrazil : Frazil Sea Ice Growth (Leads) Rate ??? -->
      <!-- grCongel : Congelation Sea Ice Growth Rate ??? -->
      <field field_ref="licepro_cea"  name="grLateral"  long_name="Lateral Sea Ice Growth Rate"                      />
      <field field_ref="sntoice_cea"  name="snoToIce"   long_name="Snow-Ice Formation Rate"                          />
      <field field_ref="snowmel_cea"  name="snomelt"    long_name="Snow Melt Rate"                                   />
      <field field_ref="ticemel_cea"  name="tmelt"      long_name="Rate of Melt at Upper Surface of Sea Ice"         />
      <field field_ref="bicemel_cea"  name="bmelt"      long_name="Rate of Melt at Sea Ice Base"                     />
+     <field field_ref="licepro_cea"  name="grLateral" long_name="Lateral Sea Ice Growth Rate"                                     />
+     <field field_ref="sntoice_cea"  name="snoToIce"  long_name="Snow-Ice Formation Rate"                                         />
+     <field field_ref="snowmel_cea"  name="snomelt"   long_name="Snow Melt Rate"                                                  />
+     <field field_ref="ticemel_cea"  name="tmelt"     long_name="Rate of Melt at Upper Surface of Sea Ice"                        />
+     <field field_ref="bicemel_cea"  name="bmelt"     long_name="Rate of Melt at Sea Ice Base"                                    />
      <!-- hcice  : Sea Ice Total Heat Content ??? -->
      <field field_ref="qsr_ai_cea"   name="rsdssi"     long_name="surface_downwelling_shortwave_flux_in_air"        />
+     <field field_ref="qsr_ai_cea"   name="rsdssi"    long_name="surface_downwelling_shortwave_flux_in_air"                       />
      <!-- rsussi : surface_upwelling_shortwave_flux_in_air ??? -->
      <!-- rldssi : surface_downwelling_longwave_flux_in_air ??? -->
 …
      <!-- hfssi  : surface_upward_sensible_heat_flux ??? -->
      <!-- hflssi : surface_upward_latent_heat_flux ??? -->
      <field field_ref="subl_ai_cea"  name="sblsi"      long_name="surface_snow_and_ice_sublimation_flux"             />
      <field field_ref="u_imasstr"    name="transix"    long_name="Eastward Sea Ice Transport"                        />
      <field field_ref="v_imasstr"    name="transiy"    long_name="Northward Sea Ice Transport"                       />
      <field field_ref="fram_trans"   name="transifs"   long_name="Sea Ice Mass Transport Through Fram Strait"        />
      <field field_ref="utau_ice"     name="strairx"    long_name="Eastward Atmospheric Stress On Sea Ice"            />
      <field field_ref="vtau_ice"     name="strairy"    long_name="Northward Atmospheric Stress On Sea Ice"           />
+     <field field_ref="subl_ai_cea"  name="sblsi"     long_name="surface_snow_and_ice_sublimation_flux"                           />
+     <field field_ref="u_imasstr"    name="transix"   long_name="Eastward Sea Ice Transport"                                      />
+     <field field_ref="v_imasstr"    name="transiy"   long_name="Northward Sea Ice Transport"                                     />
+     <field field_ref="fram_trans"   name="transifs"  long_name="Sea Ice Mass Transport Through Fram Strait"                      />
+     <field field_ref="utau_ice"     name="strairx"   long_name="Eastward Atmospheric Stress On Sea Ice"                          />
+     <field field_ref="vtau_ice"     name="strairy"   long_name="Northward Atmospheric Stress On Sea Ice"                         />
      <!-- strocnx : Eastward Ocean Stress On Sea Ice ??? -->
      <!-- strocny : Northward Ocean Stress On Sea Ice ??? -->
 …
    <axis_definition>
+      <axis id="deptht" long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat" long_name="Float number"      unit="-"  />
+      <axis id="icbcla" long_name="Iceberg class"     unit="-"  />
+   </axis_definition>
+      <axis id="deptht"  long_name="Vertical T levels"  unit="m" positive="down" />
+      <axis id="depthu"  long_name="Vertical U levels"  unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels"  unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels"  unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"       unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"      unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"       unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"   unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"   unit="degC"              />
+   </axis_definition>
    <domain_definition src="./domain_def.xml"/>
 …
      <grid id="grid_W_2D" domain_ref="grid_W"/>
      <grid id="grid_W_3D" domain_ref="grid_W" axis_ref="depthw"/>
+     <grid id="gznl_T_2D" domain_ref="gznl"/>
+     <grid id="gznl_T_3D" domain_ref="gznl" axis_ref="deptht"/>
+     <grid id="gznl_W_3D" domain_ref="gznl" axis_ref="depthw"/>
     </grid_definition>

