docs/ERF__Radiation_8H_source.html

 #ifndef ERF_RADIATION_H

 #define ERF_RADIATION_H


 /*

  * RTE-RRTMGP radiation model interface to ERF

  * The original code is developed by RobertPincus, and the code is open source available at:

  *                        https://github.com/earth-system-radiation/rte-rrtmgp

  * Please reference to the following paper,

  *                        https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019MS001621

  * NOTE: we use the C++ version of RTE-RRTMGP, which is the implementation of the original Fortran

  * code using C++ KOKKOS for CUDA, HiP and SYCL application by E3SM ECP team, the C++ version

  * of the rte-rrtmgp code is located at:

  *                       https://github.com/E3SM-Project/rte-rrtmgp

  * The RTE-RRTMGP uses BSD-3-Clause Open Source License, if you want to make changes,

  * and modifications to the code, please refer to BSD-3-Clause Open Source License.

  */


 #include <ctime>

 #include <string>

 #include <vector>

 #include <memory>


 #include <mo_gas_concentrations.h>


 #include <Kokkos_Core.hpp>


 #include <AMReX_ParmParse.H>

 #include <AMReX_FArrayBox.H>

 #include <AMReX_Geometry.H>

 #include <AMReX_TableData.H>

 #include <AMReX_MultiFabUtil.H>

 #include <AMReX_PlotFileUtil.H>


 #include <ERF_RadiationInterface.H>

 #include <ERF_RRTMGP_Interface.H>

 #include <ERF_RRTMGP_Utils.H>

 #include <ERF_OrbCosZenith.H>

 #include <ERF_Constants.H>

 #include <ERF_IndexDefines.H>

 #include <ERF_DataStruct.H>

 #include <ERF_EOS.H>


 #include <ERF_LandSurface.H>


 class Radiation : public IRadiation {

 public:


     #include <ERF_Kokkos.H>


     // Constructor

     Radiation (const int& lev,

                SolverChoice& sc);


     // Destructor

     ~Radiation ()

     {

         // Finalize kokkos

         Kokkos::finalize();

     }


     virtual

     void

     Init (const amrex::Geometry& geom,

           const amrex::BoxArray& ba,

           amrex::MultiFab* cons_in) override

     {

         // Ensure the boxes span klo -> khi

         int klo = geom.Domain().smallEnd(2);

         int khi = geom.Domain().bigEnd(2);


         // Reset vector of offsets for columnar data

         m_nlay = geom.Domain().length(2);


         m_ncol = 0;

         m_col_offsets.clear();

         m_col_offsets.resize(int(ba.size()));

         for (amrex::MFIter mfi(*cons_in); mfi.isValid(); ++mfi) {

             const amrex::Box& vbx = mfi.validbox();

             AMREX_ALWAYS_ASSERT_WITH_MESSAGE((klo == vbx.smallEnd(2)) &&

                                              (khi == vbx.bigEnd(2)),

                                              "Vertical decomposition with radiation is not allowed.");

             int nx = vbx.length(0);

             int ny = vbx.length(1);

             m_col_offsets[mfi.index()] = m_ncol;

             m_ncol += nx * ny;

         }

     };


     virtual

     void

     Run (int& level,

          int& step,

          amrex::Real& time,

          const amrex::Real& dt,

          const amrex::BoxArray& ba,

          amrex::Geometry& geom,

          amrex::MultiFab* cons_in,

          amrex::MultiFab* lsm_fluxes,

          amrex::MultiFab* lsm_zenith,

          amrex::Vector<amrex::MultiFab*>& lsm_input_ptrs,

          amrex::Vector<amrex::MultiFab*>& lsm_output_ptrs,

          amrex::MultiFab* qheating_rates,

          amrex::MultiFab* z_phys,

          amrex::MultiFab* lat,

          amrex::MultiFab* lon) override

     {

         set_grids(level, step, time, dt, ba, geom,

                   cons_in, lsm_fluxes, lsm_zenith,

                   lsm_input_ptrs, qheating_rates,

                   z_phys, lat, lon);

         rad_run_impl(lsm_output_ptrs);

     }


     // Set the grid info for columnar data in KOKKOS

     void

     set_grids (int& level,

                int& step,

                amrex::Real& time,

                const amrex::Real& dt,

                const amrex::BoxArray& ba,

                amrex::Geometry& geom,

                amrex::MultiFab* cons_in,

                amrex::MultiFab* lsm_fluxes,

                amrex::MultiFab* lsm_zenith,

                amrex::Vector<amrex::MultiFab*>& lsm_input_ptrs,

                amrex::MultiFab* qheating_rates,

                amrex::MultiFab* z_phys,

                amrex::MultiFab* lat,

                amrex::MultiFab* lon);


     template<typename LandSurfaceModelType>

     void set_lsm_inputs (LandSurfaceModelType *model)

     {

         if constexpr(std::is_same_v<LandSurfaceModelType, SLM>)

         {

             if (!m_update_rad)

             {

                 // skip getting LSM inputs if radiation not updating this timestep

                 return;

