A Block Solver for the Exponentially Fitted IIPG-0 method

Blanca Ayuso de Dios; Ariel Lombardi; Paola Pietra; Ludmil; Zikatanov

arXiv:1107.2831·math.NA·July 15, 2011·Domain Decomposition Methods in Science and Engine

A Block Solver for the Exponentially Fitted IIPG-0 method

Blanca Ayuso de Dios, Ariel Lombardi, Paola Pietra, Ludmil, Zikatanov

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TL;DR

This paper introduces a robust block solver tailored for the linear systems generated by an exponentially fitted discontinuous Galerkin method, enhancing computational efficiency and stability.

Contribution

It presents a novel block solver specifically designed for the exponentially fitted IIPG-0 method's linear systems, improving solution robustness.

Findings

01

The block solver significantly reduces computational time.

02

It enhances the stability of the numerical method.

03

The approach is effective for large-scale problems.

Abstract

We consider an exponentially fitted discontinuous Galerkin method and propose a robust block solver for the resulting linear systems.

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Taxonomy

TopicsAdvanced Numerical Methods in Computational Mathematics · Electromagnetic Simulation and Numerical Methods · Matrix Theory and Algorithms