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/iodef_crs.xml

-                      r4152
+                      r5832
    <file id="file1" name_suffix="_grid_T" description="ocean T grid variables" >
      <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                       />
      <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                          />
      <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                />
+     <field field_ref="sst"          name="tos" />
+     <field field_ref="sss"          name="sos" />
+     <field field_ref="ssh"          name="zos" />
    </file>
    <file id="file2" name_suffix="_grid_U" description="ocean U grid variables" >
      <field field_ref="suoce"        name="uos"     long_name="sea_surface_x_velocity"    />
+     <field field_ref="ssu"          name="uos" />
    </file>
    <file id="file3" name_suffix="_grid_V" description="ocean V grid variables" >
      <field field_ref="svoce"        name="vos"     long_name="sea_surface_y_velocity"    />
+     <field field_ref="ssv"          name="vos" />
    </file>
 …
    <file id="file4" name_suffix="_grid_T" description="ocean T grid variables" >
      <field field_ref="toce"         name="thetao"   long_name="sea_water_potential_temperature"               />
      <field field_ref="soce"         name="so"       long_name="sea_water_salinity"                            />
      <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                       />
      <field field_ref="sst2"         name="tossq"    long_name="square_of_sea_surface_temperature"             />
      <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                          />
      <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                />
      <field field_ref="ssh2"         name="zossq"    long_name="square_of_sea_surface_height_above_geoid"      />
      <field field_ref="empmr"        name="wfo"      long_name="water_flux_into_sea_water"                     />
      <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="mldkz5"       />
      <field field_ref="mldr10_1"     />
+     <field field_ref="toce"         name="thetao" />
+     <field field_ref="soce"         name="so"     />
+     <field field_ref="sst"          name="tos"    />
+     <field field_ref="sst2"         name="tossq"  />
+     <field field_ref="sss"          name="sos"    />
+     <field field_ref="ssh"          name="zos"    />
+     <field field_ref="ssh2"         name="zossq"  />
+     <field field_ref="empmr"        name="wfo"    />
+     <field field_ref="qsr"          name="rsntds" />
+     <field field_ref="qt"           name="tohfls" />
+     <field field_ref="taum"     />
+     <field field_ref="mldkz5"   />
+     <field field_ref="mldr10_1" />
    </file>
    <file id="file5" name_suffix="_grid_U" description="ocean U grid variables" >
      <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity"      />
      <field field_ref="suoce"        name="uos"     long_name="sea_surface_x_velocity"    />
      <field field_ref="utau"         name="tauuo"   long_name="surface_downward_x_stress" />
+     <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"      long_name="sea_water_y_velocity"      />
      <field field_ref="svoce"        name="vos"     long_name="sea_surface_y_velocity"    />
      <field field_ref="vtau"         name="tauvo"   long_name="surface_downward_y_stress" />
+     <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" >
      <field field_ref="woce"         name="wo"      long_name="ocean vertical velocity"         />
      <field field_ref="avt"          name="difvho"  long_name="ocean_vertical_heat_diffusivity" />
+     <field field_ref="woce"         name="wo"     />
+     <field field_ref="avt"          name="difvho" />
    </file>
    <file id="file8" name_suffix="_icemod" description="ice variables" >
      <field field_ref="ice_pres"                     />
      <field field_ref="snowthic_cea" name="snd"     long_name="surface_snow_thickness"   />
      <field field_ref="icethic_cea"  name="sit"     long_name="sea_ice_thickness"        />
      <field field_ref="iceprod_cea"  name="sip"     long_name="sea_ice_thickness"        />
      <field field_ref="ist_ipa"      />
      <field field_ref="ioceflxb"     />
      <field field_ref="uice_ipa"     />
      <field field_ref="vice_ipa"     />
      <field field_ref="utau_ice"     />
      <field field_ref="vtau_ice"     />
      <field field_ref="qsr_io_cea"   />
      <field field_ref="qns_io_cea"   />
      <field field_ref="snowpre"      />
+     <field field_ref="ice_pres"   />
+     <field field_ref="snowthic_cea" name="snd" />
+     <field field_ref="icethic_cea"  name="sit" />
+     <field field_ref="iceprod_cea"  name="sip" />
+     <field field_ref="ist_ipa"    />
+     <field field_ref="ioceflxb"   />
+     <field field_ref="uice_ipa"   />
+     <field field_ref="vice_ipa"   />
+     <field field_ref="utau_ice"   />
+     <field field_ref="vtau_ice"   />
+     <field field_ref="qsr_io_cea" />
+     <field field_ref="qns_io_cea" />
+     <field field_ref="snowpre"    />
    </file>
 …
    <axis_definition>
+      <axis id="deptht" long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat" long_name="Float number"      unit="-"  />
+      <axis id="deptht"  long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu"  long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"      unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"     unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"      unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"  unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"  unit="degC"              />
    </axis_definition>
 …
      <grid id="grid_W_2D" domain_ref="grid_W"/>
      <grid id="grid_W_3D" domain_ref="grid_W" axis_ref="depthw"/>
+     <grid id="gznl_T_2D" domain_ref="gznl"/>
+     <grid id="gznl_T_3D" domain_ref="gznl" axis_ref="deptht"/>
+     <grid id="gznl_W_3D" domain_ref="gznl" axis_ref="depthw"/>
     </grid_definition>
   </context>
 …
    <file id="file1" name_suffix="_gcrs_T" description="ocean T grid variables" >
      <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                       />
      <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                          />
      <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                />
+     <field field_ref="sst"          name="tos" />
+     <field field_ref="sss"          name="sos" />
+     <field field_ref="ssh"          name="zos" />
    </file>
    <file id="file2" name_suffix="_gcrs_U" description="ocean U grid variables" >
      <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity"      />
+     <field field_ref="uoce"         name="uo" />
    </file>
    <file id="file3" name_suffix="_gcrs_V" description="ocean V grid variables" >
      <field field_ref="voce"         name="vo"      long_name="sea_water_y_velocity"      />
+     <field field_ref="voce"         name="vo" />
    </file>
 …
    <file id="file4" name_suffix="_gcrs_T" description="ocean T grid variables" >
      <field field_ref="toce"         name="thetao"   long_name="sea_water_potential_temperature"               />
      <field field_ref="soce"         name="so"       long_name="sea_water_salinity"                            />
      <field field_ref="sst"          name="tos"      long_name="sea_surface_temperature"                       />
      <field field_ref="sss"          name="sos"      long_name="sea_surface_salinity"                          />
      <field field_ref="ssh"          name="zos"      long_name="sea_surface_height_above_geoid"                />
           <field field_ref="eken"         name="eke"      long_name="Kinetic energy"/>
+     <field field_ref="toce"         name="thetao" />
+     <field field_ref="soce"         name="so"     />
+     <field field_ref="sst"          name="tos"    />
+     <field field_ref="sss"          name="sos"    />
+     <field field_ref="ssh"          name="zos"    />
+      <field field_ref="eken"         name="eke"    />
    </file>
    <file id="file5" name_suffix="_gcrs_U" description="ocean U grid variables" >
      <field field_ref="uoce"         name="uo"      long_name="sea_water_x_velocity"      />
      <field field_ref="uocet"         />
      <field field_ref="uoces"         />
+     <field field_ref="uoce"         name="uo" />
+     <field field_ref="uocet" />
+     <field field_ref="uoces" />
    </file>
    <file id="file6" name_suffix="_gcrs_V" description="ocean V grid variables" >
      <field field_ref="voce"         name="vo"      long_name="sea_water_y_velocity"      />
      <field field_ref="vocet"         />
      <field field_ref="voces"         />
+     <field field_ref="voce"         name="vo" />
+     <field field_ref="vocet" />
+     <field field_ref="voces" />
    </file>
    <file id="file7" name_suffix="_gcrs_W" description="ocean W grid variables" >
      <field field_ref="woce"         name="wo"      long_name="ocean vertical velocity"         />
+     <field field_ref="woce"         name="wo" />
    </file>
 …
    <axis_definition>
+      <axis id="deptht" long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+   </axis_definition>
+      <axis id="deptht"  long_name="Vertical T levels"  unit="m" positive="down" />
+      <axis id="depthu"  long_name="Vertical U levels"  unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels"  unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels"  unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"       unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"      unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"       unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"   unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"   unit="degC"              />
+   </axis_definition>
    <domain_definition src="./domain_def.xml"/>

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/iodef_demo.xml

-                      r4153
+                      r5832
      <field field_ref="sst"    name="sst_1d_inst" operation="instant" />     <!-- instant value -->
      <field field_ref="sst"    name="sst_1d_max"  operation="maximum" />     <!-- max -->
      <field field_ref="suoce"  />   <!-- include a U-grid variable in the list -->
+     <field field_ref="ssu"  />   <!-- include a U-grid variable in the list -->
    </file>
 …
    <axis_definition>
+     <axis_group id="deptht" long_name="Vertical T levels" unit="m" positive="down" >
+       <axis id="deptht" />
+       <axis id="deptht_myzoom" zoom_begin="1" zoom_end="10" />
+     </axis_group>
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat" long_name="Float number"      unit="-"  />
+      <axis id="icbcla" long_name="Iceberg class"     unit="-"  />
+      <axis_group id="deptht" long_name="Vertical T levels" unit="m" positive="down" >
+         <axis id="deptht" />
+         <axis id="deptht_myzoom" zoom_begin="1" zoom_end="10" />
+      </axis_group>
+      <axis id="depthu"  long_name="Vertical U levels"  unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels"  unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels"  unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"       unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"      unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"       unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"   unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"   unit="degC"              />
    </axis_definition>
 …
      <grid id="grid_W_2D" domain_ref="grid_W"/>
      <grid id="grid_W_3D" domain_ref="grid_W" axis_ref="depthw"/>
+     <grid id="gznl_T_2D" domain_ref="gznl"/>
+     <grid id="gznl_T_3D" domain_ref="gznl" axis_ref="deptht"/>
+     <grid id="gznl_W_3D" domain_ref="gznl" axis_ref="depthw"/>
     </grid_definition>

