My work addresses complex challenges in hardware design, aiming to turn cutting-edge discoveries into practical solutions with real-world impact. In particular, my research focuses on four complementary areas:
- Reliability and Fault-Tolerance of Nanoelectronic Systems
- Security-Aware Computing Architectures
- AI for Hardware Design and Hardware Design for AI
- Spintronic Devices and Memories for Secure, Reliable, and Energy-Efficient Computing
These research directions have led to extensive collaborations on international and industrial projects, several of which I have coordinated. Throughout my career, I have authored or co-authored over 300 scientific publications and supervised 31 doctoral dissertations (25 successfully defended and 6 currently in progress), in addition to numerous Master’s theses.
I also contribute to the scientific community as a reviewer for various journals, a member of program committees for multiple conferences, and an ad hoc evaluator for funding agencies.