AC/DC:数据库内学习

Mahmoud Abo Khamis, H. Ngo, X. Nguyen, Dan Olteanu, Maximilian Schleich
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引用次数: 45

摘要

我们报告了AC/DC梯度下降求解器的设计和实现,用于规范化数据库上的一类优化问题。AC/DC将优化问题分解为数据库关系连接上的一组聚合。然后,它使用这些聚合的答案来迭代地改进问题的解决方案,直到它收敛。AC/DC面临的挑战是庞大的数据库规模,连续和分类特征的混合,以及大量的聚合计算。AC/DC通过采用稀疏数据表示、因式计算、功能依赖下的问题重参数化以及支持聚合共享计算的数据结构来解决这些挑战。为了在多达86M元组的真实数据集的所有关系的自然连接上训练多达154K特征的多项式回归模型和分解机器,AC/DC在商用机器的一个核心上需要长达30分钟的时间。这比它的竞争对手R、MadLib、libFM和TensorFlow在完成时要快三个数量级,因此不会超过内存限制、24小时超时或内部设计限制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
AC/DC: In-Database Learning Thunderstruck
We report on the design and implementation of the AC/DC gradient descent solver for a class of optimization problems over normalized databases. AC/DC decomposes an optimization problem into a set of aggregates over the join of the database relations. It then uses the answers to these aggregates to iteratively improve the solution to the problem until it converges. The challenges faced by AC/DC are the large database size, the mixture of continuous and categorical features, and the large number of aggregates to compute. AC/DC addresses these challenges by employing a sparse data representation, factorized computation, problem reparameterization under functional dependencies, and a data structure that supports shared computation of aggregates. To train polynomial regression models and factorization machines of up to 154K features over the natural join of all relations from a real-world dataset of up to 86M tuples, AC/DC needs up to 30 minutes on one core of a commodity machine. This is up to three orders of magnitude faster than its competitors R, MadLib, libFM, and TensorFlow whenever they finish and thus do not exceed memory limitation, 24-hour timeout, or internal design limitations.
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