系统级的高性能计算网格容错

M. Mujumdar, Meenakshi Bheevgade, L. Malik, R. Patrikar
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引用次数: 2

摘要

许多复杂的科学、数学应用需要大量的时间来完成。为了解决这个问题,并行化被广泛使用。将应用程序分发到几台机器上是网格计算的关键方面之一。本文研究了一种检查点/重启机制,用于解决计算网格中失效节点上的作业挂起问题。检查点正在运行的应用程序并在稍后重新启动它的能力可以提供许多有用的好处,包括通过将应用程序回滚到以前的检查点进行故障恢复、高级资源共享、通过从检查点重新启动应用程序而不是从头开始重新启动应用程序来缩短应用程序响应时间,以及改进的系统利用率、高效的高性能计算和改进的服务可用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Performance Computational Grids Fault Tolerance at System Level
Many complex scientific, mathematical applications require large time for completion. To deal with this issue, parallelization is popularly used. Distributing an application onto several machines is one of the key aspects of grid-computing. This paper focuses on a check point/restart mechanism used to overcome the problem of job suspension at a failed node in a computational Grid. The ability to checkpoint a running application and restart it later can provide many useful benefits including fault recovery by rolling back an application to a previous checkpoint, advanced resources sharing, better application response time by restarting applications from checkpoints instead of from scratch, and improved system utilization, efficient high performance computing and improved service availability.
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