[ccpp-table-properties] name = cu_unified_driver type = scheme dependencies = cu_unified_deep.F90,cu_unified_sh.F90,machine.F,physcons.F90,progsigma_calc.f90 ######################################################################## [ccpp-arg-table] name = cu_unified_driver_init type = scheme [imfshalcnv] standard_name = control_for_shallow_convection_scheme long_name = flag for mass-flux shallow convection scheme units = flag dimensions = () type = integer intent = in [imfshalcnv_unified] standard_name = identifier_for_unified_shallow_convection long_name = flag for Unified shallow convection scheme units = flag dimensions = () type = integer intent = in [imfdeepcnv] standard_name = control_for_deep_convection_scheme long_name = flag for mass-flux deep convection scheme units = flag dimensions = () type = integer intent = in [imfdeepcnv_unified] standard_name = identifier_for_unified_deep_convection long_name = flag for Unified deep convection scheme units = flag dimensions = () type = integer intent = in [mpirank] standard_name = mpi_rank long_name = current MPI-rank units = index dimensions = () type = integer intent = in [mpiroot] standard_name = mpi_root long_name = master MPI-rank units = index dimensions = () type = integer intent = in [errmsg] standard_name = ccpp_error_message long_name = error message for error handling in CCPP units = none dimensions = () type = character kind = len=* intent = out [errflg] standard_name = ccpp_error_code long_name = error code for error handling in CCPP units = 1 dimensions = () type = integer intent = out ######################################################################## [ccpp-arg-table] name = cu_unified_driver_run type = scheme [ntracer] standard_name = number_of_tracers long_name = number of tracers units = count dimensions = () type = integer intent = in [garea] standard_name = cell_area long_name = grid cell area units = m2 dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [im] standard_name = horizontal_loop_extent long_name = horizontal loop extent units = count dimensions = () type = integer intent = in [km] standard_name = vertical_layer_dimension long_name = vertical layer dimension units = count dimensions = () type = integer intent = in [dt] standard_name = timestep_for_physics long_name = physics time step units = s dimensions = () type = real kind = kind_phys intent = in [flag_init] standard_name = flag_for_first_timestep long_name = flag signaling first time step for time integration loop units = flag dimensions = () type = logical intent = in [flag_restart] standard_name = flag_for_restart long_name = flag for restart (warmstart) or coldstart units = flag dimensions = () type = logical intent = in [do_ca] standard_name = flag_for_cellular_automata long_name = cellular automata main switch units = flag dimensions = () type = logical intent = in [progsigma] standard_name = do_prognostic_updraft_area_fraction long_name = flag for prognostic sigma in cumuls scheme units = flag dimensions = () type = logical intent = in [cactiv] standard_name = counter_for_grell_freitas_convection long_name = convective activity memory units = none dimensions = (horizontal_loop_extent) type = integer intent = inout [cactiv_m] standard_name = counter_for_grell_freitas_mid_level_convection long_name = mid-level cloud convective activity memory units = none dimensions = (horizontal_loop_extent) type = integer intent = inout [g] standard_name = gravitational_acceleration long_name = gravitational acceleration units = m s-2 dimensions = () type = real kind = kind_phys intent = in [cp] standard_name = specific_heat_of_dry_air_at_constant_pressure long_name = specific heat !of dry air at constant pressure units = J kg-1 K-1 dimensions = () type = real kind = kind_phys intent = in [fv] standard_name = ratio_of_vapor_to_dry_air_gas_constants_minus_one long_name = (rv/rd) - 1 (rv = ideal gas constant for water vapor) units = none dimensions = () type = real kind = kind_phys intent = in [xlv] standard_name = latent_heat_of_vaporization_of_water_at_0C long_name = latent heat of evaporation/sublimation units = J kg-1 dimensions = () type = real kind = kind_phys intent = in [r_v] standard_name = gas_constant_water_vapor long_name = ideal gas constant for water vapor units = J kg-1 K-1 dimensions = () type = real kind = kind_phys intent = in [r_d] standard_name = gas_constant_of_dry_air long_name = ideal gas constant for dry air units = J kg-1 K-1 dimensions = () type = real kind = kind_phys intent = in [forcet] standard_name = tendency_of_air_temperature_due_to_nonphysics long_name = temperature tendency due to dynamics only units = K s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [forceqv_spechum] standard_name = tendendy_of_specific_humidity_due_to_nonphysics long_name = moisture tendency due to dynamics only units = kg kg-1 s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [tmf] standard_name = tendency_of_vertically_diffused_tracer_concentration long_name = updated tendency of the tracers due to vertical diffusion in PBL scheme units = kg kg-1 s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension,number_of_vertical_diffusion_tracers) type = real kind = kind_phys intent = in [qmicro] standard_name = instantaneous_tendency_of_specific_humidity_due_to_microphysics long_name = moisture tendency due to microphysics units = kg kg-1 s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [sigmain] standard_name = prognostic_updraft_area_fraction_in_convection long_name = convective updraft area fraction units = frac dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [sigmaout] standard_name = updraft_area_fraction_updated_by_physics long_name = convective updraft area fraction updated by physics units = frac dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [phil] standard_name = geopotential long_name = layer geopotential units = m2 s-2 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [delp] standard_name = air_pressure_difference_between_midlayers long_name = pres(k) - pres(k+1) units = Pa dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [raincv] standard_name = lwe_thickness_of_deep_convective_precipitation_amount long_name = deep convective rainfall amount on physics timestep units = m dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = out [qv_spechum] standard_name = specific_humidity_of_new_state long_name = water vapor specific humidity updated by physics units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [t] standard_name = air_temperature_of_new_state long_name = updated temperature units = K dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [cld1d] standard_name = cloud_work_function long_name = cloud work function units = m2 s-2 dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = out [us] standard_name = x_wind_of_new_state long_name = updated x-direction wind units = m s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [vs] standard_name = y_wind_of_new_state long_name = updated y-direction wind units = m s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [t2di] standard_name = air_temperature long_name = mid-layer temperature units = K dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [w] standard_name = lagrangian_tendency_of_air_pressure long_name = layer mean vertical velocity units = Pa s-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [qv2di_spechum] standard_name = specific_humidity long_name = water vapor specific humidity units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [p2di] standard_name = air_pressure long_name = mean layer pressure units = Pa dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = in [psuri] standard_name = surface_air_pressure long_name = surface pressure units = Pa dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [hbot] standard_name = vertical_index_at_cloud_base long_name = index for cloud base units = index dimensions = (horizontal_loop_extent) type = integer intent = out [htop] standard_name = vertical_index_at_cloud_top long_name = index for cloud top units = index dimensions = (horizontal_loop_extent) type = integer intent = out [kcnv] standard_name = flag_deep_convection long_name = deep convection: 0=no, 1=yes units = flag dimensions = (horizontal_loop_extent) type = integer intent = out [xland] standard_name = sea_land_ice_mask long_name = landmask: sea/land/ice=0/1/2 units = flag dimensions = (horizontal_loop_extent) type = integer intent = in [hfx2] standard_name = kinematic_surface_upward_sensible_heat_flux_reduced_by_surface_roughness_and_vegetation long_name = kinematic surface upward sensible heat flux reduced by surface roughness and vegetation units = K m s-1 dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [qfx2] standard_name = surface_upward_specific_humidity_flux long_name = kinematic surface upward latent heat flux units = kg kg-1 m s-1 dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [aod_gf] standard_name = aerosol_optical_depth_for_grell_freitas_deep_convection long_name = aerosol optical depth used in Grell-Freitas Convective Parameterization units = none dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = inout [cliw] standard_name = ice_water_mixing_ratio_convective_transport_tracer long_name = ratio of mass of ice water to mass of dry air plus vapor (without condensates) in the convectively transported tracer array units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [clcw] standard_name = cloud_condensed_water_mixing_ratio_convective_transport_tracer long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) in the convectively transported tracer array units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [pbl] standard_name = atmosphere_boundary_layer_thickness long_name = PBL thickness units = m dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [ud_mf] standard_name = instantaneous_atmosphere_updraft_convective_mass_flux long_name = (updraft mass flux) * delt units = kg m-2 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [dd_mf] standard_name = instantaneous_atmosphere_downdraft_convective_mass_flux long_name = (downdraft mass flux) * delt units = kg m-2 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [dt_mf] standard_name = instantaneous_atmosphere_detrainment_convective_mass_flux long_name = (detrainment mass flux) * delt units = kg m-2 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [cnvw_moist] standard_name = convective_cloud_water_mixing_ratio long_name = moist convective cloud water mixing ratio units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [cnvc] standard_name = convective_cloud_cover long_name = convective cloud cover units = frac dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = out [imfshalcnv] standard_name = control_for_shallow_convection_scheme long_name = flag for mass-flux shallow convection scheme units = flag dimensions = () type = integer intent = in [flag_for_scnv_generic_tend] standard_name = flag_for_generic_tendency_due_to_shallow_convection long_name = true if GFS_SCNV_generic should calculate tendencies units = flag dimensions = () type = logical intent = in [flag_for_dcnv_generic_tend] standard_name = flag_for_generic_tendency_due_to_deep_convection long_name = true if GFS_DCNV_generic should calculate tendencies units = flag dimensions = () type = logical intent = in [dtend] standard_name = cumulative_change_of_state_variables long_name = diagnostic tendencies for state variables units = mixed dimensions = (horizontal_loop_extent,vertical_layer_dimension,cumulative_change_of_state_variables_outer_index_max) type = real kind = kind_phys intent = inout [dtidx] standard_name = cumulative_change_of_state_variables_outer_index long_name = index of state-variable and process in last dimension of diagnostic tendencies array AKA cumulative_change_index units = index dimensions = (number_of_tracers_plus_one_hundred,number_of_cumulative_change_processes) type = integer intent = in [ntqv] standard_name = index_of_specific_humidity_in_tracer_concentration_array long_name = tracer index for water vapor (specific humidity) units = index dimensions = () type = integer intent = in [ntcw] standard_name = index_of_cloud_liquid_water_mixing_ratio_in_tracer_concentration_array long_name = tracer index for cloud condensate (or liquid water) units = index dimensions = () type = integer intent = in [ntiw] standard_name = index_of_cloud_ice_mixing_ratio_in_tracer_concentration_array long_name = tracer index for ice water units = index dimensions = () type = integer intent = in [index_of_temperature] standard_name = index_of_temperature_in_cumulative_change_index long_name = index of temperature in first dimension of array cumulative change index units = index dimensions = () type = integer intent = in [index_of_x_wind] standard_name = index_of_x_wind_in_cumulative_change_index long_name = index of x-wind in first dimension of array cumulative change index units = index dimensions = () type = integer intent = in [index_of_y_wind] standard_name = index_of_y_wind_in_cumulative_change_index long_name = index of x-wind in first dimension of array cumulative change index units = index dimensions = () type = integer intent = in [index_of_process_scnv] standard_name = index_of_shallow_convection_process_process_in_cumulative_change_index long_name = index of shallow convection process in second dimension of array cumulative change index units = index dimensions = () type = integer intent = in [index_of_process_dcnv] standard_name = index_of_deep_convection_process_process_in_cumulative_change_index long_name = index of deep convection process in second dimension of array cumulative change index units = index dimensions = () type = integer intent = in [dfi_radar_max_intervals] standard_name = maximum_number_of_radar_derived_temperature_or_convection_suppression_intervals long_name = maximum allowed number of time ranges with radar-derived microphysics temperature tendencies or radar-derived convection suppression units = count dimensions = () type = integer intent = in [ldiag3d] standard_name = flag_for_diagnostics_3D long_name = flag for 3d diagnostic fields units = flag dimensions = () type = logical intent = in [qci_conv] standard_name = convective_cloud_condesate_after_rainout long_name = convective cloud condesate after rainout units = kg kg-1 dimensions = (horizontal_loop_extent,vertical_layer_dimension) type = real kind = kind_phys intent = inout [fhour] standard_name = forecast_time long_name = current forecast time units = h dimensions = () type = real kind = kind_phys intent = in [do_cap_suppress] standard_name = flag_for_radar_derived_convection_suppression long_name = flag for radar-derived convection suppression units = flag dimensions = () type = logical intent = in [fh_dfi_radar] standard_name = forecast_lead_times_bounding_radar_derived_temperature_or_convection_suppression_intervals long_name = forecast lead times bounding radar derived temperature or convection suppression intervals units = h dimensions = (maximum_number_of_radar_derived_temperature_or_convection_suppression_intervals_plus_one) type = real kind = kind_phys intent = in [ix_dfi_radar] standard_name = indices_with_radar_derived_temperature_or_convection_suppression_data long_name = indices with radar derived temperature or convection suppression data units = index dimensions = (maximum_number_of_radar_derived_temperature_or_convection_suppression_intervals) type = integer intent = in [num_dfi_radar] standard_name = number_of_radar_derived_temperature_or_convection_suppression_intervals long_name = number of time ranges with radar-derived microphysics temperature tendencies or radar-derived convection suppression units = count dimensions = () type = integer intent = in [cap_suppress] standard_name = radar_derived_convection_suppression long_name = radar-derived convection suppression units = unitless dimensions = (horizontal_loop_extent,number_of_radar_derived_temperature_or_convection_suppression_intervals) type = real kind = kind_phys intent = in [ca_deep] standard_name = cellular_automata_area_fraction_for_deep_convection_from_coupled_process long_name = fraction of cellular automata for deep convection units = frac dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = in [rainevap] standard_name = physics_field_for_coupling long_name = physics_field_for_coupling units = m2 s-2 dimensions = (horizontal_loop_extent) type = real kind = kind_phys intent = out [errmsg] standard_name = ccpp_error_message long_name = error message for error handling in CCPP units = none dimensions = () type = character kind = len=* intent = out [errflg] standard_name = ccpp_error_code long_name = error code for error handling in CCPP units = 1 dimensions = () type = integer intent = out