Add to ORKGLarge electromagnetic scattering and radiation problems are tackled by iterative solvers, which require the use of huge preconditioners. Most often, the incomplete LU decomposition (ILU) of the preconditioner is applied to the system matrix at each iteration. However, the preconditioner ILU cannot be done in-core when the size of the preconditioning matrix exceeds the available memory. This paper presents a new preconditioning scheme to do the preconditioner ILU in small blocks that fit in core memory. The resulting approach allows the solution of very large problems in small computers.Peer Reviewe
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
For iterative solutions of large and difficult integral-equation problems in computational electroma...
AbstractWe propose new parallelizable block ILU (incomplete LU) factorization preconditioners for a ...
Large electromagnetic scattering and radiation problems are tackled by iterative solvers, which req...
[EN] Computational electromagnetics based on the solution of the integral form of Maxwell s equatio...
Incomplete LU (ILU) preconditioning is typically used when an iterative solver is applied on an asym...
For a fast simulation of interconnect structures we consider preconditioned iterative solution metho...
A formulation of the Method of Moments (MoM) impedance matrix is presented that facilitates discussi...
Iterative solution of large-scale scattering problems in computational electromagnetics with the mul...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
We present a class of parallel preconditioning strategies built on a multilevel block incomplete LU ...
Recently, substantial progress has been made in the development of multilevel ILU-factorizations. Th...
We propose novel parallel preconditioning schemes for the iterative solution of integral equation me...
Incomplete LU (ILU) factorizations are popular preconditioning techniques for solving large linear s...
Abstract. For iterative solutions of large and difficult integral-equation problems in computa-tiona...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
For iterative solutions of large and difficult integral-equation problems in computational electroma...
AbstractWe propose new parallelizable block ILU (incomplete LU) factorization preconditioners for a ...
Large electromagnetic scattering and radiation problems are tackled by iterative solvers, which req...
[EN] Computational electromagnetics based on the solution of the integral form of Maxwell s equatio...
Incomplete LU (ILU) preconditioning is typically used when an iterative solver is applied on an asym...
For a fast simulation of interconnect structures we consider preconditioned iterative solution metho...
A formulation of the Method of Moments (MoM) impedance matrix is presented that facilitates discussi...
Iterative solution of large-scale scattering problems in computational electromagnetics with the mul...
This paper presents a study of the scaling with frequency (computational complexity) of precondition...
We present a class of parallel preconditioning strategies built on a multilevel block incomplete LU ...
Recently, substantial progress has been made in the development of multilevel ILU-factorizations. Th...
We propose novel parallel preconditioning schemes for the iterative solution of integral equation me...
Incomplete LU (ILU) factorizations are popular preconditioning techniques for solving large linear s...
Abstract. For iterative solutions of large and difficult integral-equation problems in computa-tiona...
For the iterative solutions of the integral equation methods employing the multilevel fast multipole...
For iterative solutions of large and difficult integral-equation problems in computational electroma...
AbstractWe propose new parallelizable block ILU (incomplete LU) factorization preconditioners for a ...