In a companion paper (Bastian et al. 2007, this issue) we introduced an abstract definition of a parallel and adaptive hierarchical grid for scientific computing. Based on this definition we derive an efficient interface specification as a set of C++ classes. This interface separates the applications from the grid data structures. Thus, user implementations become independent of the underlying grid implementation. Modern C++ template techniques are used to provide an interface implementation without big performance losses. The implementation is realized as part of the software environment DUNE (http://dune-project.org/). Numerical tests demonstrate the flexibility and the efficiency of our approach
summary:In this paper we describe PDELab, an extensible C++ template library for finite element meth...
This paper presents the basic concepts and the module structure of the Distributed and Unified Numer...
A large number of algorithms across the field of computational physics are formulated on grids with ...
In a companion paper (Bastian et al. 2007, this issue) we introduced an abstract definition of a par...
In a companion paper (Bastian et al. 2007, this issue) we introduced an abstract definition of a par...
We give a mathematically rigorous definition of a grid for algorithms solving partial differential e...
We give a mathematically rigorous definition of a grid for algorithms solving partial differential e...
Starting from an abstract mathematical notion of discrete function spaces and operators, we derive a...
This document gives an introduction to the Distributed and Unified Numerics Environment (DUNE). DUNE...
In this paper we present the new Dune-ALUGrid module. This module contains a major overhaul of the s...
In this paper we describe the recent development of the interface library Dune and in particular the...
We present an extension module for the Dune system. This module, called dune-subgrid, allows to mark...
Most finite element or finite volume software is built around a fixed mesh data structure. Therefore...
The Distributed and Unified Numerics Environment (Dune) is a set of open-source C++ libraries for th...
This paper presents the basic concepts and the module structure of the Distributed and Unified Numer...
summary:In this paper we describe PDELab, an extensible C++ template library for finite element meth...
This paper presents the basic concepts and the module structure of the Distributed and Unified Numer...
A large number of algorithms across the field of computational physics are formulated on grids with ...
In a companion paper (Bastian et al. 2007, this issue) we introduced an abstract definition of a par...
In a companion paper (Bastian et al. 2007, this issue) we introduced an abstract definition of a par...
We give a mathematically rigorous definition of a grid for algorithms solving partial differential e...
We give a mathematically rigorous definition of a grid for algorithms solving partial differential e...
Starting from an abstract mathematical notion of discrete function spaces and operators, we derive a...
This document gives an introduction to the Distributed and Unified Numerics Environment (DUNE). DUNE...
In this paper we present the new Dune-ALUGrid module. This module contains a major overhaul of the s...
In this paper we describe the recent development of the interface library Dune and in particular the...
We present an extension module for the Dune system. This module, called dune-subgrid, allows to mark...
Most finite element or finite volume software is built around a fixed mesh data structure. Therefore...
The Distributed and Unified Numerics Environment (Dune) is a set of open-source C++ libraries for th...
This paper presents the basic concepts and the module structure of the Distributed and Unified Numer...
summary:In this paper we describe PDELab, an extensible C++ template library for finite element meth...
This paper presents the basic concepts and the module structure of the Distributed and Unified Numer...
A large number of algorithms across the field of computational physics are formulated on grids with ...