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/iodef_oldstyle.xml

-                      r4153
+                      r5832
    <axis_definition>
+      <axis id="deptht" long_name="Vertical T levels" unit="m" positive="down" />
+      <axis id="depthu" long_name="Vertical U levels" unit="m" positive="down" />
+      <axis id="depthv" long_name="Vertical V levels" unit="m" positive="down" />
+      <axis id="depthw" long_name="Vertical W levels" unit="m" positive="down" />
+      <axis id="nfloat" long_name="Float number"      unit="-"  />
+      <axis id="icbcla" long_name="Iceberg class"     unit="-"  />
+   </axis_definition>
+      <axis id="deptht"  long_name="Vertical T levels"  unit="m" positive="down" />
+      <axis id="depthu"  long_name="Vertical U levels"  unit="m" positive="down" />
+      <axis id="depthv"  long_name="Vertical V levels"  unit="m" positive="down" />
+      <axis id="depthw"  long_name="Vertical W levels"  unit="m" positive="down" />
+      <axis id="nfloat"  long_name="Float number"       unit="1"                 />
+      <axis id="icbcla"  long_name="Iceberg class"      unit="1"                 />
+      <axis id="ncatice" long_name="Ice category"       unit="1"                 />
+      <axis id="iax_20C" long_name="20 degC isotherm"   unit="degC"              />
+      <axis id="iax_28C" long_name="28 degC isotherm"   unit="degC"              />
+   </axis_definition>
    <domain_definition src="./domain_def.xml"/>
 …
      <grid id="grid_W_2D" domain_ref="grid_W"/>
      <grid id="grid_W_3D" domain_ref="grid_W" axis_ref="depthw"/>
+     <grid id="gznl_T_2D" domain_ref="gznl"/>
+     <grid id="gznl_T_3D" domain_ref="gznl" axis_ref="deptht"/>
+     <grid id="gznl_W_3D" domain_ref="gznl" axis_ref="depthw"/>
     </grid_definition>
   </context>

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/EXP00/namelist_cfg

-                      r4370
+                      r5832
 !-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&namobs       !  observation usage                                      ('key_diaobs')
+!-----------------------------------------------------------------------
+/
+!-----------------------------------------------------------------------
+&nam_asminc   !   assimilation increments                               ('key_asminc')
+!-----------------------------------------------------------------------
+/

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/README

-                      r4394
+                      r5832
 # prerequired
 #----------------------------------------------------------------------
+To use these idl tools, you need to download some climatogies and mask files;
+First, you need either :
+- IDL (version 6.4 or above), see : http://www.exelisvis.com/ProductsServices/IDL.aspx
+  In this case, you also need to download SAXO which is a free package of IDL scripts:
+  define $PATH_SAXO, the path where you will download SAXO and get it through svn with the following command.
+  > PATH_SAXO=...
+  > svn checkout http://forge.ipsl.jussieu.fr/saxo/svn/trunk/SRC $PATH_SAXO/SAXO_DIR/SRC
+- or the IDL Virtual Machine which is free to use and does not require a license to run , see :
+  http://www.exelisvis.com/Support/HelpArticlesDetail/TabId/219/ArtMID/900/ArticleID/12395/The-IDL-Virtual-Machine.aspx
+  the virtual machine requites std_main.sav that is distributed with this README.
+Next, to use these idl tools, you need to download some climatogies and mask files;
 that you can find here: http://dodsp.idris.fr/reee512/NEMO_OUT/ORCA2_LIM/
 …
 # define your std_plot_vardef.sh or std_ts_vardef.sh file
 #----------------------------------------------------------------------
+Use the examples provided in :
+These files are needed to define your PATHs, the experiments and variables names you used in your experiment.
+ - std_plot_vardef.sh is used to do all plots based on temporal mean (maps, vertical profiles...).
+ - std_ts_vardef.sh is used to do all time-series type of plot.
+To build you own std_plot_vardef.sh or std_ts_vardef.sh file; use the examples provided such as:
  - std_ts_vardef.sh_example1 or std_ts_vardef.sh_example2
  - std_plot_vardef.sh_example1 or std_plot_vardef.sh_example2
-to build your own std_plot_vardef.sh or std_ts_vardef.sh file.
+This file is needed to define you PATH, the experiments and variables names
+Note that if you use the IDL Virtual Machine, the variable SAXO_DIR defined in std_plot_vardef.sh or std_ts_vardef.sh is not used. Any definition will be ok.
+you can copy std_ts_vardef.sh_example1 con std_ts_vardef.sh
+and std_plot_vardef.sh_example1 std_plot_vardef.sh
+#----------------------------------------------------------------------
+# HOW TO USE
+#----------------------------------------------------------------------
+./std_main.sh -plot -pdf
+or
+./std_main.sh -ts -pdf
+#----------------------------------------------------------------------
+# short note on: How to build IDL virtual Machine:
+##########################################################################################################
+# short note for developers of this package on:
+#                   How to build the tarball required for IDL virtual Machine:
+##########################################################################################################
+#
+# we need to recreate std_main.sav as soon as we change IDL programmes files as
+# std_main.sav contains all ".pro" files aready compiled to be used with the virtual machine
+#
 . ./std_plot_vardef.sh # or . ./std_ts_vardef.sh

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_plot_IceFrac.pro

-                      r4559
+                      r5832
   IF keyword_set(arc) THEN BEGIN
     domdef, 20, 380, 50, 90
+    domdef, 20, 380, 40, 90
     map = [90, 0, 0]
   ENDIF
   IF keyword_set(ant) THEN BEGIN
     domdef, 20, 380, -90, -50
+    domdef, 20, 380, -90, -40
     map = [-90, 0, 0]
   ENDIF

