23. مراجع
D.A. Antonelli, D.Z. Chen, T.J. Dysart, X.S. Hu, A.B. Khang, P.M. Kogge, R.C. Murphy, and M.T.
Niemier, “Quantum-Dot Cellular utomata (QCA) Circuit Partitioning: Problem Modeling and
Solutions,”Des. Auto. Conf., 2004, pp. 363-368.
M. R. Azghadi, O. Kavehei, and K. Navi. A Novel Design for Quantum-dot Cellular Automata Cells
and Full Adders. Journal of Applied Sciences. 7, no. 22 (2007), pp. 3460-3468.
M. A. Tehrani, and K. Navi. A Novel Quantum Dot Cellular Automata for Implementation of Multi-
Valued Logic. Elsevier, Nanotoday Conference (2009).
K. Navi,S. Sayedsalehi, R. Farazkish, M. Rahimi Azghadi, “Five-Input Majority Gate, a New Device
for Quantum-Dot Cellular Automata”, Journal of Computational and Theoretical Nanoscience,
Volume 7, Number 8, August 2010 , pp. 1546-1553(8).
K. Navi , R. Farazkish, S. Sayedsalehi, M. Rahimi Azghadi, “A new quantum-dot cellular automata
fulladder”, Elsevier, Microelectronics Journal, In Press, Corrected Proof, Available online 9
September 2010.
S. Sayedsalehi, M. h. Moaiyeri, K. Navi, “Novel Efficient Adder Circuits for Quantum-dot Cellular
Automata”, accepted in Journal of Computational and Theoretical Nanoscience.
M. A. Tehrani, F. Safaei, M. H. Moaiyer, and K. Navi. Design and Implementation of Multi-Stage
Interconnection Networks Using Quantum-Dot Cellular Automata. Microelectronics Journal (2011).