Quantum Gate Implementation of a Novel Reversible Half Adder and Subtractor Circuit

In this research work, the transistor level implementation and QCA implementation of TR reversible gate are performed and a comparison between both techniques on the ground of Area is executed. In the later section, a new-fangled design of the reversible adder and subtractor RSG gate is presented. This novel architecture can perform addition and subtraction operation simultaneously, which was never performed before using any of the existing reversible circuits. The proposed novel reversible gate, which uses 2X2 quantum gates and has a quantum cost of five, can be operated as Reversible Half Adder as well as Half Subtractor concurrently. The reversible gate proposed in this research will find numerous applicability in several DSP applications where half adder and half subtractor operates simultaneously.

[1]  D. M. Miller,et al.  Comparison of the Cost Metrics for Reversible and Quantum Logic Synthesis , 2005, quant-ph/0511008.

[2]  Pérès,et al.  Reversible logic and quantum computers. , 1985, Physical review. A, General physics.

[3]  Majid Mohammadi,et al.  On figures of merit in reversible and quantum logic designs , 2009, Quantum Inf. Process..

[4]  Charles H. Bennett,et al.  Logical reversibility of computation , 1973 .

[5]  Himanshu Thapliyal,et al.  A new design of the reversible subtractor circuit , 2011, 2011 11th IEEE International Conference on Nanotechnology.

[6]  T.J. Dysart,et al.  > Replace This Line with Your Paper Identification Number (double-click Here to Edit) < 1 , 2001 .

[7]  DiVincenzo,et al.  Five two-bit quantum gates are sufficient to implement the quantum Fredkin gate. , 1996, Physical review. A, Atomic, molecular, and optical physics.

[8]  Rolf Landauer,et al.  Irreversibility and heat generation in the computing process , 1961, IBM J. Res. Dev..

[9]  Gerhard W. Dueck,et al.  Improved quantum cost for n-bit Toffoli gates , 2003 .

[10]  G. Athisha,et al.  Design of subtractor using nanotechnology based QCA , 2010, 2010 INTERNATIONAL CONFERENCE ON COMMUNICATION CONTROL AND COMPUTING TECHNOLOGIES.