International audienceThis work is concerned with the numerical treatment of the system of three-dimensional frequency-domain (or time-harmonic) Maxwell equations using a high order hybridizable dis-continuous Galerkin (HDG) approximation method combined to domain decomposition (DD) based hybrid iterative-direct parallel solution strategies. The proposed HDG method preserves the advantages of classical DG methods previously introduced for the time-domain Maxwell equations, in particular in terms of accuracy and flexibility with regards to the discretization of complex geometrical features, while keeping the computational efficiency at the level of the reference edge element based finite element formulation widely adopted for the considered ...
In this paper, we study a bybridizable discontinuous Galerkin (HDG) method for the numerical solutio...
International audienceThe paper discusses high-order geometrical mapping for handling curvilinear ge...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
International audienceThis work is concerned with the numerical treatment of the system of three-dim...
International audienceDiscontinuous Galerkin (DG) methods have ben extensively studied in the last t...
International audienceWe present an explicit hybridizable discontinuous Galerkin (HDG) method for nu...
International audienceHDG method is a new class of DG family with significantly less globally couple...
International audienceA Schwarz-type domain decomposition method is presented for the solution of th...
Les équations de Maxwell en régime harmonique comportent plusieurs difficultés lorsque la fréquence ...
National audienceHybridized discontinuous Galerkin methods preserve the advantages of classical disc...
International audienceWe present a time-implicit hybridizable discontinuous Galerkin (HDG) method fo...
International audienceWe report on results concerning a discontinuous Galerkin time domain (DGTD) me...
The hybridized discontinuous Galerkin methods (HDG) introduced a decade ago is a promising candidate...
International audienceWe report on recent efforts towards the development of a high order, non-confo...
We present here a domain decomposition method for solving the three-dimensional time-harmonic Maxwel...
In this paper, we study a bybridizable discontinuous Galerkin (HDG) method for the numerical solutio...
International audienceThe paper discusses high-order geometrical mapping for handling curvilinear ge...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...
International audienceThis work is concerned with the numerical treatment of the system of three-dim...
International audienceDiscontinuous Galerkin (DG) methods have ben extensively studied in the last t...
International audienceWe present an explicit hybridizable discontinuous Galerkin (HDG) method for nu...
International audienceHDG method is a new class of DG family with significantly less globally couple...
International audienceA Schwarz-type domain decomposition method is presented for the solution of th...
Les équations de Maxwell en régime harmonique comportent plusieurs difficultés lorsque la fréquence ...
National audienceHybridized discontinuous Galerkin methods preserve the advantages of classical disc...
International audienceWe present a time-implicit hybridizable discontinuous Galerkin (HDG) method fo...
International audienceWe report on results concerning a discontinuous Galerkin time domain (DGTD) me...
The hybridized discontinuous Galerkin methods (HDG) introduced a decade ago is a promising candidate...
International audienceWe report on recent efforts towards the development of a high order, non-confo...
We present here a domain decomposition method for solving the three-dimensional time-harmonic Maxwel...
In this paper, we study a bybridizable discontinuous Galerkin (HDG) method for the numerical solutio...
International audienceThe paper discusses high-order geometrical mapping for handling curvilinear ge...
International audienceWe are interested here in the numerical modeling of time-harmonic electromagne...