Scalable Performance Environments for Parallel Systems

Daniel A. Reed, R. D. Olson, R. Aydt, Tara M. Madhyastha, T. Birkett, David W. Jensen, B. Nazief, B. K. Totty
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引用次数: 111

Abstract

As parallel systems expand in size and complexity, the absence of performance tools for these parallel systems exacerbates the already difficult problems of application program and system software performance tuning. Moreover, given the pace of technological change, we can no longer afford to develop ad hoc, one-of-a-kind performance instrumentation software; we need scalable, portable performance analysis tools. We describe an environment prototype based on the lessons learned from two previous generations of performance data analysis software. Our environment prototype contains a set of performance data transformation modules that can be interconnected in user-specified ways. It is the responsibility of the environment infrastructure to hide details of module interconnection and data sharing. The environment is written in C++ with the graphical displays based on X windows and the Motif toolkit. It allows users to interconnect and configure modules graphically to form an acyclic, directed data analysis graph. Performance trace data are represented in a self-documenting stream format that includes internal definitions of data types, sizes, and names. The environment prototype supports the use of head-mounted displays and sonic data presentation in addition to the traditional use of visual techniques.
并行系统的可扩展性能环境
随着并行系统在规模和复杂性上的扩展,这些并行系统的性能工具的缺乏加剧了应用程序和系统软件性能调优的困难问题。此外,考虑到技术变革的步伐,我们再也负担不起开发专门的、独一无二的性能仪表软件;我们需要可扩展的、便携的性能分析工具。我们根据从前两代性能数据分析软件中吸取的经验教训描述了一个环境原型。我们的环境原型包含一组性能数据转换模块,这些模块可以以用户指定的方式相互连接。隐藏模块互连和数据共享的细节是环境基础设施的责任。环境是用c++编写的,具有基于X窗口的图形显示和Motif工具包。它允许用户以图形方式互连和配置模块,以形成无循环、有向的数据分析图。性能跟踪数据以自文档流格式表示,该格式包括数据类型、大小和名称的内部定义。除了传统的视觉技术外,环境原型还支持使用头戴式显示器和声音数据呈现。
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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