基于网格的材料工程PSE (GPEM)

Seventh IEEE International Symposium on Cluster Computing and the Grid (CCGrid '07) Pub Date : 2007-05-14 DOI:10.1109/CCGRID.2007.55

Mohamed Salahuddin, Terence Hung, Harold Soh, E. Sulaiman, Y. Ong, Bu-Sung Lee, Ren Yunxia

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引用次数: 3

摘要

复杂材料和产品的设计和工程通常需要科学、材料和工程领域专家之间复杂的互动，以及利用各种软件系统进行发现和优化。如果听任其发展，设计工程师很可能会不知所措，不知道如何与多学科过程的整个随行人员以及所涉及的计算密集型和数据密集型活动的性质打交道。本文通过开发基于网格的材料工程问题解决环境(GPEM)描述了一种可能的解决方案。GPEM旨在提供一站式平台，工程师将在其中进行材料发现、设计优化和材料表征，网格计算是使能技术。在详细描述了工艺流程和所采用的体系结构设计的基础上，本文将介绍GPEM在分形结构设计优化中的实现现状。

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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Grid-based PSE for Engineering of Materials (GPEM)

The design and engineering of complex materials and products often requires intricate interactions between domain experts in science, material and engineering as well as the utilization of diverse software systems for discovery and optimization. If left as it is, design engineers would most likely be at a loss on how to engage the entire entourage of the multi- disciplinary processes as well as the compute-intensive and data-intensive nature of the activities involved. This paper describes a possible solution through the development of a Grid-based Problem Solving Environment for Engineering of Materials (GPEM). The GPEM aims to provide a one-stop platform where engineers will perform material discovery, design optimization and material characterization, with grid computing as the enabling technology. Upon describing the details of the process workflow and the adopted architecture design, the paper will present the current implementation of GPEM, in the design optimization of fractal structures.

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Seventh IEEE International Symposium on Cluster Computing and the Grid (CCGrid '07)

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