管理多腔工具生产率

Proceedings of SEMI Advanced Semiconductor Manufacturing Conference and Workshop Pub Date : 1995-11-13 DOI:10.1109/ASMC.1995.484379

B. Auches, G. Grewal, P. Silverman

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引用次数: 3

摘要

在过去的十年里，多腔工具在晶圆加工方面取得了重大的技术突破。这些工具的支出占总资本基础的百分比正在增加。投资于0.4 /spl亩/m工艺加工设备的全部资金的三分之一将用于多室工具。这些工具也存在一些特殊的生产率问题，因为工具的很大一部分可能无法生产晶圆，而工具的其余部分仍然能够以较低的运行速率生产晶圆。当工具的一部分出现故障时，传统的工具可用性和运行速率的度量不足以解释减少的输出。本文提出了测量，操作场景和操作指南，以最大限度地提高多腔工具的生产力在批量制造环境。

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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Managing multi-chamber tool productivity

Multi-chamber tools have enabled significant technical breakthroughs in wafer processing in the last decade. Expenditures for these tools are increasing as a percentage of the total capital base. Fully one-third of the capital dollars invested in 0.4 /spl mu/m technology processing equipment will be spent on multi-chamber tools. These tools also present some special productivity problems, as a significant portion of the tool can fail to produce wafers while the remaining portions of the tool still are able to do so at a reduced run rate. Classical measures of tool availability and run rates are insufficient to account for reduced output when part of the tool is down. This paper presents measurements, operating scenarios and operating guidelines to maximize multi-chamber tool productivity in a volume manufacturing environment.

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Proceedings of SEMI Advanced Semiconductor Manufacturing Conference and Workshop

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