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引用次数: 37
摘要
MapReduce是一个强大的数据处理平台,适用于商业和学术应用。在本文中,我们构建了一个新的Hadoop MapReduce框架,该框架在开放科学网格上执行,该网格横跨美国的多个机构- Hadoop on the Grid (HOG)。它不同于以前在集群或云等专用环境上运行的MapReduce平台。HOG在网格的机会资源上提供了一个自由、弹性和动态的MapReduce环境。在HOG中,我们通过将美国各地的数据中心映射到虚拟机架并创建多机构故障域,提高了Hadoop对广域数据分析的容错性。我们对Hadoop框架的修改对现有的Hadoop MapReduce应用程序是透明的。在评估中,我们成功地将HOG扩展到网格上的1100个节点。此外,我们用模拟的Facebook Hadoop MapReduce工作负载来评估HOG。我们得出结论,HOG的快速可伸缩性可以提供与专用Hadoop集群相当的性能。
MapReduce is a powerful data processing platform for commercial and academic applications. In this paper, we build a novel Hadoop MapReduce framework executed on the Open Science Grid which spans multiple institutions across the United States - Hadoop On the Grid (HOG). It is different from previous MapReduce platforms that run on dedicated environments like clusters or clouds. HOG provides a free, elastic, and dynamic MapReduce environment on the opportunistic resources of the grid. In HOG, we improve Hadoop's fault tolerance for wide area data analysis by mapping data centers across the U.S. to virtual racks and creating multi-institution failure domains. Our modifications to the Hadoop framework are transparent to existing Hadoop MapReduce applications. In the evaluation, we successfully extend HOG to 1100 nodes on the grid. Additionally, we evaluate HOG with a simulated Facebook Hadoop MapReduce workload. We conclude that HOG's rapid scalability can provide comparable performance to a dedicated Hadoop cluster.
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