             }


             // get surface temperature, LW flux, and emissivities from SLM

             /*

             auto slm_to_rad_vars = model->export_to_RRTMGP();


             for (amrex::MFIter mfi(*slm_to_rad_vars[0]); mfi.isValid(); ++mfi) {

                 const auto& vbx  = mfi.validbox();

                 const auto& sbx  = amrex::makeSlab(vbx, 2, 0);


                 const int nx     = vbx.length(0);

                 const int imin   = vbx.smallEnd(0);

                 const int jmin   = vbx.smallEnd(1);

                 const int offset = m_col_offsets[mfi.index()];


                 const auto &slm_tsurf           = slm_to_rad_vars[0]->const_array(mfi);

                 const auto &slm_alb_dir_vis_arr = slm_to_rad_vars[2]->const_array(mfi);

                 const auto &slm_alb_dir_nir_arr = slm_to_rad_vars[4]->const_array(mfi);

                 const auto &slm_IR_emis_arr     = slm_to_rad_vars[5]->const_array(mfi);

                 const auto &slm_net_rad_arr     = slm_to_rad_vars[6]->const_array(mfi);

                 amrex::ParallelFor(sbx, [=] AMREX_GPU_DEVICE (int i, int j, int k)

                 {

                     // map [i,j,k] 0-based to [icol, ilay] 1-based

                     const int icol = (j-jmin)*nx + (i-imin) + 1 + offset;

                     const int ilay = 0;


                     t_sfc(icol) = slm_tsurf(i, j, k);


                     sfc_alb_dir_vis(icol) = slm_alb_dir_vis_arr(i, j, k);

                     sfc_alb_dir_nir(icol) = slm_alb_dir_nir_arr(i, j, k);

                     sfc_alb_dif_vis(icol) = slm_alb_dir_vis_arr(i, j, k);

                     sfc_alb_dif_nir(icol) = slm_alb_dir_nir_arr(i, j, k);


                     sfc_emis(icol) = slm_IR_emis_arr(i, j, k);


                     //lw_src(icol) = slm_net_rad_arr(i, j, k, SLM_NetRad::net_lwup1);

                     lw_src(icol) = 0.0; // TODO

                 });

             }


             // expand sfc_emis and lw_src over nlwbands

             // TODO: check if this is correct - should emissivity vary based on band?

             Kokkos::parallel_for(Kokkos::MDRangePolicy<Kokkos::Rank<2>>({0, 0}, {m_nlwbands, m_ncol}),

                                  KOKKOS_LAMBDA (int ibnd, int icol)

             {

                 emis_sfc(icol, ibnd) = sfc_emis(icol);

             });

             */


             Kokkos::deep_copy(emis_sfc, 0.98);

             Kokkos::deep_copy(lw_src, 0.0);

         }

     }


     // Initialize the temporary variables

     void

     alloc_buffers ();


     // Clear the temporary variables

     void

     dealloc_buffers ();


     // Fill KOKKOS Views from AMReX MultiFabs

     void

     mf_to_kokkos_buffers(amrex::Vector<amrex::MultiFab*>& lsm_input_ptrs);


     // Fill AMReX MultiFabs from KOKKOS Views

     void

     kokkos_buffers_to_mf (amrex::Vector<amrex::MultiFab*>& lsm_output_ptrs);


     // Write the rrtmgp fluxes

     void

     write_rrtmgp_fluxes ();


     // Initialize the implementation

     void

     initialize_impl ();


     // Run the implementation

     void

     run_impl ();


     // Finalize the implementation

     void

     finalize_impl (amrex::Vector<amrex::MultiFab*>& lsm_output_ptrs);


     // Wrapper for implementation steps

     void

     rad_run_impl (amrex::Vector<amrex::MultiFab*>& lsm_output_ptrs)

     {

         if (m_update_rad) {

             amrex::Print() << "Advancing radiation at level: " << m_lev << " ...";

             this->initialize_impl();

             this->run_impl();

             this->finalize_impl(lsm_output_ptrs);

             amrex::Print() << "DONE\n";

         }

     }


     // Get names input varnames for lsm

     virtual

     amrex::Vector<std::string>

     get_lsm_input_varnames () override

     {

         return m_lsm_input_names;

     }


     // Get names output varnames for lsm

     virtual

     amrex::Vector<std::string>

     get_lsm_output_varnames () override

     {

         return m_lsm_output_names;

     }


     // Populate datalog structures

     void

     populateDatalogMF ();


     // Write datalog

     virtual

     void

     WriteDataLog (const amrex::Real &time) override;


 private:


     // Process interface vars from ERF/AMReX

     //===================================================================================


     // Grid level

     int m_lev;


     // Step number

     int m_step;


     // Current time

     amrex::Real m_time;


     // Timestep at given level

     amrex::Real m_dt;


     // Geometry at given level

     amrex::Geometry m_geom;


     // Boxarray at given level

     amrex::BoxArray m_ba;


     // Are we updating radiation?

     bool m_update_rad = false;


     // Are we writing out the fluxes?

     bool m_rad_write_fluxes = false;


     bool m_first_step = true;


     // Do we have moisture and cold comps?

     bool m_moist = false;

     bool m_ice   = false;


     // Do we have a land surface model?

     bool m_lsm   = false;


