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For the last 50 years, the power of integrated circuits has continued to grow. However, this performance will end up reaching its physical limit. What new ways will then be available to develop even more powerful and up-to-date systems? This book introduces the principles of quantic computing, the use of nano-tubes in molecular transistors and ADN computing. It suggests new fabrication methods for the 21st century and introduces new architecture models, ranging from the most conventional to the most radical. Using a chronological theme, it explains our unavoidable entry in the nano-device world: from the 1948 transistor to the microchip. It concludes by anticipating the changes in daily living: investments, impact on coding activities, nanocomputing systems implementation and IT job mutation.

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Foreword ix
 Didier TRUTT
 
Preface xiii
 
Acknowledgements xix
 
Introduction xxi
 
Chapter 1. Revolution or Continuity? 1
 
1.1. Ubiquity and pervasion 1
 
1.2. From the art of building small – perspectives of nanoproduction 4
 
Chapter 2. The Rise and Anticipated Decline of the Silicon Economy 7
 
2.1. 40 years of global growth 7
 
2.2. From sand to the chip, the epic of semi-conductors 9
 
2.2.1. Semi-conductors – some solid-state physics 10
 
2.2.2. CMOS technology and high-density integrated circuits 14
 
2.2.3. Half a century of industrial methods and processes 16
 
2.3. The fatality of Moore’s Law: “the wall” 22
 
2.3.1. The disaggregation of the microelectronics industry value chain 26
 
2.3.2. The ITRS (International Roadmap for Semi-conductors) – a race to controlled miniaturization 29
 
2.3.3. Will a slowdown in the economy overturn established models? 33
 
2.4. Beyond silicon – from microelectronics to nanotechnologies 36
 
Chapter 3. Rebuilding the World Atom by Atom 41
 
3.1. Manipulation on an atomic scale – the scanning tunneling microscope 41
 
3.2. From the manipulation of atoms to nanomachines – the concept of self-assembly 45
 
3.3. From the feasibility of molecular assemblers to the creation of self-replicating entities 49
 
3.4. Imitating nature – molecular biology and genetic engineering 55
 
3.4.1. When nature builds its own nanomachines 56
 
3.4.2. Genetic engineering – the nanotechnology approach by life sciences 60
 
3.5. From coal to nanotubes – the nanomaterials of the Diamond Age 62
 
3.6. Molecular electronics and nanoelectronics – first components and first applications 70
 
3.6.1. Carbon Nanotube Field Effect Transistors (CNFET) 71
 
3.6.2. Hybrid mono-molecular electronic circuits73
 
3.6.3. Organic molecular electronics 75
 
3.6.4. Spin valves and spintronic semi-conductor components 82
 
3.6.5. Quantum dots and the phenomenon of quantum confinement 85
 
Chapter 4. The Computers of Tomorrow 89
 
4.1. From evolution to revolution 89
 
4.2. Silicon processors – the adventure continues 93
 
4.2.1. Progress in photolithography and new materials 95
 
4.2.2. The structure of microprocessors 101
 
4.2.3. Digital signal processing and DSP processors 107
 
4.3. Conventional generation platforms 109
 
4.3.1. Traditional platforms 110
 
4.3.2. Emerging platforms 113
 
4.3.3. Distributed computing, an alternative to supercomputers 115
 
4.4. Advanced platforms – the exploration of new industries 119
 
4.4.1. Quantum information systems 121
 
4.4.2. DNA computing 130
 
Chapter 5. Elements of Technology for Information Systems of the New Century 135
 
5.1. Beyond processors 135
 
5.2. Memories and information storage systems 138
 
5.2.1. Memories consisting of semi-conductors – perspectives 140
 
5.2.2. Limits of magnetic data storage 146
 
5.2.3. Holographic memory 150
 
5.2.4. The technology of AFM memories 154
 
5.2.5. Molecular memory 156
 
5.3. Batteries and other forms of power supply 157
 
5.3.1. Lithium-ion and lithium-polymer batteries 159
 
5.3.2. Zinc-air batteries 160
 
5.3.3. Micro-batteries 161
 
5.3.4. Micro-batteries using nuclear energy 162
 
5.3.5. Recharging batteries with the help of kinetic energy 163
 
5.4. New peripheral devices and interfaces between humans and machines 163
 
5.4.1. Automatic speech recognition 165
 
5.4.2. Gesture recognition 170
 
5.4.3. Processing and recognizing writing 171
 
5.4.4. Eye tracking 172
 
5.4.5. Brain machine interface 173
 
5.4.6. Electronic paper 177
 
5.4.7. New visualization systems 181
 
5.5. Telecommunications – a different kind of revolution 184
 
5.6. The triumph of microsystems 187
 
5.7. Is this the end of the silicon era? 190
 
Chapter 6. Business Mutation and Digital Opportunities in the 21st Century 197
 
6.1. Towards a new concept of information technology 197
 
6.2. Ubiquitous information technology and the concept of “diluted” information systems 199
 
6.3. Highly diffused information systems – RFID 204
 
6.3.1. The “Internet of things” and the supply chain of the future – Auto-ID 209
 
6.3.2. Economic opportunities vs. privacy protection 214
 
6.4. New challenges for web applications in a global network of objects 218
 
6.4.1. Complexity and efficiency of very large infrastructures 219
 
6.4.2. From centralized intelligence to swarm intelligence – reinventing the programming code 224
 
6.5. The IT jobs mutation 231
 
6.5.1. New concepts in agile software development 235
 
6.5.2. Ambient intelligence and the delocalization of jobs in the IT sector 241
 
6.5.3. New opportunities for the profession 245
 
Conclusion 253
 
Bibliography 259
 
Index 263

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