虚拟金属填充对DFM纳米VLSI设计的影响量化

2008 IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT) Pub Date : 2008-04-23 DOI:10.1109/VDAT.2008.4542470

Keh-Jeng Chang, Jyh-Jeng Chou, Hung-Chih Li, Kuo-Cheng Chang

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引用次数: 2

摘要

虚拟金属填充可以引起系统的电容变化，对参数产率的影响应该严格量化。采用三维电磁场仿真和SPICE技术，设计并模拟了一套具有接近真实假金属填充的新型实验纳米电路结构，以更真实地量化对电容、时序和串扰噪声的影响，为可制造性设计(DFM)提供依据。随着即将到来的先进技术节点所提出的测试结构的缩小，铸造厂和设计师可以将虚拟金属填充的寄生影响作为LPE和SSTA工具系统变化的一部分。从我们的详细分析来看，这种影响正在从180 nm增长到90 nm，并且在65 nm和45 nm设计中可能变得更加突出。

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Impact quantification of the dummy metal fills on nanometer VLSI designs for DFM

Dummy metal fills can cause systematic variations in capacitance and the impact on the parametric yields should be quantified rigorously. A new set of experimental nanometer circuit structures with close-to-reality dummy metal fills are designed and simulated using 3D electromagnetic field simulations and SPICE to quantify the impacts on the capacitance, the timing, and the crosstalk noise more realistically for design for manufacturability (DFM). With the proposed set of test structures scaled down for the upcoming advanced technology nodes, the foundries and the designers can incorporate the parasitic impacts by dummy metal fills as part of the systematic variation for LPE and SSTA tools. From our detailed analyses, the impacts are growing from 180 nm to 90 nm and are likely to become more prominent in 65 nm and 45 nm designs.

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来源期刊

2008 IEEE International Symposium on VLSI Design, Automation and Test (VLSI-DAT)

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