     // List of input parameter names

     amrex::Vector<std::string> m_lsm_input_names = {"t_sfc"          , "sfc_emis"       ,

                                                     "sfc_alb_dir_vis", "sfc_alb_dir_nir",

                                                     "sfc_alb_dif_vis", "sfc_alb_dif_nir"};


     // List of output parameter names

     amrex::Vector<std::string> m_lsm_output_names = {"sw_flux_dn", "lw_flux_dn"};


     // T surf if no LSM is available

     amrex::Real m_rad_t_sfc = -1;


     // Pointer to the CC conserved vars

     amrex::MultiFab* m_cons_in = nullptr;


     // Pointer to the radiation source terms

     amrex::MultiFab* m_qheating_rates = nullptr;


     // Pointer to the terrain heights

     amrex::MultiFab* m_z_phys = nullptr;


     // Pointer to latitude and longitude

     amrex::MultiFab* m_lat = nullptr;

     amrex::MultiFab* m_lon = nullptr;


     // Constant lat/lon if the above MFs are not valid

     amrex::Real m_lat_cons =  39.809860;

     amrex::Real m_lon_cons = -98.555183;


     // Pointer to output data for LSM

     amrex::MultiFab* m_lsm_fluxes = nullptr;

     amrex::MultiFab* m_lsm_zenith = nullptr;


     // Holds output from KOKKOS views used in the datalog

     amrex::MultiFab datalog_mf;


     // Path, data file, and coefficient file for K-distribution

     std::string rrtmgp_file_path       = ".";

     std::string rrtmgp_coeffs_sw       = "rrtmgp-data-sw-g224-2018-12-04.nc";

     std::string rrtmgp_coeffs_lw       = "rrtmgp-data-lw-g224-2018-12-04.nc";

     std::string rrtmgp_cloud_optics_sw = "rrtmgp-cloud-optics-coeffs-sw.nc";

     std::string rrtmgp_cloud_optics_lw = "rrtmgp-cloud-optics-coeffs-lw.nc";

     std::string rrtmgp_coeffs_file_sw;

     std::string rrtmgp_coeffs_file_lw;

     std::string rrtmgp_cloud_optics_file_sw;

     std::string rrtmgp_cloud_optics_file_lw;


     // Active gases

     int m_ngas = 8;

     const std::vector<std::string> m_gas_names = {"H2O", "CO2", "O3", "N2O",

                                                   "CO" , "CH4", "O2", "N2" };

     const std::vector<amrex::Real> m_mol_weight_gas = {18.01528, 44.00950, 47.9982, 44.0128,

                                                        28.01010, 16.04246, 31.9980, 28.0134}; // g/mol


     // Prescribed greenhouse gas surface concentrations in moles / moles air

     amrex::Real m_co2vmr = 388.717e-6;

     amrex::Vector<amrex::Real> m_o3vmr;

     amrex::Real m_n2ovmr = 323.141e-9;

     amrex::Real m_covmr  = 1.0e-7;

     amrex::Real m_ch4vmr = 1807.851e-9;

     amrex::Real m_o2vmr  = 0.209448;

     amrex::Real m_n2vmr  = 0.7906;

     //amrex::Real m_f11vmr = 768.7644e-12;

     //amrex::Real m_f12vmr = 531.2820e-12;


     int m_o3_size;

     real1d_k  m_gas_mol_weights;

     std::vector<std::string> gas_names_offset;


     GasConcsK<amrex::Real, layout_t, KokkosDefaultDevice> m_gas_concs;


     // Process interface vars modeled after EAMXX

     //===================================================================================


     // Keep track of number of columns and levels

     int m_ncol;

     int m_nlay;


     // Offsets for MultiFab <-> KOKKOS transfer

     amrex::Vector<int> m_col_offsets;


     // Whether we use aerosol forcing in radiation

     bool m_do_aerosol_rad = true;


     // Whether we do extra aerosol forcing calls

     bool m_extra_clnsky_diag    = false;

     bool m_extra_clnclrsky_diag = false;


     // The orbital year, used for zenith angle calculations:

     // If > 0, use constant orbital year for duration of simulation

     // If < 0, use year from timestamp for orbital parameters

     int m_orbital_year = -9999;

     int m_orbital_mon  = -9999;

     int m_orbital_day  = -9999;

     int m_orbital_sec  = -9999;


     // Orbital parameters, used for zenith angle calculations.

     // If >= 0, bypass computation based on orbital year and use fixed parameters

     // If <  0, compute based on orbital year, specified above

     bool m_fixed_orbital_year   = false;

     amrex::Real m_orbital_eccen = -9999.;  // Eccentricity

     amrex::Real m_orbital_obliq = -9999.;  // Obliquity

     amrex::Real m_orbital_mvelp = -9999.;  // Vernal Equinox Mean Longitude of Perihelion


     // Value for prescribing an invariant solar constant (i.e. total solar irradiance

     // at TOA).  Used for idealized experiments such as RCE. This is only used when a

     // positive value is supplied.

     amrex::Real m_fixed_total_solar_irradiance = -9999.;


     // Fixed solar zenith angle to use for shortwave calculations

     // This is only used if a positive value is supplied

     amrex::Real m_fixed_solar_zenith_angle = -9999.;


     // Need to hard-code some dimension sizes for now.

