寻找快速高效的无服务器DAG引擎

Benjamin Carver, Jingyuan Zhang, Ao Wang, Yue Cheng
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引用次数: 27

摘要

可以将python编写的数据分析应用程序建模为并编译为基于有向无环图(DAG)的工作流,其中节点是细粒度任务,边缘是任务依赖项。这种分析工作流作业越来越多地以短而细粒度的任务为特征,这些任务具有较大的扇形输出。这些特征使它们非常适合一种新的云计算模型,称为无服务器计算或功能即服务(FaaS),这种模型近年来变得非常流行。无服务器计算平台的自动伸缩特性适应短任务和突发工作负载,而无服务器计算提供商的按使用付费计费模式使短任务的成本保持在较低水平。本文深入研究了无服务器计算中DAG调度的问题空间。我们确定并评估了一组使DAG调度器无服务器感知的技术。这些技术已经在WUKONG中实现,WUKONG是一个无服务器的DAG调度器,与AWS Lambda进行了协调。悟空通过静态和动态调度相结合的方式提供去中心化调度。我们提出了一项实证研究的结果,其中WUKONG应用于一系列微基准和现实世界的DAG应用。结果证明了WUKONG在最小化AWS Lambda引入的性能开销方面的有效性-与服务器式DAG调度器相比,WUKONG实现了具有竞争力的性能,同时在更大规模的DAG作业中将实际DAG作业的性能提高了4.1倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In Search of a Fast and Efficient Serverless DAG Engine
Python-written data analytics applications can be modeled as and compiled into a directed acyclic graph (DAG) based workflow, where the nodes are fine-grained tasks and the edges are task dependencies.Such analytics workflow jobs are increasingly characterized by short, fine-grained tasks with large fan-outs. These characteristics make them well-suited for a new cloud computing model called serverless computing or Function-as-a-Service (FaaS), which has become prevalent in recent years. The auto-scaling property of serverless computing platforms accommodates short tasks and bursty workloads, while the pay-per-use billing model of serverless computing providers keeps the cost of short tasks low. In this paper, we thoroughly investigate the problem space of DAG scheduling in serverless computing. We identify and evaluate a set of techniques to make DAG schedulers serverless-aware. These techniques have been implemented in WUKONG , a serverless, DAG scheduler attuned to AWS Lambda. WUKONG provides decentralized scheduling through a combination of static and dynamic scheduling. We present the results of an empirical study in which WUKONG is applied to a range of microbenchmark and real-world DAG applications. Results demonstrate the efficacy of WUKONG in minimizing the performance overhead introduced by AWS Lambda — WUKONG achieves competitive performance compared to a serverful DAG scheduler, while improving the performance of real-world DAG jobs by as much as 4.1x at larger scale.
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