A fast rescheduling method in semiconductor manufacturing allowing for tardiness and scheduling stability

2006 IEEE International Conference on Automation Science and Engineering Pub Date : 2006-10-01 DOI:10.1109/COASE.2006.326862

Mingang Cheng, M. Sugi, J. Ota, Masashi Yamamoto, Hiroki Ito, Kazuyoshi Inoue

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引用次数: 6

Abstract

In semiconductor manufacturing, rescheduling problems are extremely difficult to solve in real time due to the high frequency of disturbances that occur approximately every minute. This paper proposes a new approach to online manufacturing rescheduling. Unlike the traditional methods to have a scheduling process again, we (1) revise the existing schedule to keep high schedule stability based on message passing rescheduling with operation sorting; and (2) during the manufacturing process, improve the performance of the revised schedule with the introduction of a quick local search on semi-critical paths. In actual problems with about 200,000 processes, this method can effectively accommodate disturbances in less than 1 second, and a better schedule can be obtained in less than 1 minute. This method has been demonstrated to be more effective than conventional dispatching-rule methods, some of which have been actually applied in many facilities, because it offers higher schedule stability and fewer violations of due dates

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半导体制造中一种考虑延迟性和调度稳定性的快速重调度方法

在半导体制造中，由于几乎每分钟都会发生高频率的干扰，重新调度问题非常难以实时解决。本文提出了一种在线制造调度的新方法。与传统的重新调度方法不同，我们(1)基于带操作排序的消息传递重调度，对已有的调度进行修正以保持较高的调度稳定性;(2)在制造过程中，通过引入半关键路径上的快速局部搜索来提高改进后的计划的性能。在约20万个进程的实际问题中，该方法可以在1秒内有效地适应干扰，在1分钟内得到较好的调度结果。这种方法已被证明比传统的调度规则方法更有效，因为它提供了更高的调度稳定性和更少的到期日期违规。传统的调度规则方法中的一些实际上已在许多设施中得到应用

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2006 IEEE International Conference on Automation Science and Engineering

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