计算机科学 ›› 2011, Vol. 38 ›› Issue (5): 127-128.
• 软件工程 • 上一篇 下一篇
周静静,盛鑫芽
出版日期:
发布日期:
基金资助:
ZHOU Jing-jing,SHENG Xin-ya
Online:
Published:
摘要: 基于构件的程序设计是解决高性能科学计算软件开发复杂度高、周期长的重要途径。首先介绍了CCA(Common Component Architecture)论坛提出的针对高性能科学计算的构件体系结构。然后介绍了CCA构件程序设计方法,分析了其设计原理和实现思想。并基于CCA环境设计实现了一款偏微分方程线性解法器。对构件化软件与传统并行程序的性能进行了比较,分析了构件化软件的优势。
关键词: CCA,构件技术,线性解法器
Abstract: Programming based on component is an important way for decreasing complexity and program development time in high performance computing. In this paper we introduced CCA, which is a component architecture towards HPC. Programming in CCA environment, design and implementation of CCA were also discussed. According to design and implement linear system solver,people can realize advantages of HPC software based on component Result of experiment shows different performance between running MPI application and component application.
Key words: CCA, Component technology, I_incar system solvcr
周静静,盛鑫芽. CCA环境下构件化线性解法器的设计[J]. 计算机科学, 2011, 38(5): 127-128. https://doi.org/
ZHOU Jing-jing,SHENG Xin-ya. Design of Linear System Solver on CCA[J]. Computer Science, 2011, 38(5): 127-128. https://doi.org/
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