模拟和混合信号设计中避免应力的自动化设计方法

2010 5th International Design and Test Workshop Pub Date : 2010-12-01 DOI:10.1109/IDT.2010.5724396

Romany Sameer, A. Mohieldin, H. Eissa

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引用次数: 5

摘要

CMOS器件在纳米范围内的不断缩放以及复杂的工艺导致应力对电路性能的贡献越来越大，不再是二阶效应。浅沟槽隔离(STI)引起的机械应力对模拟电路的设计产生巨大的影响，足以使模拟电路的偏置点发生偏移，改变设计参数，造成晶体管间的严重失配。本文提出了一种在模拟/混合信号设计中避免应力效应的设计方法。该方法流程基于在布局设计之前对应力影响的早期预测，以节省时间并避免进一步昂贵的布局迭代。在40纳米CMOS技术中，通过运算放大器和锁存比较器电路表征STI应力对电路性能的影响。此外，还展示了应用该方法后的性能，以进行方法验证。

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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An automated design methodology for stress avoidance in analog & mixed signal designs

Continuous scaling of CMOS devices in nm regime along with the complex processes result in increasing stress contribution in circuit performance that is no longer second order effect. Shallow Trench Isolation (STI) induced mechanical stress impacts analog designs dramatically, it is sufficient to shift bias point, change design parameters, and cause severe mismatch between transistors. This paper presents a design methodology in order to avoid stress effects in analog/mixed signal designs. This methodology flow is based on early prediction of stress effects prior to layout design to save time and avoid further costly layout iterations. Impact of STI stress on circuit performance is characterized in 40-nm CMOS technology through an op-amp and a latched comparator circuits. Furthermore, the performance after applying the proposed methodology is shown for methodology verification.

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2010 5th International Design and Test Workshop

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