并行程序的编写、调试和性能分析十分复杂和困难,极大地阻碍了并行计算的普及,因此需要一个较完善的并行程序开发环境来帮助开发并行程序、监视程序运行和分析程序的性能,以减轻并行程序开发者的困难。本文针对消息传递类型的并行程序,...并行程序的编写、调试和性能分析十分复杂和困难,极大地阻碍了并行计算的普及,因此需要一个较完善的并行程序开发环境来帮助开发并行程序、监视程序运行和分析程序的性能,以减轻并行程序开发者的困难。本文针对消息传递类型的并行程序,研究并开发了一种可视化并行程序开发环境GPPDS(Graphical Parallel Program Development System),包括图形化并行程序开发模块、远程提交编译计算模块、性能数据监测模块以及性能可视化模块等。GPPDS是一个轻量的开发环境,功能实用、简单,便于使用。展开更多
Platform for visualization software is a kind of large and complex software system, the work to design and evolve platform for visualization software is also a complex work. This paper proposes using software architec...Platform for visualization software is a kind of large and complex software system, the work to design and evolve platform for visualization software is also a complex work. This paper proposes using software architecture to analyze and evolve a large visualization platform based plane data to a visualization platform with ability of processing both plane and volume. The result of this paper proves the reasonability of our method.展开更多
文摘并行程序的编写、调试和性能分析十分复杂和困难,极大地阻碍了并行计算的普及,因此需要一个较完善的并行程序开发环境来帮助开发并行程序、监视程序运行和分析程序的性能,以减轻并行程序开发者的困难。本文针对消息传递类型的并行程序,研究并开发了一种可视化并行程序开发环境GPPDS(Graphical Parallel Program Development System),包括图形化并行程序开发模块、远程提交编译计算模块、性能数据监测模块以及性能可视化模块等。GPPDS是一个轻量的开发环境,功能实用、简单,便于使用。
文摘Platform for visualization software is a kind of large and complex software system, the work to design and evolve platform for visualization software is also a complex work. This paper proposes using software architecture to analyze and evolve a large visualization platform based plane data to a visualization platform with ability of processing both plane and volume. The result of this paper proves the reasonability of our method.