为解决Apache Kafka中的饥饿问题设计并实现了一个减载引擎

Jiwon Bang, Siwoon Son, Hajin Kim, Yang-Sae Moon, Mi-Jung Choi
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引用次数: 11

摘要

实时数据流处理技术(如Apache Storm和Apache Spark)正在积极研究,以处理实时快速生成的大容量数据流。由于很难单独使用大多数实时处理技术,因此通常将其与支持数据流输入和输出的消息传递系统一起使用。Apache Kafka是一个典型的分布式消息传递系统,专门用于交付大量实时日志数据。但是,如果Kafka中数据的生产速度快于消费速度,就可能出现数据饥饿问题。为了解决饥饿问题,需要一种减载技术来限制输入数据并在系统处于负载状态时保持系统性能。因此,本文确认了Kafka中可能出现的饥饿问题,我们设计并实现了一个减载引擎来解决这个问题,并在性能实验的基础上提出了Kafka中饥饿问题的解决方案。
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Design and implementation of a load shedding engine for solving starvation problems in Apache Kafka
Real-time data stream processing technologies such as Apache Storm and Apache Spark are being actively studied to deal with large-capacity data streams that generated rapidly in real time. Because it is difficult to use most real-time processing techniques alone, it is common to use it with a messaging system that supports input and output of data streams. Apache Kafka is a representative distributed messaging system, specialized in delivering large amounts of real-time log data. However, if the production rate of data in Kafka is faster than the consumption rate, data starvation problem may arise. In order to solve the starvation problem, a load shedding technique is needed to limit the incoming data and maintain system performance when the system is under load. Thus, in this paper confirmed the starvation problem that can occur in Kafka, and we designed and implemented a load shedding engine to solve this problem and proposed a solution to the starvation problem in Kafka based on the performance experiment.
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