     // TODO: find a better way of configuring this

     int m_nswbands = 14;

     int m_nlwbands = 16;

     int m_nswgpts  = 112;

     int m_nlwgpts  = 128;


     // Rad frequency in number of steps

     int m_rad_freq_in_steps = 1;


     // Whether or not to do subcolumn sampling of cloud state for MCICA

     bool m_do_subcol_sampling = true;


     // 1d size (1 or nlay)

     real1d_k o3_lay;


     // 1d size (ncol)

     real1d_k cosine_zenith;

     real1d_k mu0;

     real1d_k sfc_alb_dir_vis;

     real1d_k sfc_alb_dir_nir;

     real1d_k sfc_alb_dif_vis;

     real1d_k sfc_alb_dif_nir;

     real1d_k sfc_flux_dir_vis;

     real1d_k sfc_flux_dir_nir;

     real1d_k sfc_flux_dif_vis;

     real1d_k sfc_flux_dif_nir;

     real1d_k lat;

     real1d_k lon;

     real1d_k sfc_emis;

     real1d_k t_sfc;

     real1d_k lw_src;


     // 2d size (ncol, nlay)

     real2d_k r_lay;

     real2d_k p_lay;

     real2d_k t_lay;

     real2d_k z_del;

     real2d_k p_del;

     real2d_k qv_lay;

     real2d_k qc_lay;

     real2d_k qi_lay;

     real2d_k cldfrac_tot;

     real2d_k eff_radius_qc;

     real2d_k eff_radius_qi;

     real2d_k tmp2d;

     real2d_k lwp;

     real2d_k iwp;

     real2d_k sw_heating;

     real2d_k lw_heating;

     real2d_k sw_clrsky_heating;

     real2d_k lw_clrsky_heating;


     // 2d size (ncol, nlay+1)

     real2d_k d_tint;

     real2d_k p_lev;

     real2d_k t_lev;

     real2d_k sw_flux_up;

     real2d_k sw_flux_dn;

     real2d_k sw_flux_dn_dir;

     real2d_k lw_flux_up;

     real2d_k lw_flux_dn;

     real2d_k sw_clnclrsky_flux_up;

     real2d_k sw_clnclrsky_flux_dn;

     real2d_k sw_clnclrsky_flux_dn_dir;

     real2d_k sw_clrsky_flux_up;

     real2d_k sw_clrsky_flux_dn;

     real2d_k sw_clrsky_flux_dn_dir;

     real2d_k sw_clnsky_flux_up;

     real2d_k sw_clnsky_flux_dn;

     real2d_k sw_clnsky_flux_dn_dir;

     real2d_k lw_clnclrsky_flux_up;

     real2d_k lw_clnclrsky_flux_dn;

     real2d_k lw_clrsky_flux_up;

     real2d_k lw_clrsky_flux_dn;

     real2d_k lw_clnsky_flux_up;

     real2d_k lw_clnsky_flux_dn;


     // 3d size (ncol, nlay+1, nswbands)

     real3d_k sw_bnd_flux_up;

     real3d_k sw_bnd_flux_dn;

     real3d_k sw_bnd_flux_dir;

     real3d_k sw_bnd_flux_dif;


     // 3d size (ncol, nlay+1, nlwbands)

     real3d_k lw_bnd_flux_up;

     real3d_k lw_bnd_flux_dn;


     // 2d size (ncol, nswbands)

     real2d_k sfc_alb_dir;

     real2d_k sfc_alb_dif;


     // 2d size (ncol, nlwbands)

     real2d_k emis_sfc;


     // 3d size (ncol, nlay, n[sw,lw]bands)

     real3d_k aero_tau_sw;

     real3d_k aero_ssa_sw;

     real3d_k aero_g_sw;

     real3d_k aero_tau_lw;


     // 3d size (ncol, nlay, n[sw,lw]bnds)

     real3d_k cld_tau_sw_bnd;

     real3d_k cld_tau_lw_bnd;


     // 3d size (ncol, nlay, n[sw,lw]gpts)

     real3d_k cld_tau_sw_gpt;

     real3d_k cld_tau_lw_gpt;

 };

 #endif

ERF_Constants.H

ERF_DataStruct.H

ERF_EOS.H

ERF_IndexDefines.H

ERF_Kokkos.H

real1d_k
Kokkos::View< RealT *, KokkosDefaultDevice > real1d_k
Definition: ERF_Kokkos.H:17

real3d_k
Kokkos::View< RealT ***, layout_t, KokkosDefaultDevice > real3d_k
Definition: ERF_Kokkos.H:19

real2d_k
Kokkos::View< RealT **, layout_t, KokkosDefaultDevice > real2d_k
Definition: ERF_Kokkos.H:18

ERF_LandSurface.H

ERF_OrbCosZenith.H

ERF_RRTMGP_Interface.H

ERF_RRTMGP_Utils.H

ERF_RadiationInterface.H

IRadiation
Definition: ERF_RadiationInterface.H:14

Radiation
Definition: ERF_Radiation.H:45

Radiation::sw_bnd_flux_dn
real3d_k sw_bnd_flux_dn
Definition: ERF_Radiation.H:494

