TITLE:
Design of Low Power Comparator Using DG Gate
AUTHORS:
Bahram Dehghan, Abdolreza Roozbeh, Jafar Zare
KEYWORDS:
Reversible Logic Comparator; TR and DG Gate; Quantum Cost; Garbage Output
JOURNAL NAME:
Circuits and Systems,
Vol.5 No.1,
January
14,
2014
ABSTRACT:
In recent studies, reversible logic has emerged as a great scene of
research, having
applications in low power CMOS circuits, optical computing, quantum computing
and nanotechnology. The classical logic gates such as AND, OR, EXOR and EXNOR
are not reversible. In the existing literature, reversible sequential circuits
designs are offered that are improved for the number of the garbage outputs and
reversible gates. Minimizing the number of garbage is very noticeable. In the present paper, we show a
design of the reversible comparator based on the quantum gates implementation
of the reversible DG gate. The reversible DG gate is designed by using 3 × 3 quantum gates such as NOT, CNOT, Controlled-V and Controlled-V+ gates. Also, we have used the TR gate and various types of quantum gates in the
implementation results. Low power three-bit comparator is designed using DG Gate, New Gate and Fredkin Gate.
In order to evaluate the benefit of using the DG gate proposed in this paper,
one-bit comparator is
constructed. The design is useful for the future computing techniques like
quantum computers. The proposed designs are implemented using VHDL and
functionally investigated using Quartus II simulator.