“…A state-of-the-art four variable reversible gate has been used to design the proposals in this communication. Figure 1 presents the high level diagrams for Binary-to-Gray converter (BG4) gate and Gray-to-Binary converter (GB4) Gates [9]. Figure 2 provides the Toffoli Gate implementations for the two gates.…”
Section: Diganta Sengupta Mahamuda Sultana Atal Chaudhurimentioning
confidence: 99%
“…A number of reversible architectures have been proposed till date for combinational as well as sequential counterparts of existing digital designs. Reversible computing has presented two domains of implementations; one using reversible gates and the other using Quantum Dot Cellular Automata (QCA) cells [3] [9] has been used to design the high level schematic for the error signal generator, as discussed later. Multiple four variable reversible gates have been proposed till date [10] [11] [12] with varied realizations.…”
Technological advancements in the last two decades have witnessed a plethora of emerging technologies gaining global research attention. One of them is reversible logic due to its capability to arrest tremendous amount of heat generated in modern digital conversions at the architecture level. With CMOS reaching near capping of threshold parameters, researchers are imperatively exploring the reversible domain for possible alternatives. Telecommunication is one area which expects appreciable share of digital resources. This communication proposes the reversible version of Hamming Code converter, decoder, and Corrector unit. Hamming codes form one of the perfect codes attaining the Hamming Bound. The designs have been implemented using Toffoli Netlist. A state-of-the-art four variable reversible gate in literature has been used to design the high level schematic for part of the proposals. The authors provide the results in terms of primitive Quantum Metrics.
“…A state-of-the-art four variable reversible gate has been used to design the proposals in this communication. Figure 1 presents the high level diagrams for Binary-to-Gray converter (BG4) gate and Gray-to-Binary converter (GB4) Gates [9]. Figure 2 provides the Toffoli Gate implementations for the two gates.…”
Section: Diganta Sengupta Mahamuda Sultana Atal Chaudhurimentioning
confidence: 99%
“…A number of reversible architectures have been proposed till date for combinational as well as sequential counterparts of existing digital designs. Reversible computing has presented two domains of implementations; one using reversible gates and the other using Quantum Dot Cellular Automata (QCA) cells [3] [9] has been used to design the high level schematic for the error signal generator, as discussed later. Multiple four variable reversible gates have been proposed till date [10] [11] [12] with varied realizations.…”
Technological advancements in the last two decades have witnessed a plethora of emerging technologies gaining global research attention. One of them is reversible logic due to its capability to arrest tremendous amount of heat generated in modern digital conversions at the architecture level. With CMOS reaching near capping of threshold parameters, researchers are imperatively exploring the reversible domain for possible alternatives. Telecommunication is one area which expects appreciable share of digital resources. This communication proposes the reversible version of Hamming Code converter, decoder, and Corrector unit. Hamming codes form one of the perfect codes attaining the Hamming Bound. The designs have been implemented using Toffoli Netlist. A state-of-the-art four variable reversible gate in literature has been used to design the high level schematic for part of the proposals. The authors provide the results in terms of primitive Quantum Metrics.
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