Semantic stream query optimization exploiting dynamic metadata

2011 IEEE 27th International Conference on Data Engineering Pub Date : 2011-04-11 DOI:10.1109/ICDE.2011.5767840

L. Ding, Karen Works, Elke A. Rundensteiner

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引用次数: 16

Abstract

Data stream management systems (DSMS) processing long-running queries over large volumes of stream data must typically deliver time-critical responses. We propose the first semantic query optimization (SQO) approach that utilizes dynamic substream metadata at runtime to find a more efficient query plan than the one selected at compilation time. We identify four SQO techniques guaranteed to result in performance gains. Based on classic satisfiability theory we then design a lightweight query optimization algorithm that efficiently detects SQO opportunities at runtime. At the logical level, our algorithm instantiates multiple concurrent SQO plans, each processing different partially overlapping substreams. Our novel execution paradigm employs multi-modal operators to support the execution of these concurrent SQO logical plans in a single physical plan. This highly agile execution strategy reduces resource utilization while supporting lightweight adaptivity. Our extensive experimental study in the CAPE stream processing system using both synthetic and real data confirms that our optimization techniques significantly reduce query execution times, up to 60%, compared to the traditional approach.

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利用动态元数据的语义流查询优化

处理大量流数据上的长时间查询的数据流管理系统(DSMS)通常必须提供时间关键型响应。我们提出了第一种语义查询优化(SQO)方法，该方法在运行时利用动态子流元数据来找到比编译时选择的查询计划更有效的查询计划。我们确定了四种保证会带来性能提升的SQO技术。然后，基于经典的可满足性理论，设计了一种轻量级的查询优化算法，在运行时有效地检测SQO机会。在逻辑层面，我们的算法实例化了多个并发SQO计划，每个计划处理不同的部分重叠的子流。我们新颖的执行范例使用多模态操作符来支持在单个物理计划中执行这些并发SQO逻辑计划。这种高度敏捷的执行策略在支持轻量级适应性的同时降低了资源利用率。我们在CAPE流处理系统中使用合成数据和真实数据进行了广泛的实验研究，证实我们的优化技术与传统方法相比显著减少了查询执行时间，最多可减少60%。

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 IEEE 27th International Conference on Data Engineering

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