Design of reversible multiplexer de-multiplexer
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Reversible logic is an emerging technique of upcoming future technologies. Low heat dissipation and energy recycle principle are encouraging its demand for low power daily usage portable devices. In this paper, two reversible gates have been proposed, named as R-I gate and R-II gate, for realizing reversible combinational logic circuits. The proposed two gates can be used for realisation of basic logical functions such as AND, XOR, MUX etc. Besides these functions, other advantage of the proposed R-I gate is that it can be used as a 1/2 de-multiplexer without requiring any extra logic circuits and the proposed R-II gate can be used as a half adder circuit. The proposed reversible gates are implemented and verified using Xilinx ISE 10.1 software. The simulation results show that the proposed designs are more efficient in terms of gate count, garbage outputs and constant inputs than the existing reversible logic gates.
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Gopal, Lenin; Raj, N.; Gopalai, A.; Singh, A. (2014)© 2014 IEEE. Reversible logic is an emerging technique of upcoming future technologies. Low heat dissipation and energy recycle principle are encouraging its demand for low power daily usage portable devices. In this ...
Gopal, Lenin; Mohd Mahayadin, N.; Chowdhury, A.; Gopalai, A.; Singh, A. (2014)In low power circuit design, reversible computing has become one of the most efficient and prominent techniques in recent years. In this paper, reversible Arithmetic and Logic Unit (ALU) is designed to show its major ...
Cheng, C.; Singh, A.; Gopal, Lenin (2015)In this paper, we present an efficient reversible logic synthesis algorithm that uses Toffoli and mixed-polarity based Toffoli gate. In this paper, we propose an algorithm to synthesizereversible function in their ...