From 20fbb43df426a38c866d39a2f91c45fabb750374 Mon Sep 17 00:00:00 2001 From: Grant Firl Date: Thu, 12 Dec 2024 12:14:30 -0500 Subject: [PATCH] change incoming state variables to use physics_timestep_initial_* and current state variables to remove *_of_new_state --- scm/src/GFS_typedefs.meta | 212 +++++++++++++++++++------------------- 1 file changed, 106 insertions(+), 106 deletions(-) diff --git a/scm/src/GFS_typedefs.meta b/scm/src/GFS_typedefs.meta index 7f08839c..453f7ac7 100644 --- a/scm/src/GFS_typedefs.meta +++ b/scm/src/GFS_typedefs.meta @@ -84,29 +84,29 @@ type = real kind = kind_phys [ugrs] - standard_name = x_wind - long_name = zonal wind + standard_name = physics_timestep_initial_x_wind + long_name = zonal wind at the beginning of the physics timestep units = m s-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [ugrs(:,1)] - standard_name = x_wind_at_surface_adjacent_layer - long_name = zonal wind at lowest model layer + standard_name = physics_timestep_initial_x_wind_at_surface_adjacent_layer + long_name = zonal wind at lowest model layer at the beginning of the physics timestep units = m s-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [vgrs] - standard_name = y_wind - long_name = meridional wind + standard_name = physics_timestep_initial_y_wind + long_name = meridional wind at the beginning of the physics timestep units = m s-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [vgrs(:,1)] - standard_name = y_wind_at_surface_adjacent_layer - long_name = meridional wind at lowest model layer + standard_name = physics_timestep_initial_y_wind_at_surface_adjacent_layer + long_name = meridional wind at lowest model layer at the beginning of the physics timestep units = m s-1 dimensions = (horizontal_dimension) type = real @@ -127,238 +127,238 @@ type = real kind = kind_phys [tgrs] - standard_name = air_temperature - long_name = model layer mean temperature + standard_name = physics_timestep_initial_air_temperature + long_name = model layer mean temperature at the beginning of the physics timestep units = K dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [tgrs(:,1)] - standard_name = air_temperature_at_surface_adjacent_layer - long_name = mean temperature at lowest model layer + standard_name = physics_timestep_initial_air_temperature_at_surface_adjacent_layer + long_name = mean temperature at lowest model layer at the beginning of the physics timestep units = K dimensions = (horizontal_dimension) type = real kind = kind_phys [qgrs] - standard_name = tracer_concentration - long_name = model layer mean tracer concentration + standard_name = physics_timestep_initial_tracer_concentration + long_name = model layer mean tracer concentration at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension,number_of_tracers) type = real kind = kind_phys [qgrs(:,:,index_of_specific_humidity_in_tracer_concentration_array)] - standard_name = specific_humidity - long_name = water vapor specific humidity + standard_name = physics_timestep_initial_specific_humidity + long_name = water vapor specific humidity at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,1,index_of_specific_humidity_in_tracer_concentration_array)] - standard_name = specific_humidity_at_surface_adjacent_layer - long_name = water vapor specific humidity at lowest model layer + standard_name = physics_timestep_initial_specific_humidity_at_surface_adjacent_layer + long_name = water vapor specific humidity at lowest model layer at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_cloud_liquid_water_mixing_ratio_in_tracer_concentration_array)] - standard_name = cloud_liquid_water_mixing_ratio - long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_cloud_liquid_water_mixing_ratio + long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,1,index_of_cloud_liquid_water_mixing_ratio_in_tracer_concentration_array)] - standard_name = cloud_liquid_water_mixing_ratio_at_surface_adjacent_layer - long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) at lowest model layer + standard_name = physics_timestep_initial_cloud_liquid_water_mixing_ratio_at_surface_adjacent_layer + long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) at lowest model layer at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_cloud_ice_mixing_ratio_in_tracer_concentration_array)] - standard_name = cloud_ice_mixing_ratio - long_name = ratio of mass of ice water to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_cloud_ice_mixing_ratio + long_name = ratio of mass of ice water to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_rain_mixing_ratio_in_tracer_concentration_array)] - standard_name = rain_mixing_ratio - long_name = ratio of mass of rain water to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_rain_mixing_ratio + long_name = ratio of mass of rain water