【 摘 要 】

Quantum-dot cellular automata (QCA) is one of the few alternative computing platforms that has the potential to be a promising technology because of higher speed, smaller size, and lower power consumption in comparison with CMOS technology. This letter proposes an optimized full comparator for implementation in QCA. The proposed design is compared with previous works in terms of complexity, area, and delay. In comparison with the best previous full comparator, our design has 64% and 85% improvement in cell count and area, respectively. Also, it is implemented with only one clock cycle. The obtained results show that our full comparator is more efficient in terms of cell count, complexity, area, and delay compared to the previous designs. Therefore, this structure can be simply used in designing QCA-based circuits.

【 授权许可】

   

【 预 览 】

附件列表

Files	Size	Format	View
20150520125456323.pdf	2146KB	PDF	download

【 参考文献 】

• [1]R. Compano, L. Molenkamp, and D.J. Paul, "Technology Roadmap for Nanoelectroincs," European Commission IST Programme, FET Conf., 1999.
• [2]"International Technology Roadmap for Semiconductors," 2011. http://www.itrs.net
• [3]C.S. Lent, P.D. Tougaw, and W. Porod, "Bistable Saturation in Coupled Quantum Dots for Quantum Cellular Automata," Applied Phys. Lett., vol. 62, 1993, pp. 714-716.
• [4]C.S. Lent et al., "Quantum Cellular Automata," Nanotechnol., vol. 4, no. 1, 1993, pp. 49-57.
• [5]D.A. Antonelli et al., "Quantum-Dot Cellular Automata (QCA) Circuit Partitioning: Problem Modeling and Solutions," 41st ACM/IEEE Design Automata Conf., 2004, p. 363.
• [6]Y. Xia and K. Qiu, "Design and Application of Universal Logic Gate Based on Quantum-Dot Cellular Automata," 11th IEEE Intern. Conf. Comm. Tech. Proc., 2008, p. 335.
• [7]K.-M. Qiu and Y.-S. Xia, "Quantum-Dots Cellular Automata Comparator," 7th Int. ASIC Conf., 2007, p. 1297.
• [8]B. Lampreht et al., "Quantum-Dot Cellular Automata Serial Comparator," 11th Euromicro. Conf. Digital Syst. Design Architectures Methods Tools, 2008, p. 447.
• [9]Y.-S. Xia and K.-M. Qiu, "Comparator Design Based on Quantum-Dot Cellular Automata," J. Electron. Info. Technol., vol. 31, no. 6, 2009, pp. 1517-1520.
• [10]S. Ying, T. Pei, and L. Xiao, "Efficient Design of QCA Optimal Universal Logic Gate ULG.2 and Its Application," 1st Inter. Conf. ICCASM, 2010, p. 392.
• [11]K. Walus, V.S. Dimitrov, and G.A. Julliaen, "Computer Architecture Structure for Quantum Cellular Automata," 3rd IEEE Nanotech. Conf., 2003, p. 1435.
• [12]M.T. Niemir, Designing Digital Systems in Quantum Cellular Automata, MSc Thesis, Department of Computer Science and Engineering Notre Dame, Indiana, 2004.
• [13]I. Hänninen and J. Takala, "Binary Adders on Quantum-Dot Cellular Automata," J. Signal Process. Syst., vol. 58, 2008, pp. 87-103.
• [14]"QCADesigner," The University of British Columbia, 2011. http://www.mina.ubc.ca/qcadesigner