Title :
Determining optimal lot-size for a semiconductor back-end factory
Author :
Potoradi, Juergen ; Winz, Gerald ; Kam, Lee Weng
Author_Institution :
Infincon Technol. Asia Pacific, Singapore
fDate :
6/21/1905 12:00:00 AM
Abstract :
Modeling analysts are using a methodology that applies queuing theory logistics laws and simulation to factory performance analysis. These methods are being applied at semiconductor back-end factories, where a major focus is on achieving capacity increases with minimal equipment additions. This paper describes this technical methodology and investigates an optimum lot-size for back-end factories based upon given throughput and cycle time targets. The analysis provides a recommended lot-size of 6800 for the overall production area, allowing the factory to maximize throughput while still meeting overall factory cycle time goals. The model indicates a potential 14% increase in throughput by selecting the optimal lot-size
Keywords :
production control; queueing theory; semiconductor device manufacture; cycle time targets; factory cycle time; factory performance analysis; optimal lot-size; production logistics; queuing theory logistics; recommended lot-size; semiconductor back-end factory; semiconductor industry; simulation; throughput; wafer fab; Assembly; Flow production systems; Logistics; Manufacturing industries; Performance analysis; Production facilities; Productivity; Queueing analysis; Semiconductor materials; Throughput;
Conference_Titel :
Simulation Conference Proceedings, 1999 Winter
Conference_Location :
Phoenix, AZ
Print_ISBN :
0-7803-5780-9
DOI :
10.1109/WSC.1999.823202