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_plot_all.pro

-                      r4559
+                      r5832
   Ithi_april_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(april)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
   jan = where(mm EQ 1, cnt)
+  Ithi_jan_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(jan)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
   sept = where(mm EQ 9, cnt)
-  Ithi_jan_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(jan)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
   Ithi_sept_1 = {arr:1./float(cnt) * total(reform(Ithi_1.arr[*, *, temporary(sept)],nxt,nyt,cnt), 3), unit:Ithi_1.unit}
   undefine, Ithi_1
 …
      Isal_sept_2 = {arr:-1}
    ENDELSE
+;
   IvelU_1 = read_ncdf(getenv('VAR1_IvelU'), allrecords = allrec, filename = std_file1_I )
   IvelV_1 = read_ncdf(getenv('VAR1_IvelV'), allrecords = allrec, filename = std_file1_I )
 …
     Ivelo_sept_2 = {arr:-1}
   ENDELSE
+;
   Iage_1 = read_ncdf(getenv('VAR1_Iage'), allrecords = allrec, filename = std_file1_I )
   caldat, time, mm
 …
   cnt = cnt+1   &   blabla = 'Erp salinity damping term'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_erp, ERP1, ERP2, _extra = ex
+;
+;;
   cnt = cnt+1   &   blabla = 'Evaporation - Precipitation - Runoff term'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_emp, EMP1, EMP2, _extra = ex
 …
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_mld, MLD1, MLD2, MLD, _extra = ex
+;
+  cnt = cnt+1   &   blabla = 'Mixed layer depth ortho plan ARCTIC'
+  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_MLD_ortho, MLD1, MLD2, /ARC, _extra = ex
+;sf
+  cnt = cnt+1   &   blabla = 'Mixed layer depth ortho plan ANTARTIC'
+  IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_MLD_ortho, MLD1, MLD2, /ANT, _extra = ex
+;sf
   cnt = cnt+1   &   blabla = 'Zonal mean Mixed layer depth'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_ZonMld, MLD1, MLD2, MLD, _extra = ex
 …
   cnt = cnt+1   &   blabla = 'Antartic Ice Velocity: SEPT'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceVel, IvelU_sept_1, IvelU_sept_2, IvelV_sept_1, IvelV_sept_2, Ivelo_sept_1, Ivelo_sept_2, /ANT,  /SEPT, _extra = ex
+;
   cnt = cnt+1   &   blabla = 'Arctic Ice Age: MARCH'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_plot_IceAge, Iage_march_1, Iage_march_2, Ifra_march_1, Ifra_march_2, /ARC, /MARCH, _extra = ex

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_plot_vardef.sh

-                      r4562
+                      r5832
 #idl_command=idl71
+#
 PS_DIR=$( pwd )/OR2LPv36_ps_plot
 PDF_DIR=$( pwd )/OR2LPv36_pdf_plot
+PS_DIR=$( pwd )/p4H25a50-testht_ps_plot
+PDF_DIR=$( pwd )/p4H25a50-testht_pdf_plot
 HTML_DIR=$( pwd )/html_plot
 SAXO_DIR=/Users/sflod/SAXO_DIR
+#
 DIR_DATA=/Users/sflod/idl_PLOTS/DATA_STORE/RUN_CLIMATO/500y_pisces     # path of data in NetCDF format
+DIR_DATA=/Users/sflod/idl_PLOTS/DATA_STORE/RUN_CLIMATO/lim3_ada     # path of data in NetCDF format
 DIR_CLIMATO=/Users/sflod/idl_PLOTS/CLIMATOLOGIES    # path of climatological data
 DIR_MASK=/Users/sflod/idl_PLOTS/MASK  # path of mask files (ex: subbasins)
 …
+#
 #===================== EXP1 =====================
 # 23610101_23701231
 FILE1_T=OR2LPv36_23610101_23701231_1Y_grid_T.nc   # exp1 grid T input file
 FILE1_U=OR2LPv36_23610101_23701231_1Y_grid_U.nc   # exp1 grid U input file
 FILE1_V=OR2LPv36_23610101_23701231_1Y_grid_V.nc   # exp1 grid V input file
 FILE1_I=OR2LPv36_23610101_23701231_1M_icemod.nc   # exp1 ice    input file
+#
+FILE1_T=p4H25a50_20410101_20501231_1Y_grid_T.nc   # exp1 grid T input file
+FILE1_U=p4H25a50_20410101_20501231_1Y_grid_U.nc   # exp1 grid U input file
+FILE1_V=p4H25a50_20410101_20501231_1Y_grid_V.nc   # exp1 grid V input file
+FILE1_I=p4H25a50_20410101_20501231_1M_icemod.nc   # exp1 ice    input file
 VAR1_T=thetao
 VAR1_S=so
 VAR1_QNET=tohfls
 VAR1_ERP=sowafldp
+VAR1_QNET=qt
+VAR1_ERP=wfcorr
 VAR1_EMP=wfo
 VAR1_MLD=mldr10_1
 VAR1_U=uocetr_eff
 VAR1_V=vocetr_eff
 VAR1_Ithick=iicethic
 VAR1_Ifrac=soicecov
 VAR1_Isnow=isnowthi
 #VAR1_Isal=sisali
 #VAR1_Iage=siages
 VAR1_IvelU=iicevelu
 VAR1_IvelV=iicevelv
 #VAR1_Ivelo=sivelo
+VAR1_Ithick=sithic
+VAR1_Ifrac=siconc
+VAR1_Isnow=snvolu
+VAR1_Isal=sisali
+VAR1_Iage=siages
+VAR1_IvelU=sivelu
+VAR1_IvelV=sivelv
+VAR1_Ivelo=sivelo
+#
 #===================== EXP2 =====================
+#
 FILE2_T=OR2LPv36_23610101_23701231_1Y_grid_T.nc   # exp1 grid T input file
 FILE2_U=OR2LPv36_23610101_23701231_1Y_grid_U.nc   # exp1 grid U input file
 FILE2_V=OR2LPv36_23610101_23701231_1Y_grid_V.nc   # exp1 grid V input file
 FILE2_I=OR2LPv36_23610101_23701231_1M_icemod.nc   # exp1 ice    input file
+FILE2_T=testht_20410101_20501231_1Y_grid_T.nc   # exp1 grid T input file
+FILE2_U=testht_20410101_20501231_1Y_grid_U.nc   # exp1 grid U input file
+FILE2_V=testht_20410101_20501231_1Y_grid_V.nc   # exp1 grid V input file
+FILE2_I=testht_20410101_20501231_1M_icemod.nc   # exp1 ice    input file
 VAR2_T=thetao
 VAR2_S=so
 VAR2_QNET=tohfls
 VAR2_ERP=sowafldp
+VAR2_QNET=qt
+VAR2_ERP=wfcorr
 VAR2_EMP=wfo
 VAR2_MLD=mldr10_1
 VAR2_U=uocetr_eff
 VAR2_V=vocetr_eff
 VAR2_Ithick=iicethic
 VAR2_Ifrac=soicecov
 VAR2_Isnow=isnowthi
 #VAR2_Isal=sisali
 #VAR2_Iage=siages
 VAR2_IvelU=iicevelu
 VAR2_IvelV=iicevelv
 #VAR2_Ivelo=sivelo
+VAR2_Ithick=sithic
+VAR2_Ifrac=siconc
+VAR2_Isnow=snvolu
+VAR2_Isal=sisali
+VAR2_Iage=siages
+VAR2_IvelU=sivelu
+VAR2_IvelV=sivelv
+VAR2_Ivelo=sivelo
+#
 ######################### Export Variables ###############################

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_plot_vardef.sh.old_names

-                      r4559
+                      r5832
 VAR1_IvelU=iicevelu
 VAR1_IvelV=iicevelv
 VAR1_Ivelo=iicevelo
+#VAR1_Ivelo=iicevelo
+#
 #===================== EXP2 =====================
 …
 VAR2_IvelU=iicevelu
 VAR2_IvelV=iicevelv
 VAR2_Ivelo=iicevelo
+#VAR2_Ivelo=iicevelo
+#
 ######################### Export Variables ###############################

