Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets

Jinho Shin; James R. Morrison; Dean Grosbard; Adar Kalir

doi:10.1109/WSC.2016.7822306

Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets

Jinho Shin, James R. Morrison, Dean Grosbard, Adar Kalir

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

The modern semiconductor fabricator needs both accurate and fast cycle time (CT) forecasts. Due to complexity of development and computational intractability, simulation may be supplemented by queueing network methods. In this paper, we develop extensions to approximation methods for queueing networks that are suited for fab modeling using decomposition without aggregation. We conduct simulation experiments based on a semiconductor industry-inspired dataset. For sensitivity analysis, we mainly focus on the interarrival distribution, service time distributions, and bottleneck toolset loading. The results show that the approximations predict the total CT fairly well in various cases.

Original language	English
Title of host publication	2016 Winter Simulation Conference
Subtitle of host publication	Simulating Complex Service Systems, WSC 2016
Editors	Theresa M. Roeder, Peter I. Frazier, Robert Szechtman, Enlu Zhou
Publisher	Institute of Electrical and Electronics Engineers
Pages	2685-2696
Number of pages	12
ISBN (Electronic)	9781509044863
DOIs	https://doi.org/10.1109/WSC.2016.7822306
State	Published - 2 Jul 2016
Externally published	Yes
Event	2016 Winter Simulation Conference, WSC 2016 - Arlington, United States Duration: 11 Dec 2016 → 14 Dec 2016

Publication series

Name	Proceedings - Winter Simulation Conference
Volume	0
ISSN (Print)	0891-7736

Conference

Conference	2016 Winter Simulation Conference, WSC 2016
Country/Territory	United States
City	Arlington
Period	11/12/16 → 14/12/16

ASJC Scopus subject areas

Software
Modeling and Simulation
Computer Science Applications

Access to Document

10.1109/WSC.2016.7822306

Cite this

Shin, J., Morrison, J. R., Grosbard, D., & Kalir, A. (2016). Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets. In T. M. Roeder, P. I. Frazier, R. Szechtman, & E. Zhou (Eds.), 2016 Winter Simulation Conference: Simulating Complex Service Systems, WSC 2016 (pp. 2685-2696). Article 7822306 (Proceedings - Winter Simulation Conference; Vol. 0). Institute of Electrical and Electronics Engineers. https://doi.org/10.1109/WSC.2016.7822306

Shin, Jinho ; Morrison, James R. ; Grosbard, Dean et al. / Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets. 2016 Winter Simulation Conference: Simulating Complex Service Systems, WSC 2016. editor / Theresa M. Roeder ; Peter I. Frazier ; Robert Szechtman ; Enlu Zhou. Institute of Electrical and Electronics Engineers, 2016. pp. 2685-2696 (Proceedings - Winter Simulation Conference).

@inproceedings{58d2a233fabd4df0bbe3ef8ee6138837,

title = "Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets",

abstract = "The modern semiconductor fabricator needs both accurate and fast cycle time (CT) forecasts. Due to complexity of development and computational intractability, simulation may be supplemented by queueing network methods. In this paper, we develop extensions to approximation methods for queueing networks that are suited for fab modeling using decomposition without aggregation. We conduct simulation experiments based on a semiconductor industry-inspired dataset. For sensitivity analysis, we mainly focus on the interarrival distribution, service time distributions, and bottleneck toolset loading. The results show that the approximations predict the total CT fairly well in various cases.",

author = "Jinho Shin and Morrison, \{James R.\} and Dean Grosbard and Adar Kalir",

note = "Publisher Copyright: {\textcopyright} 2016 IEEE.; 2016 Winter Simulation Conference, WSC 2016 ; Conference date: 11-12-2016 Through 14-12-2016",

year = "2016",

month = jul,

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doi = "10.1109/WSC.2016.7822306",

language = "English",

series = "Proceedings - Winter Simulation Conference",

publisher = "Institute of Electrical and Electronics Engineers",

pages = "2685--2696",

editor = "Roeder, \{Theresa M.\} and Frazier, \{Peter I.\} and Robert Szechtman and Enlu Zhou",

booktitle = "2016 Winter Simulation Conference",

address = "United States",

}

Shin, J, Morrison, JR, Grosbard, D & Kalir, A 2016, Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets. in TM Roeder, PI Frazier, R Szechtman & E Zhou (eds), 2016 Winter Simulation Conference: Simulating Complex Service Systems, WSC 2016., 7822306, Proceedings - Winter Simulation Conference, vol. 0, Institute of Electrical and Electronics Engineers, pp. 2685-2696, 2016 Winter Simulation Conference, WSC 2016, Arlington, United States, 11/12/16. https://doi.org/10.1109/WSC.2016.7822306

Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets. / Shin, Jinho; Morrison, James R.; Grosbard, Dean et al.
2016 Winter Simulation Conference: Simulating Complex Service Systems, WSC 2016. ed. / Theresa M. Roeder; Peter I. Frazier; Robert Szechtman; Enlu Zhou. Institute of Electrical and Electronics Engineers, 2016. p. 2685-2696 7822306 (Proceedings - Winter Simulation Conference; Vol. 0).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Grosbard, Dean

AU - Kalir, Adar

PY - 2016/7/2

Y1 - 2016/7/2

N2 - The modern semiconductor fabricator needs both accurate and fast cycle time (CT) forecasts. Due to complexity of development and computational intractability, simulation may be supplemented by queueing network methods. In this paper, we develop extensions to approximation methods for queueing networks that are suited for fab modeling using decomposition without aggregation. We conduct simulation experiments based on a semiconductor industry-inspired dataset. For sensitivity analysis, we mainly focus on the interarrival distribution, service time distributions, and bottleneck toolset loading. The results show that the approximations predict the total CT fairly well in various cases.

AB - The modern semiconductor fabricator needs both accurate and fast cycle time (CT) forecasts. Due to complexity of development and computational intractability, simulation may be supplemented by queueing network methods. In this paper, we develop extensions to approximation methods for queueing networks that are suited for fab modeling using decomposition without aggregation. We conduct simulation experiments based on a semiconductor industry-inspired dataset. For sensitivity analysis, we mainly focus on the interarrival distribution, service time distributions, and bottleneck toolset loading. The results show that the approximations predict the total CT fairly well in various cases.

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M3 - Conference contribution

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Shin J, Morrison JR, Grosbard D, Kalir A. Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets. In Roeder TM, Frazier PI, Szechtman R, Zhou E, editors, 2016 Winter Simulation Conference: Simulating Complex Service Systems, WSC 2016. Institute of Electrical and Electronics Engineers. 2016. p. 2685-2696. 7822306. (Proceedings - Winter Simulation Conference). doi: 10.1109/WSC.2016.7822306

Mean cycle time approximations for G/G/m queueing networks using decomposition without aggregation with application to fab datasets

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