ADOPT: Adaptively Optimizing Attribute Orders for Worst-Case Optimal Join Algorithms via Reinforcement Learning

Junxiong Wang, Immanuel Trummer, A. Kara, Dan Olteanu
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引用次数: 1

Abstract

The performance of worst-case optimal join algorithms depends on the order in which the join attributes are processed. Selecting good orders before query execution is hard, due to the large space of possible orders and unreliable execution cost estimates in case of data skew or data correlation. We propose ADOPT, a query engine that combines adaptive query processing with a worst-case optimal join algorithm, which uses an order on the join attributes instead of a join order on relations. ADOPT divides query execution into episodes in which different attribute orders are tried. Based on run time feedback on attribute order performance, ADOPT converges quickly to near-optimal orders. It avoids redundant work across different orders via a novel data structure, keeping track of parts of the join input that have been successfully processed. It selects attribute orders to try via reinforcement learning, balancing the need for exploring new orders with the desire to exploit promising orders. In experiments with various data sets and queries, it outperforms baselines, including commercial and open-source systems using worst-case optimal join algorithms, whenever queries become complex and therefore difficult to optimize.
采用:通过强化学习自适应优化最坏情况最优连接算法的属性顺序
最坏情况最优连接算法的性能取决于处理连接属性的顺序。在执行查询之前选择好的订单是很困难的,因为可能的订单空间很大,而且在数据倾斜或数据相关的情况下,执行成本估计不可靠。我们提出了ADOPT,这是一个将自适应查询处理与最坏情况最优连接算法相结合的查询引擎,它在连接属性上使用顺序而不是在关系上使用连接顺序。ADOPT将查询执行分为不同的集,在这些集中尝试不同的属性顺序。基于对属性顺序性能的运行时反馈,ADOPT算法快速收敛到接近最优的顺序。它通过新颖的数据结构避免了跨不同顺序的冗余工作,跟踪已成功处理的连接输入部分。它通过强化学习选择属性顺序进行尝试,平衡探索新顺序的需求和利用有前途的顺序的愿望。在各种数据集和查询的实验中,无论何时查询变得复杂,因此难以优化,它的性能都优于基线,包括使用最坏情况最优连接算法的商业和开源系统。
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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