Two Parallel Queues with Infinite Servers and Join the Shortest Queue Discipline

Two Parallel Queues with Infinite Servers and Join the Shortest Queue Discipline

We study the stationary distribution of a system of two parallel M/M/∞ queues managed by the Join the Shortest Queue load balancing policy; one motivation for characterizing the efficiency of that policy is its potential application to resource allocation issues in cloud computing. For the general s...

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Bibliographic Details
Published in:Stochastic models Vol. 31; no. 4; pp. 636 - 672
Main Authors: Guillemin, F., Olivier, P., Simonian, A., Tanguy, C.
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 02-10-2015
Taylor & Francis Ltd
Subjects:
Fredholm integral equations
Integral equations
Markov analysis
Markov processes
Network performance evaluation
Orthogonal polynomials
Queuing Theory
Scheduling
Stochastic models
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Summary:We study the stationary distribution of a system of two parallel M/M/∞ queues managed by the Join the Shortest Queue load balancing policy; one motivation for characterizing the efficiency of that policy is its potential application to resource allocation issues in cloud computing. For the general system with distinct service rates, we first show that the tail of each marginal queue length distribution exhibits a much faster decay than that of a Poisson distribution. Second, the determination of the joint stationary distribution is shown to reduce to the resolution of a pair of linear integral equations. In the case when service rates are identical ("symmetric case"), that pair of integral equations simplifies to a single Fredholm integral equation of the first kind whose solution is explicitly given in terms of Legendre polynomials; this enables us to entirely determine the stationary distribution of the system. We provide, in particular, asymptotics for the second moment and the tail of the queue length distribution.
ISSN:1532-6349
1532-4214
DOI:10.1080/15326349.2015.1061440