In this paper, a parallel nonoverlapping and nonconformal domain decomposition method (DDM) is proposed for fast and accurate analysis of electrically large objects in the condition of limited resources. The formulation of nonoverlapping DDM for PEC bodies is derived from combined-field integral equation (CFIE), and an explicit boundary condition is applied to ensure the continuity of electric currents across the boundary. A parallel multilevel fast multipole algorithm (MLFMA) is extended to accelerate matrix-vector multiplications of subdomains as well as the coupling between them, and the coupling between different subdomains is computed in the manner of near field to avoid the storage of the mutual impedance. An improved adaptive directi...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...
A normalized two-dimensional (2-D) multilevel fast multi-pole algorithm (MLFMA) with a computational...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...
Nonconformal nonoverlapping domain decomposition method (DDM) with mixed basis functions is presente...
In this paper, we introduce a parallelized version of a novel, non-iterative domain decomposition al...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
large-scale problems, parallelization. We consider the solution of large scattering problems in elec...
We report the solution of the largest integral-equation problems in computational electromagnetics. ...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
Fast and accurate solutions of large-scale electromagnetics problems involving homogeneous dielectri...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
Abstract—We present an iterative inner-outer scheme for the efficient solution of large-scale electr...
Abstract. The multilevel fast multipole algorithm (MLFMA) has shown great efficiency in solving larg...
Abstract—The hybrid finite element-boundary integral-multilevel fast multipole algorithm (FE-BI-MLFM...
The fast multipole method (FMM) speeds up the matrix-vector multiply in the conjugate gradient metho...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...
A normalized two-dimensional (2-D) multilevel fast multi-pole algorithm (MLFMA) with a computational...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...
Nonconformal nonoverlapping domain decomposition method (DDM) with mixed basis functions is presente...
In this paper, we introduce a parallelized version of a novel, non-iterative domain decomposition al...
We present the solution of extremely large electromagnetics problems formulated with surface integra...
large-scale problems, parallelization. We consider the solution of large scattering problems in elec...
We report the solution of the largest integral-equation problems in computational electromagnetics. ...
We present fast and accurate solutions of very large electromagnetics problems discretized with tens...
Fast and accurate solutions of large-scale electromagnetics problems involving homogeneous dielectri...
We review non-conformal domain decomposition methods (DDMs) and their applications in solving electr...
Abstract—We present an iterative inner-outer scheme for the efficient solution of large-scale electr...
Abstract. The multilevel fast multipole algorithm (MLFMA) has shown great efficiency in solving larg...
Abstract—The hybrid finite element-boundary integral-multilevel fast multipole algorithm (FE-BI-MLFM...
The fast multipole method (FMM) speeds up the matrix-vector multiply in the conjugate gradient metho...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...
A normalized two-dimensional (2-D) multilevel fast multi-pole algorithm (MLFMA) with a computational...
Accurate simulations of real-life electromagnetics problems with integral equations require the solu...