Automatic and symbolic differentiation | A module dedicated to the implementation of functions and classes that relate to automatic and symbolic differentiation |
deal.II and the C++11 standard | |
Concepts, or expectations on template parameters | |
CUDA Wrappers | |
▼Degrees of Freedom | |
Constraints on degrees of freedom | |
Exceptions and assertions | |
▼Finite elements | |
Base classes | |
▼Finite element access/FEValues classes | |
Handling vector valued problems | |
Finite element space descriptions | |
Mappings between reference and real cell | |
How Mapping, FiniteElement, and FEValues work together | |
The interplay of UpdateFlags, Mapping, and FiniteElement in FEValues | |
Handling vector valued problems | |
Functions | |
The geodynamics demonstration suite | |
Geometric and other primitives | |
▼Grid classes | |
▼Iterators on mesh-like containers | |
Accessor classes of the mesh iterators | |
Manifold description for triangulations | |
▼hp finite element support | |
hp Collections | |
▼Integrators | |
The MeshWorker interface | |
▼Input/Output | |
Input | |
Graphical output | |
Textual output | |
▼Linear algebra classes | |
Linear Operators | |
▼Matrix classes | |
Basic matrices | |
Derived matrices | |
Preconditioners and Relaxation Operators | |
▼PETScWrappers | |
SLEPcWrappers | |
Preconditioners and Relaxation Operators | |
SLEPcWrappers | |
Linear solver classes | |
Sparsity patterns | |
TrilinosWrappers | |
Vector memory management | |
Vector classes | |
Matrix-free infrastructure | |
Multilevel support | |
Numerical algorithms | |
▼Parallel computing | A module discussing the use of multiple processors |
Parallel computing with multiple processors using distributed memory | A module discussing the use of parallelism on distributed memory clusters |
Parallel computing with multiple processors accessing shared memory | A module discussing the use of parallelism on shared memory machines. See the detailed documentation and Table of Contents below the lengthy list of members of this module |
Physics | A module dedicated to the implementation of functions and classes that relate to continuum physics, physical fields and materials |
Polynomials and polynomial spaces | |
Quadrature formulas | |
▼Utility functions and classes | |
Memory handling | |
Data storage primitives | |
OpenCASCADE | |