Load Scheduling in a Cloud Based Massive Video-Storage Environment

2014 16th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing Pub Date : 2014-09-01 DOI:10.1109/SYNASC.2014.54

K. Bayyapu, Paul F. Fischer

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引用次数: 4

Abstract

We propose an architecture for a storage system of surveillance videos. Such systems have to handle massive amounts of incoming video streams and relatively few requests for replay. In such a system load (i.e., Write requests) scheduling is essential to guarantee performance. Large-scale data-storage system (LSDSS) is an emerging hosting facility for video-storage, which has a very high number of writes while most of the videos are never or rarely watched. We discuss the design and implementation of LSDSS and load scheduling in autonomous storage environments called datacenters in LSDSS. A datacenter (DC) is the basic concept in our LSDSS, which has the self-management system to store data efficiently. A LSDSS consists of many DCs organized in a hierarchy fashion, thereby decentralizing load scheduling tasks. Because DC has a simple design, load scheduling is particularly suited for implementation on a real-time video surveillance and allows to make scheduling decisions. We also discuss experimental results that clearly show the advantage of load scheduling over the widely known base load scheduling.

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基于云的海量视频存储环境中的负载调度

提出了一种监控视频存储系统的架构。这样的系统必须处理大量的传入视频流和相对较少的重放请求。在这样的系统负载(即写请求)中，调度对于保证性能至关重要。大规模数据存储系统(Large-scale data-storage system, LSDSS)是一种新兴的视频存储托管设施，它具有非常高的写入数量，而大多数视频从未或很少被观看。我们讨论了LSDSS的设计和实现以及LSDSS中称为数据中心的自主存储环境中的负载调度。数据中心(datacenter, DC)是我们LSDSS的基本概念，它具有自我管理系统，可以有效地存储数据。LSDSS由许多以层次结构方式组织的dc组成，从而分散负载调度任务。由于DC具有简单的设计，因此负载调度特别适合在实时视频监控上实现，并允许做出调度决策。我们还讨论了实验结果，清楚地表明负载调度优于广为人知的基本负载调度。

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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2014 16th International Symposium on Symbolic and Numeric Algorithms for Scientific Computing

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