Research

My primary research area is electronic design automation (EDA). I study automated methodologies for designing, optimizing, and verifying hardware systems, particularly for emerging computing platforms where conventional design flows are not yet well established.

Current application domains include quantum computing systems, photonic and optical computing, and secure computing hardware. Across these domains, my work aims to connect abstract computational principles with concrete circuit and architecture implementations.

Design Automation

Automated methodologies for synthesis, optimization, verification, and architecture exploration of emerging computing systems.

Quantum Computing Systems

EDA and hardware-aware design methodologies for scalable quantum computing systems, including control architectures and error-correction support.

Photonic and Optical Computing

Design automation techniques for optical and photonic computing systems, from logic synthesis to architecture-level exploration.

Secure Hardware

Design methodologies and circuit architectures for secure and confidential computing, including hardware-level protection mechanisms for emerging systems.

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