Modeling of Layout Aware Line-Edge Roughness and Poly Optimization for Leakage Minimization

Ban Y.; Pan D. Z.

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Modeling of Layout Aware Line-Edge Roughness and Poly Optimization for Leakage Minimization

机译：布局感知的线边缘粗糙度建模和多边形优化以最小化泄漏

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Line-edge roughness (LER) highly affects the device saturation current and leakage current, which leads to serious device performance degradation. In this paper, we propose the first layout-aware LER model where LER is highly related to the lithographic aerial image fidelity and neighboring geometric proximity. With our new LER model, we perform robust LER aware poly layout optimization to minimize the degradation of device performance, in particular leakage current. The results on 32-nm node standard cells show average 91.26% reduction of leakage current and 4.46% improvement of saturation current at the worst case process corner despite 8.86% area penalty.

机译：线边缘粗糙度（LER）会严重影响器件的饱和电流和泄漏电流，从而导致器件性能严重下降。在本文中，我们提出了第一个可感知布局的LER模型，其中LER与光刻航空图像的保真度和相邻的几何邻近度高度相关。利用我们的新LER模型，我们可以执行鲁棒的LER感知多晶硅布局优化，以最大程度地降低器件性能的下降，尤其是漏电流。在32 nm节点标准单元上的结果显示，尽管面积损失为8.86％，但在最坏的情况下，平均泄漏电流降低了91.26％，饱和电流提高了4.46％。

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《Emerging and Selected Topics in Circuits and Systems, IEEE Journal on》 |2011年第2期|p.150-159|共10页
作者
Ban Y.; Pan D. Z.;
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作者单位

Department of Electrical and Computer Engineering, University of Texas, Austin, TX, USA;

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正文语种 eng
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Design for manufacturing; VLSI design; layout optimization; leakage; line-edge roughness (LER); lithographic variation;

机译：制造设计;VLSI设计;布局优化;泄漏;线边缘粗糙度（LER）;光刻变化;

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1. Timing-Aware Cell Layout De-Compaction for Yield Optimization by Critical Area Minimization [J] . Iizuka T., Ikeda M., Asada K. IEEE transactions on very large scale integration (VLSI) systems . 2007,第6期

机译：通过关键区域最小化来优化产量的时序感知单元布局解压缩
2. Runtime Leakage Minimization Through Probability-Aware Optimization [J] . Lee D., Blaauw D., Sylvester D. IEEE transactions on very large scale integration (VLSI) systems . 2006,第期

机译：通过概率感知优化来最小化运行时泄漏
3. Runtime Leakage Minimization Through Probability-Aware Optimization [J] . Lee D., Blaauw D., Sylvester D. IEEE transactions on very large scale integration (VLSI) systems . 2006,第10期

机译：通过概率感知优化来最小化运行时泄漏
4. Layout aware line-edge roughness modeling and poly optimization for leakage minimization [C] . Ban Yongchan, Yang Jae-Seok 2011 48th ACM/EDAC/IEEE Design Automation Conference (DAC) . 2011

机译：具有布局意识的线边缘粗糙度建模和多边形优化，可最大程度地减少泄漏
5. Mask Roughness Induced Line-Edge Roughness in Extreme Ultraviolet Lithography [D] . McClinton, Brittany 2011

机译：极紫外光刻中掩模的粗糙度引起的线边缘粗糙度
6. Molecular Modeling of EUV Photoresist Revealing the Effect of Chain Conformation on Line-Edge Roughness Formation [O] . Juhae Park, Sung-Gyu Lee, Yannick Vesters, 2019

机译：EUV光刻胶的分子模型揭示了链构象对线边缘粗糙度形成的影响
7. Predictive Modelling and Optimization of Machining Parameters to Minimize Surface Roughness using Artificial Neural Network Coupled with Genetic Algorithm [O] . Kant Girish, Sangwan Kuldip Singh 2015

机译：人工神经网络与遗传算法相结合的最小化粗糙度的加工参数预测建模与优化

Modeling of Layout Aware Line-Edge Roughness and Poly Optimization for Leakage Minimization

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