The core theme of our research lies in developing design methodologies for low power, fast, reliable, light weight nanoscale electronic circuits. Low power mobile handheld systems, high performance computers, satellites, drug delivery systems, industrial microcontrollers and many other devices depend heavily on the availability of complex electronic systems. Without them, sustained growth in global economy, healthcare, telecommunications, entertainment and other industries would not be possible. Based on a strong foundation in rigorous mathematical modeling and analysis we have developed a scientific basis for understanding how to design multimillion transistor complex nanoscale integrated circuits quickly, efficiently and automatically. Our research highlights the fact that the right answer lies at the intersection of diverse areas of nanoscale circuit design, mathematical optimization, statistics, computer architecture and algorithms.
Our group has pursued the following research agendas
1. Very Large Scale Integrated (VLSI) Design Automation Schemes for Fabrication Variability
2. Methods for Leakage and Dynamic Power Minimization in Large Scale Integrated Circuits
3. Predictability in Electronic Design Automation at Higher Levels of Design Abstraction
4. Design Techniques for High Performance Large Scale Digital Circuits
5. Computational Efficiency in Particle Filters Based Computer Vision
For further details regarding my research please contact us or read our papers.