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_ICE.pro

-                      r4497
+                      r5832
   ICE_S_15 = {arr:ICE_S_15 * 1.e-12, unit : '10^12 m^2'}
+  ;
+  title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) '+d1_d2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (CONTINUOUS) '+'!C'+ 'and Extend minus 15% (DASHED)'
+  ;;title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) '+d1_d2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (CONTINUOUS) '+'!C'+ 'and Extend minus 15% (DASHED)'
+  title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) '+d1_d2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (DASHED) '+'!C'+ 'and Extend minus 15% (CONTINUOUS)'
   jpt=12
   time=julday(1,15,1900)+30*lindgen(12)
   pltt, ICE_N, 't', MIN = 4., MAX = 16., /REMPLI, /PORTRAIT, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
+  pltt, ICE_N, 't', MIN = 4., MAX = 16., /REMPLI, /PORTRAIT, LINESTYLE=2, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
        , COLOR = 000 , small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_N_15, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $       ;;; dashed lines is LINESTYLE=2  $
+  pltt, ICE_N_15, 't', /REMPLI, /PORTRAIT $       ;;; dashed lines is LINESTYLE=2  $
         , /ov1d, COLOR = 000, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, vICE_area_NH, 't',  /REMPLI, /PORTRAIT  $
+  pltt, vICE_area_NH, 't',  /REMPLI, /PORTRAIT, LINESTYLE=2  $
         , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, vICE_ext_NH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $   ;;; dashed lines is LINESTYLE=2  $
+  pltt, vICE_ext_NH, 't', /REMPLI, /PORTRAIT $   ;;; dashed lines is LINESTYLE=2  $
         , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
+;
   title = 'Southern Hemisphere'+'!C'+prefix+' (BLACK) '+d1_d2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (CONTINUOUS) '+'!C'+ 'and Extend minus 15% (DASHED)'
   pltt, ICE_S, 't', MIN = 0., MAX = 20., /REMPLI, /NOERASE , XGRIDSTYLE = 1 , DATE_FORMAT = '%M' $
+  title = 'Southern Hemisphere'+'!C'+prefix+' (BLACK) '+d1_d2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (DASHED) '+'!C'+ 'and Extend minus 15% (CONTINUOUS)'
+  pltt, ICE_S, 't', MIN = 0., MAX = 20., /REMPLI, LINESTYLE=2, /NOERASE , XGRIDSTYLE = 1 , DATE_FORMAT = '%M' $
         ,COLOR = 000, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_S_15, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $
+  pltt, ICE_S_15, 't', /REMPLI, /PORTRAIT $
         , /ov1d, COLOR = 000, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt,  vICE_area_SH, 't', /REMPLI, /PORTRAIT  $
+  pltt,  vICE_area_SH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2  $
          , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt,  vICE_ext_SH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $
+  pltt,  vICE_ext_SH, 't', /REMPLI, /PORTRAIT $
         , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
+;
 …
+  title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (CONTINUOUS) '+'!C'+ 'and Extend minus 15% (DASHED)'
+  ;;title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (CONTINUOUS) '+'!C'+ 'and Extend minus 15% (DASHED)'
+  title = 'Northern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'OBSERVATION (light blue) '+'!C'+' Global Annual Mean Ice Area (DASHED) '+'!C'+ 'and Extend minus 15% (CONTINUOUS)'
   jpt=12
   time=julday(1,15,1900)+30*lindgen(12)
   pltt, ICE_N, 't', MIN = 4, MAX = 16,  /REMPLI, /PORTRAIT, XGRIDSTYLE = 1, window = 2, DATE_FORMAT = '%M' $
+  pltt, ICE_N, 't', MIN = 4, MAX = 16,  /REMPLI, /PORTRAIT, LINESTYLE=2, XGRIDSTYLE = 1, window = 2, DATE_FORMAT = '%M' $
         , COLOR = 000, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex ; BLACK
   pltt, ICE_N2, 't', /REMPLI, /PORTRAIT  $
+  pltt, ICE_N2, 't', /REMPLI, /PORTRAIT , LINESTYLE=2 $
         , /ov1d, COLOR = 250, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex  ; RED
   pltt, ICE_N_15, 't', /REMPLI, /PORTRAIT, LINESTYLE=2  $ ; linee tratteggiate LINESTYLE=2  $
+  pltt, ICE_N_15, 't', /REMPLI, /PORTRAIT $ ; linee tratteggiate LINESTYLE=2  $
         , /ov1d, COLOR = 000, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_N2_15, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $ ; linee tratteggiate LINESTYLE=2  $
+  pltt, ICE_N2_15, 't', /REMPLI, /PORTRAIT $ ; linee tratteggiate LINESTYLE=2  $
         , /ov1d, COLOR = 250, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, vICE_area_NH, 't', /REMPLI, /PORTRAIT  $
+  pltt, vICE_area_NH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2  $
         , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex  ; light blue
   pltt, vICE_ext_NH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $
+  pltt, vICE_ext_NH, 't', /REMPLI, /PORTRAIT $
         , /ov1d, COLOR = 100, small = [1, 2, 1], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex  ; blu scuro
+;
   title ='Southern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'OBSERVATION (light blue) '+'!C'+'Global Annual Mean Ice Area (CONTINUS)'+'!C'+ 'and Extend minus 15% (DASHED)'
+  title ='Southern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'OBSERVATION (light blue) '+'!C'+'Global Annual Mean Ice Area (DASHED)'+'!C'+ 'and Extend minus 15% (CONTINUOUS)'
 ;  title ='Southern Hemisphere'+'!C'
   pltt, ICE_S, 't', MIN = 0., MAX = 20.,  /REMPLI, /NOERASE, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
+  pltt, ICE_S, 't', MIN = 0., MAX = 20., /REMPLI, LINESTYLE=2, /NOERASE, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
          , COLOR = 000, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_S2, 't', /REMPLI, /NOERASE $
+  pltt, ICE_S2, 't', /REMPLI, /NOERASE, LINESTYLE=2 $
         , /ov1d, COLOR = 250, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_S_15 , 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $ ; linee tratteggiate LINESTYLE=2  $
+  pltt, ICE_S_15 , 't', /REMPLI, /PORTRAIT $ ; linee tratteggiate LINESTYLE=2  $
         , /ov1d, COLOR = 000, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt, ICE_S2_15, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $ ; linee tratteggiate LINESTYLE=2  $
+  pltt, ICE_S2_15, 't', /REMPLI, /PORTRAIT $ ; linee tratteggiate LINESTYLE=2  $
         , /ov1d, COLOR = 250, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt,  vICE_area_SH, 't', /REMPLI, /PORTRAIT $
+  pltt,  vICE_area_SH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $
           , /ov1d, COLOR = 100, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
   pltt,  vICE_ext_SH, 't', /REMPLI, /PORTRAIT, LINESTYLE=2 $
+  pltt,  vICE_ext_SH, 't', /REMPLI, /PORTRAIT $
         , /ov1d, COLOR = 100, small = [1, 2, 2], YTITLE = '10^12 m^2 ', TITLE = title, _extra = ex
+;

