Design of a High Performance Reversible Multiplier
Reversible logic circuits are increasingly used in power minimization having applications such as low power CMOS design, optical information processing, DNA computing, bioinformatics, quantum computing and nanotechnology. The problem of minimizing the number of garbage outputs is an important issue in reversible logic design. In this paper, the authors propose a new 4?4 universal reversible logic gate. The proposed reversible gate can be used to synthesize any given Boolean functions. The proposed reversible gate also can be used as a full adder circuit. In this paper, they have used Peres gate and the proposed Modified HNG (MHNG) gate to construct the reversible fault tolerant multiplier circuit.