Scaling Multicore Databases via Constrained Parallel Execution

Proceedings of the 2016 International Conference on Management of Data Pub Date : 2016-06-26 DOI:10.1145/2882903.2882934

Zhaoguo Wang, Shuai Mu, Yang Cui, Han Yi, Haibo Chen, Jinyang Li

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引用次数: 60

Abstract

Multicore in-memory databases often rely on traditional con- currency control schemes such as two-phase-locking (2PL) or optimistic concurrency control (OCC). Unfortunately, when the workload exhibits a non-trivial amount of contention, both 2PL and OCC sacrifice much parallel execution op- portunity. In this paper, we describe a new concurrency control scheme, interleaving constrained concurrency con- trol (IC3), which provides serializability while allowing for parallel execution of certain conflicting transactions. IC3 combines the static analysis of the transaction workload with runtime techniques that track and enforce dependencies among concurrent transactions. The use of static analysis simplifies IC3's runtime design, allowing it to scale to many cores. Evaluations on a 64-core machine using the TPC- C benchmark show that IC3 outperforms traditional con- currency control schemes under contention. It achieves the throughput of 434K transactions/sec on the TPC-C bench- mark configured with only one warehouse. It also scales better than several recent concurrent control schemes that also target contended workloads.

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通过约束并行执行扩展多核数据库

多核内存数据库通常依赖于传统的虚拟货币控制方案，如两阶段锁定(2PL)或乐观并发控制(OCC)。不幸的是，当工作负载显示出大量的争用时，2PL和OCC都牺牲了许多并行执行机会。在本文中，我们描述了一种新的并发控制方案，交错约束并发控制(IC3)，它提供了串行性，同时允许并行执行某些冲突事务。IC3将事务工作负载的静态分析与跟踪和执行并发事务之间的依赖关系的运行时技术相结合。静态分析的使用简化了IC3的运行时设计，允许它扩展到多个内核。在64核机器上使用TPC- C基准测试的评估表明，IC3在争用下优于传统的代币控制方案。它在仅配置一个仓库的TPC-C基准测试上实现了434K事务/秒的吞吐量。它的可伸缩性也优于最近的几种针对竞争工作负载的并发控制方案。

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 2016 International Conference on Management of Data

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