Journal
COMPUTERS & OPERATIONS RESEARCH
Volume 155, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.cor.2023.106245
Keywords
Parallel-machine scheduling; Lexicographic optimization; Maintenance; Quality loss; Total tardiness
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This paper focuses on a parallel-machine scheduling problem in wafer fabrication, specifically in the photolithography process. A lexicographic optimization approach is proposed to minimize total quality loss and tardiness. The study also considers an optional maintenance activity to restore machine condition. Based on optimality properties, an exact scheduling algorithm is developed. Experimental analyses using real data confirm the effectiveness of the algorithm and provide managerial insights.
In wafer fabrication, production quality is a key performance index and is subject to machine condition deterioration. This paper studies a parallel-machine scheduling problem that can typically be found in the photolithography process. To solve the problem, a lexicographic optimization approach is proposed where the total quality loss is firstly minimized and the second objective is to minimize total tardiness. An optional maintenance activity is also considered to restore the machine condition to a certain level. Optimality properties are discussed, based on which an exact scheduling algorithm is developed. Experimental analyses derived from real data demonstrate the effectiveness of the proposed algorithm and support some managerial insights.
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