An Energy-efficient Leakage-tolerant Dynamic Circuit Technique
نویسندگان
چکیده
Technology scaling reduces device threshold voltages to mitigate speed loss due to scaled supply voltages. This, however, exponentially increases leakage power and adversely affects circuit reliability. In this paper, we will investigate the performance degradation in high-leakage digital circuits. It is shown that deep submicron CMOS technologies lead to 60%−70% degradation in noise-immunity due to leakage. Dual-Vt domino designs mitigate the noiseimmunity degradation to 30%−40% but inevitably lead to a loss of 20%−30% in circuit speed. To achieve a better noise-immunity vs. performance trade-off, a new dynamic circuit technique − the boosted-source (BS) technique is proposed. Simulation results of wide fan-in gates designed in the Predictive Berkeley BSIM3v3 0.13μm technology [1] demonstrate 1.6X−3X improvement in noise-immunity at the expense of marginal energy overhead but no loss in delay, as compared with the existing circuit techniques.
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