TrilinosCouplings Development
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Files | |
example_CurlLSFEM.cpp | |
Example solution of a div-curl system on a hexahedral mesh using curl-conforming (edge) elements. | |
example_CVFEM.cpp | |
Example solution of an Advection Diffusion equation on a quadrilateral or triangular mesh using the CVFEM. | |
example_DivLSFEM.cpp | |
Example solution of a div-curl system on a hexahedral mesh using div-conforming (face) elements. | |
example_GradDiv.cpp | |
Example solution grad-div diffusion system with div-conforming (face) elements. | |
example_Maxwell.cpp | |
Example solution of the eddy current Maxwell's equations using curl-conforming (edge) elements. | |
example_Maxwell_Tpetra.cpp | |
Example solution of the eddy current Maxwell's equations using curl-conforming (edge) elements. | |
example_Poisson.cpp | |
Example solution of a Poisson equation on a hexahedral mesh using nodal (Hgrad) elements. | |
example_Poisson_NoFE_Tpetra.cpp | |
Example solution of a Poisson equation on a hexahedral mesh using nodal (Hgrad) elements. The system is assembled but not solved. | |
example_Poisson_stk.cpp | |
Example solution of a Poisson equation on a hexahedral or tetrahedral mesh using nodal (Hgrad) elements. | |
example_StabilizedADR.cpp | |
Example solution of a steady-state advection-diffusion-reaction equation with Dirichlet boundary conditon on a hexahedral mesh using nodal (Hgrad) elements and stabilization. | |
HybridIntrepidPoisson2D_Pamgen_Tpetra_main.cpp | |
Example: Discretize Poisson's equation with Dirichlet boundary conditions on a quadrilateral mesh using nodal (Hgrad) elements. The system is assembled into Tpetra data structures, and optionally solved. | |
HybridIntrepidPoisson3D_Pamgen_Tpetra_main.cpp | |
Example: Discretize Poisson's equation with Dirichlet boundary conditions on a hexahedral mesh using nodal (Hgrad) elements. The system is assembled into Tpetra data structures, and optionally solved. | |
IntrepidPoisson_Pamgen_Epetra_main.cpp | |
Example: Discretize Poisson's equation with Dirichlet boundary conditions on a hexahedral mesh using nodal (Hgrad) elements. The system is assembled into Epetra data structures, and optionally solved. | |
IntrepidPoisson_Pamgen_Tpetra_main.cpp | |
Example: Discretize Poisson's equation with Dirichlet boundary conditions on a hexahedral mesh using nodal (Hgrad) elements. The system is assembled into Tpetra data structures, and optionally solved. | |
TrilinosCouplings_IntrepidPoissonExample_SolveWithBelos.hpp | |
Generic Belos solver for the Intrepid Poisson test problem example. | |
TrilinosCouplings_IntrepidPoissonExampleHelpers.hpp | |
Helper functions for Poisson test problem with Intrepid + Pamgen. | |