to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_snow_mixing_ratio_in_tracer_concentration_array)] - standard_name = snow_mixing_ratio - long_name = ratio of mass of snow water to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_snow_mixing_ratio + long_name = ratio of mass of snow water to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_graupel_mixing_ratio_in_tracer_concentration_array)] - standard_name = graupel_mixing_ratio - long_name = ratio of mass of graupel to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_graupel_mixing_ratio + long_name = ratio of mass of graupel to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_hail_mixing_ratio_in_tracer_concentration_array)] - standard_name = hail_mixing_ratio - long_name = ratio of mass of hail to mass of dry air plus vapor (without condensates) + standard_name = physics_timestep_initial_hail_mixing_ratio + long_name = ratio of mass of hail to mass of dry air plus vapor (without condensates) at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_hail_mixing_ratio_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_ozone_mixing_ratio_in_tracer_concentration_array)] - standard_name = ozone_mixing_ratio - long_name = ozone mixing ratio + standard_name = physics_timestep_initial_ozone_mixing_ratio + long_name = ozone mixing ratio at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_hygroscopic_aerosols - long_name = number concentration of water-friendly aerosols + standard_name = physics_timestep_initial_mass_number_concentration_of_hygroscopic_aerosols + long_name = number concentration of water-friendly aerosols at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) active = (index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array > 0) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols - long_name = number concentration of ice-friendly aerosols + standard_name = physics_timestep_initial_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols + long_name = number concentration of ice-friendly aerosols at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) active = (index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array > 0) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_cloud_liquid_water_particles_in_air - long_name = number concentration of cloud droplets (liquid) + standard_name = physics_timestep_initial_mass_number_concentration_of_cloud_liquid_water_particles_in_air + long_name = number concentration of cloud droplets (liquid) at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_mass_number_concentration_of_cloud_ice_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_cloud_ice_water_crystals_in_air - long_name = number concentration of ice + standard_name = physics_timestep_initial_mass_number_concentration_of_cloud_ice_water_crystals_in_air + long_name = number concentration of ice at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_rain_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_rain_water_in_air - long_name = number concentration of rain + standard_name = physics_timestep_initial_mass_number_concentration_of_rain_water_in_air + long_name = number concentration of rain at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_snow_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_snow_in_air - long_name = number concentration of snow + standard_name = physics_timestep_initial_mass_number_concentration_of_snow_in_air + long_name = number concentration of snow at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_graupel_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_graupel_in_air - long_name = number concentration of graupel + standard_name = physics_timestep_initial_mass_number_concentration_of_graupel_in_air + long_name = number concentration of graupel at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_mass_number_concentration_of_hail_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_hail_in_air - long_name = number concentration of hail + standard_name = physics_timestep_initial_mass_number_concentration_of_hail_in_air + long_name = number concentration of hail at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_mass_number_concentration_of_hail_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_reflectivity_of_rain_in_tracer_concentration_array)] - standard_name = reflectivity_of_rain_in_air - long_name = reflectivity of rain + standard_name = physics_timestep_initial_reflectivity_of_rain_in_air + long_name = reflectivity of rain at the beginning of the physics timestep units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_reflectivity_of_rain_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_reflectivity_of_graupel_in_tracer_concentration_array)] - standard_name = reflectivity_of_graupel_in_air - long_name = reflectivity of graupel + standard_name = physics_timestep_initial_reflectivity_of_graupel_in_air + long_name = reflectivity of graupel at the