Low-Cost High Performance Infrastructure for Domain-Decomposition Methods in Computational Electromagnetics

2011 International Conference on P2P, Parallel, Grid, Cloud and Internet Computing Pub Date : 2011-10-26 DOI:10.1109/3PGCIC.2011.24

O. Terzo, P. Ruiu, L. Mossucca, G. Caragnano, M. Francavilla, F. Vipiana

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引用次数: 3

Abstract

Computational Electromagnetics (CEM) is a technique used to simulate the interaction of electromagnetic fields with structures in a particular environment. The geometries to analyze are typically very complexes and they could be simulated with a CAD model, that can include a fine level of details. This is reflected in a higher computational effort that must be faced by high performances infrastructures. The paper addresses the potential benefit of adopting a grid computing infrastructure to solve CEM problems. In particular here we focus on a Domain Decomposition (DD) technique to reduce the complexity of a MoM analysis of large and complex structures. It was build a low-cost grid infrastructure, composed of heterogeneous recovery machines, both physical and virtual, on which to run scientific applications without the need to modify the source codes of the used algorithms. Virtualization enables the optimization of resources and simplify infrastructure management. Were carried out some performance tests to verify the time gain and the overhead introduced by the grid infrastructure.

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计算电磁学领域分解方法的低成本高性能基础架构

计算电磁学(CEM)是一种用于模拟特定环境中电磁场与结构相互作用的技术。要分析的几何形状通常非常复杂，它们可以用CAD模型模拟，其中可以包含精细的细节。这反映在高性能基础设施必须面对的更高的计算工作量上。本文讨论了采用网格计算基础设施来解决CEM问题的潜在好处。在这里，我们特别关注域分解(DD)技术，以减少大型复杂结构的MoM分析的复杂性。它建立了一个低成本的网格基础设施，由物理和虚拟的异构恢复机器组成，在其上运行科学应用程序，而无需修改所用算法的源代码。虚拟化可以优化资源，简化基础设施管理。进行了一些性能测试，以验证网格基础设施带来的时间增益和开销。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2011 International Conference on P2P, Parallel, Grid, Cloud and Internet Computing

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