新的DFM方法抽象了亚100nm IC设计领域的altPSM光刻要求

Fourth International Symposium on Quality Electronic Design, 2003. Proceedings. Pub Date : 2003-03-24 DOI:10.1109/ISQED.2003.1194721

Pradiptya Ghosh, Chung-shin Kang, Michael Sanie, David Pinto

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引用次数: 1

摘要

自从半导体工业达到0.18微米以来，器件的特征尺寸已经变得越来越小，比现有光学光刻设备使用的光的波长还要小。在这个亚波长领域，必须在IC设计阶段预先处理制造要求，同时仍然可以进行更改，以提高质量和产量。本文定义了获得干净的交变移相掩模(altPSM)所需的组件，以确保亚波长电路设计的可制造性。作者提出了一种新的可制造性设计(DFM)方法，创建了一套抽象的规则，可用于各种IC CAD工具领域，特别是100纳米及以下的设计规则。提出了一种新的方法和算法，可以在IC设计流程的早期快速轻松地将altPSM集成到现有和未来的工具中。最后，实验结果表明，该方法和算法可用于调试过程感知设计，并使其符合altpsm标准。

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New DFM approach abstracts altPSM lithography requirements for sub-100 nm IC design domains

Since the semiconductor industry hit the 0.18-micron generation, device feature sizes have become increasingly smaller than the wavelength of light used by available optical-lithography equipment. In this subwavelength arena, manufacturing requirements must be handled up front in the IC design stage-while changes can still be made-to enhance quality and yield. This paper defines the components needed to get clean alternating phase-shifting masks (altPSM) that ensure the manufacturability of subwavelength circuit designs. The authors present a new design for manufacturability (DFM) approach, creating an abstract set of rules that can be used to advantage in various IC CAD tool domains, especially for 100 nm and below design rules. A new methodology and algorithm are presented that can quickly and easily integrate altPSM into existing and future tools earlier in the IC design flow. Finally, experimental results show how the methodology and algorithm is used to debug process-aware designs and make them altPSM-compliant.

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Fourth International Symposium on Quality Electronic Design, 2003. Proceedings.

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