Impact of interconnect process variations on memory performance and design

Sixth international symposium on quality electronic design (isqed'05) Pub Date : 2005-03-21 DOI:10.1109/ISQED.2005.63

A. Teene, Bob Davis, R. Castagnetti, Jeff Brown, S. Ramesh

引用次数: 15

Abstract

Interconnect-related effects have become significant factors that can affect complex nanometer designs, such as memories. Thus, a robust memory design methodology needs to include the accurate modeling of interconnect parasitics and interconnect process variations. In this paper we present a statistical design approach to study the impact of interconnect process variations on memory performance and design. This approach uses 3D parasitic extraction, circuit simulation, Monte Carlo and sensitivity analysis to determine the parasitic and performance sensitivities to interconnect process parameter variations for a 90 nm memory design example. The sensitivity analysis results can be used to optimize the memory circuit design and layout to further improve memory performance and robustness.

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互连过程变化对存储器性能和设计的影响

互连相关效应已成为影响复杂纳米设计(如存储器)的重要因素。因此，一个健壮的存储器设计方法需要包括互连寄生和互连过程变化的准确建模。在本文中，我们提出了一种统计设计方法来研究互连工艺变化对存储器性能和设计的影响。该方法使用3D寄生提取、电路仿真、蒙特卡罗和灵敏度分析来确定90 nm存储器设计示例中互连工艺参数变化的寄生和性能灵敏度。灵敏度分析结果可用于优化存储电路的设计和布局，进一步提高存储性能和鲁棒性。

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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来源期刊

Sixth international symposium on quality electronic design (isqed'05)

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