Dual-switch power gating technique with small energy loss, low area, short crossover time, and fast wake-up time for fine-grain leakage controlled VLSIs

2015 International Conference on Advanced Technologies for Communications (ATC) Pub Date : 2015-10-01 DOI:10.1109/ATC.2015.7388332
Minh-Huan Vo, A. Dao
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引用次数: 1

Abstract

In this paper, we compared various power gating schemes in terms of energy loss, crossover time, and wake-up time using the 45-nm Predictive Technology Model. In this comparison, the Dual-Switch Power Gating (DSPG) shows smaller energy loss, shorter crossover time, faster wake-up time than the other power gating schemes such as the Single-Switch and Charge-Recycled Power Gating schemes. Based on these advantages, the DSPG is suggested in this paper as a viable candidate suitable to a fine-grain leakage control scheme, where logic blocks go in and out very frequently and shortly between the active and sleep modes.
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双开关功率门控技术具有能量损耗小、面积小、跨界时间短、唤醒时间快等优点
在本文中,我们使用45纳米预测技术模型比较了各种功率门控方案在能量损失、交叉时间和唤醒时间方面的差异。在这个比较中,双开关功率门控(DSPG)显示出比其他功率门控方案(如单开关和电荷回收功率门控方案)更小的能量损失,更短的交叉时间,更快的唤醒时间。基于这些优点,本文建议DSPG作为一种可行的候选方案,适用于细粒度泄漏控制方案,其中逻辑块在活动模式和睡眠模式之间非常频繁和短暂地进出。
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2015 International Conference on Advanced Technologies for Communications (ATC)
2015 International Conference on Advanced Technologies for Communications (ATC)
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