beginning of the physics timestep units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_reflectivity_of_graupel_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_reflectivity_of_hail_in_tracer_concentration_array)] - standard_name = reflectivity_of_hail_in_air - long_name = reflectivity of hail + standard_name = physics_timestep_initial_reflectivity_of_hail_in_air + long_name = reflectivity of hail at the beginning of the physics timestep units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_reflectivity_of_hail_in_tracer_concentration_array > 0) [qgrs(:,:,index_of_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array)] - standard_name = cloud_condensation_nuclei_number_concentration - long_name = number concentration of cloud condensation nuclei + standard_name = physics_timestep_initial_cloud_condensation_nuclei_number_concentration + long_name = number concentration of cloud condensation nuclei at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = ( index_of_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array > 0 ) [qgrs(:,:,index_of_activated_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array)] - standard_name = activated_cloud_condensation_nuclei_number_concentration - long_name = number concentration of activated cloud condensation nuclei + standard_name = physics_timestep_initial_activated_cloud_condensation_nuclei_number_concentration + long_name = number concentration of activated cloud condensation nuclei at the beginning of the physics timestep units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = ( index_of_activated_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array > 0 ) [qgrs(:,:,index_of_graupel_volume_in_tracer_concentration_array)] - standard_name = graupel_volume - long_name = graupel particle volume + standard_name = physics_timestep_initial_graupel_volume + long_name = graupel particle volume at the beginning of the physics timestep units = m3 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = ( index_of_graupel_volume_in_tracer_concentration_array > 0 ) [qgrs(:,:,index_of_hail_volume_in_tracer_concentration_array)] - standard_name = hail_volume - long_name = hail particle volume + standard_name = physics_timestep_initial_hail_volume + long_name = hail particle volume at the beginning of the physics timestep units = m3 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = ( index_of_hail_volume_in_tracer_concentration_array > 0 ) [qgrs(:,:,index_of_turbulent_kinetic_energy_in_tracer_concentration_array)] - standard_name = turbulent_kinetic_energy - long_name = turbulent kinetic energy + standard_name = physics_timestep_initial_turbulent_kinetic_energy + long_name = physics_timestep_initial_turbulent kinetic energy at the beginning of the physics timestep units = J dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_of_updraft_area_fraction_in_tracer_concentration_array)] - standard_name = prognostic_updraft_area_fraction_in_convection - long_name = convective updraft area fraction + standard_name = physics_timestep_initial_prognostic_updraft_area_fraction_in_convection + long_name = convective updraft area fraction at the beginning of the physics timestep units = frac dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys active = (index_of_updraft_area_fraction_in_tracer_concentration_array > 0 ) [qgrs(:,:,index_for_smoke_in_tracer_concentration_array)] - standard_name = smoke_tracer_concentration - long_name = concentration of smoke + standard_name = physics_timestep_initial_smoke_tracer_concentration + long_name = concentration of smoke at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [qgrs(:,:,index_for_dust_in_tracer_concentration_array)] - standard_name = dust_tracer_concentration - long_name = concentration of dust + standard_name = physics_timestep_initial_dust_tracer_concentration + long_name = concentration of dust at the beginning of the physics timestep units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real @@ -381,112 +381,112 @@ name = GFS_stateout_type type = ddt [gu0] - standard_name = x_wind_of_new_state + standard_name = x_wind long_name = zonal wind updated by physics units = m s-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gu0(:,1)] - standard_name = x_wind_of_new_state_at_surface_adjacent_layer + standard_name = x_wind_at_surface_adjacent_layer long_name = zonal wind at lowest model layer updated by physics units = m s-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [gv0] - standard_name = y_wind_of_new_state + standard_name = y_wind long_name = meridional wind updated by physics units = m s-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gv0(:,1)] - standard_name = y_wind_of_new_state_at_surface_adjacent_layer + standard_name = y_wind_at_surface_adjacent_layer long_name = meridional wind at lowest model layer updated by physics units = m