Reversible Code Converters Based on Application Specific Four Variable Reversible Gates

“…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.…”

“…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.…”

Hamming Code Converter using Reversible Toffoli Netlist

“…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.…”

“…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.…”

Hamming Code Converter using Reversible Toffoli Netlist

RL-BLED: A Reversible Logic Design of Bit Level Encryption/Decryption Algorithm for Secure Mammogram Data Transmission