Radiation::m_lon
amrex::MultiFab * m_lon
Definition: ERF_Radiation.H:324

Radiation::lw_flux_up
real2d_k lw_flux_up
Definition: ERF_Radiation.H:474

Radiation::get_lsm_output_varnames
virtual amrex::Vector< std::string > get_lsm_output_varnames() override
Definition: ERF_Radiation.H:250

Radiation::aero_tau_sw
real3d_k aero_tau_sw
Definition: ERF_Radiation.H:510

Radiation::m_o3_size
int m_o3_size
Definition: ERF_Radiation.H:366

Radiation::sw_bnd_flux_dir
real3d_k sw_bnd_flux_dir
Definition: ERF_Radiation.H:495

Radiation::sw_clnsky_flux_dn
real2d_k sw_clnsky_flux_dn
Definition: ERF_Radiation.H:483

Radiation::rrtmgp_coeffs_file_sw
std::string rrtmgp_coeffs_file_sw
Definition: ERF_Radiation.H:343

Radiation::rrtmgp_coeffs_sw
std::string rrtmgp_coeffs_sw
Definition: ERF_Radiation.H:339

Radiation::d_tint
real2d_k d_tint
Definition: ERF_Radiation.H:468

Radiation::lw_clnclrsky_flux_dn
real2d_k lw_clnclrsky_flux_dn
Definition: ERF_Radiation.H:486

Radiation::m_rad_freq_in_steps
int m_rad_freq_in_steps
Definition: ERF_Radiation.H:422

Radiation::lwp
real2d_k lwp
Definition: ERF_Radiation.H:460

Radiation::cld_tau_lw_gpt
real3d_k cld_tau_lw_gpt
Definition: ERF_Radiation.H:521

Radiation::lw_src
real1d_k lw_src
Definition: ERF_Radiation.H:445

Radiation::eff_radius_qi
real2d_k eff_radius_qi
Definition: ERF_Radiation.H:458

Radiation::dealloc_buffers
void dealloc_buffers()
Definition: ERF_Radiation.cpp:311

Radiation::m_gas_mol_weights
real1d_k m_gas_mol_weights
Definition: ERF_Radiation.H:367

Radiation::m_lon_cons
amrex::Real m_lon_cons
Definition: ERF_Radiation.H:328

Radiation::initialize_impl
void initialize_impl()
Definition: ERF_Radiation.cpp:945

Radiation::m_nswbands
int m_nswbands
Definition: ERF_Radiation.H:416

Radiation::m_do_aerosol_rad
bool m_do_aerosol_rad
Definition: ERF_Radiation.H:383

Radiation::rrtmgp_coeffs_lw
std::string rrtmgp_coeffs_lw
Definition: ERF_Radiation.H:340

Radiation::m_moist
bool m_moist
Definition: ERF_Radiation.H:296

Radiation::rrtmgp_cloud_optics_file_lw
std::string rrtmgp_cloud_optics_file_lw
Definition: ERF_Radiation.H:346

Radiation::m_cons_in
amrex::MultiFab * m_cons_in
Definition: ERF_Radiation.H:314

Radiation::datalog_mf
amrex::MultiFab datalog_mf
Definition: ERF_Radiation.H:335

Radiation::Radiation
Radiation(const int &lev, SolverChoice &sc)
Definition: ERF_Radiation.cpp:19

Radiation::sw_heating
real2d_k sw_heating
Definition: ERF_Radiation.H:462

Radiation::m_lsm
bool m_lsm
Definition: ERF_Radiation.H:300

Radiation::m_do_subcol_sampling
bool m_do_subcol_sampling
Definition: ERF_Radiation.H:425

Radiation::lw_bnd_flux_dn
real3d_k lw_bnd_flux_dn
Definition: ERF_Radiation.H:500

Radiation::m_rad_write_fluxes
bool m_rad_write_fluxes
Definition: ERF_Radiation.H:291

Radiation::set_lsm_inputs
void set_lsm_inputs(LandSurfaceModelType *model)
Definition: ERF_Radiation.H:132

Radiation::sw_bnd_flux_up
real3d_k sw_bnd_flux_up
Definition: ERF_Radiation.H:493

Radiation::qv_lay
real2d_k qv_lay
Definition: ERF_Radiation.H:453

Radiation::rrtmgp_cloud_optics_file_sw
std::string rrtmgp_cloud_optics_file_sw
Definition: ERF_Radiation.H:345

Radiation::m_lsm_output_names
amrex::Vector< std::string > m_lsm_output_names
Definition: ERF_Radiation.H:308

Radiation::run_impl
void run_impl()
Definition: ERF_Radiation.cpp:956

Radiation::sw_clnclrsky_flux_dn_dir
real2d_k sw_clnclrsky_flux_dn_dir
Definition: ERF_Radiation.H:478

Radiation::sfc_flux_dif_vis
real1d_k sfc_flux_dif_vis
Definition: ERF_Radiation.H:439

Radiation::m_step
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Definition: ERF_Radiation.H:273

