The Multiscale Compressed Block Decomposition algorithm (MS-CBD), a direct (non-iterative) linear solver, is applied to accelerate the solution of the MoM-VIE formulation for dielectric scatterers. Numerical solutions are presented for problems with several hundreds of thousands of unknowns. Asymptotically (with respect to the electrical size of the problem), the solution time scales with the number of unknowns squared. The numerical examples confirm this theoretical value.Peer Reviewe
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...
Fast and accurate solutions of electromagnetic scattering problems involving lossy dielectric object...
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...
algorithm (MS-CBD), a direct (non-iterative) linear solver, is applied to accelerate the solution of...
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerate...
A novel algorithm, the compressed block decomposition (CBD), is presented for highly accelerated dir...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
Recently, a set of novel, grid-robust, higher-order vector basis functions were proposed for the met...
A comparison is presented between different algorithms for direct (non-iterative) accelerated soluti...
The recently published FMIR-MoM (Frequency and Material Independent Reactions for the Method of Mome...
We consider the solution of electromagnetic scattering problems involving relatively large dielectri...
In this paper, we describe a new and efficient strategy for solving linear system of equations arisi...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
The Method of Moments (MoM) is deeply described and used for the analysis of electromagnetic (EM) ra...
A novel preconditioning scheme for Method of Moment computations is proposed. It consists of an adap...
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...
Fast and accurate solutions of electromagnetic scattering problems involving lossy dielectric object...
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...
algorithm (MS-CBD), a direct (non-iterative) linear solver, is applied to accelerate the solution of...
The multiscale compressed block decomposition algorithm (MS-CBD) is presented for highly accelerate...
A novel algorithm, the compressed block decomposition (CBD), is presented for highly accelerated dir...
This paper addresses the direct (noniterative) solution of the method-of-moments (MoM) linear system...
Recently, a set of novel, grid-robust, higher-order vector basis functions were proposed for the met...
A comparison is presented between different algorithms for direct (non-iterative) accelerated soluti...
The recently published FMIR-MoM (Frequency and Material Independent Reactions for the Method of Mome...
We consider the solution of electromagnetic scattering problems involving relatively large dielectri...
In this paper, we describe a new and efficient strategy for solving linear system of equations arisi...
3D full-wave Method of Moments (MoM) is a well established method to solve Maxwell's equations numer...
The Method of Moments (MoM) is deeply described and used for the analysis of electromagnetic (EM) ra...
A novel preconditioning scheme for Method of Moment computations is proposed. It consists of an adap...
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...
Fast and accurate solutions of electromagnetic scattering problems involving lossy dielectric object...
A butterfly-accelerated volume integral equation (VIE) solver is proposed for fast and accurate elec...