Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods

Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods

This paper presents an overview of a unified framework for finite element and spectral element methods in 1D, 2D and 3D in C++ called Feel++. The article is divided in two parts. The first part provides a digression through the design of the library as well as the main abstractions handled by it...

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Main Authors: Prud’homme Christophe, Chabannes Vincent, Doyeux Vincent, Ismail Mourad, Samake Abdoulaye, Pena Goncalo
Format: Article
Language:English
Published: EDP Sciences 2013-01-01
Series:ESAIM: Proceedings and Surveys
Online Access:http://dx.doi.org/10.1051/proc/201238024
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spelling doaj-3f68f3ba0eea433088d0af5d394986342021-08-02T01:01:12ZengEDP SciencesESAIM: Proceedings and Surveys1270-900X2013-01-013842945510.1051/proc/201238024Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods Prud’homme ChristopheChabannes VincentDoyeux VincentIsmail MouradSamake AbdoulayePena GoncaloThis paper presents an overview of a unified framework for finite element and spectral element methods in 1D, 2D and 3D in C++ called Feel++. The article is divided in two parts. The first part provides a digression through the design of the library as well as the main abstractions handled by it, namely, meshes, function spaces, operators, linear and bilinear forms and an embedded variational language. In every case, the closeness between the language developed in Feel++ and the equivalent mathematical objects is highlighted. In the second part, examples using the mortar, Schwartz (non)overlapping, three fields and two fictitious domain-like methods (the Fat Boundary Method and the Penalty Method) are presented and numerically solved in the scope of the library. dx.doi.org/10.1051/proc/201238024
collection DOAJ
language English
format Article
sources DOAJ
author Prud’homme Christophe
Chabannes Vincent
Doyeux Vincent
Ismail Mourad
Samake Abdoulaye
Pena Goncalo
spellingShingle Prud’homme Christophe
Chabannes Vincent
Doyeux Vincent
Ismail Mourad
Samake Abdoulaye
Pena Goncalo
Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
ESAIM: Proceedings and Surveys
author_facet Prud’homme Christophe
Chabannes Vincent
Doyeux Vincent
Ismail Mourad
Samake Abdoulaye
Pena Goncalo
author_sort Prud’homme Christophe
title Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
title_short Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
title_full Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
title_fullStr Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
title_full_unstemmed Feel++ : A computational framework for Galerkin Methods and Advanced Numerical Methods
title_sort feel++ : a computational framework for galerkin methods and advanced numerical methods
publisher EDP Sciences
series ESAIM: Proceedings and Surveys
issn 1270-900X
publishDate 2013-01-01
description This paper presents an overview of a unified framework for finite element and spectral element methods in 1D, 2D and 3D in C++ called Feel++. The article is divided in two parts. The first part provides a digression through the design of the library as well as the main abstractions handled by it, namely, meshes, function spaces, operators, linear and bilinear forms and an embedded variational language. In every case, the closeness between the language developed in Feel++ and the equivalent mathematical objects is highlighted. In the second part, examples using the mortar, Schwartz (non)overlapping, three fields and two fictitious domain-like methods (the Fat Boundary Method and the Penalty Method) are presented and numerically solved in the scope of the library.
url http://dx.doi.org/10.1051/proc/201238024
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AT ismailmourad feelacomputationalframeworkforgalerkinmethodsandadvancednumericalmethods
AT samakeabdoulaye feelacomputationalframeworkforgalerkinmethodsandadvancednumericalmethods
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