基于90nm CMOS的8.3GHz双电源/阈值优化32b整数alu寄存器文件环路

ISLPED '05. Proceedings of the 2005 International Symposium on Low Power Electronics and Design, 2005. Pub Date : 2005-08-08 DOI:10.1145/1077603.1077630

S. Hsu, A. Agarwal, K. Roy, R. Krishnamurthy, S. Borkar

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引用次数: 8

摘要

在高性能微处理器中，整数执行核是最热门的热点和峰值电流/功率输出限制之一。本文介绍了一种基于1.2V、90nm CMOS技术的双电源、双阈值优化的32位整数执行ALU和寄存器文件环路，用于8.3GHz工作。在ALU上积极的供电/阈值缩放和在寄存器文件上的标称供电/阈值可以在不牺牲性能或阵列位单元稳定性的情况下实现高达25%的峰值能量降低。在alu寄存器文件接口上，还描述了一种混合分离输出样式的CVSL顺序电平转换器，用于鲁棒的直流无电源双v /sub / cc/操作。在相同的性能下，与传统的CVSL序列相比，所提出的序列占用的面积减少了10%，节省了11%的有源泄漏功率和14%的最坏情况开关功率。

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An 8.3GHz dual supply/threshold optimized 32b integer ALU-register file loop in 90nm CMOS

In high performance microprocessors, integer execution cores are one of the hottest thermal spots and peak current/power delivery limiters. This paper describes a dual-supply and dual-threshold optimized 32-bit integer execution ALU and register file loop for 8.3GHz operation in 1.2V, 90nm CMOS technology. Aggressive supply/threshold scaling on the ALU and nominal supply/threshold on the register file enables up to 25% peak energy reduction without sacrificing performance or array bit-cells stability. A hybrid split-output style CVSL sequential level converter at the ALU-register file interface is also described for robust, DC power free dual-V/sub cc/ operation. The proposed sequential occupies 10% smaller area, and saves 11% active leakage power and 14% worst case switching power as compared to conventional CVSL style sequential at the same performance.

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ISLPED '05. Proceedings of the 2005 International Symposium on Low Power Electronics and Design, 2005.

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