Circuits and Systems Advances in Near Threshold Computing

Modern society is witnessing a sea change in ubiquitous computing, in which people have embraced computing systems as an indispensable part of day-to-day existence. Computation, storage, and communication abilities of smartphones, for example, have undergone monumental changes over the past decade....

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Bibliographic Details
Other Authors: Roy, Sanghamitra (Editor)
Format: Book Chapter
Published: Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online Access:Get Fullteks
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100 1 |a Roy, Sanghamitra  |4 edt 
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245 1 0 |a Circuits and Systems Advances in Near Threshold Computing 
260 |a Basel, Switzerland  |b MDPI - Multidisciplinary Digital Publishing Institute  |c 2021 
300 |a 1 electronic resource (120 p.) 
506 0 |a Open Access  |2 star  |f Unrestricted online access 
520 |a Modern society is witnessing a sea change in ubiquitous computing, in which people have embraced computing systems as an indispensable part of day-to-day existence. Computation, storage, and communication abilities of smartphones, for example, have undergone monumental changes over the past decade. However, global emphasis on creating and sustaining green environments is leading to a rapid and ongoing proliferation of edge computing systems and applications. As a broad spectrum of healthcare, home, and transport applications shift to the edge of the network, near-threshold computing (NTC) is emerging as one of the promising low-power computing platforms. An NTC device sets its supply voltage close to its threshold voltage, dramatically reducing the energy consumption. Despite showing substantial promise in terms of energy efficiency, NTC is yet to see widescale commercial adoption. This is because circuits and systems operating with NTC suffer from several problems, including increased sensitivity to process variation, reliability problems, performance degradation, and security vulnerabilities, to name a few. To realize its potential, we need designs, techniques, and solutions to overcome these challenges associated with NTC circuits and systems. The readers of this book will be able to familiarize themselves with recent advances in electronics systems, focusing on near-threshold computing. 
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546 |a English 
650 7 |a Technology: general issues  |2 bicssc 
653 |a machine learning 
653 |a neural networks 
653 |a gait analysis 
653 |a embedded system 
653 |a NTV 
653 |a NTC 
653 |a low-power 
653 |a low-voltage memory and clocking circuits 
653 |a minimum-energy design 
653 |a power-performance 
653 |a resilient adaptive computing 
653 |a edge devices 
653 |a power management 
653 |a energy efficiency 
653 |a near-threshold computing (NTC) 
653 |a deep neural network (DNN) 
653 |a accelerators 
653 |a timing error 
653 |a AI 
653 |a tensor processing unit (TPU) 
653 |a multiply and accumulate (MAC) 
653 |a reliability 
653 |a Near-Threshold Computing 
653 |a functional unit 
653 |a performance optimization 
653 |a cross-layer optimization 
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856 4 0 |a www.oapen.org  |u https://directory.doabooks.org/handle/20.500.12854/76293  |7 0  |z DOAB: description of the publication