Radiation::lw_clnclrsky_flux_up
real2d_k lw_clnclrsky_flux_up
Definition: ERF_Radiation.H:485

Radiation::cld_tau_sw_gpt
real3d_k cld_tau_sw_gpt
Definition: ERF_Radiation.H:520

Radiation::lat
real1d_k lat
Definition: ERF_Radiation.H:441

Radiation::populateDatalogMF
void populateDatalogMF()
Definition: ERF_Radiation.cpp:721

Radiation::qi_lay
real2d_k qi_lay
Definition: ERF_Radiation.H:455

Radiation::sw_clrsky_flux_up
real2d_k sw_clrsky_flux_up
Definition: ERF_Radiation.H:479

Radiation::m_orbital_mvelp
amrex::Real m_orbital_mvelp
Definition: ERF_Radiation.H:403

Radiation::t_lev
real2d_k t_lev
Definition: ERF_Radiation.H:470

Radiation::m_o3vmr
amrex::Vector< amrex::Real > m_o3vmr
Definition: ERF_Radiation.H:357

Radiation::o3_lay
real1d_k o3_lay
Definition: ERF_Radiation.H:428

Radiation::rrtmgp_cloud_optics_sw
std::string rrtmgp_cloud_optics_sw
Definition: ERF_Radiation.H:341

Radiation::sfc_alb_dif_vis
real1d_k sfc_alb_dif_vis
Definition: ERF_Radiation.H:435

Radiation::m_nlwgpts
int m_nlwgpts
Definition: ERF_Radiation.H:419

Radiation::mu0
real1d_k mu0
Definition: ERF_Radiation.H:432

Radiation::cldfrac_tot
real2d_k cldfrac_tot
Definition: ERF_Radiation.H:456

Radiation::cld_tau_lw_bnd
real3d_k cld_tau_lw_bnd
Definition: ERF_Radiation.H:517

Radiation::sfc_flux_dir_nir
real1d_k sfc_flux_dir_nir
Definition: ERF_Radiation.H:438

Radiation::m_z_phys
amrex::MultiFab * m_z_phys
Definition: ERF_Radiation.H:320

Radiation::sw_clnclrsky_flux_up
real2d_k sw_clnclrsky_flux_up
Definition: ERF_Radiation.H:476

Radiation::aero_g_sw
real3d_k aero_g_sw
Definition: ERF_Radiation.H:512

Radiation::sw_flux_up
real2d_k sw_flux_up
Definition: ERF_Radiation.H:471

Radiation::rrtmgp_cloud_optics_lw
std::string rrtmgp_cloud_optics_lw
Definition: ERF_Radiation.H:342

Radiation::sw_bnd_flux_dif
real3d_k sw_bnd_flux_dif
Definition: ERF_Radiation.H:496

Radiation::sfc_alb_dif
real2d_k sfc_alb_dif
Definition: ERF_Radiation.H:504

Radiation::m_co2vmr
amrex::Real m_co2vmr
Definition: ERF_Radiation.H:356

Radiation::m_extra_clnsky_diag
bool m_extra_clnsky_diag
Definition: ERF_Radiation.H:386

Radiation::emis_sfc
real2d_k emis_sfc
Definition: ERF_Radiation.H:507

Radiation::sfc_alb_dif_nir
real1d_k sfc_alb_dif_nir
Definition: ERF_Radiation.H:436

Radiation::m_lsm_fluxes
amrex::MultiFab * m_lsm_fluxes
Definition: ERF_Radiation.H:331

Radiation::Init
virtual void Init(const amrex::Geometry &geom, const amrex::BoxArray &ba, amrex::MultiFab *cons_in) override
Definition: ERF_Radiation.H:63

Radiation::lw_clnsky_flux_dn
real2d_k lw_clnsky_flux_dn
Definition: ERF_Radiation.H:490

Radiation::m_ba
amrex::BoxArray m_ba
Definition: ERF_Radiation.H:285

Radiation::p_lay
real2d_k p_lay
Definition: ERF_Radiation.H:449

Radiation::r_lay
real2d_k r_lay
Definition: ERF_Radiation.H:448

Radiation::m_ncol
int m_ncol
Definition: ERF_Radiation.H:376

Radiation::sw_flux_dn_dir
real2d_k sw_flux_dn_dir
Definition: ERF_Radiation.H:473

Radiation::m_mol_weight_gas
const std::vector< amrex::Real > m_mol_weight_gas
Definition: ERF_Radiation.H:352

Radiation::m_lat_cons
amrex::Real m_lat_cons
Definition: ERF_Radiation.H:327

Radiation::m_fixed_total_solar_irradiance
amrex::Real m_fixed_total_solar_irradiance
Definition: ERF_Radiation.H:408

Radiation::kokkos_buffers_to_mf
void kokkos_buffers_to_mf(amrex::Vector< amrex::MultiFab * > &lsm_output_ptrs)
Definition: ERF_Radiation.cpp:591

Radiation::gas_names_offset
std::vector< std::string > gas_names_offset
Definition: ERF_Radiation.H:368

Radiation::sw_clrsky_flux_dn
real2d_k sw_clrsky_flux_dn
Definition: ERF_Radiation.H:480

