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An Analytical Throughput Approximation for Closed Fork/Join Networks

Author

Listed:
  • Erkut Sönmez

    (Metropolitan College, Boston University, Boston, Massachusetts 02215)

  • Alan Scheller-Wolf

    (David A. Tepper School of Business, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213)

  • Nicola Secomandi

    (David A. Tepper School of Business, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213)

Abstract

Queueing networks featuring fork/join stations are natural models for a variety of computer and manufacturing systems. Unfortunately, an exact solution for a Markovian fork/join network can only be obtained by analyzing the underlying Markov chain using numerical methods, and these methods are computationally feasible only for networks with small population sizes and numbers of service stations. In this paper we present a new, simple, and accurate analytical approximation method to estimate the throughput (and other performance metrics) of a closed queueing network that features a single fork/join station receiving inputs from general subnetworks. An extensive numerical study illustrates the high accuracy of our proposed technique, especially for networks with large populations and numbers of stations. It also shows that the accuracy of our approximation method improves with increasing population size, deteriorating network balance, and increasing number of stations when the added stations weaken the network balance. Furthermore, our method has significant computational advantages compared to simulation and existing approximation techniques, the latter of which are in general less accurate than ours and in many cases even fail to provide a solution in our numerical study. We also bound analytically the relative error of our method for a broad class of networks, which provides theoretical support for some of our numerical observations.

Suggested Citation

  • Erkut Sönmez & Alan Scheller-Wolf & Nicola Secomandi, 2017. "An Analytical Throughput Approximation for Closed Fork/Join Networks," INFORMS Journal on Computing, INFORMS, vol. 29(2), pages 251-267, May.
    • Handle: RePEc:inm:orijoc:v:29:y:2017:i:2:p:251-267
    DOI: 10.1287/ijoc.2016.0727
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    References listed on IDEAS

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    1. Liu, Y. C. & Perros, H. G., 1991. "Approximate analysis of a closed fork/join model," European Journal of Operational Research, Elsevier, vol. 53(3), pages 382-392, August.
    2. Ananth Krishnamurthy & Rajan Suri & Mary Vernon, 2004. "Analysis of a Fork/Join Synchronization Station with Inputs from Coxian Servers in a Closed Queuing Network," Annals of Operations Research, Springer, vol. 125(1), pages 69-94, January.
    3. Maria Di Mascolo & Yannick Frein & Yves Dallery, 1996. "An Analytical Method for Performance Evaluation of Kanban Controlled Production Systems," Operations Research, INFORMS, vol. 44(1), pages 50-64, February.
    4. B Baynat & Y Dallery, 2000. "An approximation method for general closed queuing networks with Fork/Join mechanisms," Journal of the Operational Research Society, Palgrave Macmillan;The OR Society, vol. 51(2), pages 198-208, February.
    5. Sönmez, Erkut & Kekre, Sunder & Scheller-Wolf, Alan & Secomandi, Nicola, 2013. "Strategic analysis of technology and capacity investments in the liquefied natural gas industry," European Journal of Operational Research, Elsevier, vol. 226(1), pages 100-114.
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    Cited by:

    1. Dieter Fiems, 2024. "Performance of a Synchronisation Station with Abandonment," Mathematics, MDPI, vol. 12(5), pages 1-12, February.
    2. Sabry Shaaban & Rodrigo Romero-Silva, 2021. "Performance of merging lines with uneven buffer capacity allocation: the effects of unreliability under different inventory-related costs," Central European Journal of Operations Research, Springer;Slovak Society for Operations Research;Hungarian Operational Research Society;Czech Society for Operations Research;Österr. Gesellschaft für Operations Research (ÖGOR);Slovenian Society Informatika - Section for Operational Research;Croatian Operational Research Society, vol. 29(4), pages 1253-1288, December.

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