compute_rhs_cubes Subroutine

private subroutine compute_rhs_cubes(minLevel, maxLevel, currentLevel, mesh_list, tree, kerneldata_list, statedata_list, facedata_list, source, penalizationdata_list, scheme_list, poly_proj_pos, poly_proj_list, equation, material_list, general, computePenalization)

Uses

Arguments

Type IntentOptional Attributes Name
integer, intent(in) :: minLevel

The minimum level of the mesh.
integer, intent(in) :: maxLevel

The maximum level of the mesh.
integer, intent(in) :: currentLevel

The level of the mesh you are computing the rhs for.
type(atl_cube_elem_type), intent(inout) :: mesh_list(minLevel:maxLevel)

List of mesh parts. For each level we have one.
type(treelmesh_type), intent(in) :: tree

treelm mesh
type(atl_kerneldata_type), intent(inout) :: kerneldata_list(minLevel:maxLevel)

List of kerneldatas. For each level we have one
type(atl_statedata_type), intent(inout) :: statedata_list(minLevel:maxLevel)

List of states you want to calc the rhs for. For each level we have one.
type(atl_facedata_type), intent(inout) :: facedata_list(minLevel:maxLevel)

List of facedatas. For each level we have one
type(atl_source_type), intent(inout) :: source

Levelwise list of sources
type(atl_penalizationData_type), intent(inout) :: penalizationdata_list(minLevel:maxLevel)

Levelwise list of penalization data
type(atl_scheme_type), intent(inout) :: scheme_list(minLevel:maxLevel)

List of schemes, for each level.
integer, intent(in) :: poly_proj_pos(minLevel:maxLevel)

List of levelwise position of projection method in unique projection_list
type(ply_poly_project_type), intent(inout) :: poly_proj_list(:)

unique list for projection methods
type(atl_Equations_type), intent(in) :: equation

The equation you are operating with.
type(atl_material_type), intent(inout) :: material_list(minlevel:maxlevel)

Material parameter description.
type(tem_general_type), intent(inout) :: general

General treelm settings
logical, intent(in), optional :: computePenalization

Flag to indicate whether penalization terms should be computed or not.

This is used to switch off the application of penalizing terms from the convective computation and instead compute it in an implicit update, see the atl_imexrk_module. Default is .true.!

Calls

proc~~compute_rhs_cubes~~CallsGraph proc~compute_rhs_cubes compute_rhs_cubes proc~tem_abort tem_abort proc~compute_rhs_cubes->proc~tem_abort proc~compute_rhs_cubes_modg compute_rhs_cubes_modg proc~compute_rhs_cubes->proc~compute_rhs_cubes_modg proc~compute_rhs_cubes_modg_2d compute_rhs_cubes_modg_2d proc~compute_rhs_cubes->proc~compute_rhs_cubes_modg_2d proc~compute_rhs_cubes_modg_1d compute_rhs_cubes_modg_1d proc~compute_rhs_cubes->proc~compute_rhs_cubes_modg_1d

Called by

proc~~compute_rhs_cubes~~CalledByGraph proc~compute_rhs_cubes compute_rhs_cubes interface~atl_compute_rhs atl_compute_rhs interface~atl_compute_rhs->proc~compute_rhs_cubes proc~rk2_substep rk2_substep proc~rk2_substep->interface~atl_compute_rhs proc~rk2_substep->proc~rk2_substep proc~rk4_substep rk4_substep proc~rk4_substep->interface~atl_compute_rhs proc~rk4_substep->proc~rk4_substep proc~rktaylor_substep rktaylor_substep proc~rktaylor_substep->interface~atl_compute_rhs proc~rktaylor_substep->proc~rktaylor_substep proc~mesh_timestep_euler mesh_timestep_euler proc~mesh_timestep_euler->interface~atl_compute_rhs proc~mesh_timestep_euler->proc~mesh_timestep_euler proc~global_corrector_substep global_corrector_substep proc~global_corrector_substep->interface~atl_compute_rhs proc~imexrk_substep imexrk_substep proc~imexrk_substep->interface~atl_compute_rhs proc~imexrk_substep->proc~imexrk_substep proc~mesh_timestep_ssprk2 mesh_timestep_ssprk2 proc~mesh_timestep_ssprk2->proc~rk2_substep proc~mesh_timestep_predcor_cerk4 mesh_timestep_predcor_cerk4 proc~mesh_timestep_predcor_cerk4->proc~global_corrector_substep proc~mesh_timestep_imexrk mesh_timestep_imexrk proc~mesh_timestep_imexrk->proc~imexrk_substep proc~mesh_timestep_rktaylor mesh_timestep_rktaylor proc~mesh_timestep_rktaylor->proc~rktaylor_substep

Contents