一种用于全局异步局部同步设计的数字控制低功耗时钟乘法器

T. Olsson, P. Nilsson, T. Meincke, A. Hemami, M. Torkelson
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引用次数: 28

摘要

将大型高速全局同步asic划分为本地时钟块可以减少时钟倾斜问题,如果处理得当,还可以降低功耗。然而,为了实现这些积极的效果,这些块需要具有小面积和低功耗等特性的片上时钟发生器。因此,采用0.35 /spl mu/m工艺,设计并制作了一种低功耗、高频率、小面积的数控片上时钟发生器。时钟发生器在3.3 V电源电压下提供高达1.15 GHz的频率。在1 V电源电压下,它提供高达92 MHz的电压,同时消耗0.16 mW。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A digitally controlled low-power clock multiplier for globally asynchronous locally synchronous designs
Partitioning large high-speed globally synchronous ASICs into locally clocked blocks reduces clock skew problems and if handled correctly it also reduces the power consumption. However, to achieve these positive effects, the blocks need on-chip clock generators having properties such as small area and low power consumption. Therefore, a low power, high frequency, small area digitally controlled on-chip clock generator is designed and fabricated using a 0.35 /spl mu/m process. The clock generator delivers up to 1.15 GHz at 3.3 V supply voltage. At 1 V supply voltage, it delivers up to 92 MHz while consuming 0.16 mW.
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