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The brief primarily focuses on the performance analysis of CNT based interconnects in current research scenario. Different CNT structures are modeled on the basis of transmission line theory. Performance comparison for different CNT structures illustrates that CNTs are more promising than Cu or other materials used in global VLSI interconnects. The brief is organized into five chapters which mainly discuss: (1) an overview of current research scenario and basics of interconnects; (2) unique crystal structures and the basics of physical properties of CNTs, and the production, purification and applications of CNTs; (3) a brief technical review, the geometry and equivalent RLC parameters for different single and bundled CNT structures; (4) a comparative analysis of crosstalk and delay for different single and bundled CNT structures; and (5) various unique mixed CNT bundle structures and their equivalent electrical models.Interconnects.- Carbon Nanotube Properties and?Applications.- Modeling of Carbon Nanotube Interconnects.- Crosstalk and Delay Analysis.- Mixed Carbon Nanotube Bundle.- References.
Brajesh Kumar Kaushik is currently working as Associate Professor in Department of Electronics and Communication Engineering, Indian Institute of Technology Roorkee, Roorkee, India. Dr. Kaushik has completed his PhD from Indian Institute of Technology Roorkee in 2007. His research interests include Signal Integrity, Propagation Delay, and Power Dissipation of VLSI Interconnects; Low Power VLSI Design; Electronic Design Automation (EDA)-Circuit and Systems-CAD. Dr. Kaushik has authored more than 60 papers in peer reviewed international journals and over 80 papers in international Conferences. He has also authored many book chapters, which includes 3 chapters in Springer books. Dr. Kaushik is also an Editor-in-Chief of VLSI Design & Communication System (VLSICS) and Editor of Journal of Electrical and Electronics Engineering Research (JEEER), Academic Journalsl#h
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