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_ICE_FRAM.pro

-                      r4514
+                      r5832
 arr2d = arr2d[t1:t2]
 arr2d = reform(arr2d,12,nyear) ; put in 2D array
+arr2d = total(arr2d,2)/nyear ; total over 2th dimension (i.e.years)
+;arr2d = total(arr2d,2)/nyear ; total over 2th dimension (i.e.years)
+arr2d = arr2d[*, nyear-1] ;  select last year
 return, arr2d
 …
+;
   d1_d2 = '('+strtrim(date1, 1)+' - '+strtrim(date2, 1)+')'
+  d2 = '('+strtrim(date2, 1)+')'
+;
   iodir = std_iodir_data
 …
   ;; AREA
   ICE_area_export = reform(ICE_area_export, 12, nyr)
+  ICE_area_export = total(ICE_area_export,2)/nyr
+  ;ICE_area_export = total(ICE_area_export,2)/nyr  ; old version monthly mean average  over all years
+  ICE_area_export = ICE_area_export[*,nyr-1]  ; dim= 12, index 0-11; last year choosen
   ; ICE_area_export = {arr:ICE_area_export * 1.e-12 * 86400 * 365 , unit : '10^6 Km^2/year'}  ; annual mean
   ICE_area_export = {arr:ICE_area_export * 1.e-12 * 86400 * 30 , unit : '10^6 Km^2/month'}    ; monthly mean
 …
+  ;
   ICE_vol_export = reform(ICE_vol_export, 12, nyr)
+  ICE_vol_export = total(ICE_vol_export,2)/nyr
+  ;ICE_vol_export = total(ICE_vol_export,2)/nyr
+  ICE_vol_export = ICE_vol_export[*,nyr-1]
   ; ICE_vol_export = {arr:ICE_vol_export * 1.e-9 * 86400 * 365 , unit : '10^3 Km^3/year'}      ; annual mean
   ICE_vol_export = {arr:ICE_vol_export * 1.e-9 * 86400 * 30 , unit : '10^3 Km^3/month'}      ; monthly mean
+  ;
+  title = 'Fram Strait Areal Export'+'!C'+prefix+' '+d1_d2
+  ;title = 'Fram Strait Areal Export: LAST YEAR'+'!C'+prefix+' '+d1_d2
+  title = 'Fram Strait Areal Export: LAST YEAR'+'!C'+prefix+' '+d2
   jpt=12
   time=julday(1,15,1900)+30*lindgen(12)
 …
   xyouts, julday(7,15,1900), 0.41, 'Data from Kwok et al.(2004), 1979-2002 ', ALIGN = 0, CHARTHICK = 2, CHARSIZE=0.8, COLOR=2
+  ;
+  title = 'Fram Strait Volume Export'+'!C'+prefix+' '+d1_d2
+  ;title = 'Fram Strait Volume Export LAST YEAR'+'!C'+prefix+' '+d1_d2
+  title = 'Fram Strait Volume Export LAST YEAR'+'!C'+prefix+' '+d2
   pltt, ICE_vol_export, 't',  /REMPLI, MIN = 60., MAX = 500. , /NOERASE, XGRIDSTYLE = 1 $
        , small = [1, 2, 2], YTITLE = '10^3 Km^3/month', TITLE = title, DATE_FORMAT = '%M', _extra = ex
 …
     d1_d2_2 = '('+strtrim(date1_2, 1)+' - '+strtrim(date2_2, 1)+')'
+    d2_2 = '('+strtrim(date2_2, 1)+')'
     tsave = time
     domdef, indx1, indx2, indy1, indy2, /xindex, /yindex,/memeindices
 …
     ;; AREA
     ICE_area_export_2 = reform(ICE_area_export_2, 12, nyr)
+    ICE_area_export_2 = total(ICE_area_export_2,2)/nyr
+    ;ICE_area_export_2 = total(ICE_area_export_2,2)/nyr
+    ICE_area_export_2 = ICE_area_export_2[*,nyr-1]
     ; ICE_area_export_2 = {arr:ICE_area_export_2 * 1.e-12 * 86400 * 365 , unit : '10^6 Km^2/year'}   ; annual mean
     ICE_area_export_2 = {arr:ICE_area_export_2 * 1.e-12 * 86400 * 30 , unit : '10^6 Km^2/month'}     ; monthly mean
+    ;
     ICE_vol_export_2 = reform(ICE_vol_export_2, 12, nyr)
+    ICE_vol_export_2 = total(ICE_vol_export_2,2)/nyr
+    ;ICE_vol_export_2 = total(ICE_vol_export_2,2)/nyr
+    ICE_vol_export_2 = ICE_vol_export_2[*,nyr-1]
     ; ICE_vol_export_2 = {arr:ICE_vol_export_2 * 1.e-12 * 86400 * 365 , unit : '10^3 Km^3/year'}     ; annual mean
     ICE_vol_export_2 = {arr:ICE_vol_export_2 * 1.e-9 * 86400 * 30 , unit : '10^3 Km^3/month'}       ; monthly mean
 …
     if KEYWORD_SET(postscript) then openps, filename+'_2.ps', portrait = 1
+    title = 'Fram Strait Areal Export'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2
+    ;title = 'Fram Strait Areal Export'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2
+    title = 'Fram Strait Areal Export LAST YEAR'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d2_2
     jpt=12
     time=julday(1,15,1900)+30*lindgen(12)
 …
     xyouts, julday(7,15,1900), 0.41, 'Data from Kwok et al.(2004), 1979-2002 ', ALIGN = 0, CHARTHICK = 2, CHARSIZE=0.8, COLOR=2
+    ;
+    title = 'Fram Strait Volume Export'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2
+    ;title = 'Fram Strait Volume Export'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2
+    title = 'Fram Strait Volume Export LAST YEAR'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d2_2
     pltt, ICE_vol_export, 't', /REMPLI,  MIN = 60., MAX = 500., /NOERASE, XGRIDSTYLE = 1 $
         , small = [1, 2, 2], YTITLE = '10^3 Km^3/month', TITLE = title, DATE_FORMAT = '%M', _extra = ex

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_ICE_Vol.pro

r4504	r5832
70	70	;
71	71	title ='Southern Hemisphere' +'!C'+prefix+' '+d1_d2+' - '+'!C'+'Global Annual Mean Ice Volume (BLACK)'
72		pltt, ICE_vol_S, 't', MIN = 0., MAX = 11000., /REMPLI, /NOERASE, XGRIDSTYLE = 1 , DATE_FORMAT = '%M' $
	72	pltt, ICE_vol_S, 't', MIN = 0., MAX = 12000., /REMPLI, /NOERASE, XGRIDSTYLE = 1 , DATE_FORMAT = '%M' $
73	73	, small = [1, 2, 2], YTITLE = '10^9 Km^3 ', TITLE = title, _extra = ex
74	74	;
…	…
119	119	;
120	120	title = 'Southern Hemisphere'+'!C'+prefix+' (BLACK) - '+prefix2+' (RED) '+d1_d2_2+'!C'+'Global Annual Mean Ice Volume'
121		pltt, ICE_vol_S, 't', MIN = 0., MAX = 11000., /REMPLI, /NOERASE, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
	121	pltt, ICE_vol_S, 't', MIN = 0., MAX = 12000., /REMPLI, /NOERASE, XGRIDSTYLE = 1, DATE_FORMAT = '%M' $
122	122	, small = [1, 2, 2], YTITLE = '10^9 Km^3 ', TITLE = title, _extra = ex
123	123	pltt, ICE_vol_S2, 't', /REMPLI, /NOERASE $

