Title :
Maintenance scheduling and staffing policies in a wafer fabrication facility
Author :
Mosley, Sarah A. ; Teyner, Tim ; Uzsoy, Reha M.
Author_Institution :
Intel Corp., DuPont, WA, USA
fDate :
5/1/1998 12:00:00 AM
Abstract :
We examine how to reduce the adverse effects of machine down time by prioritizing production equipment for attention by a limited number of maintenance personnel. The maintenance scheduling policies use system information to determine which machines are the most critical at a given time. This information includes repair times, queue lengths, due dates, available capacity, and steady-state utilizations. The effects of different staffing levels are also considered. A discrete-event simulation model of a wafer fabrication facility is used to examine the performance of the different policies. Results indicate that the choice of maintenance scheduling policy can significantly affect system performance under restrictive staffing-levels. Moreover, factory performance is shown to be sensitive to small changes in staffing level
Keywords :
discrete event simulation; integrated circuit manufacture; maintenance engineering; personnel; production control; scheduling; available capacity; discrete-event simulation model; due dates; factory performance; machine down time; maintenance scheduling; production equipment prioritization; queue lengths; repair times; restrictive staffing levels; staffing policies; steady-state utilizations; system information; wafer fabrication facility; Associate members; Availability; Fabrication; Job shop scheduling; Personnel; Production equipment; Production facilities; Semiconductor device manufacture; Steady-state; System testing;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
