时钟内电源门控架构的实现，以减少泄漏

2012 5th International Conference on Computers and Devices for Communication (CODEC) Pub Date : 2012-12-01 DOI:10.1109/CODEC.2012.6509269

S. Pradhan, P. Choudhury, D. Nath, A. Nag

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引用次数: 1

摘要

随着技术的发展，泄漏功率已经可以与动态功率相媲美。电源门控是一种通过关闭电路非活动模块的电源来减少待机泄漏的技术。也有在活动块中使用功率门控以减少运行时泄漏的范围。在时钟周期内有一定的空闲部分，在此期间可以使用功率门控。在本文中，我们提出了时钟内功率门控，以尽量减少在有源工作模式下顺序电路的泄漏和总功率。利用该技术实现了ISCAS89基准电路的体系结构。已经报告了不同频率下的功率结果。在CADENCE VLSI工具中以45nm技术对所实现的架构进行仿真，结果显示，与没有时钟内功率门控的设计相比，在1.25 MHZ下的开关节省了73%和54.78%的泄漏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Within-clock power gating architecture implimentation to reduce leakage

With the technology scaling leakage power has become comparable to dynamic power. Power gating is a technique which is used to reduce standby leakage by shutting down the power supply of the inactive block of the circuit. There is also scope of using power gating in active block to reduce run time leakage. Within clock period there is certain portion which is idle and in this period power gating may be used. In this paper we present this within-clock power gating for minimizing leakage and total power of the sequential circuits during active mode of operation. The technique is used to implement the architecture of ISCAS89 benchmark circuit. Power results have been reported for different frequency. Simulation of the implemented architecture in CADENCE VLSI tool at 45nm technology shows leakage saving of 73% and 54.78% saving in switching compared to the designs without within-clock power gating at 1.25 MHZ.

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2012 5th International Conference on Computers and Devices for Communication (CODEC)

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