P-Store: An Elastic Database System with Predictive Provisioning

Proceedings of the 2018 International Conference on Management of Data Pub Date : 2018-05-27 DOI:10.1145/3183713.3190650

Rebecca Taft, Nosayba El-Sayed, M. Serafini, Yu Lu, Ashraf Aboulnaga, M. Stonebraker, Ricardo Mayerhofer, Francisco Jose Andrade

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引用次数: 43

Abstract

OLTP database systems are a critical part of the operation of many enterprises. Such systems are often configured statically with sufficient capacity for peak load. For many OLTP applications, however, the maximum load is an order of magnitude larger than the minimum, and load varies in a repeating daily pattern. It is thus prudent to allocate computing resources dynamically to match demand. One can allocate resources reactively after a load increase is detected, but this places additional burden on the already-overloaded system to reconfigure. A predictive allocation, in advance of load increases, is clearly preferable. We present P-Store, the first elastic OLTP DBMS to use prediction, and apply it to the workload of B2W Digital (B2W), a large online retailer. Our study shows that P-Store outperforms a reactive system on B2W's workload by causing 72% fewer latency violations, and achieves performance comparable to static allocation for peak demand while using 50% fewer servers.

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P-Store:具有预测供应的弹性数据库系统

OLTP数据库系统是许多企业运营的关键部分。这样的系统通常静态配置，具有足够的峰值负载容量。但是，对于许多OLTP应用程序，最大负载比最小负载大一个数量级，并且负载以每天重复的模式变化。因此，动态分配计算资源以匹配需求是明智的。可以在检测到负载增加后响应性地分配资源，但这会给已经过载的系统带来额外的负担，需要重新配置。在负载增加之前进行预测分配显然是可取的。我们提出了P-Store，这是第一个使用预测的弹性OLTP DBMS，并将其应用于大型在线零售商B2W Digital (B2W)的工作负载。我们的研究表明，在B2W的工作负载上，P-Store的性能优于响应式系统，因为它导致的延迟违规减少了72%，并且在使用50%的服务器时实现了与峰值需求静态分配相当的性能。

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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Proceedings of the 2018 International Conference on Management of Data

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