An adaptive on-chip voltage regulation technique for low-power applications

ISLPED'00: Proceedings of the 2000 International Symposium on Low Power Electronics and Design (Cat. No.00TH8514) Pub Date : 2000-08-01 DOI:10.1145/344166.344185

Nicola Dragone, A. Aggarwal, L. Carley

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引用次数: 18

Abstract

In this paper we present a completely on-chip voltage regulation technique which promises to adjust the degree of voltage regulation in a digital logic chip in the face of process induced delay variations so as to minimize energy dissipation while always guaranteeing the target operating frequency. For this purpose the delay of a critical path replica of the circuit being regulated is constantly compared with the target delay to provide the regulator with the information needed to select the optimum voltage levels. The proposed solution is even move attractive in that no external components are required. Based on this scheme, a completely on-chip voltage regulator has been fabricated in a commercial 0.5 /spl mu/m CMOS process and used to generate the inner rail voltages for a DSP multiplier-accumulator (MAC) implemented in mixed swing QuadRail. Measured results indicate that the voltages generated by the regulator offer a very high degree of load regulation thus verifying the fast response time of the on-chip output buffer.

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一种适用于低功耗应用的自适应片上电压调节技术

本文提出了一种完全片上电压调节技术，该技术可以在数字逻辑芯片面对过程引起的延迟变化时调整电压调节的程度，从而在保证目标工作频率的同时最小化能量消耗。为此，需要不断地将被调节电路的关键路径副本的延迟与目标延迟进行比较，以向调节器提供选择最佳电压电平所需的信息。所提出的解决方案甚至更有吸引力，因为不需要外部组件。基于该方案，在0.5 /spl mu/m商用CMOS工艺中制作了一个完全片上稳压器，并用于为混合摆幅QuadRail实现的DSP乘数-蓄能器(MAC)产生内轨电压。测量结果表明，由调节器产生的电压提供了非常高的负载调节程度，从而验证了片上输出缓冲器的快速响应时间。

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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ISLPED'00: Proceedings of the 2000 International Symposium on Low Power Electronics and Design (Cat. No.00TH8514)

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