A novel fast scalable parallel algorithm is proposed for the solution of large 3-D scattering problems based on: 1) the double (geometrical and current-approximation) higher order (DHO) method of moments (MoM) in the surface integral equation (SIE) formulation and 2) a direct solver for dense linear systems utilizing hierarchically semiseparable (HSS) structures. Namely, an HSS matrix representation is used for compression, factorization, and solution of the system matrix. In addition, a rank-revealing QR decomposition for memory compression is used, with a stopping criterion in terms of the relative rank tolerance value. A method for geometrical preprocessing of the scatterers based on the cobblestone distance sorting technique is employed...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present the solution of large-scale scattering problems discretized with hundreds of millions of ...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
Recently, a set of novel, grid-robust, higher-order vector basis functions were proposed for the met...
Hierarchically semiseparable (HSS) matrix algorithms are emerging techniques in constructing the sup...
A higher order multilevel fast multipole algorithm (MLFMA) is presented for solving integral equatio...
International audienceNumerical solution methods for electromagnetic scattering problems lead to lar...
We present fast and accurate solutions of large-scale scattering problems involving three-dimensiona...
We present fast and accurate solutions of large-scale scattering problems formulated with the combin...
large-scale problems, parallelization. We consider the solution of large scattering problems in elec...
Abstract—An efficient higher order MLFMA is developed by using an “extended-tree”. With this extende...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerate...
We present fast and accurate solutions of extremely large scattering problems involving three-dimens...
We present a new algorithm for the numerical solution of problems of acoustic scatter-ing by surface...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present the solution of large-scale scattering problems discretized with hundreds of millions of ...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
Recently, a set of novel, grid-robust, higher-order vector basis functions were proposed for the met...
Hierarchically semiseparable (HSS) matrix algorithms are emerging techniques in constructing the sup...
A higher order multilevel fast multipole algorithm (MLFMA) is presented for solving integral equatio...
International audienceNumerical solution methods for electromagnetic scattering problems lead to lar...
We present fast and accurate solutions of large-scale scattering problems involving three-dimensiona...
We present fast and accurate solutions of large-scale scattering problems formulated with the combin...
large-scale problems, parallelization. We consider the solution of large scattering problems in elec...
Abstract—An efficient higher order MLFMA is developed by using an “extended-tree”. With this extende...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerate...
We present fast and accurate solutions of extremely large scattering problems involving three-dimens...
We present a new algorithm for the numerical solution of problems of acoustic scatter-ing by surface...
We present a new algorithm for the numerical solution of problems of acoustic scattering by surfaces...
We present the solution of large-scale scattering problems discretized with hundreds of millions of ...
We present the solution of extremely large electromagnetics problems formulated with surface integra...