In this manuscript, we first suggest a single-layer 2:1 QCA MUX with an ultra-low number of cells and high speed. Unlike existing designs, the output of the proposed design does not comply with the Boolean regulation and is produced using the essential characteristics of quantum technology. Single-layer 4:1 and 8:1 QCA multiplexers have also been implemented. Moreover, using the proposed 2:1 QCA MUX, a novel and efficient QCA RAM memory cell with the set and reset abilities has been proposed. Forasmuch as the most significant challenge in quantum-dot cellular automata circuit design is the number of cell counts and occupied area. The proposed 2:1 QCA MUX includes 10 cells and an occupied area of 0.03. The unique advantage of the proposed design over all previous output generation tasks is based on cellular interactions. Our findings showed that the proposed 2:1 QCA MUX has a 16.66% and 60% improvement in terms of cell count and occupied area, respectively. In order to confirm the function of the proposed design, some physical proofs are presented. The software for implement of the circuits and their power analysis are QCADesigner 2.0.3 and QCAPro, respectively. The results of the comparisons indicate that the proposed structures are more efficient than the existing ones. The QCAPro power analysis tool has been used for analyzing the power consumption of the proposed designs.

在这份手稿中，我们首先建议使用单层 2:1 QCA MUX，具有超低单元数和高速。与现有设计不同，拟议设计的输出不符合布尔规则，并且是使用量子技术的基本特征产生的。单层 4:1 和 8:1 QCA 多路复用器也已实现。此外，使用所提出的 2:1 QCA MUX，已经提出了一种具有设置和复位能力的新型高效 QCA RAM 存储单元。因为量子点元胞自动机电路设计中最大的挑战是元胞数和占用面积。建议的 2:1 QCA MUX 包括 10 个单元和 0.03 的占用面积。与之前所有输出生成任务相比，所提出的设计的独特优势是基于细胞相互作用。我们的研究结果表明，提议的 2:1 QCA MUX 在细胞计数和占用面积方面分别提高了 16.66% 和 60%。为了确认所提出的设计的功能，提出了一些物理证明。电路实现和功率分析的软件分别是QCADesigner 2.0.3和QCAPro。比较结果表明，所提出的结构比现有结构更有效。QCAPro 功耗分析工具已用于分析所提议设计的功耗。3 和 QCAPro。比较结果表明，所提出的结构比现有结构更有效。QCAPro 功耗分析工具已用于分析所提议设计的功耗。3 和 QCAPro。比较结果表明，所提出的结构比现有结构更有效。QCAPro 功耗分析工具已用于分析所提议设计的功耗。