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Full Description
This book exhibits a unique way of explaining nanomaterials and devices and analyzing their design parameters to meet the sub-nanoregime challenges for low-power chip design. Since process variability, device sizing, and power supply scaling are ongoing challenges in very large-scale integration (VLSI) circuit designs, this book highlights the conventional and novel nanomaterials, devices and circuits, leakage current mitigation techniques, and other important trade-offs along with exhaustive analysis. More focus has been placed throughout the book on various trade-offs for high-speed and low-power VLSI devices and circuits co-design.
This book:
Discusses advanced nano-semiconductor devices such as FinFET, nanowires, tunnel field-effect transistors, carbon nanotube field-effect transistors, and high-electron-mobility transistors
Presents high-performance semiconductor devices at nanoscale technology nodes for the analysis of quantum effects and their impact on circuits and systems
Covers power dissipation and reduction techniques for high-performance devices
Explains both silicon and non-silicon devices for various applications like digital logic and analog/radio frequency applications
Examines the difficulties and practical design approaches for extremely low-power analog-integrated circuits
It is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of electrical engineering, electronics and communications engineering, materials science, nanoscience, and nanotechnology.
Contents
1. Design and Analysis of Advance MOSFET. 2. FinFET and Its Application. 3. Future Directions and Roadmap for Nanoelectronics. 4. Analysis of HEMT and Its Applications. 5. Characterizations and applications of pomegranate synthesized biogenic silver nanoparticles. 6. Comparative analysis of 6T SRAM & ROM cell using CMOS technology at 200nm, 45nm and 7n. 7. FEFET in Computing Memory. 8. Advancements and Implications of Bioplastic Development: From Material Synthesis to Environmental Impact. 9. Variability in Tunnel Field Effect Transistor. 10. Enhancing 5G Network Connectivity with Fractal-Inspired 5-Port MIMO Antenna: Material-Based Analysis for Satellite Communication Systems. 11. 2D Nanomaterials Based THz Electromagnetic Radiators. 12. Nano Materials for Smiconductor Devices. 13. Design of MUX-Based CMOS 8-Bit Encoder Device for High-Speed 5G Flash ADC Binary Conversion in UWB Applications.
