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Reversible logic has attracted interest from many researchers in the area of quantum information science. Since there is no information loss in reversible logic, energy consumption is greatly reduced. However, realization of quantum equivalent circuits using cascading reversible gates is complex. Predominantly, this work targets implementation of quantum equivalent circuits using cascading reversible...
The model of computing in which the computational progression is reversible or to some extent time inverting is entitled reversible computing. In the modern epoch reversible logic has materialized as a promising, competent technology comprising its applications in low power CMOS, quantum computing, nanotechnology, and optical computing. The conventional gates such as AND, OR, and EXOR are not reversible...
This paper presents a comparative study of highspeed, low-power and low voltage full adder circuits. Our approach is based on XOR-XNOR (4T) design full adder circuits combined in a single unit. This technique helps in reducing the power consumption and the propagation delay while maintaining low complexity of logic design. Simulation results illustrate the superiority of the designed adder circuits...
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