基于快速单通量量子(RSFQ)器件的异步电路脉冲驱动双轨逻辑门系列

M. Maezawa, I. Kurosawa, Y. Kameda, T. Nanya
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引用次数: 18

摘要

我们提出了一种基于快速单通量量子(RSFQ)电路的高速、低功耗约瑟夫森结器件的脉冲驱动异步逻辑门系列。采用双轨逻辑,实现无时钟操作。数值模拟结果表明,与运算的逻辑延迟约为60ps,异或运算的逻辑延迟约为80ps。功耗估计为10 /spl mu/W/gate。
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Pulse-driven dual-rail logic gate family based on rapid single-flux-quantum (RSFQ) devices for asynchronous circuits
We present a pulse-driven asynchronous logic gate family based on a high-speed, low-power Josephson-junction device of rapid single-flux-quantum (RSFQ) circuits. Dual-rail logic is used and clock-free operation is realized. The proper operation of the circuits is confirmed by the numerical simulation which shows logic delays are about 60 ps for an AND and about 80 ps for an XOR. Power consumption is estimated to be 10 /spl mu/W/gate.
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The AMULET2e cache system Pulse-driven dual-rail logic gate family based on rapid single-flux-quantum (RSFQ) devices for asynchronous circuits Counterflow pipeline based dynamic instruction scheduling Control resynthesis for control-dominated asynchronous designs Complete state encoding based on the theory of regions
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