1. Optimization Approaches for Designing a Novel 4-Bit Reversible Comparator.
- Author
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Zhou, Ri-gui, Zhang, Man-qun, Wu, Qian, and Li, Yan-cheng
- Subjects
- *
COMPARATOR circuits , *MATHEMATICAL optimization , *FIELD theory (Physics) , *ENERGY consumption , *NUMERICAL calculations , *QUANTUM theory - Abstract
Reversible logic is a new rapidly developed research field in recent years, which has been receiving much attention for calculating with minimizing the energy consumption. This paper constructs a 4×4 new reversible gate called ZRQ gate to build quantum adder and subtraction. Meanwhile, a novel 1-bit reversible comparator by using the proposed ZRQC module on the basis of ZRQ gate is proposed as the minimum number of reversible gates and quantum costs. In addition, this paper presents a novel 4-bit reversible comparator based on the 1-bit reversible comparator. One of the vital important for optimizing reversible logic is to design reversible logic circuits with the minimum number of parameters. The proposed reversible comparators in this paper can obtain superiority in terms of the number of reversible gates, input constants, garbage outputs, unit delays and quantum costs compared with the existed circuits. Finally, MATLAB simulation software is used to test and verify the correctness of the proposed 4-bit reversible comparator. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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