Title :
A compact realization of a reversible quantum n-to-2n decoder
Author :
Lisa, Nusrat Jahan ; Babu, Hafiz Md Hasan
Author_Institution :
Dept. of Comput. Sci. & Eng., Ahasnaullah Univ. of Sci. & Technol., Dhaka, Bangladesh
Abstract :
This paper presents a compact realization of quantum n-to-2n decoder circuit, where n is the number of input bits. The proposed design of the quantum n-to-2n decoder circuit shows that it is composed of the quantum 2-to-4 decoder circuit. We present a quantum 2-to-4 decoder circuit using quantum Peres gate and CNOT quantum gates. Finally, we show an algorithm to construct a compact n-to-2n quantum decoder circuit. Our circuit performs better than the existing ones, e.g., the proposed 3-to-8 quantum decoder circuit improves 15.6% on the number of quantum gates, delay, area and power, 66.67% on garbage outputs and 25% on constant inputs than the Existing Design-2. We also simulate the proposed quantum decoder using Microwind DSCH 2.7 which shows the functional correctness of the circuit.
Keywords :
codecs; delays; quantum communication; quantum computing; 3-to-8 quantum decoder circuit; CNOT quantum gates; Microwind DSCH 2.7; compact n-to-2n quantum decoder circuit; decoder circuit; delay; garbage outputs; quantum 2-to-4 decoder circuit; quantum Peres gate; quantum computing; quantum decoder; reversible quantum n-to-2n decoder; Barium; Logic gates; Photonics; Power measurement; Quantum computing; Robustness; Delay; Garbage Output; Quantum Circuit; Quantum Gate; Quantum Peres Gate;
Conference_Titel :
Electronics Information and Emergency Communication (ICEIEC), 2013 IEEE 4th International Conference on
Conference_Location :
Beijing
DOI :
10.1109/ICEIEC.2013.6835461
