支持基于组件的高性能科学应用程序的自我管理

HPDC-14. Proceedings. 14th IEEE International Symposium on High Performance Distributed Computing, 2005. Pub Date : 2005-07-24 DOI:10.1109/HPDC.2005.1520936

Hua Liu, M. Parashar

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引用次数: 23

摘要

新兴的高性能并行/分布式科学应用和环境日益庞大、动态和复杂。因此，它需要编程系统，使应用程序能够通过调整其计算行为和交互来检测和动态响应不断变化的需求、状态和执行上下文。在本文中，我们提出了这样一个编程系统，它扩展了通用组件体系结构，使基于组件的科学应用程序能够自我管理。编程系统对科学应用程序的操作需求进行分离和分类，并允许在运行时通过重新配置、优化和修复单个组件和应用程序来指定和执行这些需求。用两个科学模拟来说明该系统及其自我管理行为。并给出了性能评价。

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Enabling self-management of component-based high-performance scientific applications

Emerging high-performance parallel/distributed scientific applications and environments are increasingly large, dynamic and complex. As a result, it requires programming systems that enable the applications to detect and dynamically respond to changing requirements, state and execution context by adapting their computational behaviors and interactions. In this paper, we present such a programming system that extends the common component architecture to enable self-management of component-based scientific applications. The programming system separates and categorizes operational requirements of scientific applications, and allows them to be specified and enforced at runtime through reconfiguration, optimization and healing of individual components and the application. Two scientific simulations are used to illustrate the system and its self-managing behaviors. A performance evaluation is also presented.

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HPDC-14. Proceedings. 14th IEEE International Symposium on High Performance Distributed Computing, 2005.

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