Nanoelectronic Mixed-Signal System Design

Saraju Mohanty, Ph.D., is a faculty member in the Department of Computer Science and Engineering at the University of North Texas, where he directs the NanoSystem Design Laboratory (NSDL). He obtained a Ph.D. in computer science and engineering from the University of South Florida in 2003, a master’s degree in systems science and automation from the Indian Institute of Science, Bangalore, India, in 1999, and a bachelor’s degree (honors) in electrical engineering from Orissa University of Agriculture and Technology, Bhubaneswar, India, in 1995. Dr. Mohanty’s research is in low-power, high-performance nanoelectronics. He is an author of hundreds of peer-reviewed journal and conference publications. Dr. Mohanty holds many U.S. patents. He has advised/co-advised many Ph.D. dissertations and numerous master’s theses. Dr. Mohanty currently serves as the chair of the Technical Committee on Very Large Scale Integration (TCVLSI), IEEE Computer Society (IEEE-CS). He serves on the editorial board of many peer-reviewed international journals, including IET-CDS Journal, Elsevier Integration Journal, and Journal of Low Power Electronics. Dr. Mohanty has served as a guest editor for many journals, including ACM Journal on Emerging Technologies in Computing Systems (JETC) for an issue titled “New Circuit and Architecture-Level Solutions for Multidiscipline Systems,” August 2012, and IET Circuits, Devices & Systems (CDS) for an issue titled “Design Methodologies for Nanoelectronic Digital and Analog Circuits,” September 2013. He serves on the organizing and program committee of several international conferences. Dr. Mohanty is a senior member of the IEEE and ACM.

Ch. 1: Opportunities and Challenges of Nanoscale Technology and SystemsCh. 2: Emerging Systems Designed as Analog / Mixed-Signal System-on-Chips (AMS-SoCs)Ch. 3: Nanoelectronics Issues for Design for ExcellenceCh. 4: Phase-Locked Loop (PLL) Component CircuitsCh. 5: Electronic Signal Converter CircuitsCh. 6: Sensor Circuits and SystemsCh. 7 Memory in the AMS-SoCsCh. 8: Power Supply Subsystem for the AMS-SoCCh. 9: Mixed-Signal Circuit and System Design FlowCh. 10: Mixed-Signal Circuit and System Simulation Ch. 11: Power-Aware AMS-SoC Design MethodologiesCh. 12: Parasitic-Aware AMS-SoC Design MethodologiesCh. 13: Variability-Aware AMS-SoC Design MethodologiesCh. 14: Thermal-Aware Design of in AMS-SoC ComponentsCh. 15: Security-Aware Design of in AMS-SoC ComponentsCh. 16: Metamodel-Based Fast AMS-SoC Design MethodologiesCh. 17: Verilog-AMS Based Ultra-Fast and Accurate AMS-SoC Design ExplorationIndex