s-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [gt0] - standard_name = air_temperature_of_new_state + standard_name = air_temperature long_name = temperature updated by physics units = K dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gt0(:,1)] - standard_name = air_temperature_of_new_state_at_surface_adjacent_layer + standard_name = air_temperature_at_surface_adjacent_layer long_name = temperature at lowest model layer updated by physics units = K dimensions = (horizontal_dimension) type = real kind = kind_phys [gq0] - standard_name = tracer_concentration_of_new_state + standard_name = tracer_concentration long_name = tracer concentration updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension,number_of_tracers) type = real kind = kind_phys [gq0(:,:,index_of_specific_humidity_in_tracer_concentration_array)] - standard_name = specific_humidity_of_new_state + standard_name = specific_humidity long_name = water vapor specific humidity updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,1,index_of_specific_humidity_in_tracer_concentration_array)] - standard_name = specific_humidity_of_new_state_at_surface_adjacent_layer + standard_name = specific_humidity_at_surface_adjacent_layer long_name = water vapor specific humidity at lowest model layer updated by physics units = kg kg-1 dimensions = (horizontal_dimension) type = real kind = kind_phys [gq0(:,:,index_of_ozone_mixing_ratio_in_tracer_concentration_array)] - standard_name = ozone_concentration_of_new_state + standard_name = ozone_concentration long_name = ozone concentration updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_cloud_liquid_water_mixing_ratio_in_tracer_concentration_array)] - standard_name = cloud_liquid_water_mixing_ratio_of_new_state + standard_name = cloud_liquid_water_mixing_ratio long_name = ratio of mass of cloud water to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_cloud_ice_mixing_ratio_in_tracer_concentration_array)] - standard_name = cloud_ice_mixing_ratio_of_new_state + standard_name = cloud_ice_mixing_ratio long_name = ratio of mass of ice water to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_rain_mixing_ratio_in_tracer_concentration_array)] - standard_name = rain_mixing_ratio_of_new_state + standard_name = rain_mixing_ratio long_name = ratio of mass of rain water to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_snow_mixing_ratio_in_tracer_concentration_array)] - standard_name = snow_mixing_ratio_of_new_state + standard_name = snow_mixing_ratio long_name = ratio of mass of snow water to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_graupel_mixing_ratio_in_tracer_concentration_array)] - standard_name = graupel_mixing_ratio_of_new_state + standard_name = graupel_mixing_ratio long_name = ratio of mass of graupel to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_hail_mixing_ratio_in_tracer_concentration_array)] - standard_name = hail_mixing_ratio_of_new_state + standard_name = hail_mixing_ratio long_name = ratio of mass of hail to mass of dry air plus vapor (without condensates) updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -494,14 +494,14 @@ kind = kind_phys active = ( index_of_hail_mixing_ratio_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_mass_weighted_rime_factor_in_tracer_concentration_array)] - standard_name = mass_weighted_rime_factor_of_new_state + standard_name = mass_weighted_rime_factor long_name = mass weighted rime factor updated by physics units = kg kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_hygroscopic_aerosols_of_new_state + standard_name = mass_number_concentration_of_hygroscopic_aerosols long_name = number concentration of water-friendly aerosols updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -509,7 +509,7 @@ kind = kind_phys active = (index_of_mass_number_concentration_of_hygroscopic_aerosols_in_tracer_concentration_array > 0) [gq0(:,:,index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_of_new_state + standard_name = mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols long_name = number concentration of ice-friendly aerosols updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -517,7 +517,7 @@ kind = kind_phys active = (index_of_mass_number_concentration_of_nonhygroscopic_ice_nucleating_aerosols_in_tracer_concentration_array > 0) [gq0(:,:,index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_cloud_liquid_water_particles_in_air_of_new_state + standard_name = mass_number_concentration_of_cloud_liquid_water_particles_in_air long_name = number concentration of cloud droplets updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -525,35 +525,35 @@ kind = kind_phys active = (index_of_mass_number_concentration_of_cloud_droplets_in_tracer_concentration_array > 0) [gq0(:,:,index_of_mass_number_concentration_of_cloud_ice_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_cloud_ice_water_crystals_in_air_of_new_state + standard_name = mass_number_concentration_of_cloud_ice_water_crystals_in_air long_name = number concentration of ice updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_mass_number_concentration_of_rain_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_rain_of_new_state + standard_name = mass_number_concentration_of_rain long_name = number concentration of rain updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_mass_number_concentration_of_snow_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_snow_of_new_state + standard_name = mass_number_concentration_of_snow long_name = number concentration of snow updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_mass_number_concentration_of_graupel_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_graupel_of_new_state + standard_name = mass_number_concentration_of_graupel long_name = number concentration of graupel updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_mass_number_concentration_of_hail_in_tracer_concentration_array)] - standard_name = mass_number_concentration_of_hail_of_new_state + standard_name = mass_number_concentration_of_hail long_name = number concentration of hail updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -561,7 +561,7 @@ kind = kind_phys active = ( index_of_mass_number_concentration_of_hail_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array)] - standard_name = cloud_condensation_nuclei_number_concentration_of_new_state + standard_name = cloud_condensation_nuclei_number_concentration long_name = number concentration of cloud condensation nuclei updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -569,7 +569,7 @@ kind = kind_phys active = ( index_of_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_activated_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array)] - standard_name = activated_cloud_condensation_nuclei_number_concentration_of_new_state + standard_name = activated_cloud_condensation_nuclei_number_concentration long_name = number concentration of cloud condensation nuclei updated by physics units = kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -577,7 +577,7 @@ kind = kind_phys active = ( index_of_activated_cloud_condensation_nuclei_number_concentration_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_graupel_volume_in_tracer_concentration_array)] - standard_name = graupel_volume_of_new_state + standard_name = graupel_volume long_name = graupel volume updated by physics units = m3 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -585,7 +585,7 @@ kind = kind_phys active = ( index_of_graupel_volume_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_hail_volume_in_tracer_concentration_array)] - standard_name = hail_volume_of_new_state + standard_name = hail_volume long_name = hail volume updated by physics units = m3 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -593,7 +593,7 @@ kind = kind_phys active = ( index_of_hail_volume_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_reflectivity_of_rain_in_tracer_concentration_array)] - standard_name = reflectivity_of_rain_of_new_state + standard_name = reflectivity_of_rain long_name = reflectivity of rain updated by physics units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -601,7 +601,7 @@ kind = kind_phys active = ( index_of_reflectivity_of_rain_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_reflectivity_of_graupel_in_tracer_concentration_array)] - standard_name = reflectivity_of_graupel_of_new_state + standard_name = reflectivity_of_graupel long_name = reflectivity of graupel updated by physics units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -609,7 +609,7 @@ kind = kind_phys active = ( index_of_reflectivity_of_graupel_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_reflectivity_of_hail_in_tracer_concentration_array)] - standard_name = reflectivity_of_hail_of_new_state + standard_name = reflectivity_of_hail long_name = reflectivity of hail updated by physics units = m6 kg-1 dimensions = (horizontal_dimension,vertical_layer_dimension) @@ -617,14 +617,14 @@ kind = kind_phys active = ( index_of_reflectivity_of_hail_in_tracer_concentration_array > 0 ) [gq0(:,:,index_of_cloud_area_fraction_in_atmosphere_layer_in_tracer_concentration_array)] - standard_name = cloud_area_fraction_in_atmosphere_layer_of_new_state + standard_name = cloud_area_fraction_in_atmosphere_layer long_name = cloud fraction updated by physics units = frac dimensions = (horizontal_dimension,vertical_layer_dimension) type = real kind = kind_phys [gq0(:,:,index_of_updraft_area_fraction_in_tracer_concentration_array)] - standard_name = updraft_area_fraction_updated_by_physics + standard_name = updraft_area_fraction long_name = convective updraft area fraction updated by physics units = frac dimensions = (horizontal_dimension,vertical_layer_dimension)