Optimized Gate Diffusion Input Method-Based Reversible Magnitude Arithmetic Unit Using Non-dominated Sorting Genetic Algorithm II
Gate diffusion input (GDI) method using a simple cell makes it possible to design low-power logic gates with reduced chip area and less complexity. In this work, a novel design of single-bit optimized reversible logic-based magnitude arithmetic unit (RMAU) circuit, using appropriate standard reversi...
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| Published in | Circuits, systems, and signal processing Vol. 39; no. 9; pp. 4516 - 4551 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.09.2020
Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0278-081X 1531-5878 |
| DOI | 10.1007/s00034-020-01382-1 |
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| Abstract | Gate diffusion input (GDI) method using a simple cell makes it possible to design low-power logic gates with reduced chip area and less complexity. In this work, a novel design of single-bit optimized reversible logic-based magnitude arithmetic unit (RMAU) circuit, using appropriate standard reversible gates with carbon nanotube (CNT) field-effect transistors (CNTFETs), based on modified-GDI (m-GDI) method for nanoscales is presented. In order to optimize the performance of the proposed circuit, and to achieve minimum power consumption and propagation delay, transistor sizes are adjusted using the non-dominated sorting genetic algorithm II (NSGA-II) in MATLAB tool. The simulation results show improvement in evaluating the figure of merits in worst-case delay and power consumption of the proposed optimized arithmetic unit, in comparison with a non-optimized RMAU circuit using a similar design method but counterpart structures. The effects of different process parameters (such as the diameter of CNTs) and voltage and temperature (PVT) variations are extensively evaluated by the
Monte Carlo
procedure in standard 32 nm technology utilizing the
Synopsys
HSPICE simulator. According to the outcomes obtained, the proposed optimized RMAU circuit is robust against PVT variations and noise-tolerable criterions, compared to those competitors with similar design in non-optimized conditions. The proposed optimized and non-optimized circuits were used in image processing as real environment assessments, and results depicted their excellent ability in being implemented in various large reversible-based applications, such as future generations of FPGA chips and CNTFET-based computers. |
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| AbstractList | Gate diffusion input (GDI) method using a simple cell makes it possible to design low-power logic gates with reduced chip area and less complexity. In this work, a novel design of single-bit optimized reversible logic-based magnitude arithmetic unit (RMAU) circuit, using appropriate standard reversible gates with carbon nanotube (CNT) field-effect transistors (CNTFETs), based on modified-GDI (m-GDI) method for nanoscales is presented. In order to optimize the performance of the proposed circuit, and to achieve minimum power consumption and propagation delay, transistor sizes are adjusted using the non-dominated sorting genetic algorithm II (NSGA-II) in MATLAB tool. The simulation results show improvement in evaluating the figure of merits in worst-case delay and power consumption of the proposed optimized arithmetic unit, in comparison with a non-optimized RMAU circuit using a similar design method but counterpart structures. The effects of different process parameters (such as the diameter of CNTs) and voltage and temperature (PVT) variations are extensively evaluated by the Monte Carlo procedure in standard 32 nm technology utilizing the Synopsys HSPICE simulator. According to the outcomes obtained, the proposed optimized RMAU circuit is robust against PVT variations and noise-tolerable criterions, compared to those competitors with similar design in non-optimized conditions. The proposed optimized and non-optimized circuits were used in image processing as real environment assessments, and results depicted their excellent ability in being implemented in various large reversible-based applications, such as future generations of FPGA chips and CNTFET-based computers. Gate diffusion input (GDI) method using a simple cell makes it possible to design low-power logic gates with reduced chip area and less complexity. In this work, a novel design of single-bit optimized reversible logic-based magnitude arithmetic unit (RMAU) circuit, using appropriate standard reversible gates with carbon nanotube (CNT) field-effect transistors (CNTFETs), based on modified-GDI (m-GDI) method for nanoscales is presented. In order to optimize the performance of the proposed circuit, and to achieve minimum power consumption and propagation delay, transistor sizes are adjusted using the non-dominated sorting genetic algorithm II (NSGA-II) in MATLAB tool. The simulation results show improvement in evaluating the figure of merits in worst-case delay and power consumption of the proposed optimized arithmetic unit, in comparison with a non-optimized RMAU circuit using a similar design method but counterpart structures. The effects of different process parameters (such as the diameter of CNTs) and voltage and temperature (PVT) variations are extensively evaluated by the Monte Carlo procedure in standard 32 nm technology utilizing the Synopsys HSPICE simulator. According to the outcomes obtained, the proposed optimized RMAU circuit is robust against PVT variations and noise-tolerable criterions, compared to those competitors with similar design in non-optimized conditions. The proposed optimized and non-optimized circuits were used in image processing as real environment assessments, and results depicted their excellent ability in being implemented in various large reversible-based applications, such as future generations of FPGA chips and CNTFET-based computers. |
| Author | Salehi, Mohammad Reza Darabi, Abdolreza Sadeghi, Ayoub Abiri, Ebrahim |
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| CitedBy_id | crossref_primary_10_1016_j_mejo_2021_105117 crossref_primary_10_1016_j_aeue_2024_155626 crossref_primary_10_1016_j_compeleceng_2020_106787 crossref_primary_10_1155_2021_6610338 crossref_primary_10_1007_s00034_020_01459_x crossref_primary_10_1016_j_compeleceng_2023_108776 crossref_primary_10_1631_FITEE_2200077 crossref_primary_10_1007_s00034_022_01997_6 crossref_primary_10_1149_2162_8777_ac4798 crossref_primary_10_1016_j_mejo_2021_105287 crossref_primary_10_1080_00207217_2023_2289483 crossref_primary_10_1080_00207217_2022_2068195 |
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| Keywords | Field-effect transistor (CNTFET) Gate diffusion input (GDI) technique Image processing Carbon nanotube (CNT) Reversible logic-based magnitude arithmetic unit (RMAU) Non-dominated sorting genetic algorithm II (NSGA-II) Noise immunity Energy-delay product (EDP) |
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| SubjectTerms | Arithmetic and logic units Carbon nanotubes Circuit design Circuits and Systems Computer simulation Design optimization Electrical Engineering Electronics and Microelectronics Engineering Field effect transistors Gates (circuits) Genetic algorithms Image processing Instrumentation Logic circuits Mathematical analysis Power consumption Process parameters Semiconductor devices Signal,Image and Speech Processing Sorting algorithms |
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