In this paper the novel coplanar circuits for full adder implementation in Quantum-dot Cellular Automata (QCA) technology are presented. We propose a novel one-bit full adder circuit and then utilize this new circuit to implement novel four-bit Ripple Carry Adder (RCA) circuit in the QCA technology. The QCADesigner tool version 2.0.1 is utilized to implement the designed QCA full adder circuits. The implementation results show that the designed QCA full adder circuits have an improvement compared to other QCA full adder circuits.

P. Balasubramanian, “A latency optimized biased implementation style weak-indication self-timed full adder,” Facta Universitatis, Series: Electronics and Energetics. vol. 28, pp. 657-671, 2015.

A. Rezai, and P. Keshavarzi, “High-performance scalable circuit for modular multiplication using a new digit-serial computation,” Micro. J., vol.55, pp. 169–178, 2016.

A. Rezai, and P. Keshavarzi, “High-throughput modular multiplication and exponentiation algorithm using multibit-scan-multibit-shift technique,” IEEE Trans. VLSI syst., vol. 23, pp. 1710-1719, 2015.

M. Balali, A. Rezai, H. Balali, F. Rabiei, and S. Emadi “A novel design of 5-input majority gate in quantum-dot cellular utomata technology,” in Proceedings of the IEEE Symp. Comput. Appl. Indust. Electr. (ISCAIE 2017), 2017, pp. 13-16.

H. Rashidi, A. Rezai, and S. Soltani, “High-performance multiplexer circuit for quantum-dot cellular automata,” J. Comput. Electr., vol. 15, pp. 968–98, 2016.

I. Hänninen, and J. Takala, “Binary adders on quantum-dot cellular automata,” J. Sign. Process. Syst., vol. 58, pp. 87–103, 2010.

B. Ramesh, and M. A. Rani, “Design of binary to BCD code converter using area optimized quantum-dot cellular automata full Adder,” Int. J. Eng., vol. 9, pp, 49-64, 2015.

D. Abedi, G. Jaberipur, and M. Sangsefidi, “Coplanar full adder in quantum-dot cellular automata via clock-zone-based crossover,” IEEE Trans. Nanotech., vol. 14, pp. 497–504, 2015.

S. Hashemi, and K. Navia, “A Novel Robust QCA Full-adder,” Proc. Mater. Sci., vol. 11, pp. 376-380, 2015.

M. Mohammadi, M. Mohammadi, and S. Gorgin, “An efficient design of full adder in quantum-dot cellular automata (QCA) technology,” Microelectr. J., vol. 50, pp. 35-43, 2016.

F. Ahmad, G. M. Bhat, H. Khademolhosseini, S. Azimi, S. Angizi, and K. Navi, “Towards single layer quantum-dot cellular automata adders based on explicit interaction of cells,” J. Comput. Sci., vol. 16, pp. 8-15, 2016.

C. Labrado, and H. Thapliyal, “Design of adder and subtractor circuits in majority logic-based field-coupled QCA nano computing,” Electron. Lett.., vol. 52, pp.464-466, 2016.

M. Balali, A. Rezai, H. Balali, F. Rabiei, and S. Emadid, “Towards coplanar quantum-dot cellular automata adders based on efficient three-input XOR gate,” Result. Phys., vol. 7, pp. 1389-1395, 2017.

V. Pudi, and K. Sridharan, “Low complexity design of ripple carry and Brent-Kung adders in QCA,” IEEE Trans. Nanotech., vol. 11, pp. 105-119, 2012.

H. Cho, and E. E. Swartzlander, “Adder and multiplier design in quantum-dot cellular automata,” IEEE Trans. Comput., vol. 58, pp. 721-727, 2009.