需求驱动的，可迭代的容量分配和循环时间估计的重新进入线路

Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304) Pub Date : 1999-12-07 DOI:10.1109/CDC.1999.831259

Shi-Chung Chang

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引用次数: 6

摘要

由于半导体晶圆制造工厂的工艺流程复杂且具有重入性，因此对每个生产阶段的日生产目标设定是一个具有挑战性的机器产能分配问题。本文总结了作者在过去几年中为设计每日目标设定系统而开发的一种方法。该方法实现了先拉后推和按比例的产能分配原则，在满足生产需求的同时最大限度地提高了机器利用率。由于机器容量分配和可用晶圆流相互交织，目标设定问题可以看作是一个定点迭代问题。设计了一种基于确定性排队分析的算法来估计周期时间和晶圆流量。该方法在容量分配和周期时间估计之间迭代，直到实现定点容量分配。

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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Demand-driven, iterative capacity allocation and cycle time estimation for re-entrant lines

Daily production target setting for each production stage of a semiconductor wafer fabrication factory is a challenging machine capacity allocation problem due to the complex and re-entrant process flows. This paper summarizes a methodology developed by the author for the design of a daily target setting system over the past few years. The methodology realizes PULL-then-PUSH and proportional capacity allocation principles to meet production demands in a smooth way while maximizing machine utilization. As machine capacity allocation and available wafer flows are intertwined, the target setting problem can be viewed as a fixed-point iteration problem. A deterministic queueing analysis-based algorithm is designed to estimate cycle times and hence wafer flows. The methodology iterates between capacity allocation and cycle time estimation until a fixed-point capacity allocation is achieved.

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Proceedings of the 38th IEEE Conference on Decision and Control (Cat. No.99CH36304)

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