Fast Approximation to Discrete-Event Simulation of Markovian Queueing Networks
Authors: 
Tan Wang, Yingda Song, Jeff HongAuthors Info & Claims
Tan Wang, Yingda Song, Jeff HongAuthors Info & ClaimsPages 3613 - 3623
Abstract
Simulation of queueing networks is generally carried out by discrete-event simulation (DES), in which the simulation time is driven by the occurrence of the next event. However, for large-scale queueing networks, especially when the network is very busy, keeping track of all events is computationally inefficient. Moreover, as the traditional DES is inherently sequential, it is difficult to harness the capability of parallel computing. In this paper, we propose a parallel fast simulation approximation framework for large-scale Markovian queueing networks, where the simulation horizon is discretized into small time intervals and the system state is updated according to the events happening in each time interval. The computational complexity analysis demonstrates that our method is more efficient for large-scale networks compared with traditional DES. We also show its relative error converges to zero. The experimental results show that our framework can be much faster than the state-of-the-art DES tools.
References
[1]
Banks, J., J. S. Carson, B. L. Nelson, and D. M. Nicol. 2000. Discrete-Event System Simulation. 3rd ed. Upper Saddle River, New Jersey: Prentice-Hall, Inc.
[2]
Bryant, R. E. 1977. Simulation of Packet Communication Architecture Computer Systems. M.S. thesis, Computer Science Laboratory, Massachusetts Institute of Technology, Cambridge, Massachusetts. https://apps.dtic.mil/sti/pdfs/ADA048290.pdf, accessed 17th June 2023.
[3]
Chandy, K., and J. Misra. 1979. "Distributed Simulation: A Case Study in Design and Verification of Distributed Programs". IEEE Transactions on Software Engineering SE-5(5):440--452.
[4]
Fujimoto, R. M. 1990. "Parallel Discrete Event Simulation". Communications of the ACM 33(10):30--53.
[5]
Fujimoto, R. M. 1993. "Parallel discrete event simulation: Will the field survive?". ORSA Journal on Computing 5(3):213--230.
[6]
Fujimoto, R. M., R. Bagrodia, R. E. Bryant, K. M. Chandy, D. Jefferson, J. Misra, D. Nicol, and B. Unger. 2017. "Parallel Discrete Event Simulation: The Making of A Field". In Proceedings of the 2017 Winter Simulation Conference, edited by W. K. V. Chan, A. D'Ambrogio, G. Zacharewicz, N. Mustafee, G. Wainer, and E. Page, 262--291. Piscataway, New Jersey: IEEE.
[7]
Jefferson, D. R. 1985. "Virtual Time". ACM Transactions on Programming Languages and Systems (TOPLAS) 7(3):404--425.
[8]
Law, A. M., and W. D. Kelton. 2000. Simulation Modeling & Analysis. 3rd ed. New York: McGraw-Hill, Inc.
[9]
Leiserson, C. E., R. L. Rivest, T. H. Cormen, and C. Stein. 1994. Introduction to Algorithms. Cambridge, MA: MIT Press.
[10]
Malik, A. W., A. J. Park, and R. M. Fujimoto. 2010. "An Optimistic Parallel Simulation Protocol for Cloud Computing Environments". SCS M&S Magazine 4(1-9):61.
[11]
Nicol, D., and S. Riffe. 1990. "A Conservative Approach to Parallelizing the Sharks World Simulation". In Proceedings of the 1990 Winter Simulation Conference, edited by O. Balci, R. Sadowski, and R. Nance, 186--190. Piscataway, New Jersey: IEEE.
[12]
Palmer, G. I., V. A. Knight, P. R. Harper, and A. L. Hawa. 2019. "Ciw: An Open-Source Discrete Event Simulation Library". Journal of Simulation 13(1):68--82.
[13]
Pienta, R. S., and R. M. Fujimoto. 2013. "On the Parallel Simulation of Scale-Free Networks". In Proceedings of the 1st ACM SIGSIM Conference on Principles of Advanced Discrete Simulation, edited by M. L. Loper and G. A. Wainer, SIGSIM PADS '13, 179--188. New York, NY, USA: ACM.
[14]
Wang, T., and L. J. Hong. 2023. "Large-Scale Inventory Optimization: A Recurrent Neural Networks-Inspired Simulation Approach". INFORMS Journal on Computing 35(1):196--215.
[15]
Yan, A., and W.-B. Gong. 1999. "Time-Driven Fluid Simulation for High-Speed Networks". IEEE Transactions on Information Theory 45(5):1588--1599.
Index Terms
- Fast Approximation to Discrete-Event Simulation of Markovian Queueing Networks
Index terms have been assigned to the content through auto-classification.
Recommendations
A fast discrete event simulation model for queueing network systems
SIMUTools '15: Proceedings of the 8th International Conference on Simulation Tools and TechniquesBased on Lindley's recursive equations for G/G/1 systems, this paper proposes a Fast Discrete Event Simulation (FDES) model for queueing networks. Equations for multiplexer and de-multiplexer elements are presented, which allows to simulate not only ...
Parallel discrete-event simulation of FCFS stochastic queueing networks
PPEALS '88: Proceedings of the ACM/SIGPLAN conference on Parallel programming: experience with applications, languages and systemsPhysical systems are inherently parallel; intuition suggests that simulations of these systems may be amenable to parallel execution. The parallel execution of a discrete-event simulation requires careful synchronization of processes in order to ensure ...
A discrete-time queueing model with abandonments
QTNA '10: Proceedings of the 5th International Conference on Queueing Theory and Network ApplicationsThis paper presents a multi-server queueing model with abandonments in discrete time. In every time slot a generally distributed number (batch) of customers arrives. The different numbers of arrivals in consecutive slots are mutually independent. Each ...
Comments
Information & Contributors
Information
Published In
December 2023
3729 pages
ISBN:9798350369663
Sponsors
In-Cooperation
- IIE: Institute of Industrial Engineers
- INFORMS-SIM: Institute for Operations Research and the Management Sciences: Simulation Society
- SCS: Shanghai Computer Society
Publisher
IEEE Press
Publication History
Published: 02 February 2024
Check for updates
Qualifiers
- Research-article
Conference
WSC '23
Sponsor:
Acceptance Rates
Overall Acceptance Rate 3,413 of 5,075 submissions, 67%
Contributors
Other Metrics
Bibliometrics & Citations
Bibliometrics
Article Metrics
- 0Total Citations
- 11Total Downloads
- Downloads (Last 12 months)11
- Downloads (Last 6 weeks)3
Reflects downloads up to 10 Nov 2024
Other Metrics
Citations
View Options
Get Access
Login options
Check if you have access through your login credentials or your institution to get full access on this article.
Sign in