Scotty

ACM Transactions on Database Systems (TODS) Pub Date : 2021-03-27 DOI:10.1145/3433675

Jonas Traub, P. M. Grulich, A. R. Cuellar, S. Breß, Asterios Katsifodimos, T. Rabl, V. Markl

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引用次数: 2

Abstract

Window aggregation is a core operation in data stream processing. Existing aggregation techniques focus on reducing latency, eliminating redundant computations, or minimizing memory usage. However, each technique operates under different assumptions with respect to workload characteristics, such as properties of aggregation functions (e.g., invertible, associative), window types (e.g., sliding, sessions), windowing measures (e.g., time- or count-based), and stream (dis)order. In this article, we present Scotty, an efficient and general open-source operator for sliding-window aggregation in stream processing systems, such as Apache Flink, Apache Beam, Apache Samza, Apache Kafka, Apache Spark, and Apache Storm. One can easily extend Scotty with user-defined aggregation functions and window types. Scotty implements the concept of general stream slicing and derives workload characteristics from aggregation queries to improve performance without sacrificing its general applicability. We provide an in-depth view on the algorithms of the general stream slicing approach. Our experiments show that Scotty outperforms alternative solutions.

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苏格兰狗

窗口聚合是数据流处理中的核心操作。现有的聚合技术侧重于减少延迟、消除冗余计算或最小化内存使用。然而，每种技术在工作负载特征方面的不同假设下运行，例如聚合函数的属性(例如，可逆的、关联的)、窗口类型(例如，滑动的、会话的)、窗口度量(例如，基于时间或计数的)和流(无序)顺序。在本文中，我们介绍了Scotty，一个用于流处理系统(如Apache Flink、Apache Beam、Apache Samza、Apache Kafka、Apache Spark和Apache Storm)中滑动窗口聚合的高效且通用的开源操作符。可以使用用户定义的聚合函数和窗口类型轻松扩展Scotty。Scotty实现了通用流切片的概念，并从聚合查询中获得工作负载特征，从而在不牺牲其通用适用性的情况下提高性能。我们对一般流切片方法的算法提供了深入的看法。我们的实验表明，斯科蒂优于其他解决方案。

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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ACM Transactions on Database Systems (TODS)

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