untah:一个大规模并行解决问题的环境

Proceedings the Ninth International Symposium on High-Performance Distributed Computing Pub Date : 2000-08-01 DOI:10.1109/HPDC.2000.868632

J., Davison de St. Germain, J. McCorquodale, S. Parker, Christopher R. Johnson

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引用次数: 195

摘要

描述了一个基于组件的可视化问题解决环境(PSE)，专门用于解决在太大规模计算平台上大规模并行计算的独特问题。untah支持科学应用的整个生命周期，允许科学程序员快速轻松地开发新技术，调试新实现并应用已知算法来解决新问题。inttah建立在三个原则之上:(1)尽可能多地为科学家处理并行执行的复杂性，(2)软件应该在组件级别上可重用，(3)科学家应该能够在仿真执行时动态地引导和可视化他们的仿真结果。为了提供这一功能，inttah建立在SCIRun(科学计算和成像运行时)PSE和DoE(能源部)通用组件体系结构(CCA)的最佳特性之上。

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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Uintah: a massively parallel problem solving environment

Describes Uintah, a component-based visual problem-solving environment (PSE) that is designed to specifically address the unique problems of massively parallel computation on tera-scale computing platforms. Uintah supports the entire life-cycle of scientific applications by allowing scientific programmers to quickly and easily develop new techniques, debug new implementations and apply known algorithms to solve novel problems. Uintah is built on three principles: (1) as much as possible, the complexities of parallel execution should be handled for the scientist, (2) the software should be reusable at the component level, and (3) scientists should be able to dynamically steer and visualize their simulation results as the simulation executes. To provide this functionality, Uintah builds upon the best features of the SCIRun (Scientific Computing and Imaging Run-time) PSE and the DoE (Department of Energy) Common Component Architecture (CCA).

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Proceedings the Ninth International Symposium on High-Performance Distributed Computing

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