Ultra Low Power Electronics and Adiabatic Solutions

Nonfiction, Computers, Programming
Cover of the book Ultra Low Power Electronics and Adiabatic Solutions by Hervé Fanet, Wiley
View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart
Author: Hervé Fanet ISBN: 9781119006589
Publisher: Wiley Publication: August 16, 2016
Imprint: Wiley-ISTE Language: English
Author: Hervé Fanet
ISBN: 9781119006589
Publisher: Wiley
Publication: August 16, 2016
Imprint: Wiley-ISTE
Language: English

The improvement of energy efficiency in electronics and computing systems is currently central to information and communication technology design; low-cost cooling, autonomous portable systems and functioning on recovered energy all need to be continuously improved to allow modern technology to compute more while consuming less. This book presents the basic principles of the origins and limits of heat dissipation in electronic systems.

Mechanisms of energy dissipation, the physical foundations for understanding CMOS components and sophisticated optimization techniques are explored in the first half of the book, before an introduction to reversible and quantum computing. Adiabatic computing and nano-relay technology are then explored as new solutions to achieving improvements in heat creation and energy consumption, particularly in renewed consideration of circuit architecture and component technology.

Concepts inspired by recent research into energy efficiency are brought together in this book, providing an introduction to new approaches and technologies which are required to keep pace with the rapid evolution of electronics.

View on Amazon View on AbeBooks View on Kobo View on B.Depository View on eBay View on Walmart

The improvement of energy efficiency in electronics and computing systems is currently central to information and communication technology design; low-cost cooling, autonomous portable systems and functioning on recovered energy all need to be continuously improved to allow modern technology to compute more while consuming less. This book presents the basic principles of the origins and limits of heat dissipation in electronic systems.

Mechanisms of energy dissipation, the physical foundations for understanding CMOS components and sophisticated optimization techniques are explored in the first half of the book, before an introduction to reversible and quantum computing. Adiabatic computing and nano-relay technology are then explored as new solutions to achieving improvements in heat creation and energy consumption, particularly in renewed consideration of circuit architecture and component technology.

Concepts inspired by recent research into energy efficiency are brought together in this book, providing an introduction to new approaches and technologies which are required to keep pace with the rapid evolution of electronics.

More books from Wiley

Cover of the book Engaging the Digital Generation by Hervé Fanet
Cover of the book Choice by Hervé Fanet
Cover of the book Ubuntu Linux Toolbox: 1000+ Commands for Power Users by Hervé Fanet
Cover of the book Electrochemical Aspects of Ionic Liquids by Hervé Fanet
Cover of the book Hands-On Math Projects With Real-Life Applications by Hervé Fanet
Cover of the book The BIM Manager's Handbook, Part 6 by Hervé Fanet
Cover of the book An Introduction to Stellar Astrophysics by Hervé Fanet
Cover of the book Managing Liquidity in Banks by Hervé Fanet
Cover of the book Reverberation Chambers by Hervé Fanet
Cover of the book Gene Cloning and DNA Analysis by Hervé Fanet
Cover of the book Strategic Communications for Nonprofits by Hervé Fanet
Cover of the book Decentralized Coverage Control Problems For Mobile Robotic Sensor and Actuator Networks by Hervé Fanet
Cover of the book A Leader's Legacy by Hervé Fanet
Cover of the book Will the Middle East Implode? by Hervé Fanet
Cover of the book Targeting Protein Kinases for Cancer Therapy by Hervé Fanet
We use our own "cookies" and third party cookies to improve services and to see statistical information. By using this website, you agree to our Privacy Policy