A Pulsed Low-Voltage Swing Latch for Reduced Power Dissipation in High-Frequency Microprocessors

P. Lu, N. Cao, L. Sigal, P. Woltgens, R. Robertazzi, D. Heidel
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引用次数: 1

Abstract

We have reported previously (Pong-Fei Lu et al., 2004) a low-swing latch (LSL) with superior performance-power tradeoff compared to the conventional pass-gate master-slave latch. In this paper, hardware results are presented for the proposed LSL with pulsed clock waveforms. The motivation is to combine low-voltage swing with pulsed signals to further reduce overall system power in high-frequency microprocessors. We have designed a 65-bit accumulator loop experiment to mimic a microprocessor pipeline stage. The local clock buffer design features a mode switch to toggle between two-phase (c1/c2) master-slave clocking and one-phase pulsed (c2 only) clocking. Our data show that 15-25% system power saving can be achieved in pulsed mode compared to non-pulsed mode. Power contribution from individual components is also presented
用于降低高频微处理器功耗的脉冲低压摆锁存器
我们之前报道过(Pong-Fei Lu et al., 2004)一种低摆幅锁存器(LSL),与传统的通闸主从锁存器相比,具有优越的性能-功率权衡。本文给出了采用脉冲时钟波形的LSL的硬件结果。其动机是将低压摆幅与脉冲信号相结合,以进一步降低高频微处理器的整体系统功率。我们设计了一个65位累加器环路实验来模拟微处理器流水线阶段。本地时钟缓冲器设计的特点是模式切换,可以在两相(c1/c2)主从时钟和单相脉冲(仅c2)时钟之间切换。我们的数据表明,与非脉冲模式相比,脉冲模式可以节省15-25%的系统功率。同时给出了各个部件的功率贡献
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