Quantum-dot cellular automata based reversible low power parity generator and parity checker design for nanocommunication

作     者：Jadav Chandra DAS Debashis DE 

作者机构：Department of Computer Science and EngineeringWest Bengal University of Technology Department of PhysicsUniversity of Western Australia 

基　　金：Project supported by the University Grants Commission of India(No.41-631/2012(S.R.)) 

出 版 物：《Frontiers of Information Technology & Electronic Engineering》 (信息与电子工程前沿（英文版）)

年 卷 期：2016年第17卷第3期

页      码：224-236页

摘      要：Quantum-dot cellular automata(QCA) is an emerging area of research in reversible computing. It can be used to design nanoscale circuits. In nanocommunication, the detection and correction of errors in a received message is a major factor. Besides, device density and power dissipation are the key issues in the nanocommunication architecture. For the first time, QCA-based designs of the reversible low-power odd parity generator and odd parity checker using the Feynman gate have been achieved in this study. Using the proposed parity generator and parity checker circuit, a nanocommunication architecture is proposed. The detection of errors in the received message during transmission is also explored. The proposed QCA Feynman gate outshines the existing ones in terms of area, cell count, and delay. The quantum costs of the proposed conventional reversible circuits and their QCA layouts are calculated and compared, which establishes that the proposed QCA circuits have very low quantum cost compared to conventional designs. The energy dissipation by the layouts is estimated, which ensures the possibility of QCA nano-device serving as an alternative platform for the implementation of reversible circuits. The stability of the proposed circuits under thermal randomness is analyzed, showing the operational efficiency of the circuits. The simulation results of the proposed design are tested with theoretical values, showing the accuracy of the circuits. The proposed circuits can be used to design more complex low-power nanoscale lossless nanocommunication architecture such as nano-transmitters and nano-receivers.

主 题 词：量子细胞自动机 可逆电路 传统设计 奇偶校验 发生器 校验器 元胞自动机 低功率 

学科分类：080903[080903] 0810[工学-土木类] 0808[工学-自动化类] 0809[工学-计算机类] 0839[0839] 08[工学] 0835[0835] 0812[工学-测绘类] 

核心收录：

D　O　I：10.1631/FITEE.1500079

馆 藏 号：203567032...