Weighted locality-sensitive scheduling for mitigating noise on multi-core clusters

2011 18th International Conference on High Performance Computing Pub Date : 2011-12-18 DOI:10.1109/HiPC.2011.6152722

Vivek Kale, A. Bhatele, W. Gropp

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引用次数: 2

Abstract

Recent studies have shown that operating system (OS) interference, popularly called OS noise can be a significant problem as we scale to a large number of processors. One solution for mitigating noise is to turn off certain OS services on the machine. However, this is typically infeasible because full-scale OS services may be required for some applications. Furthermore, it is not a choice that an end user can make. Thus, we need an application-level solution. Building upon previous work that demonstrated the utility of within-node light-weight load balancing, we discuss the technique of weighted micro-scheduling and provide insights based on experimentation for two different machines with very different noise signatures. Through careful enumeration of the search space of scheduler parameters, we allow our weighted micro-scheduler to be dynamic, adaptive and tunable for a specific application running on a specific architecture. By doing this, we show how we can enable running scientific applications efficiently on a very large number of processors, even in the presence of noise.

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基于加权位置敏感调度的多核集群噪声抑制算法

最近的研究表明，当我们扩展到大量处理器时，操作系统(OS)干扰(通常称为OS噪声)可能是一个重大问题。减轻噪音的一个解决方案是关闭机器上的某些操作系统服务。然而，这通常是不可行的，因为某些应用程序可能需要全面的操作系统服务。此外，这不是最终用户可以做出的选择。因此，我们需要一个应用程序级的解决方案。在先前展示节点内轻量级负载平衡效用的工作的基础上，我们讨论了加权微调度技术，并基于具有非常不同噪声特征的两台不同机器的实验提供了见解。通过仔细枚举调度器参数的搜索空间，我们允许我们的加权微调度器对于运行在特定架构上的特定应用程序是动态的、自适应的和可调的。通过这样做，我们展示了如何在大量处理器上高效地运行科学应用程序，即使存在噪声。

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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2011 18th International Conference on High Performance Computing

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