Design of quantum cost efficient reversible multiplier using Reed-Muller expressions (Q2224090)
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scientific article
| Language | Label | Description | Also known as |
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| English | Design of quantum cost efficient reversible multiplier using Reed-Muller expressions |
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Design of quantum cost efficient reversible multiplier using Reed-Muller expressions (English)
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3 February 2021
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Summary: Reversible logic design is one of the emerging trends in recent years as it is good for low power design. A good number of design methods for reversible multipliers were proposed earlier. In this paper, two bit reversible multiplier was designed using Reed-Muller expressions, and this new reversible multiplier was used to design 4-bit reversible multiplier. The results save 16.9\% of quantum cost (QC), 38.5\% of garbage outputs (GOs) and 10.7\% of constant inputs (CIs) compared to earlier designs. The simulations are done on Xilinx 10.1 and are presented. The methodology is extended for the design of 8-bit and 16-bit multipliers and the reversible logic metrics were presented for different bit lengths.
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reversible logic gates
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Reed-Muller expressions
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positive davio
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negative davio
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reversible multipliers
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quantum cost
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garbage outputs
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constant inputs
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reversible logic design
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simulation
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