Nanoelectronics for Next-Generation Integrated Circuits 1st Edition 2022 Hardbound by Dhiman, Rohit, Taylor and Francis Ltd

Description

Taylor and Francis Ltd Nanoelectronics for Next-Generation Integrated Circuits 1st Edition 2022 Hardbound by Dhiman, Rohit

The incessant scaling of complementary metal-oxide semiconductor (CMOS) technology has resulted in significant performance improvements in very-large-scale integration (VLSI) design techniques and system architectures. This trend is expected to continue in the future, but this requires breakthroughs in the design of nano-CMOS and post-CMOS technologies. Nanoelectronics refers to the possible future technologies beyond conventional CMOS scaling limits. This volume addresses the current state-of-the-art nanoelectronic technologies and presents potential options for next-generation integrated circuits._x000D__x000D_Nanoelectronics for Next-generation Integrated Circuits is a useful reference guide for researchers, engineers, and advanced students working on the frontier of the design and modeling of nanoelectronic devices and their integration aspects with future CMOS circuits. This comprehensive volume eloquently presents the design methodologies for spintronics memories, quantum-dot cellular automata, and post-CMOS FETs, including applications in emerging integrated circuit technologies._x000D_ _x000D_ 1. Emerging Graphene-based Electronics: Properties to Potentials. 2. Models for Modern Spintronics Memories with Layered Magnetic Interfaces. 3. Evaluation of Magnetic Anisotropy via Intrinsic Spin Infusion. 4. Quantum-dot Cellular Automata (QCA) Nanotechnology for the Next Generation Systems. 5. An Overview of Nanowire Field Effect Transistors For Future Nanoscale Integrated Circuits. 6. Investigation of Tunnel Field Effect Transistors (TFETs) for Label Free Biosensing. 7. Analog and Linearity Analysis of Vertical Nanowire TFET. 8. Effect of Variation in Gate Material on Enhancement mode P-GaN AlGaN/ GaN HEMT. 9. Electrical Modeling of One Selector-One resistor (1S-1R) for Mitigating the Sneak. 10. SRAM: An Essential Part of Integrated Circuits. 11. Implementation of 512bit SRAM Tile using Lector Technique for Leakage Power Reduction. 12. Characterization of Stochastic Process Variability Effects on Nano-scale Analog Circuits. 13. Versatile Single Input Single Output Filter Topology Suitable for Integrated Circuits. 14. Secured Integrated Circuit (IC/IP) Design Flow._x000D_