Asynchronous logic shows promising applicability in ASIC design due to its potentially low power and high robustness properties. For deep submicron technologies the static power is becoming very significant and many applications require that this power component to be reduced. A new logic called Positive Feedback Charge Sharing Logic (PFCSL) is proposed, which reduces both dynamic and especially static power and also could be implemented with asynchronous logic. This new logic combines adiabatic logic with charge sharing technology avoiding the penalty of power clock generator. A novel 16-by-16-bit Radix-4 Booth Multiplier is built based on PFCSL and implemented in 45nm technology. We achieve around 30% reduction in dynamic power and 60% in static power respectively compared to the same design being implemented using static dual-rail logic. Also, the area of the multiplier is significantly smaller.
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机译:异步逻辑由于其潜在的低功耗和高鲁棒性而在ASIC设计中显示出广阔的应用前景。对于深亚微米技术,静态功率变得非常重要,许多应用要求减少这种功率分量。提出了一种称为正反馈电荷共享逻辑(PFCSL)的新逻辑,该逻辑既可以降低动态功耗,又可以降低静态功耗,并且还可以通过异步逻辑实现。这种新逻辑将绝热逻辑与电荷共享技术相结合,避免了电源时钟发生器的损失。基于PFCSL构建了新颖的16 x 16位Radix-4展位乘法器,并采用45nm技术实现。与使用静态双轨逻辑实现的相同设计相比,我们的动态功耗和静态功耗分别降低了约30%和60%。而且,乘法器的面积明显更小。
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