Title :
A queuing network model for wafer fabrication using decomposition without aggregation
Author :
Grosbard, Dean ; Kalir, Adar ; Tirkel, Israel ; Rabinowitz, Gad
Author_Institution :
Intel Corp., Qiriat-Gat, Israel
Abstract :
Deterministic capacity models and simulation models cannot fully comprehend the modern wafer fabrication facility´s need for cycle time (CT) forecasts that are both accurate and rapid. Queuing networks, being stochastic yet analytical models, have the potential of providing sufficiently accurate `on the spot´ CT approximations. In this paper, we characterize a queuing network suited for fab modeling and then formulate a queuing network model for a mini-fab, using decomposition without aggregation method to yield CT approximations. Numerical results demonstrate that this proposed approach generates fairly accurate approximations with an average error of 7% compared to simulation results, better than other existing methods to date.
Keywords :
approximation theory; forecasting theory; queueing theory; semiconductor device manufacture; stochastic programming; work in progress; aggregation; analytical model; cycle time forecasting; decomposition; deterministic capacity models; on-the-spot CT approximations; queuing network model; stochastic model; wafer fabrication; Analytical models; Approximation methods; Mathematical model; Production; Routing; Semiconductor device modeling;
Conference_Titel :
Automation Science and Engineering (CASE), 2013 IEEE International Conference on
Conference_Location :
Madison, WI
DOI :
10.1109/CoASE.2013.6653941
