Towards the optimal dynamic size-aware dispatching

IF 1 4区计算机科学 Q4 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE Performance Evaluation Pub Date : 2024-01-26 DOI:10.1016/j.peva.2024.102396

Esa Hyytiä , Rhonda Righter

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Abstract

In this paper, we study dispatching systems that appear in manufacturing, service, healthcare systems, as well as, in various information, communication and computer systems. Such systems comprise a dispatcher and a pool of parallel servers, to which jobs are assigned upon arrival. A common objective is to minimize the mean waiting or response time. In large systems, due to the state-space explosion and scalability reasons, it is impossible to utilize full state information of the system. We therefore consider systems with a small number of servers, and assume that the job sizes become known upon arrival. In such settings, it is plausible to carefully evaluate each server for every new job. First we study a system with a Poisson arrival process, and derive Bellman equations. Then we generalize to the case with general i.i.d. inter-arrival times. The Bellman equations are essentially functional equations that can be solved numerically via value iteration. From their solutions, the optimal dispatching policy and corresponding mean performance can be determined. Our solution framework is illustrated with examples, which show that significant performance gains compared to popular heuristic policies are available in our setting.

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实现最佳动态规模感知调度

在本文中，我们将研究出现在制造、服务、医疗保健系统以及各种信息、通信和计算机系统中的调度系统。这类系统由一个调度员和一组并行服务器组成，作业到达后将被分配给这些服务器。一个共同的目标是尽量缩短平均等待时间或响应时间。在大型系统中，由于状态空间爆炸和可扩展性的原因，不可能利用系统的全部状态信息。我们假设作业大小在到达时就已知晓，并考虑服务器数量较少的系统。在这种情况下，为每个新任务仔细评估每个服务器是可行的。首先，我们研究泊松到达过程的系统，并推导出贝尔曼方程。然后，我们将其推广到一般 i.i.d. 到达时间的情况。贝尔曼方程本质上是函数方程，可以通过数值迭代进行数值求解。根据它们的解，可以确定最优调度策略和相应的平均性能。我们用实例说明了我们的求解框架，这些实例表明，与流行的启发式策略相比，我们的设置能显著提高性能。

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

Performance Evaluation 工程技术-计算机：理论方法

CiteScore

3.10

自引率

0.00%

发文量

审稿时长

24 days

期刊介绍： Performance Evaluation functions as a leading journal in the area of modeling, measurement, and evaluation of performance aspects of computing and communication systems. As such, it aims to present a balanced and complete view of the entire Performance Evaluation profession. Hence, the journal is interested in papers that focus on one or more of the following dimensions: -Define new performance evaluation tools, including measurement and monitoring tools as well as modeling and analytic techniques -Provide new insights into the performance of computing and communication systems -Introduce new application areas where performance evaluation tools can play an important role and creative new uses for performance evaluation tools. More specifically, common application areas of interest include the performance of: -Resource allocation and control methods and algorithms (e.g. routing and flow control in networks, bandwidth allocation, processor scheduling, memory management) -System architecture, design and implementation -Cognitive radio -VANETs -Social networks and media -Energy efficient ICT -Energy harvesting -Data centers -Data centric networks -System reliability -System tuning and capacity planning -Wireless and sensor networks -Autonomic and self-organizing systems -Embedded systems -Network science