低功耗低漏工作的双vdd增强脉冲母线技术

H. Singh, R. Senger, D. Sylvester, Richard B. Brown, K. Nowka
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引用次数: 16

摘要

在本文中,我们提出了一种新的双vdd总线技术,它非常适合于低功耗工作。该技术采用静态脉冲总线架构来使用双vdd电源。在静态期间,母线系统在两个VDD电源中较低的位置空闲,从而降低了静态功耗。当主动过渡时,母线系统中的逆变器暂时提升到更高的VDD电源,以提供所需的驱动强度。由于VDD升压以脉冲方式完成,因此总线系统仅在需要时处于高VDD状态,从而确保在不牺牲性能的情况下降低功耗。与传统静态总线相比,该技术的总功率降低了50%,与标准静态脉冲总线相比,总功率降低了35%,延迟改善了12-15%
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Dual-VDD Boosted Pulsed Bus Technique for Low Power and Low Leakage Operation
In this paper, we propose a new dual-VDD bus technique that is well suited for low power operation. This technique adapts a static pulsed bus architecture to use dual-VDD power supplies. During quiescent periods, the bus system idles at the lower of the two VDD supplies, thereby lowering static power dissipation. When actively transitioning, the inverters in the bus system are temporarily boosted to the higher VDD supply to provide the needed drive strength for performance. Since the VDD boosting is done in a pulsed manner, the bus system is in a high VDD state only when required, ensuring lower power operation without sacrificing performance. This technique yields up to a 50% reduction in total power over traditional static buses and up to a 35% reduction in total power over standard static pulsed buses, with a 12-15% delay improvement
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