Cost-based Data Prefetching and Scheduling in Big Data Platforms over Tiered Storage Systems

IF 2.2 2区 计算机科学 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS
Herodotos Herodotou, Elena Kakoulli
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引用次数: 0

Abstract

The use of storage tiering is becoming popular in data-intensive compute clusters due to the recent advancements in storage technologies. The Hadoop Distributed File System, for example, now supports storing data in memory, SSDs, and HDDs, while OctopusFS and hatS offer fine-grained storage tiering solutions. However, current big data platforms (such as Hadoop and Spark) are not exploiting the presence of storage tiers and the opportunities they present for performance optimizations. Specifically, schedulers and prefetchers will make decisions only based on data locality information and completely ignore the fact that local data are now stored on a variety of storage media with different performance characteristics. This article presents Trident, a scheduling and prefetching framework that is designed to make task assignment, resource scheduling, and prefetching decisions based on both locality and storage tier information. Trident formulates task scheduling as a minimum cost maximum matching problem in a bipartite graph and utilizes two novel pruning algorithms for bounding the size of the graph, while still guaranteeing optimality. In addition, Trident extends YARN’s resource request model and proposes a new storage-tier-aware resource scheduling algorithm. Finally, Trident includes a cost-based data prefetching approach that coordinates with the schedulers for optimizing prefetching operations. Trident is implemented in both Spark and Hadoop and evaluated extensively using a realistic workload derived from Facebook traces as well as an industry-validated benchmark, demonstrating significant benefits in terms of application performance and cluster efficiency.
分级存储大数据平台基于成本的数据预取与调度
由于存储技术的最新进步,存储分层的使用在数据密集型计算集群中变得越来越流行。例如,Hadoop分布式文件系统现在支持在内存、ssd和hdd中存储数据,而OctopusFS和hatS提供细粒度的存储分层解决方案。然而,当前的大数据平台(如Hadoop和Spark)并没有充分利用存储层的存在及其提供的性能优化机会。具体来说,调度器和预取器将仅根据数据位置信息做出决策,而完全忽略了本地数据现在存储在具有不同性能特征的各种存储介质上这一事实。本文介绍了Trident,这是一个调度和预取框架,旨在根据局部性和存储层信息进行任务分配、资源调度和预取决策。Trident将任务调度描述为二部图中的最小代价最大匹配问题,并利用两种新颖的剪枝算法来限定图的大小,同时仍然保证最优性。此外,Trident扩展了YARN的资源请求模型,提出了一种新的存储层感知的资源调度算法。最后,Trident包括一种基于成本的数据预取方法,该方法与调度器协调,以优化预取操作。Trident在Spark和Hadoop中都实现了,并使用来自Facebook跟踪的实际工作负载以及经过行业验证的基准进行了广泛的评估,证明了在应用程序性能和集群效率方面的显著优势。
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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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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