In this talk we will present recent advances in the construction of quasi-optimal domain decomposition methods for time-harmonic electromagnetic wave problems. In particular, we will discuss the parallel implementation and computational efficiency of sweeping-type preconditioners, as well as the use of high order finite element discretizations, potentially mixing orders for the volume and interface formulations. Results on several large scale test cases will be analysed
Three non-overlapping domain decomposition methods are proposed for the numerical approximation of t...
The construction of fast iterative solvers for the indefinite time-harmonic Maxwell's system at high...
International audienceWe present a flexible finite element solver for testing optimized Schwarz doma...
Classically, domain decomposition methods (DDM) for time-harmonic electromagnetic wave propagation p...
Abstract. We present a domain decomposition method (DDM) devoted to the iter-ative solution of time-...
International audienceThis paper presents a new non-overlapping domain decomposition method for the ...
It is well known that the scope and application of numerically-rigorous techniques for full-wave ele...
This paper rigorously analyses preconditioning the time-harmonic Maxwell equations with absorption, ...
Sweeping-type algorithms have recently gained a lot of interest for the solution of highfrequency ti...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
Sweeping-type algorithms have recently gained a lot of interest for the solution of highfrequency ti...
We present a preconditioned iterative method for the finite element (FE) solution of time-harmonic e...
The time-harmonic Maxwell equations describe the propagation of electromag-netic waves and are there...
International audienceThe time-harmonic Maxwell equations describe the propagation of electromagneti...
Three non-overlapping domain decomposition methods are proposed for the numerical approximation of t...
The construction of fast iterative solvers for the indefinite time-harmonic Maxwell's system at high...
International audienceWe present a flexible finite element solver for testing optimized Schwarz doma...
Classically, domain decomposition methods (DDM) for time-harmonic electromagnetic wave propagation p...
Abstract. We present a domain decomposition method (DDM) devoted to the iter-ative solution of time-...
International audienceThis paper presents a new non-overlapping domain decomposition method for the ...
It is well known that the scope and application of numerically-rigorous techniques for full-wave ele...
This paper rigorously analyses preconditioning the time-harmonic Maxwell equations with absorption, ...
Sweeping-type algorithms have recently gained a lot of interest for the solution of highfrequency ti...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
Sweeping-type algorithms have recently gained a lot of interest for the solution of highfrequency ti...
We present a preconditioned iterative method for the finite element (FE) solution of time-harmonic e...
The time-harmonic Maxwell equations describe the propagation of electromag-netic waves and are there...
International audienceThe time-harmonic Maxwell equations describe the propagation of electromagneti...
Three non-overlapping domain decomposition methods are proposed for the numerical approximation of t...
The construction of fast iterative solvers for the indefinite time-harmonic Maxwell's system at high...
International audienceWe present a flexible finite element solver for testing optimized Schwarz doma...