Radiation::m_dt
amrex::Real m_dt
Definition: ERF_Radiation.H:279

Radiation::get_lsm_input_varnames
virtual amrex::Vector< std::string > get_lsm_input_varnames() override
Definition: ERF_Radiation.H:242

Radiation::m_orbital_mon
int m_orbital_mon
Definition: ERF_Radiation.H:393

Radiation::aero_ssa_sw
real3d_k aero_ssa_sw
Definition: ERF_Radiation.H:511

Radiation::sw_clnsky_flux_dn_dir
real2d_k sw_clnsky_flux_dn_dir
Definition: ERF_Radiation.H:484

Radiation::m_o2vmr
amrex::Real m_o2vmr
Definition: ERF_Radiation.H:361

Radiation::rad_run_impl
void rad_run_impl(amrex::Vector< amrex::MultiFab * > &lsm_output_ptrs)
Definition: ERF_Radiation.H:228

Radiation::m_gas_concs
GasConcsK< amrex::Real, layout_t, KokkosDefaultDevice > m_gas_concs
Definition: ERF_Radiation.H:370

Radiation::m_qheating_rates
amrex::MultiFab * m_qheating_rates
Definition: ERF_Radiation.H:317

Radiation::qc_lay
real2d_k qc_lay
Definition: ERF_Radiation.H:454

Radiation::WriteDataLog
virtual void WriteDataLog(const amrex::Real &time) override
Definition: ERF_Radiation.cpp:810

Radiation::lw_clrsky_flux_up
real2d_k lw_clrsky_flux_up
Definition: ERF_Radiation.H:487

Radiation::m_n2ovmr
amrex::Real m_n2ovmr
Definition: ERF_Radiation.H:358

Radiation::m_rad_t_sfc
amrex::Real m_rad_t_sfc
Definition: ERF_Radiation.H:311

Radiation::rrtmgp_file_path
std::string rrtmgp_file_path
Definition: ERF_Radiation.H:338

Radiation::sw_flux_dn
real2d_k sw_flux_dn
Definition: ERF_Radiation.H:472

Radiation::m_lsm_zenith
amrex::MultiFab * m_lsm_zenith
Definition: ERF_Radiation.H:332

Radiation::m_nlwbands
int m_nlwbands
Definition: ERF_Radiation.H:417

Radiation::tmp2d
real2d_k tmp2d
Definition: ERF_Radiation.H:459

Radiation::Run
virtual void Run(int &level, int &step, amrex::Real &time, const amrex::Real &dt, const amrex::BoxArray &ba, amrex::Geometry &geom, amrex::MultiFab *cons_in, amrex::MultiFab *lsm_fluxes, amrex::MultiFab *lsm_zenith, amrex::Vector< amrex::MultiFab * > &lsm_input_ptrs, amrex::Vector< amrex::MultiFab * > &lsm_output_ptrs, amrex::MultiFab *qheating_rates, amrex::MultiFab *z_phys, amrex::MultiFab *lat, amrex::MultiFab *lon) override
Definition: ERF_Radiation.H:91

Radiation::lw_clrsky_flux_dn
real2d_k lw_clrsky_flux_dn
Definition: ERF_Radiation.H:488

Radiation::m_orbital_eccen
amrex::Real m_orbital_eccen
Definition: ERF_Radiation.H:401

Radiation::finalize_impl
void finalize_impl(amrex::Vector< amrex::MultiFab * > &lsm_output_ptrs)
Definition: ERF_Radiation.cpp:1213

Radiation::m_covmr
amrex::Real m_covmr
Definition: ERF_Radiation.H:359

Radiation::m_orbital_sec
int m_orbital_sec
Definition: ERF_Radiation.H:395

Radiation::z_del
real2d_k z_del
Definition: ERF_Radiation.H:451

Radiation::p_del
real2d_k p_del
Definition: ERF_Radiation.H:452

Radiation::aero_tau_lw
real3d_k aero_tau_lw
Definition: ERF_Radiation.H:513

Radiation::lw_flux_dn
real2d_k lw_flux_dn
Definition: ERF_Radiation.H:475

Radiation::~Radiation
~Radiation()
Definition: ERF_Radiation.H:55

Radiation::mf_to_kokkos_buffers
void mf_to_kokkos_buffers(amrex::Vector< amrex::MultiFab * > &lsm_input_ptrs)
Definition: ERF_Radiation.cpp:419

Radiation::sw_clrsky_flux_dn_dir
real2d_k sw_clrsky_flux_dn_dir
Definition: ERF_Radiation.H:481

Radiation::write_rrtmgp_fluxes
void write_rrtmgp_fluxes()
Definition: ERF_Radiation.cpp:680

Radiation::rrtmgp_coeffs_file_lw
std::string rrtmgp_coeffs_file_lw
Definition: ERF_Radiation.H:344

Radiation::m_lev
int m_lev
Definition: ERF_Radiation.H:270

Radiation::sfc_flux_dif_nir
real1d_k sfc_flux_dif_nir
Definition: ERF_Radiation.H:440

