A true single-phase clocking scheme for low-power and high-speed VLSI

电路与系统学报 Pub Date : 1997-06-09 DOI:10.1109/ISCAS.1997.621522
B. Kong, Young-Hyun Jun, K. Lee
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引用次数: 5

Abstract

This paper describes a true-single-phase clocking scheme with charge-recycling differential logic (CRDL). The original CRDL circuit is modified for use with only a single-phase clock signal which is never inverted. This circuit achieves low-power and high-speed operation by eliminating the need for slow PMOS-logic blocks in a pipelined configuration, in addition to using charge-recycling technique. XOR/XNOR gates and a pipelined 32-bit adder are constructed with this circuit technique. The simulation results show that the proposed clocking scheme improves power-delay product by 30.1 to 49.8% as compared to the true-single-phase clocking scheme with conventional differential cascode voltage switch (DCVS) logic.
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一个真正的单相时钟方案,用于低功耗和高速VLSI
本文提出了一种带电荷回收差分逻辑(CRDL)的真单相时钟方案。原来的CRDL电路被修改为只有一个单相时钟信号,它永远不会反转。除了使用电荷回收技术外,该电路还通过消除流水线配置中对慢速pmos逻辑块的需求,实现了低功耗和高速运行。用这种电路技术构造了异或或异或门和一个流水线式32位加法器。仿真结果表明,与采用传统差分级联电压开关(DCVS)逻辑的真单相时钟方案相比,所提时钟方案的功率延迟积提高了30.1 ~ 49.8%。
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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来源期刊
电路与系统学报
电路与系统学报
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发文量
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