Design of Single Bit Low Power Multiply Accumulate (MAC) Unit Using Quantum Dot Cellular Automata

2021 8th International Conference on Computing for Sustainable Global Development (INDIACom) Pub Date : 2021-03-17 DOI:10.1109/INDIACom51348.2021.00129

A. Asthana, Anil Kumar, Sumita Mishra, Preeta Sharan, M. Tabrez

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引用次数: 1

Abstract

Quantum dot was invented at Bell labs in 1982 as light-emitting nanocrystals that can absorb light of one wavelength and convert it to another. In the nanoscale implementation, quantum dot has become a new emerging technology, as one of the most prominent research areas. It has the potential of getting applied in the construction of quantum computers as well as in communication switching networks. The proposed multiply-accumulate operation (MAC) unit can be used to reduce the processing time of the central processing unit (CPU) or arithmetic logical unit (ALU). In this paper the MAC unit has been designed to reduce the complexity of the cross-connect circuits. The complete circuit has been implemented using quantum dot cellular automata to reduce the power dissipation and cell area. The standard AND gate and full adder are the core aspects for the design of MAC architecture. This work involves the design of a low-power MAC unit circuit. The circuit can be used with cross-connect networks with M parallel operations and with N size networks to make M × N operations per unit time. The power dissipation has been computed as 2.416x10−9 W. The proposed design is superior than other designs based on non-quantum dot technology.

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基于量子点元胞自动机的单比特低功耗乘法累加(MAC)单元设计

量子点是贝尔实验室于1982年发明的一种发光纳米晶体，它可以吸收一种波长的光并将其转换为另一种波长。在纳米尺度的实现中，量子点已经成为一种新兴的技术，成为最突出的研究领域之一。它具有应用于量子计算机构建和通信交换网络的潜力。所提出的乘法累加运算单元(MAC)可用于减少中央处理器(CPU)或算术逻辑单元(ALU)的处理时间。为了降低交叉连接电路的复杂度，本文设计了MAC单元。整个电路采用量子点元胞自动机来实现，以减少功耗和单元面积。标准与门和全加法器是MAC架构设计的核心部分。本工作涉及一个低功耗MAC单元电路的设计。该电路可用于具有M个并行运算的交叉连接网络和N个大小的网络，使单位时间内的运算次数达到M × N次。功耗计算为2.416 × 10−9w。该设计优于其他基于非量子点技术的设计。

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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2021 8th International Conference on Computing for Sustainable Global Development (INDIACom)

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