Design of a Novel Decimal to Multicode Converter in QCA Technology

IF 1.2 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

Journal of Electrical and Computer Engineering Pub Date : 2023-10-07 DOI:10.1155/2023/6615790

Farhad Fouladinia, Mohammad Gholami

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Abstract

Researchers are always looking for the improvement of existing methods. Today, CMOS technology is widely used, which has some advantages and disadvantages. One of the alternative methods for CMOS technology is QCA technology which compared to CMOS, has the advantages of low energy consumption and small occupied area. In this paper, by using the concepts and methods of QCA technology, a digital code converter is presented. In this converter, a new gate is used, which can produce outputs such as 4-input AND, 4-input OR, 4-input NAND, and 4-input NOR. The proposed converter has 10 inputs and 12 outputs. The 10 inputs are decimal numbers from 0 to 9, producing the output equivalent to excess-3, BCD, and gray codes. One of the advantages of this circuit is providing three different codes per input in just one circuit. In addition, due to the use of the new 4-input gate, the occupied area and the number of used cells were minimized. Simulations were performed by using QCADesigner-E version 2.2, and outcomes illustrated that the occupied area is equal to 0.29 μm2 and 380 QCA cells with 7 clock phases are used. The energy dissipation of the presented circuit is 171 meV. Also, given the favorable performance exhibited by the 4-input gate across various measurement parameters, it possesses the capability to be efficiently employed within larger and intricately designed circuits.

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QCA技术中一种新型十进多码转换器的设计

研究人员总是在寻找现有方法的改进。今天，CMOS技术被广泛应用，它有一些优点和缺点。QCA技术是CMOS技术的替代方法之一，与CMOS相比，QCA技术具有能耗低、占地面积小的优点。本文利用QCA技术的概念和方法，设计了一种数字编码转换器。在这个转换器中，使用了一个新的门，它可以产生4输入与输出、4输入或输出、4输入非与输出和4输入非与输出。该转换器具有10个输入和12个输出。10个输入是0到9之间的十进制数，产生的输出相当于过量-3、BCD和灰色编码。这种电路的优点之一是在一个电路中每个输入提供三种不同的代码。此外，由于使用了新的4输入栅极，占用的面积和使用的单元数量被最小化。采用qcaddesigner - e 2.2进行仿真，结果表明，占用面积为0.29 μm2，使用7个时钟相位的380个QCA细胞。该电路的能量损耗为171 meV。此外，考虑到四输入门在各种测量参数中表现出的良好性能，它具有在更大和复杂设计的电路中有效使用的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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