A Realistic Integrated Model of Parallel System Workloads

2010 10th IEEE/ACM International Conference on Cluster, Cloud and Grid Computing Pub Date : 2010-05-17 DOI:10.1109/CCGRID.2010.32

T. Minh, L. Wolters, D. Epema

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引用次数: 33

Abstract

Performance evaluation is a significant step in the study of scheduling algorithms in large-scale parallel systems ranging from supercomputers to clusters and grids. One of the key factors that have a strong effect on the evaluation results is the workloads (or traces) used in experiments. In practice, several researchers use unrealistic synthetic workloads in their scheduling evaluations because they lack models that can help generate realistic synthetic workloads. In this paper we propose a full model to capture the following characteristics of real parallel system workloads: 1) long range dependence in the job arrival process, 2) temporal and spatial burstiness, 3) bag-oftasks behaviour, and 4) correlation between the runtime and the number of processors. Validation of our model with real traces shows that our model not only captures the above characteristics but also fits the marginal distributions well. In addition, we also present an approach to quantify burstiness in a job arrival process (temporal) as well as burstiness in the load of a trace (spatial).

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并行系统负载的现实集成模型

在从超级计算机到集群和网格的大规模并行系统中，性能评估是研究调度算法的重要步骤。对评估结果有很大影响的关键因素之一是实验中使用的工作量(或轨迹)。实际上，一些研究人员在他们的调度评估中使用了不现实的合成工作负载，因为他们缺乏可以帮助生成实际合成工作负载的模型。在本文中，我们提出了一个完整的模型来捕捉真实并行系统工作负载的以下特征:1)作业到达过程中的长距离依赖性，2)时间和空间突发性，3)任务袋行为，以及4)运行时和处理器数量之间的相关性。用真实迹线对模型进行了验证，结果表明，该模型不仅能很好地捕捉上述特征，而且能很好地拟合边际分布。此外，我们还提出了一种方法来量化工作到达过程中的突发性(时间)以及轨迹负载中的突发性(空间)。

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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来源期刊

2010 10th IEEE/ACM International Conference on Cluster, Cloud and Grid Computing

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