Power minimization using simultaneous gate sizing, dual-Vdd and dual-Vth assignment

Proceedings. 41st Design Automation Conference, 2004. Pub Date : 2004-06-07 DOI:10.1145/996566.996777
A. Srivastava, D. Sylvester, D. Blaauw
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引用次数: 101

Abstract

We develop an approach to minimize total power in a dual-Vdd and dual-Vth design. The algorithm runs in two distinct phases. The first phase relies on upsizing to create slack and maximize low Vdd assignments in a backward topological manner. The second phase proceeds in a forward topological fashion and both sizes and re-assigns gates to high Vdd to enable significant static power savings through high Vth assignment. The proposed algorithm is implemented and tested on a set of combinational benchmark circuits. A comparison with traditional CVS and dual-Vth/sizing algorithms demonstrate the advantage of the algorithm over a range of activity factors, including an average power reduction of 30% (50%) at high (nominal) primary input activities.
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同时使用栅极尺寸、双vdd和双vth赋值实现功率最小化
我们开发了一种在双vdd和双vth设计中最小化总功率的方法。该算法分为两个不同的阶段。第一阶段依赖于以向后拓扑方式创建松弛和最大化低Vdd分配的放大。第二阶段以正向拓扑方式进行,将门的大小和重新分配到高Vdd,从而通过高Vth分配实现显著的静态功耗节省。该算法在一组组合基准电路上进行了实现和测试。与传统CVS和双vth /分级算法的比较表明,该算法在一系列活动因素上具有优势,包括在高(标称)主输入活动下平均功耗降低30%(50%)。
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Proceedings. 41st Design Automation Conference, 2004.
Proceedings. 41st Design Automation Conference, 2004.
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