双图案与晶圆处理,OPC和物理设计流程的相互作用

K. Lucas
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引用次数: 4

摘要

在这项工作中,我们研究了双图案技术(DPT)与光刻,掩模合成和22nm器件节点物理设计流程的相互作用。DPT方法将原始设计意图分解为两个单独的掩蔽层,每个掩蔽层使用单次曝光和现有的193nm光刻工具进行图像化。双重曝光和蚀刻图案步骤为工艺和设计流程创造了复杂性。DPT分解是一个关键的软件步骤,将在物理设计和掩模合成中执行。分解包括将原设计意图多边形根据需要切割(拆分)成多个多边形;并为生成的多边形上色。我们评估满足关键物理设计目标的能力,如:减少电路面积;减少返工;确保DPT合规;保证模式对单个层目标的鲁棒性;保证晶圆结果对称;并为各个图案层创造均匀的晶圆密度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Double patterning interactions with wafer processing, OPC and physical design flows
In this work we study interactions of double patterning technology (DPT) with lithography, masks synthesis and physical design flows for the 22nm device node. DPT methods decompose the original design intent into two individual masking layers which are each patterned using single exposures and existing 193nm lithography tools. Double exposure and etch patterning steps create complexity for both process and design flows. DPT decomposition is a critical software step which will be performed in physical design and also in mask synthesis. Decomposition includes cutting (splitting) of original design intent polygons into multiple polygons where required; and coloring of the resulting polygons. We evaluate the ability to meet key physical design goals such as: reduce circuit area; minimize rework; ensure DPT compliance; guarantee patterning robustness on individual layer targets; ensure symmetric wafer results; and create uniform wafer density for the individual patterning layers.
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