Dynamic Scheduling in a Partially Fluid, Partially Lossy Queueing System

IF 0.7 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS
Kiran Chaudhary, Veeraruna Kavitha, Jayakrishnan Nair
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引用次数: 0

Abstract

We consider a single server queueing system with two classes of jobs: eager jobs with small sizes that require service to begin almost immediately upon arrival, and tolerant jobs with larger sizes that can wait for service. While blocking probability is the relevant performance metric for the eager class, the tolerant class seeks to minimize its mean sojourn time. In this article, we analyse the performance of each class under dynamic scheduling policies, where the scheduling of both classes depends on the instantaneous state of the system. This analysis is carried out under a certain fluid limit, where the arrival rate and service rate of the eager class are scaled to infinity, holding the offered load constant. Our performance characterizations reveal a (dynamic) pseudo-conservation law that ties the performance of both classes to the standalone blocking probabilities associated with the scheduling policies for the eager class. Furthermore, the performance is robust to other specifics of the scheduling policies. We also characterize the Pareto frontier of the achievable region of performance vectors under the same fluid limit, and identify a (two-parameter) class of Pareto-complete scheduling policies.
部分流体、部分有损排队系统中的动态调度
我们考虑一个具有两类作业的单服务器排队系统:要求服务在到达后立即开始的小尺寸的eager作业,以及可以等待服务的较大尺寸的tolerance作业。虽然阻塞概率是渴望类的相关性能指标,但容忍类寻求最小化其平均逗留时间。在本文中,我们分析了动态调度策略下每个类的性能,其中两个类的调度取决于系统的瞬时状态。该分析是在一定的流体限制下进行的,其中渴望类的到达率和服务率被缩放到无穷大,保持提供的负载恒定。我们的性能描述揭示了一个(动态的)伪守恒定律,它将两个类的性能与与渴望类的调度策略相关的独立阻塞概率联系起来。此外,性能对调度策略的其他细节具有鲁棒性。我们还刻画了相同流体极限下性能矢量可达区域的Pareto边界,并确定了一类(双参数)Pareto完全调度策略。
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
CiteScore
2.10
自引率
0.00%
发文量
9
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