用于分析电感对片上互连延迟影响的电感振荡器的设计与测量

Fourth International Symposium on Quality Electronic Design, 2003. Proceedings. Pub Date : 2003-03-24 DOI:10.1109/ISQED.2003.1194765

Takashi Sato, H. Masuda

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引用次数: 5

摘要

设计了一种新的电感振荡器(iOSC)来评估电感对片上互连延迟的影响。iOSC是一种环形振荡器，它由一组导线组成，每组导线具有不同的环路电感和精确的片上计数器。到最近的地网的等效距离，作为电流返回路径，改变以控制导线电感。制作了一个使用0.13 /spl mu/m节点工艺的测试芯片来演示ioscc的概念。四种互连结构被实现为不完全共面波导，模拟时钟线或高频模块间信号线。电感变化最大的结构测得99 ps，而电感变化较小的扭曲接地结构测得6 ps。实验证实，在高速LSI设计中，电感对延迟的影响必须进行充分的分析和控制，以估计预算的时间。

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Design and measurement of an inductance-oscillator for analyzing inductance impact on on-chip interconnect delay

A newly devised inductance-oscillator (iOSC) has been developed which evaluates inductance impact on on-chip interconnect delay. iOSC is a ring oscillator which is comprised of a set of wires each with different loop inductance and accurate on-chip counter. The equivalent distance to the nearest ground grid, which serves as the current return path, is varied to control wire inductance. A test chip using 0.13 /spl mu/m node process is fabricated to demonstrate the concept of the iOSC. Four interconnect structures are implemented as imperfect coplanar waveguide, imitating clock lines or high-frequency inter-module signal lines. The structure with largest inductance variation measured 99 ps while a twisted ground structure which has small inductance variation measured 6 ps both for 3-mm wires. The experiments confirm that the inductance impact on delay has to be adequately analyzed and controlled to estimate a timing of budget in high-speed LSI designs.

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Fourth International Symposium on Quality Electronic Design, 2003. Proceedings.

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