Performance and cost optimization for multiple large-scale grid workflow applications

Proceedings of the 2007 ACM/IEEE Conference on Supercomputing (SC '07) Pub Date : 2007-11-16 DOI:10.1145/1362622.1362639

Rubing Duan, R. Prodan, T. Fahringer

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引用次数: 61

Abstract

Scheduling large-scale applications on the Grid is a fundamental challenge and is critical to application performance and cost. Large-scale applications typically contain a large number of homogeneous and concurrent activities which are main bottlenecks, but open great potentials for optimization. This paper presents a new formulation of the well-known NP-complete problems and two novel algorithms that addresses the problems. The optimization problems are formulated as sequential cooperative games among workflow managers. Experimental results indicate that we have successfully devised and implemented one group of effective, efficient, and feasible approaches. They can produce soultuins of significantly better performance and cost than traditional algorithms. Our algorithms have considerably low time complexity and can assign 1,000,000 activities to 10,000 processors within 0.4 second on one Opteron processor. Moreover, the solutions can be practically performed by workflow managers, and the violation of QoS can be easily detected, which are critical to fault tolerance.

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多个大规模网格工作流应用程序的性能和成本优化

在网格上调度大规模应用程序是一项基本挑战，对应用程序的性能和成本至关重要。大规模应用程序通常包含大量同构和并发的活动，这是主要的瓶颈，但也为优化打开了巨大的潜力。本文提出了一个著名的np完全问题的新公式和两个解决这些问题的新算法。优化问题被表述为工作流管理器之间的顺序合作博弈。实验结果表明，我们成功地设计并实现了一组有效、高效、可行的方法。它们可以产生比传统算法性能和成本都高得多的灵魂孪生。我们的算法具有相当低的时间复杂度，在一个Opteron处理器上，可以在0.4秒内将1,000,000个活动分配给10,000个处理器。此外，解决方案可以由工作流管理器实际执行，并且可以很容易地检测到对QoS的违反，这对容错至关重要。

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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Proceedings of the 2007 ACM/IEEE Conference on Supercomputing (SC '07)

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