高效排序、重复删除、分组和聚合

IF 2.2 2区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Thanh Do, Goetz Graefe, Jeffrey Naughton
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引用次数: 0

摘要

数据库查询处理需要重复删除、分组和聚合算法。目前存在三种算法:流内聚合是目前最有效的,但需要排序输入;基于排序的聚合依赖于外部归并排序;哈希聚合依赖于内存中的哈希表以及对临时存储的哈希分区。基于成本的查询优化根据几个因素选择使用哪种算法,包括输入的排序顺序、输入和输出的大小,以及对排序输出的需求。例如,对于小于可用内存的输出(例如,TPC-H的查询1),基于散列的聚合是理想的,而当聚合输入和输出都很大并且需要为后续操作(如合并连接)对输出进行排序时,对整个输入进行排序并在排序后进行聚合是可取的。不幸的是,在查询优化期间,合理选择所需的大小信息通常不准确或不可用,从而导致次优算法选择。作为回应,本文介绍了一种新的基于排序的重复删除、分组和聚合算法。新算法的性能至少与传统的基于哈希和基于排序的算法一样好。它可以作为系统对未排序输入的唯一聚合算法,从而防止错误的算法选择。此外,新算法产生排序输出,可以加快后续操作。谷歌的F1查询在每天聚合数pb数据的生产工作负载中使用了这种新算法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Efficient Sorting, Duplicate Removal, Grouping, and Aggregation

Database query processing requires algorithms for duplicate removal, grouping, and aggregation. Three algorithms exist: in-stream aggregation is most efficient by far but requires sorted input; sort-based aggregation relies on external merge sort; and hash aggregation relies on an in-memory hash table plus hash partitioning to temporary storage. Cost-based query optimization chooses which algorithm to use based on several factors, including the sort order of the input, input and output sizes, and the need for sorted output. For example, hash-based aggregation is ideal for output smaller than the available memory (e.g., Query 1 of TPC-H), whereas sorting the entire input and aggregating after sorting are preferable when both aggregation input and output are large and the output needs to be sorted for a subsequent operation such as a merge join.

Unfortunately, the size information required for a sound choice is often inaccurate or unavailable during query optimization, leading to sub-optimal algorithm choices. In response, this article introduces a new algorithm for sort-based duplicate removal, grouping, and aggregation. The new algorithm always performs at least as well as both traditional hash-based and traditional sort-based algorithms. It can serve as a system’s only aggregation algorithm for unsorted inputs, thus preventing erroneous algorithm choices. Furthermore, the new algorithm produces sorted output that can speed up subsequent operations. Google’s F1 Query uses the new algorithm in production workloads that aggregate petabytes of data every day.

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来源期刊
ACM Transactions on Database Systems
ACM Transactions on Database Systems 工程技术-计算机:软件工程
CiteScore
5.60
自引率
0.00%
发文量
15
审稿时长
>12 weeks
期刊介绍: Heavily used in both academic and corporate R&D settings, ACM Transactions on Database Systems (TODS) is a key publication for computer scientists working in data abstraction, data modeling, and designing data management systems. Topics include storage and retrieval, transaction management, distributed and federated databases, semantics of data, intelligent databases, and operations and algorithms relating to these areas. In this rapidly changing field, TODS provides insights into the thoughts of the best minds in database R&D.
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