Effects of logic glitch and (area-power dissipation) leakage on cryptosystems using clock gating technique to enhance web etiquette
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| Názov: | Effects of logic glitch and (area-power dissipation) leakage on cryptosystems using clock gating technique to enhance web etiquette |
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| Autori: | Akhigbe-mudu Thursday Ehis |
| Zdroj: | Brazilian Journal of Science. 2:38-52 |
| Informácie o vydavateľovi: | Lepidus Tecnologia, 2023. |
| Rok vydania: | 2023 |
| Predmety: | Energy Efficiency, Memristive Devices for Neuromorphic Computing, Subthreshold conduction, 02 engineering and technology, 01 natural sciences, 7. Clean energy, Engineering, Power Management, 11. Sustainability, 0202 electrical engineering, electronic engineering, information engineering, FOS: Electrical engineering, electronic engineering, information engineering, Parallel Computing and Performance Optimization, 0101 mathematics, Electrical and Electronic Engineering, Embedded system, Electronic engineering, CMOS, Transistor, Voltage, Low-Power VLSI Circuit Design and Optimization, Computer science, Leakage Reduction, Programming language, Energy consumption, Low-Power, Hardware and Architecture, Electrical engineering, Physical Sciences, Computer Science, Software portability, Glitch |
| Popis: | The last century has seen an evolution in technology that has improved communication systems and, in general, made life easier for people. Our communication systems have become faster and more dependable as a result of the explosion of gadgets and services. But, these upgrades come at a price. The power consumption is one of the most worrying costs. In recent years, the solution involved installing larger, more powerful batteries—so long as doing so did not limit mobility. Today's economic and environmental problems compel us to consider alternative solutions, like methods for lowering the power consumption of digital devices. This study focuses on using digital circuits, which promise to deliver good energy efficiency and desirable performance at very low voltage savings. Certain digital switches are allegedly redundant and not required for the circuit to function properly, yet they continue to use energy. So, one of the primary issues for low power design is reducing such redundant switches. Subthreshold conduction in digital circuits is typically seen as a “parasitic” leakage in a condition where there should ideally be no conduction. Sub-threshold activities thereby reduce the problem of lowering power consumption, but do so at the expense of system throughput deterioration, fluctuations in system stability and functionality, temperature variations, and most critically, design space utilization. In order to minimize some of these redundant switches and to make circuits more energy-efficient while maintaining functionality, this study suggests two novel techniques. It uses an optimization method based on threshold voltage change to reduce glitch power. A glitch-free circuit netlist is created using an algorithm, while still maintaining the requisite delay performance. Using this approach results in a 6.14% overall reduction in energy consumption. |
| Druh dokumentu: | Article Other literature type |
| ISSN: | 2764-3417 |
| DOI: | 10.14295/bjs.v2i12.364 |
| DOI: | 10.60692/2bx6h-2f235 |
| DOI: | 10.60692/hve4h-t2f93 |
| Rights: | CC BY |
| Prístupové číslo: | edsair.doi.dedup.....9511a17ca173f481c5cfdee253c1830f |
| Databáza: | OpenAIRE |
Nájsť tento článok vo Web of Science | Abstrakt: | The last century has seen an evolution in technology that has improved communication systems and, in general, made life easier for people. Our communication systems have become faster and more dependable as a result of the explosion of gadgets and services. But, these upgrades come at a price. The power consumption is one of the most worrying costs. In recent years, the solution involved installing larger, more powerful batteries—so long as doing so did not limit mobility. Today's economic and environmental problems compel us to consider alternative solutions, like methods for lowering the power consumption of digital devices. This study focuses on using digital circuits, which promise to deliver good energy efficiency and desirable performance at very low voltage savings. Certain digital switches are allegedly redundant and not required for the circuit to function properly, yet they continue to use energy. So, one of the primary issues for low power design is reducing such redundant switches. Subthreshold conduction in digital circuits is typically seen as a “parasitic” leakage in a condition where there should ideally be no conduction. Sub-threshold activities thereby reduce the problem of lowering power consumption, but do so at the expense of system throughput deterioration, fluctuations in system stability and functionality, temperature variations, and most critically, design space utilization. In order to minimize some of these redundant switches and to make circuits more energy-efficient while maintaining functionality, this study suggests two novel techniques. It uses an optimization method based on threshold voltage change to reduce glitch power. A glitch-free circuit netlist is created using an algorithm, while still maintaining the requisite delay performance. Using this approach results in a 6.14% overall reduction in energy consumption. |
|---|---|
| ISSN: | 27643417 |
| DOI: | 10.14295/bjs.v2i12.364 |