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Threshold Logic with Current-Driven Magnetic Domain Walls
arXiv - CS - Emerging Technologies Pub Date : 2020-07-02 , DOI: arxiv-2007.00815 Xuan Hu, Brighton A. Hill, Felipe Garcia-Sanchez, and Joseph S. Friedman
arXiv - CS - Emerging Technologies Pub Date : 2020-07-02 , DOI: arxiv-2007.00815 Xuan Hu, Brighton A. Hill, Felipe Garcia-Sanchez, and Joseph S. Friedman
The recent demonstration of current-driven magnetic domain wall logic [Z. Luo
et al., Nature 579:214] was based on a three-input logic gate that was
identified as a reconfigurable NAND/NOR function. We reinterpret this logic
gate as a minority gate within the context of threshold logic, enabling a
domain wall threshold logic paradigm in which the device count can be reduced
by 80%. Furthermore, by extending the logic gate to more than three inputs of
non-equal weight, an 87% reduction in device count can be achieved.
中文翻译:
具有电流驱动磁畴壁的阈值逻辑
电流驱动磁畴壁逻辑的最新演示 [Z. Luo et al., Nature 579:214] 基于三输入逻辑门,该逻辑门被识别为可重构 NAND/NOR 功能。我们将这个逻辑门重新解释为阈值逻辑上下文中的少数门,从而实现了域墙阈值逻辑范式,其中设备数量可以减少 80%。此外,通过将逻辑门扩展到三个以上不同权重的输入,可以实现设备数量减少 87%。
更新日期:2020-07-14
中文翻译:
具有电流驱动磁畴壁的阈值逻辑
电流驱动磁畴壁逻辑的最新演示 [Z. Luo et al., Nature 579:214] 基于三输入逻辑门,该逻辑门被识别为可重构 NAND/NOR 功能。我们将这个逻辑门重新解释为阈值逻辑上下文中的少数门,从而实现了域墙阈值逻辑范式,其中设备数量可以减少 80%。此外,通过将逻辑门扩展到三个以上不同权重的输入,可以实现设备数量减少 87%。
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