A Hierarchical Approach to Maximizing MapReduce Efficiency

2011 International Conference on Parallel Architectures and Compilation Techniques Pub Date : 2011-10-10 DOI:10.1109/PACT.2011.22

Zhiwei Xiao, Haibo Chen, B. Zang

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引用次数: 6

Abstract

MapReduce has been widely recognized for its elastic scalability and fault tolerance, with the efficiency being relatively disregarded, which, however, is equally important in "pay-as-you-go" cloud systems such as Amazon's Elastic Map Reduce. This paper argues that there are multiple levels of data locality and parallelism in typical multicore clusters that affect performance. By characterizing the performance limitations of typical Map Reduce applications on multi-core based Hadoop clusters, we show that current JVM-based runtime (i.e., Task Worker) fails to exploit data locality and task parallelism at single-node level. Based on the study, we extend Hadoop with a hierarchical Map Reduce model and seamlessly integrate an efficient multicore Map Reduce runtime to Hadoop, resulting in a system we called Azwraith. Such a hierarchical scheme enables Map Reduce applications to explore locality and parallelism at both cluster level and single-node level. To reuse data across job boundary, we also extend Azwraith with an effective in-memory cache scheme that significantly reduces networking and disk traffics. Performance evaluation on a small-scale cluster show that, Azwraith, combined with the optimizations, outperforms Hadoop from 1.4x to 3.5x.

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最大化MapReduce效率的分层方法

MapReduce因其弹性可伸缩性和容错性而被广泛认可，而效率相对被忽视，然而，这在Amazon的elastic MapReduce等“按需付费”的云系统中同样重要。本文认为，在典型的多核集群中，存在多级数据局部性和并行性，这会影响性能。通过描述基于多核Hadoop集群的典型Map Reduce应用程序的性能限制，我们表明当前基于jvm的运行时(即Task Worker)无法在单节点级别利用数据局部性和任务并行性。在此基础上，我们使用分层Map Reduce模型扩展Hadoop，并将高效的多核Map Reduce运行时无缝集成到Hadoop中，从而形成了一个我们称之为Azwraith的系统。这种分层方案使Map Reduce应用程序能够在集群级和单节点级探索局部性和并行性。为了跨作业边界重用数据，我们还使用有效的内存缓存方案扩展了Azwraith，该方案显著减少了网络和磁盘流量。在一个小规模集群上的性能评估表明，Azwraith经过优化后，性能比Hadoop高出1.4倍到3.5倍。

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 International Conference on Parallel Architectures and Compilation Techniques

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