Add to ORKGThe paper presents and compares two nonoverlapping domain decomposition methods (DDMs), which can be used to the parallelization of the finite element method (FEM) with edge element approximation. In this case, the methods under investigation are the Schur complement method and the Lagrange multiplier based Finite Element Tearing and Interconnecting (FETI) method, and their solvers. The performance of these methods has been investigated in detail for eddy current field problems as case studies
Various types of numerical analysis methods for electromagnetic problems have been established and f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
The contribution describes application of parallel computing for numerical solution of boundary valu...
Because of the exponential increase of computational resource requirement for numerical field simula...
Because of the exponential increase of computational resource requirement for numerical field simula...
The aim of this paper is to give a unified comparison of non-overlapping domain decomposition method...
Finite element method using edge element have been developed and utilized for practical eddy current...
A mixed method using both Whitney and linear edge elements for eddy current finite element analy...
International audienceThis paper presents new trends in parallel methods used to solve finite elemen...
International audienceThis paper presents new trends in parallel methods used to solve finite elemen...
In this dissertation, advanced and robust numerical algorithms are developed to expand the capabilit...
ii In this dissertation, advanced and robust numerical algorithms are developed to expand the capabi...
In this article, a novel edge-domain decomposition (EDD) method is proposed to solve 3-D nonlinear f...
This paper discusses mathematical properties of preconditioned finite-element matrices based on vect...
Especially for higher frequencies, 3-d eddy current analysis usual requires a very fine division mes...
Various types of numerical analysis methods for electromagnetic problems have been established and f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
The contribution describes application of parallel computing for numerical solution of boundary valu...
Because of the exponential increase of computational resource requirement for numerical field simula...
Because of the exponential increase of computational resource requirement for numerical field simula...
The aim of this paper is to give a unified comparison of non-overlapping domain decomposition method...
Finite element method using edge element have been developed and utilized for practical eddy current...
A mixed method using both Whitney and linear edge elements for eddy current finite element analy...
International audienceThis paper presents new trends in parallel methods used to solve finite elemen...
International audienceThis paper presents new trends in parallel methods used to solve finite elemen...
In this dissertation, advanced and robust numerical algorithms are developed to expand the capabilit...
ii In this dissertation, advanced and robust numerical algorithms are developed to expand the capabi...
In this article, a novel edge-domain decomposition (EDD) method is proposed to solve 3-D nonlinear f...
This paper discusses mathematical properties of preconditioned finite-element matrices based on vect...
Especially for higher frequencies, 3-d eddy current analysis usual requires a very fine division mes...
Various types of numerical analysis methods for electromagnetic problems have been established and f...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
The contribution describes application of parallel computing for numerical solution of boundary valu...