AbstractIn the edge vector finite element solution of the frequency domain Maxwell equations, the presence of a large kernel of the discrete rotor operator is known to ruin convergence of standard iterative solvers. We extend the approach of [R. Hiptmair, Multigrid method for Maxwell’s equations, SIAM J. Numer. Anal. 36 (1) (1999) 204–225] and, using domain decomposition ideas, construct a multilevel iterative solver where the projection with respect to the kernel is combined with the use of a hierarchical representation of the vector finite elements.The new iterative scheme appears to be an efficient solver for the edge finite element solution of the frequency domain Maxwell equations. The solver can be seen as a variable preconditioner an...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
We have developed an iterative solver for the Moment Method. It computes a matrix–vector product wit...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
AbstractIn the edge vector finite element solution of the frequency domain Maxwell equations, the pr...
In the edge vector finite element solution of the frequency domain Maxwell equations, the presence o...
AbstractWe consider efficient and robust adaptive multigrid and domain decomposition methods for the...
Abstract. Maxwell equations are posed as variational boundary value problems in the function space H...
In this paper we focus on high order finite element approximations of the electric field combined wi...
In this work, we present scalable balancing domain decomposition by constraints methods for linear s...
A widely used approach for the computation of time-harmonic electromag-netic fields is based on the ...
In the second part of this series of papers we consider highly oscillatory media. In this situation,...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
The computation of the electric or magnetic field plays a key-role in the design of efficient commun...
International audienceIn the second part of this series of papers we consider highly oscillatory med...
We consider local multigrid methods for adaptive finite element and adaptive edge element discretize...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
We have developed an iterative solver for the Moment Method. It computes a matrix–vector product wit...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...
AbstractIn the edge vector finite element solution of the frequency domain Maxwell equations, the pr...
In the edge vector finite element solution of the frequency domain Maxwell equations, the presence o...
AbstractWe consider efficient and robust adaptive multigrid and domain decomposition methods for the...
Abstract. Maxwell equations are posed as variational boundary value problems in the function space H...
In this paper we focus on high order finite element approximations of the electric field combined wi...
In this work, we present scalable balancing domain decomposition by constraints methods for linear s...
A widely used approach for the computation of time-harmonic electromag-netic fields is based on the ...
In the second part of this series of papers we consider highly oscillatory media. In this situation,...
We present an elaborate preconditioning scheme for Krylov subspace methods which has been developed ...
The computation of the electric or magnetic field plays a key-role in the design of efficient commun...
International audienceIn the second part of this series of papers we consider highly oscillatory med...
We consider local multigrid methods for adaptive finite element and adaptive edge element discretize...
The Finite Element Tearing and Interconnecting (FETI) and its variants are probably the most celebra...
We have developed an iterative solver for the Moment Method. It computes a matrix–vector product wit...
Efficiency of a 3-D electromagnetic numerical modelling scheme is critical for its future use within...