An automated shielding algorithm and tool for dynamic circuits

Proceedings IEEE 2000 First International Symposium on Quality Electronic Design (Cat. No. PR00525) Pub Date : 2000-03-20 DOI:10.1109/ISQED.2000.838898

G. Yee, T. Thorp, Ron Christopherson, Ban P. Wang, C. Sechen

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引用次数: 5

Abstract

This paper describes an algorithm and automated physical design methodology for noise sensitive dynamic circuits using a systematic shielding strategy to reduce capacitive coupling. As process technology, scales, the wire width and spacing become smaller, while wire thickness is proportionately higher. This results in increasing capacitive coupling between neighboring wires, which increases wire propagation delay and crosstalk of neighboring the wires. More importantly, coupled noise or crosstalk can affect the functionality of noise sensitive receivers. Thus, for noise sensitive datapath and control blocks, shielding signals from each other has become a necessary for implementing reliable circuits. The methodology and tool described in this paper were used to reduce the design time of domino logic control blocks in the UltraSparcIII/sup TM/ microprocessor. The two blocks reported here had delays half that of their static CMOS counterparts, the same area as the static design, capacitive coupling noise of less than 5% of VDD, and were designed in record time using the tools.

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动态电路的自动屏蔽算法和工具

本文描述了噪声敏感动态电路的算法和自动化物理设计方法，采用系统屏蔽策略来减少电容耦合。随着工艺技术的规模化，线材宽度和间距越来越小，而线材厚度则成比例地越来越高。这导致相邻导线之间的电容耦合增加，从而增加导线传播延迟和相邻导线的串扰。更重要的是，耦合噪声或串扰会影响噪声敏感接收器的功能。因此，对于噪声敏感的数据路径和控制块，相互屏蔽信号已成为实现可靠电路的必要条件。在UltraSparcIII/sup TM/微处理器中，采用本文所描述的方法和工具来缩短domino逻辑控制块的设计时间。这里报道的两个模块的延迟是其静态CMOS对应模块的一半，与静态设计相同的面积，电容耦合噪声小于VDD的5%，并且使用工具在创纪录的时间内设计完成。

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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Proceedings IEEE 2000 First International Symposium on Quality Electronic Design (Cat. No. PR00525)

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