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Index
Cover
Table of Contents
Title
Copyright
Introduction
1. Dissipation Sources in Electronic Circuits
1.1. Brief description of logic types
1.2. Origins of heat dissipation in circuits
2. Thermodynamics and Information Theory
2.1. Recalling the basics: entropy and information
2.2. Presenting Landauer’s principle
2.3. Adiabaticity and reversibility
3. Transistor Models in CMOS Technology
3.1. Reminder on semiconductor properties
3.2. Long- and short-channel static models
3.3. Dynamic transistor models
4. Practical and Theoretical Limits of CMOS Technology
4.1. Speed–dissipation trade-off and limits of CMOS technology
4.2. Sub-threshold regimes
4.3. Practical and theoretical limits in CMOS technology
5. Very Low Consumption at System Level
5.1. The evolution of power management technologies
5.2. Sub-threshold integrated circuits
5.3. Near-threshold circuits
5.4. Chip interconnect and networks
6. Reversible Computing and Quantum Computing
6.1. The basis for reversible computing
6.2. A few elements for synthesizing a function
6.3. Reversible computing and quantum computing
7. Quasi-adiabatic CMOS Circuits
7.1. Adiabatic logic gates in CMOS
7.2. Calculation of dissipation in an adiabatic circuit
7.3. Energy-recovery supplies and their contribution to dissipation
7.4. Adiabatic arithmetic architecture
8. Micro-relay Based Technology
8.1. The physics of micro-relays
8.2. Calculation of dissipation in a micro-relay based circuit
Bibliography
Index
End User License Agreement
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