# ROMS Coupling ESMF/NUOPC System: Import/Export Metadata Dictionary # #svn $Id: coupling_esmf_coamps.yaml 1171 2023-06-17 16:36:36Z arango $ #========================================================== Hernan G. Arango ==# # Copyright (c) 2002-2023 The ROMS/TOMS Group # # Licensed under a MIT/X style license # # See License_ROMS.md # #==============================================================================# # # Coupler: ROMS ESMF/NUOPC system # Components: DATA-COAMPS-ROMS # # Field Metadata Keywords: # # standard_name Field standard name # long_name Field long descriptive name # short_name Field short name private to NUOPC 'cap' module # data_variables DATA component NetCDF field and time variable names # source_units Field source units # destination_units Field destination units # source_grid Field source grid-cell location # destination_grid Field destination grid-cell location # add_offset Value to add to exchanged field # scale Scale to convert data from source to destination # debug_write Switch to write out exchanged field, if DebugLevel>2 # connected_to Source component to which field is connected # regrid_method Field regridding method from source to destination: # bilinear => bilinear interpolation # patch => high-order patch recovery # conservative1 => first-order conservative # conservative2 => second-order conservative # nearest => nearest neighbor interpolation # Extrapolate_method Field extrapolation method for unmapped points: # none => no extrapolation # nearest => nearest source to destination # idavg => nearest inverse distance average # creep => creep fill at specified level # 2steps => Turuncoglu's 2 steps extrapolation # # The ESM imported fields are processed as: # # field (destination_units) = field (source_units) * scale + add_offset ATM_component: &ATM COAMPS DATA_component: data.nc ROMS_component: &OCN ROMS metadata: - standard_name: sea_surface_temperature long_name: sea surface temperature short_name: SST data_variables: [temperature, time] source_units: C destination_units: K source_grid: cell_center destination_grid: cell_center add_offset: 273.15d0 scale: 1.0d0 debug_write: false connected_to: *OCN regrid_method: bilinear extrapolate_method: nearest - standard_name: sea_surface_temperature_data long_name: sea surface temperature data short_name: dSST data_variables: [temperature, time] source_units: C destination_units: K source_grid: cell_center destination_grid: cell_center add_offset: 273.15d0 scale: 1.0d0 debug_write: false connected_to: *ATM regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_downward_longwave_flux long_name: surface downward longwave radiation flux short_name: dLWrad data_variables: [lwrad_down, time] source_units: W m-2 destination_units: W m-2 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_lwdown regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_net_longwave_flux long_name: surface net longwave radiation flux short_name: LWrad data_variables: [lwrad, time] source_units: W m-2 destination_units: W m-2 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_lonflx regrid_method: bilinear extrapolate_method: nearest - standard_name: net_shortwave_flux_at_sea_water_surface long_name: surface net shortwave radiation flux short_name: SWrad data_variables: [swrad, time] source_units: W m-2 destination_units: W m-2 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_solflx regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_latent_heat_flux long_name: surface latent heat flux short_name: LHfx data_variables: [latent, time] source_units: W m-2 destination_units: W m-2 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_lahflx regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_sensible_heat_flux long_name: surface sensible heat flux short_name: SHfx data_variables: [sensible, time] source_units: W m-2 destination_units: W m-2 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_sehflx regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_air_pressure long_name: surface air pressure short_name: Pair data_variables: [pmsl, time] source_units: N m-2 destination_units: mb source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d-2 debug_write: false connected_to: *ATM # ifld_slpres regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_air_temperature long_name: surface (2m) air temperature short_name: Tair data_variables: [tsfc, time] source_units: K destination_units: C source_grid: cell_center destination_grid: cell_center add_offset: -273.15d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_airtmp regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_specific_humidity long_name: surface specific humidity short_name: Hair data_variables: [shumidity, time] source_units: kg/kg destination_units: g/kg source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d+3 debug_write: false connected_to: *ATM # ifld_airshm regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_relative_humidity long_name: surface relative humidity short_name: Qair data_variables: [rhumidity, time] source_units: percent destination_units: fraction source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d-2 debug_write: false connected_to: *ATM # ifld_airrhm regrid_method: bilinear extrapolate_method: nearest - standard_name: precipitation_flux long_name: precipitation rate short_name: rain data_variables: [rainfall, time] source_units: kg m-2 s-1 destination_units: kg m-2 s-1 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_ttlprr regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_eastward_wind long_name: surface eastward wind short_name: Uwind data_variables: [uwind, time] source_units: m s-1 destination_units: m s-1 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_u10_true regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_northward_wind long_name: surface northward wind short_name: Vwind data_variables: [vwind, time] source_units: m s-1 destination_units: m s-1 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_v10_true regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_net_heat_flux_in_sea_water long_name: surface net heat flux short_name: shflux data_variables: [shf, time] source_units: W m-2 destination_units: Celsius m s-1 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_heaflx regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_upward_water_flux long_name: surface freshwater flux (E-P) short_name: swflux data_variables: [swf, time] source_units: kg m-2 s-1 destination_units: m s-1 source_grid: cell_center destination_grid: cell_center add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_mstflx regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_downward_x_stress long_name: surface eastward wind stress short_name: sustr data_variables: [taux, time] source_units: N m-2 destination_units: m2 s-2 source_grid: cell_center destination_grid: left_right_edge add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_stress_u_true regrid_method: bilinear extrapolate_method: nearest - standard_name: surface_downward_y_stress long_name: surface downward wind stress short_name: svstr data_variables: [tauy, time] source_units: N m-2 destination_units: m2 s-2 source_grid: cell_center destination_grid: lower_upper_edge add_offset: 0.0d0 scale: 1.0d0 debug_write: false connected_to: *ATM # ifld_stress_v_true regrid_method: bilinear extrapolate_method: nearest