一种新的通孔堵塞模型及其启示

Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407) Pub Date : 2000-06-05 DOI:10.1109/IITC.2000.854267

Qiang Chen, J.A. Davis, P. Zarkesh-Ha, J. Meindl

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引用次数: 4

摘要

系统分析了通孔堵塞及其对数十亿晶体管芯片接线性的影响。基于随机互连长度分布和最优多级互连网络结构，提出了利用信道可用性的物理通孔阻塞模型，并将其应用于未来多级互连网络的分析。该模型显示，最严重的通孔堵塞发生在第一金属层，浪费超过10%，高达50%的布线面积。利用所提出的模型，展望了未来芯片尺寸限制的新视角。

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A novel via blockage model and its implications

Via blockage and its impact on wirability of multi-billion transistor chips are systematically analyzed. Along with a new via distribution based on a stochastic interconnect length distribution and on optimal multilevel interconnect network architecture, a physical via blockage model exploiting channel availability is proposed and applied to analyze future multi-level interconnect networks. This model reveals that the most severe via blockage occurs on first metal level, wasting more than 10% and up to about 50% of wiring area. A new perspective on chip size limit imposed by via blockage is also projected for future chips by using the proposed model.

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Proceedings of the IEEE 2000 International Interconnect Technology Conference (Cat. No.00EX407)

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