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AI for Security-Aware Electronics

Over the last 35 years, the EDA industry has delivered improvements in chip design productivity 10 million times. With Moore’s Law ending, most experts agree that chips designed by AI and Machine Learning (ML) are the future of semiconductors. In fact, academic and commercial tools are now starting to incorporate AI/ML for optimization of digital and analog integrated circuits (ICs) at various levels of abstraction in very large solution spaces. However, the goals thus far have been to enhance traditional metrics such as power, performance, and area. Security concerns and issues related to IC design have been highly overlooked.
 A current thrust at FINS is investigating state-of-the-art methods in AI/ML to optimize and port hardware security primitives such as physical unclonable functions (PUFs), true random number generators (TRNGs), and silicon odometers across technology nodes to predict functionality-security-performance tradeoffs and guide users/tools, seamlessly integrate best-in-class protections (e.g., masking, hiding, fault tolerance, etc.) under traditional constraints, and to harden designs/layouts against hardware Trojans and Intellectual Property (IP) theft. Furthermore, we are exploring the benefits of federated learning to overcome data bottlenecks while effectively utilizing AI/ML without compromising the confidentiality of semiconductor IP.