summary:In this paper we describe PDELab, an extensible C++ template library for finite element methods based on the Distributed and Unified Numerics Environment (Dune). PDELab considerably simplifies the implementation of discretization schemes for systems of partial differential equations by setting up global functions and operators from a simple element-local description. A general concept for incorporation of constraints eases the implementation of essential boundary conditions, hanging nodes and varying polynomial degree. The underlying Dune software framework provides parallelization and dimension-independence
Abstract. Computational analysis of systems governed by partial differential equations requires not ...
Generic programming techniques for parallelizing and extending procedural finite element program
The numerical solution of partial differential equations frequently requires the solution of large a...
summary:In this paper we describe PDELab, an extensible C++ template library for finite element meth...
This document gives an introduction to the Distributed and Unified Numerics Environment (DUNE). DUNE...
The Distributed and Unified Numerics Environment (Dune) is a set of open-source C++ libraries for th...
Starting from an abstract mathematical notion of discrete function spaces and operators, we derive a...
In this thesis a Finite Element solver package called FEDomain is developed for C++ finite element s...
We outline an approach for extending procedural finite-element software components using generic pro...
This documentation describes the different finite element methods and cubature formulas available in...
Most finite element or finite volume software is built around a fixed mesh data structure. Therefore...
This article considers the development of a reusable object-oriented array library, as well as the u...
MFEM is an open-source, lightweight, flexible and scalable C++ library for modular finite element me...
Summary. Most finite element, or finite volume software is built around a fixed mesh data structure....
In the recent past, the field of scientific computing has become of more and more importance for sci...
Abstract. Computational analysis of systems governed by partial differential equations requires not ...
Generic programming techniques for parallelizing and extending procedural finite element program
The numerical solution of partial differential equations frequently requires the solution of large a...
summary:In this paper we describe PDELab, an extensible C++ template library for finite element meth...
This document gives an introduction to the Distributed and Unified Numerics Environment (DUNE). DUNE...
The Distributed and Unified Numerics Environment (Dune) is a set of open-source C++ libraries for th...
Starting from an abstract mathematical notion of discrete function spaces and operators, we derive a...
In this thesis a Finite Element solver package called FEDomain is developed for C++ finite element s...
We outline an approach for extending procedural finite-element software components using generic pro...
This documentation describes the different finite element methods and cubature formulas available in...
Most finite element or finite volume software is built around a fixed mesh data structure. Therefore...
This article considers the development of a reusable object-oriented array library, as well as the u...
MFEM is an open-source, lightweight, flexible and scalable C++ library for modular finite element me...
Summary. Most finite element, or finite volume software is built around a fixed mesh data structure....
In the recent past, the field of scientific computing has become of more and more importance for sci...
Abstract. Computational analysis of systems governed by partial differential equations requires not ...
Generic programming techniques for parallelizing and extending procedural finite element program
The numerical solution of partial differential equations frequently requires the solution of large a...