Baugh-Wooley Multiplier design using Multiple Control Toffoli and Multiple Control Fredkin reversible logic gates

dc.contributor.authorRaj, K. Saritha
dc.contributor.authorKumar, P. Rajesh
dc.contributor.authorSatyanarayana, M.
dc.contributor.statusnem
dc.date.accessioned2024-01-19T11:53:14Z
dc.date.available2024-01-19T11:53:14Z
dc.date.issued2023-05-09
dc.description.abstractMost error-resilient media processing applications use multipliers as their basic building blocks. These are power-consumption and computationally intensive modules. In the existing works, several types of the multipliers were used to improve the hardware capacity, but those methods did not provide sufficient results. Therefore, in this manuscript, a Baugh-Wooley Multiplier design using Multiple Control Toffoli (MCT) and Multiple Control Fredrick gate (MCF) Reversible Logic gate (BWM-MCT-MCF) will be analyzed. Initially, Reversible Full Adder (RFA) is designed using Multiple Control Toffoli and Multiple Control Fredrick gate Reversible Logic gates. Then the proposed Reversible Full Adder is used in Baugh-Wooley Multiplier. By this, it reduces the hardware complexity with higher speed, lower area, lower power consumption. The proposed BWM-MCT-MCF multiplier is implemented in MATLAB, its performance shows lower Garbage output 22.78%, 24.88%, 20.95% compared with the existing designs, like BWM-FG-FRG, BWM-RL-TG, BWM-TG-FG respectively. Then the designed BWM-MCT-MCF is implemented using Xilinx ISE tool with the Virtex 5 device. From this, the performance of the proposed FPGA-BWM-MCT-MCF method shows lower delay 23.77%, 16.86% compared with the existing designs, like FPGA-BWM-RL-TG, FPGA-BWM-TG-FG respectively.
dc.identifier.doi10.1556/1848.2022.00550
dc.identifier.issn2062-0810
dc.identifier.issue2
dc.identifier.jtitleInternational Review of Applied Sciences and Engineering
dc.identifier.urihttps://hdl.handle.net/2437/365277
dc.identifier.urlhttps://akjournals.com/view/journals/1848/14/2/article-p285.xml
dc.identifier.volume14
dc.language.isoen
dc.publisherAkadémiai Kiadó
dc.subjectBaugh-Wooley Multiplier
dc.subjectMultiple Control Toffoli (MCT)
dc.subjectMultiple Control Fredrick gate (MCF)
dc.subjectreversible logic gates
dc.subjectReversible Full Adder (RFA)
dc.titleBaugh-Wooley Multiplier design using Multiple Control Toffoli and Multiple Control Fredkin reversible logic gates
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