&time_control run_seconds = 37000 !! Duration of simulation [LES: !=0] history_interval_s = 100 !! Frequency of outputs in seconds [LES: !=0] frames_per_outfile = 37 !! Size of time dimension in files start_year = 9999 !! Idealized simulation [LES: 9999] end_year = 9999 !! Idealized simulation [LES: 9999] restart = .false. !! (*) Restart run ? restart_interval = 8880 !! (*) Frequency of output restart files ? io_form_history = 2 !! (*) Choice of NETCDF for ouputs io_form_restart = 2 !! (*) Choice of NETCDF for ouputs io_form_input = 2 !! (*) Choice of NETCDF for ouputs io_form_boundary = 2 !! (*) Choice of NETCDF for ouputs debug_level = 0 !! (*) Verbose level / &domains ztop = 12000. !! Altitude above ground of model top [LES: !=0] time_step = 0 !! Dynamical timestep time_step_fract_num = 3 !! Additional fraction to time_step: numerator time_step_fract_den = 4 !! Additional fraction to time_step: denominator dx = 50 !! (p2) Horizontal resolution dy = 50 !! (p2) Horizontal resolution (should be equal to dx) e_we = 145 !! (r)(p2) Number of longitude grid points e_sn = 145 !! (r)(p2) Number of latitude grid points e_vert = 201 !! (r)(p2) Number of vertical levels / &physics isfflx = 1 !! 0 : UST/HFX from tke_... namelist values !! 1 : UST/HFX from LMD physics !! 2 : UST from LMD / HFX from namelist.input init_TI = 50. !! Define constant thermal inertia value [LES: !=0] init_AL = 0.3 !! Define constant albedo value [LES: !=0] !! !! OPTIONAL !! radt = 40 !! Ratio between physical and dynamical time step mars = 0 !! (r)(p2) Configuration of tracers: !! 0: no tracers, 1: water vapor + ice, 2: dust init_MU = 0.01 !! (p3) Multiply ini & bdy zonal wind by init_U init_MV = 0.01 !! (p3) Multiply ini & bdy meridional wind by init_V / &dynamics diff_opt = 2 !! (*d) Diffusion option [LES: 2] km_opt = 2 !! (*d) Eddy coefficient option [LES: 2] diff_6th_opt = 0 !! (*d) Knievel numerical diffusion [LES: 0] mix_full_fields = T !! (*d) Set true if mixing ref + pert profiles [LES: T] !! !! OPTIONAL !! ! c_k = 0.10 !! Mixing coefficient constant for km_opt=2 [default: 0.15] ! c_s = 0.18 !! Mixing coefficient constant for km_opt=3 [default: 0.25] ! pd_tke = T !! Positive definite advection of tke ! tke_heat_flux = 1. !! Constant surface thermal flux (H/(rho*cp), K m/s) ! tke_drag_coefficient = 0.0025, !! Constant surface drag coefficient (Cd, dimensionless) ! mix_upper_bound = 100. !! Non-dimensional upper limit for diffusion coeffs ! mix_isotropic = 1 !! 0=anistropic vertical/horizontal diffusion coeffs, 1=isotropic ! pert_coriolis = T !! Coriolis only acts on wind perturbation (idealized) / &bdy_control periodic_x = T !! (p3) Periodic boundary conditions over x [LES: T] periodic_y = T !! (p3) Periodic boundary conditions over y [LES: T] / &grib2 / &fdda / &namelist_quilt !! (*) nio_tasks_per_group = 0, !! (*) nio_groups = 1, !! (*) / !! (*)