Dimensioning Scientific Computing Systems to Improve Performance of Map-Reduce based Applications

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• 作者：Gabriel G. Castañ ; è ; ^a ; ^{ggonzalez@arcos.inf.uc3m.es} ; Alberto N&uacute ; neñ ; ^b ; Rosa Filgueira^c ; Jes&uacute ; s Carretero^a
• 关键词：Map-Reduce applications ; scientific applications ; modeling and simulation ; scientific clusters ; performance prediction
• 刊名：Procedia Computer Science
• 出版年：2012
• 期刊代码：pc74_18770509
• 类别：cp
• 出版时间：2012
• 卷：9
• 期：Complete
• 页码：226-235
• 文件大小：189 K

摘要

Map-Reduce is a programming model widely used for processing large data sets on scientific clusters. Most of the efforts and research are focused on enhancing and alleviating the drawbacks of the model proposed by Google. The requirements of Map-Reduce based applications are often unclear because of the difficulty in satisfying the overall system throughput, as well as exploring alternatives to obtain a good tradeoff between the performance of basic systems such as storage, networking and CPU. In this paper we present an evaluation of the compared performance of scaling up scientific computing systems using a Map-Reduce application model. This work is specifically focused on medium-size multi-core systems, frequently used by researchers to compute scientific applications. The scaling process is oriented towards the three main resources: computing power, communications and storage. By performing an extensive set of simulations using iCanCloud simulator, we also show that main bottlenecks of those kinds of applications executed in cluster systems are found in storage and network systems. Thence, in order to increase the overall performance of those applications, the computing power must be scaled up proportionally along the network and storage system.