Radiation::m_ngas
int m_ngas
Definition: ERF_Radiation.H:349

Radiation::lw_heating
real2d_k lw_heating
Definition: ERF_Radiation.H:463

Radiation::sfc_alb_dir_nir
real1d_k sfc_alb_dir_nir
Definition: ERF_Radiation.H:434

Radiation::lw_clnsky_flux_up
real2d_k lw_clnsky_flux_up
Definition: ERF_Radiation.H:489

Radiation::m_ch4vmr
amrex::Real m_ch4vmr
Definition: ERF_Radiation.H:360

Radiation::m_update_rad
bool m_update_rad
Definition: ERF_Radiation.H:288

Radiation::sfc_alb_dir
real2d_k sfc_alb_dir
Definition: ERF_Radiation.H:503

Radiation::m_ice
bool m_ice
Definition: ERF_Radiation.H:297

Radiation::m_fixed_solar_zenith_angle
amrex::Real m_fixed_solar_zenith_angle
Definition: ERF_Radiation.H:412

Radiation::lon
real1d_k lon
Definition: ERF_Radiation.H:442

Radiation::m_orbital_day
int m_orbital_day
Definition: ERF_Radiation.H:394

Radiation::sfc_emis
real1d_k sfc_emis
Definition: ERF_Radiation.H:443

Radiation::m_orbital_obliq
amrex::Real m_orbital_obliq
Definition: ERF_Radiation.H:402

Radiation::m_n2vmr
amrex::Real m_n2vmr
Definition: ERF_Radiation.H:362

Radiation::cld_tau_sw_bnd
real3d_k cld_tau_sw_bnd
Definition: ERF_Radiation.H:516

Radiation::m_fixed_orbital_year
bool m_fixed_orbital_year
Definition: ERF_Radiation.H:400

Radiation::sw_clnsky_flux_up
real2d_k sw_clnsky_flux_up
Definition: ERF_Radiation.H:482

Radiation::m_nlay
int m_nlay
Definition: ERF_Radiation.H:377

Radiation::lw_bnd_flux_up
real3d_k lw_bnd_flux_up
Definition: ERF_Radiation.H:499

Radiation::m_nswgpts
int m_nswgpts
Definition: ERF_Radiation.H:418

Radiation::m_first_step
bool m_first_step
Definition: ERF_Radiation.H:293

Radiation::sfc_alb_dir_vis
real1d_k sfc_alb_dir_vis
Definition: ERF_Radiation.H:433

Radiation::m_gas_names
const std::vector< std::string > m_gas_names
Definition: ERF_Radiation.H:350

Radiation::sw_clrsky_heating
real2d_k sw_clrsky_heating
Definition: ERF_Radiation.H:464

Radiation::m_extra_clnclrsky_diag
bool m_extra_clnclrsky_diag
Definition: ERF_Radiation.H:387

Radiation::t_lay
real2d_k t_lay
Definition: ERF_Radiation.H:450

Radiation::set_grids
void set_grids(int &level, int &step, amrex::Real &time, const amrex::Real &dt, const amrex::BoxArray &ba, amrex::Geometry &geom, amrex::MultiFab *cons_in, amrex::MultiFab *lsm_fluxes, amrex::MultiFab *lsm_zenith, amrex::Vector< amrex::MultiFab * > &lsm_input_ptrs, amrex::MultiFab *qheating_rates, amrex::MultiFab *z_phys, amrex::MultiFab *lat, amrex::MultiFab *lon)
Definition: ERF_Radiation.cpp:118

Radiation::sfc_flux_dir_vis
real1d_k sfc_flux_dir_vis
Definition: ERF_Radiation.H:437

Radiation::iwp
real2d_k iwp
Definition: ERF_Radiation.H:461

Radiation::m_geom
amrex::Geometry m_geom
Definition: ERF_Radiation.H:282

Radiation::m_lat
amrex::MultiFab * m_lat
Definition: ERF_Radiation.H:323

Radiation::p_lev
real2d_k p_lev
Definition: ERF_Radiation.H:469

Radiation::lw_clrsky_heating
real2d_k lw_clrsky_heating
Definition: ERF_Radiation.H:465

Radiation::eff_radius_qc
real2d_k eff_radius_qc
Definition: ERF_Radiation.H:457

Radiation::cosine_zenith
real1d_k cosine_zenith
Definition: ERF_Radiation.H:431

Radiation::m_col_offsets
amrex::Vector< int > m_col_offsets
Definition: ERF_Radiation.H:380

Radiation::t_sfc
real1d_k t_sfc
Definition: ERF_Radiation.H:444

Radiation::alloc_buffers
void alloc_buffers()
Definition: ERF_Radiation.cpp:185

Radiation::m_orbital_year
int m_orbital_year
Definition: ERF_Radiation.H:392

Radiation::sw_clnclrsky_flux_dn
real2d_k sw_clnclrsky_flux_dn
Definition: ERF_Radiation.H:477

Radiation::m_lsm_input_names
amrex::Vector< std::string > m_lsm_input_names
Definition: ERF_Radiation.H:303

Radiation::m_time
amrex::Real m_time
Definition: ERF_Radiation.H:276

SolverChoice
Definition: ERF_DataStruct.H:123