About Our Group
Integrated Circuits and Systems Design and Manufacturing group at the Faculty of Engineering is a collaborative hub of scholars, researchers, and innovators dedicated to advancing countless fields and domains on the back of microelectronics and microsystems through cutting-edge research, education, and industry partnerships. We aim to push the boundaries of computing, sensors, robotics, biomedical, defense, agriculture, and more through integrated circuits and systems and niche manufacturing technologies, fostering the development of next-generation systems. We aim to address critical challenges in scalability, energy efficiency, performance optimisation, and sustainability. The group seeks to bridge the gap between academic research and real-world implementation by integrating hardware design insights with practical applications, contributing to scientific knowledge and deep technological and engineering innovation.
Our research spans from circuits and systems design principles to advanced manufacturing techniques, with applications in healthcare, computing, telecommunications, and sustainable energy systems.
Projects
Members
Research focus areas
Advanced Circuit Design
Developing novel circuit architectures for improved performance, energy efficiency, and reliability.
Bio-Inspired & Neuromorphic Electronics
Designing integrated circuits for unconventional and cognitive computing, sensing, and information processing.
Intelligent Systems Integration
Merging AI with custom hardware to create efficient, adaptive, and scalable computing solutions.
Photonic and Optoelectronic Integration
Developing chip-scale optical systems for high-speed communication, sensing, and quantum-enhanced applications.
Biomedical Microsystems
Designing and integrating microelectronic systems for advanced diagnostics, therapeutic delivery, and health monitoring.
Semiconductor Manufacturing
Exploring innovative fabrication techniques and materials for next-generation integrated circuits.
Robotics and Embedded Control
Creating low-power, high-performance circuits for autonomous systems and real-time robotic control.
Testing and Verification
Developing advanced techniques for ensuring reliability and performance of integrated circuits.