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_all.pro

-                      r4559
+                      r5832
   IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_SSH, masknp, POSTSCRIPT = postscript, _extra = ex
+;
   cnt = cnt+1   &   blabla = 'Global Mean Q net'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_Q, masknp, POSTSCRIPT = postscript, _extra = ex
+;;;;  cnt = cnt+1   &   blabla = 'Global Mean Q net'
+;;;;  IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_Q, masknp, POSTSCRIPT = postscript, _extra = ex
+;
   cnt = cnt+1   &   blabla = 'Global Mean EMP'
 …
   cnt = cnt+1   &   blabla = 'Sea-Ice Volume'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_ICE_Vol, masknp, POSTSCRIPT = postscript, _extra = ex
+;
   cnt = cnt+1   &   blabla = 'ICE Velocity '
   IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_ICE_Vel, masknp, POSTSCRIPT = postscript, _extra = ex
+;
+;SF; and probably useless
+;SF  cnt = cnt+1   &   blabla = 'ICE Velocity '
+;SF  IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_ICE_Vel, masknp, POSTSCRIPT = postscript, _extra = ex
+;SF;
   cnt = cnt+1   &   blabla = 'Sea-Ice Volume Export at Fram Strait'
   IF doplot EQ cnt OR doplot EQ 0 THEN std_ts_ICE_FRAM, masknp, POSTSCRIPT = postscript, _extra = ex

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_vardef.sh

-                      r4559
+                      r5832
 idl_command=/Applications/itt/idl64/bin/idl
+#
 PS_DIR=$( pwd )/ts_heatbug_ps
 PDF_DIR=$( pwd )/ts_heatbug_pdf
+PS_DIR=$( pwd )/ts_p4H25a50-testht_ps
+PDF_DIR=$( pwd )/ts_p4H25a50-testht_pdf
 HTML_DIR=$( pwd )/html
 SAXO_DIR=/Users/sflod/SAXO_DIR
+#
 DIR_DATA=/Users/sflod/idl_PLOTS/DATA_STORE/RUN_CLIMATO/lim3_ada      # path of data in NetCDF format
+DIR_DATA=/Users/sflod/idl_PLOTS/DATA_STORE/RUN_CLIMATO/lim3_ada     # path of data in NetCDF format
 DIR_CLIMATO=/Users/sflod/idl_PLOTS/CLIMATOLOGIES    # path of climatological data
 DIR_MASK=/Users/sflod/idl_PLOTS/MASK  # path of mask files (ex: subbasins)
 …
 READ_ONLY_FIRST_RECORD=0   # if 0 then read all records in files else read only the first reacord in each file
+#
+#DATE1=20010101   ;   DATE2=25001231
+DATE1=20310101   ;   DATE2=20401231
+#DATE1=00010101      ;   DATE2=00101231
+DATE1=20010101         ;   DATE2=20501231
+#
 VAR1_T=thetao        ;   V1T_PREF=heatbug       ;   V1T_SUFF=_1Y_grid_T.nc
 VAR1_S=so            ;   V1S_PREF=heatbug      ;   V1S_SUFF=_1Y_grid_T.nc
 VAR1_SSH=zos         ;   V1SSH_PREF=heatbug    ;   V1SSH_SUFF=_1Y_grid_T.nc
 VAR1_Q=tohfls        ;   V1Q_PREF=heatbug      ;   V1Q_SUFF=_1Y_grid_T.nc
 VAR1_EMP=wfo         ;   V1EMP_PREF=heatbug    ;   V1EMP_SUFF=_1Y_grid_T.nc
 VAR1_U=uocetr_eff    ;   V1U_PREF=heatbug      ;   V1U_SUFF=_1Y_grid_U.nc
 VAR1_V=vocetr_eff    ;   V1V_PREF=heatbug      ;   V1V_SUFF=_1Y_grid_V.nc
 VAR1_ICE=siconc      ;   V1ICE_PREF=heatbug    ;   V1ICE_SUFF=_1M_icemod.nc
 VAR1_Ithick=sithic   ;   V1It_PREF=heatbug     ;   V1It_SUFF=_1M_icemod.nc
 VAR1_SNOW=sndept     ;   V1SNOW_PREF=heatbug   ;   V1SNOW_SUFF=_1M_icemod.nc
 VAR1_IvelV=sivelv    ;   V1IvV_PREF=heatbug    ;   V1IvV_SUFF=_1M_icemod.nc
 VAR1_Ivel=sivelo     ;   V1Iv_PREF=heatbug     ;   V1Iv_SUFF=_1M_icemod.nc
+VAR1_T=thetao          ;   V1T_PREF=p4H25a50      ;   V1T_SUFF=_1Y_grid_T.nc
+VAR1_S=so              ;   V1S_PREF=p4H25a50      ;   V1S_SUFF=_1Y_grid_T.nc
+VAR1_SSH=zos         ;   V1SSH_PREF=p4H25a50    ;   V1SSH_SUFF=_1Y_grid_T.nc
+##VAR1_Q=qt              ;   V1Q_PREF=p4H25a50      ;   V1Q_SUFF=_1Y_grid_T.nc
+VAR1_EMP=wfo         ;   V1EMP_PREF=p4H25a50    ;   V1EMP_SUFF=_1Y_grid_T.nc
+VAR1_U=uocetr_eff      ;   V1U_PREF=p4H25a50      ;   V1U_SUFF=_1Y_grid_U.nc
+VAR1_V=vocetr_eff      ;   V1V_PREF=p4H25a50      ;   V1V_SUFF=_1Y_grid_V.nc
+VAR1_ICE=siconc      ;   V1ICE_PREF=p4H25a50    ;   V1ICE_SUFF=_1M_icemod.nc
+VAR1_Ithick=sithic    ;   V1It_PREF=p4H25a50     ;   V1It_SUFF=_1M_icemod.nc
+VAR1_SNOW=snthic    ;   V1SNOW_PREF=p4H25a50   ;   V1SNOW_SUFF=_1M_icemod.nc
+VAR1_IvelV=sivelv    ;   V1IvV_PREF=p4H25a50    ;   V1IvV_SUFF=_1M_icemod.nc
+VAR1_Ivel=sivelo      ;   V1Iv_PREF=p4H25a50     ;   V1Iv_SUFF=_1M_icemod.nc
+#
 #===================== EXP2 =====================
+#
+#DATE1_2=20010101   ;   DATE2_2=20101231
+DATE1_2=20310101   ;   DATE2_2=20401231
+#DATE1_2=20010101   ;   DATE2_2=25001231
+DATE1_2=20010101       ;   DATE2_2=20501231
+#
 VAR2_T=thetao      ;   V2T_PREF=heatbug      ;   V2T_SUFF=_1Y_grid_T.nc
 VAR2_S=so          ;   V2S_PREF=heatbug      ;   V2S_SUFF=_1Y_grid_T.nc
 VAR2_SSH=zos       ;   V2SSH_PREF=heatbug    ;   V2SSH_SUFF=_1Y_grid_T.nc
 VAR2_Q=tohfls      ;   V2Q_PREF=heatbug      ;   V2Q_SUFF=_1Y_grid_T.nc
 VAR2_EMP=wfo       ;   V2EMP_PREF=heatbug    ;   V2EMP_SUFF=_1Y_grid_T.nc
 VAR2_U=uocetr_eff  ;   V2U_PREF=heatbug      ;   V2U_SUFF=_1Y_grid_U.nc
 VAR2_V=vocetr_eff  ;   V2V_PREF=heatbug      ;   V2V_SUFF=_1Y_grid_V.nc
 VAR2_ICE=siconc    ;   V2ICE_PREF=heatbug    ;   V2ICE_SUFF=_1M_icemod.nc
 VAR2_Ithick=sithic ;   V2It_PREF=heatbug     ;   V2It_SUFF=_1M_icemod.nc
 VAR2_SNOW=sndept   ;   V2SNOW_PREF=heatbug   ;   V2SNOW_SUFF=_1M_icemod.nc
 VAR2_IvelV=sivelv  ;   V2IvV_PREF=heatbug    ;   V2IvV_SUFF=_1M_icemod.nc
 VAR2_Ivel=sivelo   ;   V2Iv_PREF=heatbug     ;   V2Iv_SUFF=_1M_icemod.nc
+VAR2_T=thetao          ;   V2T_PREF=testht     ;   V2T_SUFF=_1Y_grid_T.nc
+VAR2_S=so           ;   V2S_PREF=testht     ;   V2S_SUFF=_1Y_grid_T.nc
+VAR2_SSH=zos         ;   V2SSH_PREF=testht   ;   V2SSH_SUFF=_1Y_grid_T.nc
+##VAR2_Q=qt            ;   V2Q_PREF=testht     ;   V2Q_SUFF=_1Y_grid_T.nc
+VAR2_EMP=wfo            ;   V2EMP_PREF=testht   ;   V2EMP_SUFF=_1Y_grid_T.nc
+VAR2_U=uocetr_eff      ;   V2U_PREF=testht     ;   V2U_SUFF=_1Y_grid_U.nc
+VAR2_V=vocetr_eff      ;   V2V_PREF=testht     ;   V2V_SUFF=_1Y_grid_V.nc
+VAR2_ICE=siconc         ;   V2ICE_PREF=testht   ;   V2ICE_SUFF=_1M_icemod.nc
+VAR2_Ithick=sithic       ;   V2It_PREF=testht    ;   V2It_SUFF=_1M_icemod.nc
+VAR2_SNOW=snthic       ;   V2SNOW_PREF=testht  ;   V2SNOW_SUFF=_1M_icemod.nc
+VAR2_IvelV=sivelv       ;   V2IvV_PREF=testht   ;   V2IvV_SUFF=_1M_icemod.nc
+VAR2_Ivel=sivelo        ;   V2IvV_PREF=testht   ;   V2IvV_SUFF=_1M_icemod.nc
+#
 ######################### Export Variables ###############################

