TY - GEN
T1 - Design of Special Circuits Using State-of-The-Art Reversible Gates
AU - Murkumbi, Omkar
AU - Elarabi, Tarek
PY - 2017/5/4
Y1 - 2017/5/4
N2 - The rapid advancements in VLSI industry continue to establish a smaller feature size, causing the integration of more millions of transistors on a single piece of silicon according to Moore's law. Hence, an increase in the number of transistors induces power dissipation. Modern studies explain that power dissipation can be reduced by reversible gate technique. A central issue is the lack of use of reversible logic gates over conventional logic gates, which have enormous advantages in low-power application like portable devices, cryptography, quantum computing and nanotechnology. Different reversible gates are introduced in this research paper. Basic arithmetic and logical operations are realized from primitive level. The realized operations are used as basic blocks to design complex special adders. All introduced modules are designed using Verilog on Xilinx ISE V13.2 and ISim simulator.
AB - The rapid advancements in VLSI industry continue to establish a smaller feature size, causing the integration of more millions of transistors on a single piece of silicon according to Moore's law. Hence, an increase in the number of transistors induces power dissipation. Modern studies explain that power dissipation can be reduced by reversible gate technique. A central issue is the lack of use of reversible logic gates over conventional logic gates, which have enormous advantages in low-power application like portable devices, cryptography, quantum computing and nanotechnology. Different reversible gates are introduced in this research paper. Basic arithmetic and logical operations are realized from primitive level. The realized operations are used as basic blocks to design complex special adders. All introduced modules are designed using Verilog on Xilinx ISE V13.2 and ISim simulator.
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U2 - 10.1109/EMS.2016.045
DO - 10.1109/EMS.2016.045
M3 - Conference contribution
AN - SCOPUS:85020010430
T3 - Proceedings - UKSim-AMSS 2016: 10th European Modelling Symposium on Computer Modelling and Simulation
SP - 218
EP - 222
BT - Proceedings - UKSim-AMSS 2016
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 10th European Modelling Symposium on Computer Modelling and Simulation, UKSim-AMSS 2016
Y2 - 28 November 2016 through 30 November 2016
ER -