Journal of Electronics and Communication Systems

Quantum-dot cellular automata are the rising nanotechnology used to structure the nano scale circuits. QCA is the powerful elective technique to the CMOS innovation. In this paper,anovel effective design of encoder is proposed by the use of Majority gate and inverter.The proposed QCA encoder 4X2 and8X3 design outshines interms of cell count, area and delay. The number of cells in QCA circuits is similar to the number of transistors in CMOS circuits. The structure is made successful by diminishing QCA wire intersection and cell. The fundamental goal is to diminish the measure of the circuit and to enhance the speed of activity of QCA circuits.

Chandrasekaran A. & Senthil Kumar K.Design of an efficient full adder based on 5- input majority gate in coplanar Quantum Dot Cellular Automata. Journal of Power Electronics and Devices. Volume 3 Issue 2, August 2017.

Senthilkumar K. & ArunaS.Design of area-delay efficient adder based circuits in quantum dot Cellular automata. International Journal on Intelligent Electronic System, Volume 9 Issue 2, July 2015.

ChandrasekaranA.&Senthil Kumar K.An Optimal Design of Odd Parity Generator by Using Five Input Majority Gate in Quantum Dot Cellular Automata.Journal of VLSI design and its advancement. Volume 1 Issue 1, March 2018.

Debashis De,Tamoghna Purkayastha & TanayChattopadhyay. Design of QCAbased Programmable Logic Array using decoder. Elsevier, Micro electronics Journal, 2016.

Arman Roohi N., Ronald F.DeMara & NavidKhoshavi. Design and evaluation of an ultra-area-efficient fault-tolerant QCA full adder. Elsevier, Micro electronics Journal, 2015.

TrailokyaNathSasamal, Ashutosh Kumar Singh & Anand Mohana. An optimal design of full adder based onmajority gate in coplanar quantum-dot cellular automata. Elsevier,Micro electronics Journal,2016.

Rafiq Mohammad Beigh, Ahmad Firdous Mustafa Mohammad. Performance Evaluation of Efficient XOR Structures in Quantum-Dot Cellular Automata (QCA). 2013.

W.Liu,L.Lu, M. O'Neill& E.E. Swartzlander, Afirst step toward cost functions for quantum-dot cellular automata designs.IEEE Transaction, Nanotechnology. 2014.

Sayedsalehi S., Moaiyeri M.H. & NaviK.Novel efficient adder circuits for Quantum-dot cellular automata. Journal Comput. Theor. Nanosci. 8 (2011).

FirdousAhmad & Bhat G.M. Novel code converters based on quantum dot cellular automata (QCA) International Journal of Science Research 3 (May) (2014).

Ambika.G, Anuja Hanji & Sharan Preeta. Implementation of Quantum Dot Cellular Automata(QCA) Based Logic Circuit in 4-Channel Capacitance to Digital Converter for Capacitive Sensing Solution.International Journal of Engineering Research and Science, Vol-2, 2016.