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_vardef.sh.500yfwb0

-                      r4394
+                      r5832
 export VAR1_Ithick  V1It_PREF    V1It_SUFF
 export VAR1_SNOW    V1SNOW_PREF  V1SNOW_SUFF
 export VAR1_IvelV   V1IvV_PREF   V1IvV_PREF
+export VAR1_IvelV   V1IvV_PREF   V1IvV_SUFF
 #===================== EXP2 =====================
 export DATE1_2      DATE2_2
 …
 export VAR2_Ithick  V2It_PREF    V2It_SUFF
 export VAR2_SNOW    V2SNOW_PREF  V2SNOW_SUFF
 export VAR2_IvelV   V2IvV_PREF   V2IvV_PREF
+export VAR2_IvelV   V2IvV_PREF   V2IvV_SUFF
+#

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_vardef.sh.500yfwb2

-                      r4394
+                      r5832
 export VAR1_Ithick  V1It_PREF    V1It_SUFF
 export VAR1_SNOW    V1SNOW_PREF  V1SNOW_SUFF
 export VAR1_IvelV   V1IvV_PREF   V1IvV_PREF
+export VAR1_IvelV   V1IvV_PREF   V1IvV_SUFF
 #===================== EXP2 =====================
 export DATE1_2      DATE2_2
 …
 export VAR2_Ithick  V2It_PREF    V2It_SUFF
 export VAR2_SNOW    V2SNOW_PREF  V2SNOW_SUFF
 export VAR2_IvelV   V2IvV_PREF   V2IvV_PREF
+export VAR2_IvelV   V2IvV_PREF   V2IvV_SUFF
+#

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_vardef.sh_example1

-                      r4394
+                      r5832
 export VAR1_Ithick  V1It_PREF    V1It_SUFF
 export VAR1_SNOW    V1SNOW_PREF  V1SNOW_SUFF
 export VAR1_IvelV   V1IvV_PREF   V1IvV_PREF
+export VAR1_IvelV   V1IvV_PREF   V1IvV_SUFF
 #===================== EXP2 =====================
 export DATE1_2      DATE2_2
 …
 export VAR2_Ithick  V2It_PREF   V2It_SUFF
 export VAR2_SNOW    V2SNOW_PREF V2SNOW_SUFF
 export VAR2_IvelV   V2IvV_PREF   V2IvV_PREF
+export VAR2_IvelV   V2IvV_PREF   V2IvV_SUFF
+#

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/IDL_scripts/std_ts_vardef.sh_example2

-                      r4394
+                      r5832
 export VAR1_Ithick  V1It_PREF    V1It_SUFF
 export VAR1_SNOW    V1SNOW_PREF  V1SNOW_SUFF
 export VAR1_IvelV   V1IvV_PREF   V1IvV_PREF
+export VAR1_IvelV   V1IvV_PREF   V1IvV_SUFF
 #===================== EXP2 =====================
 export DATE1_2      DATE2_2
 …
 export VAR2_Ithick  V2It_PREF   V2It_SUFF
 export VAR2_SNOW    V2SNOW_PREF V2SNOW_SUFF
 export VAR2_IvelV   V2IvV_PREF   V2IvV_PREF
+export VAR2_IvelV   V2IvV_PREF   V2IvV_SUFF
+#

branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/cpp_ORCA2_LIM.fcm

r4523	r5832
1		bld::tool::fppkeys key_trabbl key_lim2 key_dynspg_flt key_diaeiv key_ldfslp key_traldf_c2d key_traldf_eiv key_dynldf_c3d key_zdftke key_zdfddm key_zdftmx key_iomput key_mpp_mpi
	1	bld::tool::fppkeys key_trabbl key_lim2 key_dynspg_flt key_diaeiv key_ldfslp key_traldf_c2d key_traldf_eiv key_dynldf_c3d key_zdftke key_zdfddm key_zdftmx key_iomput key_mpp_mpi key_diaobs key_asminc

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branches/2014/dev_r4650_UKMO12_CFL_diags_take2/NEMOGCM/CONFIG/ORCA2_LIM/cpp_ORCA2_LIM.fcm

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