高能物理应用中网格数据农场架构的调度和复制算法的性能分析

High Performance Distributed Computing, 2003. Proceedings. 12th IEEE International Symposium on Pub Date : 2003-06-22 DOI:10.1109/HPDC.2003.1210014

A. Takefusa, O. Tatebe, S. Matsuoka, Y. Morita

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引用次数: 60

摘要

数据网格是一种用于无处不在的大规模数据访问和分析的网格。由于Data Grid还处于开发的早期阶段，其pb级模型在实际数据处理环境中的性能还没有得到很好的研究。通过增强我们的Bricks Grid模拟器以适应数据网格场景，我们调查并比较了不同数据网格模型的性能。这些模型主要分为中心模型和层模型;他们在网格数据农场系统上对CERN大型强子对撞机实验作业处理的现实假设下采用了各种调度和复制策略。我们的结果表明，中心模型是有效的，但层模型，其更大的资源和推测类的后台复制策略，是相当有效的，实现更高的性能，而每个层都比中心模型小。

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Performance analysis of scheduling and replication algorithms on Grid Datafarm architecture for high-energy physics applications

Data Grid is a Grid for ubiquitous access and analysis of large-scale data. Because Data Grid is in the early stages of development, the performance of its petabyte-scale models in a realistic data processing setting has not been well investigated. By enhancing our Bricks Grid simulator to accommodated Data Grid scenarios, we investigate and compare the performance of different Data Grid models. These are categorized mainly as either central or tier models; they employ various scheduling and replication strategies under realistic assumptions of job processing for CERN LHC experiments on the Grid Datafarm system. Our results show that the central model is efficient but that the tier model, with its greater resources and its speculative class of background replication policies, are quite effective and achieve higher performance, while each tier is smaller than the central model.

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High Performance Distributed Computing, 2003. Proceedings. 12th IEEE International Symposium on

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