量子点元胞自动机的扇出

K. Yadavalli, A. Orlov, R. Kummamuru, C. Lent, G. Bernstein, G. Snider
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引用次数: 9

摘要

本文描述了QCA中扇出的制作和实验演示。扇出很重要,因为它对于复杂的数字逻辑电路是必要的,并且对于生成紧凑的设计是必不可少的,因为多个单元可以由单个驱动单元驱动。QCA中的扇出也是QCA电路中功率增益的直接体现。该装置使用金属岛(作为量子点)和使用多兰桥技术制造的多个隧道结(MTJs)来实现(Fulton, 1987)。电路由三个锁存器组成,其中第一级(L1)的锁存器电容耦合到第二级(L2和L3)的两个锁存器。实验的目标是同时切换L2和L3,使用L1作为驱动L2和L3的输入。每个锁存器由三个量子点组成,中间点通过mtj连接到末端点
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fanout in quantum dot cellular automata
In this report, we describe the fabrication and experimental demonstration of fanout in QCA. Fanout is important as it is necessary for complex digital logic circuits and is essential for generating compact designs, as multiple cells can be then driven by a single driver cell. Fanout in QCA is also a direct demonstration of power gain in QCA circuits. The device is realized using metal islands (as quantum dots) and multiple tunnel junctions (MTJs) fabricated using Dolan bridge technique (Fulton, 1987). The circuit consists of three latches, with the latch in the first stage (L1) capacitively coupled to the two latches of the second stage (L2 and L3). The goal of the experiment is to switch L2 and L3 simultaneously using L1 as an input driving both L2 and L3. Each latch is formed by three quantum dots with the middle dot being connected to the end dots by MTJs
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