Optimal resource allocation for time-reservation systems

R. Yang, S. Bhulai, R.D. van der Mei, F.J. Seinstra

Research output: Contribution to JournalArticleAcademicpeer-review

Abstract

This paper studies the optimal resource allocation in time-reservation systems. Customers arrive at a service facility and receive service in two steps; in the first step information is gathered from the customer, which is then sent to a pool of computing resources, and in the second step the information is processed after which the customer leaves the system. A central decision maker has to decide when to reserve computing power from the pool of resources, such that the customer does not have to wait for the start of the second service step and that the processing capacity is not wasted due to the customer still being serviced at the first step. The decision maker simultaneously has to decide on how many processors to allocate for the second processing step such that reservation and holding costs are minimized. Since an exact analysis of the system is difficult, we decompose the system into two parts which are solved sequentially leading to nearly optimal solutions. We show via dynamic programming that the near-optimal number of processors follows a step function with as an extreme policy the bangbang control. Moreover, we provide new fundamental insights in the dependence of the near-optimal policy on the distribution of the information gathering times. Numerical experiments demonstrate that the near-optimal policy closely matches the performance of the optimal policy of the original problem. © 2011 Elsevier Inc. All rights reserved.
Original languageEnglish
Pages (from-to)414-428
JournalPerformance Evaluation
Volume68
Issue number5
DOIs
Publication statusPublished - 2011

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