1 | ! Configuration namelists for ECRAD radiation code |
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2 | ! |
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3 | ! The following namelist controls the behaviour of the driver routine, |
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4 | ! including parallelization options and overriding numbers read from |
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5 | ! the NetCDF input file |
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6 | ! |
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7 | ! This version matches the configuration of ECMWF IFS Cycle 47R1: |
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8 | ! compared to 46R1, the surface shortwave albedo and longwave |
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9 | ! emissivity mappings are specified |
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10 | ! |
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11 | &radiation_driver |
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12 | do_parallel = true, ! Use OpenMP parallelization? |
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13 | nblocksize = 80, ! Number of columns to process per thread |
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14 | do_save_inputs = false, ! Save inputs in "inputs.nc"? |
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15 | ! Verbosity level: 0=none, 1=warning, 2=info, 3=progress, 4=detailed, 5=debug |
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16 | iverbose = 2, |
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17 | istartcol = 0, ! Use full range of columns by default |
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18 | iendcol = 0, |
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19 | nrepeat = 1, |
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20 | cloud_separation_scale_toa = 14000.0, |
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21 | cloud_separation_scale_surface = 2500.0, |
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22 | cloud_separation_scale_power = 3.5, |
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23 | cloud_inhom_separation_factor = 0.75, |
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24 | !do_save_aerosol_optics = false, |
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25 | do_save_net_fluxes = false, |
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26 | do_write_double_precision = false, |
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27 | / |
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28 | ! |
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29 | ! The following namelist controls the behaviour of the SPARTACUS |
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30 | ! radiation code |
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31 | ! |
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32 | &radiation |
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33 | do_sw = true, ! Compute shortwave fluxes? |
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34 | do_lw = true, ! Compute longwave fluxes? |
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35 | do_sw_direct = true, ! Compute direct downward shortwave fluxes? |
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36 | do_clear = true, ! Compute clear-sky fluxes? |
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37 | directory_name = "../../data", ! Location of configuration files |
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38 | use_general_cloud_optics = false, |
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39 | use_general_aerosol_optics = false, |
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40 | liquid_model_name = "SOCRATES", ! Liquid droplet scattering model |
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41 | ice_model_name = "Fu-IFS", ! Ice particle scattering model |
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42 | sw_solver_name = "McICA", |
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43 | lw_solver_name = "McICA", |
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44 | overlap_scheme_name = "Exp-Exp", ! Exp-Ran, Max-Ran or Exp-Exp |
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45 | cloud_fraction_threshold = 0.001e-3, ! |
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46 | do_lw_aerosol_scattering= false, ! Aerosols scatter in the longwave? |
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47 | do_lw_cloud_scattering = true, ! Clouds scatter in the longwave? |
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48 | cloud_inhom_decorr_scaling = 0.5, ! Ratio of overlap decorr len of inhomogeneities to boundaries |
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49 | use_beta_overlap = false, |
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50 | use_vectorizable_generator = false, |
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51 | do_save_radiative_properties = false, ! Save raw radiation properties in radiative_properties.nc? |
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52 | do_3d_effects = false, ! Represent 3D effects? |
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53 | sw_entrapment_name = "Explicit", ! Zero, Edge-only, Explicit, Non-fractal, Maximum are possible |
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54 | ! Verbosity level: 0=none, 1=warning, 2=info, 3=progress, 4=detailed, 5=debug |
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55 | ! Separate verbosity specified for setup and ordinary execution |
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56 | iverbose = 1, |
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57 | iverbosesetup = 2, |
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58 | use_aerosols = true, ! Include aerosols in radiation calculations? |
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59 | do_save_spectral_flux = true, ! Save spectral fluxes in output file? |
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60 | do_save_gpoint_flux = false, ! Save fluxes per g-point in output file? |
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61 | do_lw_derivatives = true, ! Hogan-Bozzo style derivatives for approx updates |
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62 | gas_model_name = "RRTMG-IFS", ! Gas model |
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63 | do_surface_sw_spectral_flux = false, |
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64 | do_fu_lw_ice_optics_bug = false, |
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65 | do_sw_delta_scaling_with_gases = false, |
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66 | do_canopy_fluxes_lw = true, |
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67 | do_canopy_fluxes_sw = true, |
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68 | !do_cloud_aerosol_per_sw_g_point=false |
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69 | ! |
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70 | ! SURFACE ALBEDO AND EMISSIVITY |
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71 | do_nearest_spectral_sw_albedo = false, |
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72 | sw_albedo_wavelength_bound(1:5) = 0.25e-6, 0.44e-6, 0.69e-6, 1.19e-6, 2.38e-6, |
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73 | i_sw_albedo_index(1:6) = 1,2,3,4,5,6, |
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74 | do_nearest_spectral_lw_emiss = true, |
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75 | lw_emiss_wavelength_bound(1:2) = 8.0e-6, 13.0e-6, |
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76 | i_lw_emiss_index(1:3) = 1,2,1, |
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77 | do_weighted_surface_mapping = false, ! false=less accurate, but consistent with cycle 47r1 |
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78 | ! |
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79 | ! AEROSOL PROPERTIES |
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80 | !aerosol_optics_override_file_name = 'aerosol_ifs_rrtm_46R1_with_NI_AM.nc' |
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81 | ! 12 IFS aerosol classes stored in aerosol_ifs_rrtm.nc: 1-3 Sea salt, |
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82 | ! 4-6 Boucher desert dust, 7 hydrophilic organics, 8 hydrophobic |
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83 | ! organics, 9&10 hydrophobic black carbon, 11 ammonium sulphate, 12 |
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84 | ! inactive SO2 |
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85 | n_aerosol_types = 12, ! Aerosols are deactivated if this is zero |
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86 | ! |
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87 | ! Indices to the aerosol optical properties in aerosol_ifs_rrtm.nc, |
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88 | ! for each class, where negative numbers index hydrophilic aerosol |
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89 | ! types and positive numbers index hydrophobic aerosol types |
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90 | i_aerosol_type_map = -1, -2, -3, 1, 2, 3, -4, 10, 11, 11, -5, 14, |
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91 | ! Tegen types are rather more simple |
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92 | !i_aerosol_type_map = 2, 2, 2, 3, 3, 3, 1, 1, 4, 4, 6, 5, |
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93 | / |
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