采用耦合驻波振荡器的10GHz时钟分配网络设计

Proceedings 2003. Design Automation Conference (IEEE Cat. No.03CH37451) Pub Date : 2003-06-02 DOI:10.1145/775832.776005

F. O’Mahony, C. Yue, M. Horowitz, S. Wong

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引用次数: 36

摘要

本文描述了一个包含驻波和耦合振荡器的全局时钟网络，以分配具有低倾斜和低抖动的高频时钟信号。讨论了在芯片上产生驻波所涉及的关键设计问题，包括在可用技术内最小化导线损耗。介绍了一种驻波振荡器，即在有耗导线上维持理想驻波的分布式振荡器。提出了一种由耦合驻波振荡器和差分低摆幅时钟缓冲器组成的时钟网格结构。给出了在0.18/spl mu/m 6M CMOS逻辑工艺下工作于10GHz的驻波时钟栅格原型的测量结果。提出了一种亚皮秒精度的片上偏斜测量技术。

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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Design of a 10GHz clock distribution network using coupled standing-wave oscillators

In this paper, a global clock network that incorporates standing waves and coupled oscillators to distribute a high-frequency clock signal with low skew and low jitter is described. The key design issues involved in generating standing waves on a chip are discussed, including minimizing wire loss within an available technology. A standing-wave oscillator, a distributed oscillator that sustains ideal standing waves on lossy wires, is introduced. A clock grid architecture comprised of coupled, standing-wave oscillators and differential, low-swing clock buffers is presented. The measured results for a prototyped standing-wave clock grid operating at 10GHz and fabricated in a 0.18/spl mu/m 6M CMOS logic process are presented. A technique is proposed for on-chip skew measurements with subpicosecond precision.

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Proceedings 2003. Design Automation Conference (IEEE Cat. No.03CH37451)

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