电源门控的动态虚拟地电压估计

Proceeding of the 13th international symposium on Low power electronics and design (ISLPED '08) Pub Date : 2008-08-11 DOI:10.1145/1393921.1393934

Hao Xu, R. Vemuri, W. Jone

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引用次数: 6

摘要

随着技术进入100纳米以下的深度区域，泄漏功耗的增加需要更积极的功耗降低技术。功率门控是一种很有前途的技术。我们的研究强调虚拟地电压(VVG)是对功率门控进行关键设计权衡的关键。我们开发了一个精确的模型来估计电路块的动态VVG值在其接地门控后作为时间的函数。实验结果表明，与HSPICE结果相比，该模型的平均误差小于1%。基于该模型实现的CAD工具比HSPICE加速100倍。

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Dynamic virtual ground voltage estimation for power gating

With the technology moving into the deep sub-100 nm region, the increase of leakage power consumption necessitates more aggressive power reduction techniques. Power gating is a promising technique. Our research emphasizes the virtual ground voltage (VVG) as the key to make critical design trade-offs for power gating. We develop an accurate model to estimate the dynamic VVG value of a circuit block as a function of time after its ground is gated. Experimental results show that the model has less than 1% average error compared with HSPICE results. The CAD tool implemented based on the model has a 100 times speedup over HSPICE.

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Proceeding of the 13th international symposium on Low power electronics and design (ISLPED '08)

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