Stochastic performance guarantees for mixed workloads in a multimedia information system

Proceedings Seventh International Workshop on Research Issues in Data Engineering. High Performance Database Management for Large-Scale Applications Pub Date : 1997-04-07 DOI:10.1109/RIDE.1997.583719

G. Nerjes, Peter Muth, G. Weikum

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引用次数: 24

Abstract

We present an approach to stochastic performance guarantees for multimedia servers with mixed workloads. Advanced multimedia applications such as digital libraries or teleteaching exhibit a mixed workload with accesses to both "continuous" and conventional, "discrete" data, where the fractions of continuous data and discrete data requests vary over time. We assume that a server shares all disks among continuous and discrete data, and we develop a stochastic performance model for the resulting mixed workload, using a combination of analytic and simulation based modeling. Based on this model we devise a round based scheduling scheme with stochastic performance guarantees: for continous data requests, we bound the probability that "glitches" occur and for discrete data requests, we bound the probability that the response time exceeds a certain tolerance threshold. We present early results of simulation studies.

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多媒体信息系统中混合工作负载的随机性能保证

提出了一种针对混合工作负载的多媒体服务器的随机性能保证方法。先进的多媒体应用程序，如数字图书馆或远程教学，显示出混合工作负载，同时访问“连续”和传统的“离散”数据，其中连续数据和离散数据请求的比例随着时间的推移而变化。我们假设服务器在连续和离散数据之间共享所有磁盘，并且我们使用基于分析和仿真的建模相结合，为所产生的混合工作负载开发了一个随机性能模型。基于此模型，我们设计了一种基于轮的随机性能保证调度方案:对于连续数据请求，我们绑定“故障”发生的概率，对于离散数据请求，我们绑定响应时间超过一定容限阈值的概率。我们提出了模拟研究的早期结果。

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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Proceedings Seventh International Workshop on Research Issues in Data Engineering. High Performance Database Management for Large-Scale Applications

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