Affiliation:
1. Materials and Energy Research Center Dezful Branch, Islamic Azad University Dezful Iran
2. Department of Computer Engineering, Faculty of Engineering and Natural Sciences Kadir Has University Istanbul Turkey
3. Department of Information Technology Tripura University Agartala West Tripura India
4. Department of Computer Science and Technology National Institute of Engineering and Technology Durgapur India
Abstract
AbstractReversible logic is used increasingly to design digital circuits with lower power consumption. The parity preserving (PP) property contributes to detect permanent and transient faults in reversible circuits by comparing the input and output parity. Multiplication is also considered one of the primary operations in both digital and analog circuits due to its wide applications in digital signal processing and computer arithmetic operations. Accordingly, Vedic mathematics, as a set of techniques sutras, has become popular and is extensively used to solve mathematical problems more efficiently and faster. This work proposes three PP reversible blocks, N1, N2, and N3, which are used to develop a novel effective 2‐bit PP reversible Vedic multiplier and 4‐bit ripples carry adders (RCAs). Moreover, 2‐bit Vedic multiplier and RCA are used to develop the 4‐bit PP reversible Vedic multiplier. The proposed designs outperform the most relevant state‐of‐the‐art structures in terms of garbage output (GO), constant input (CI), gate count (GC), and quantum cost (QC). Average savings of 22.37%, 35.44%, 35.44%, and 34.76%, and 17.76%, 26.60%, 24.52%, and 27.27% respectively, are observed for two‐bit and four‐bit PP reversible Vedic multipliers in terms of QC, GO, CI and GC as compared to previous works.
Subject
Electrical and Electronic Engineering,Computer Science Applications,Modeling and Simulation
Cited by
14 articles.
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