采用细粒度前向体偏置策略减少有源模式泄漏

Proceedings of the 2004 International Symposium on Low Power Electronics and Design (IEEE Cat. No.04TH8758) Pub Date : 2004-08-09 DOI:10.1145/1013235.1013277

Vishal Khandelwal, Ankur Srivastava

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引用次数: 21

摘要

泄漏功率最小化已成为技术规模化的重要问题。可变阈值电压方案已成为流行的待机功率降低。在这项工作中，我们着眼于这个潜在问题的另一个新兴方面，即主动操作模式下的泄漏功率减少。在门电平电路中，大量的门在任何给定的时间点都没有在有源模式下开关，但仍在消耗泄漏功率。我们提出了一种细粒度的前向体偏置(FBB)方案，用于降低门电平电路的有源模式泄漏功率而不产生任何延迟损失。结果表明，最优多项式时间FBB分配方案可使漏电流减少70.2%。我们还提出了一种新的放置驱动FBB分配算法，该算法利用放置后的面积松弛有效地减少了面积损失，在面积松弛为0%、4%和8%的情况下，泄漏电流分别减少了39.7%、64.7%和67.1%。

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Active mode leakage reduction using fine-grained forward body biasing strategy

Leakage power minimization has become an important issue with technology scaling. Variable threshold voltage schemes have become popular for standby power reduction. In this work we look at another emerging aspect of this potent problem which is leakage power reduction in active mode of operation. In gate level circuits, a large number of gates are not switching in active mode at any given point in time but nevertheless are consuming leakage power. We propose a fine-grained Forward Body Biasing (FBB) Scheme for active mode leakage power reduction in gate level circuits without any delay penalty. Our results show that our optimal polynomial time FBB allocation scheme results in 70.2% reduction in leakage currents. We also present a novel placement-driven FBB allocation algorithm that effectively reduces the area penalty using the post-placement area slack and results in 39.7%, 64.7% and 67.1% reduction in leakage currents for 0%, 4% and 8% area slack respectively.

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Proceedings of the 2004 International Symposium on Low Power Electronics and Design (IEEE Cat. No.04TH8758)

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