The multi-frontal direct solver is the state of the art for the direct solution of linear systems. This paper provides computational complexity and memory usage estimates for the application of the multi-frontal direct solver algorithm on linear systems resulting from p finite elements. Specifically we provide the estimates for systems resulting from C0 polynomial spaces spanned by B-splines. The structured grid and uniform polynomial order used in isogeometric meshes simplifies the analysis. © 2011 Published by Elsevier Ltd
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
We propose the use of highly continuous finite element spaces interconnected with low continuity hyp...
AbstractThis paper introduces the graph grammar based model for developing multi-thread multi-fronta...
AbstractThe multi-frontal direct solver is the state of the art for the direct solution of linear sy...
The multi-frontal direct solver is the state-of-the-art algorithm for the direct solution of sparse ...
This paper derives theoretical estimates of the computational cost for isogeometric multi-frontal di...
AbstractIn this paper we present the optimization of the energy consumption for the multi-frontal so...
We focus on two and three-dimensional isogeometric finite element method computations with tensor pr...
This paper introduces a grammar-based model for developing a multi-thread multi-frontal parallel dir...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
This paper introduces the graph grammar based model for developing multi-thread multi-frontal parall...
AbstractThe article is an in-depth comparison of numerical solvers and corresponding solution pro- c...
In this paper we present the performance of our parallel multi-frontal direct solver when applied to...
In this paper we present computational cost estimates for parallel shared memory isogeometric multi-...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
We propose the use of highly continuous finite element spaces interconnected with low continuity hyp...
AbstractThis paper introduces the graph grammar based model for developing multi-thread multi-fronta...
AbstractThe multi-frontal direct solver is the state of the art for the direct solution of linear sy...
The multi-frontal direct solver is the state-of-the-art algorithm for the direct solution of sparse ...
This paper derives theoretical estimates of the computational cost for isogeometric multi-frontal di...
AbstractIn this paper we present the optimization of the energy consumption for the multi-frontal so...
We focus on two and three-dimensional isogeometric finite element method computations with tensor pr...
This paper introduces a grammar-based model for developing a multi-thread multi-frontal parallel dir...
AbstractIn this paper we present a theoretical proof of linear computational cost and complexity for...
This paper introduces the graph grammar based model for developing multi-thread multi-frontal parall...
AbstractThe article is an in-depth comparison of numerical solvers and corresponding solution pro- c...
In this paper we present the performance of our parallel multi-frontal direct solver when applied to...
In this paper we present computational cost estimates for parallel shared memory isogeometric multi-...
We analyse the performance of direct solvers when applied to a system of linear equations arising fr...
AbstractThis paper introduces a grammar-based model for developing a multi-thread multi-frontal para...
We propose the use of highly continuous finite element spaces interconnected with low continuity hyp...
AbstractThis paper introduces the graph grammar based model for developing multi-thread multi-fronta...