The Graduate School of Advanced Technology (GSAT) at National Taiwan University brings together advanced training across multiple scientific domains, including engineering, physical sciences, computer science, and medical and health-related fields. Its programs are designed to integrate knowledge, methodologies, and technological applications, enabling students to engage with complex research problems that extend beyond a single discipline. Through these structured graduate programs, GSAT supports the development of interdisciplinary competencies and fosters collaboration across fields, contributing to emerging areas such as artificial intelligence, semiconductor technologies, and precision health.
The ICDA program aims to address the growing demand in research of the two main areas: (1) integrated circuit design: digital circuit design, AI, analogy/mixed-signal circuit design, in-memory computing, and RF front-end circuits; (2) electronic design automation: AI for EDA, EDA for AI, heterogeneous integration, and emerging technology EDA. ICDA professors and students develop technologies applicable to emerging fields such as 5G/6G, automotive electronics, artificial intelligence, medical electronics, and information security.
DMHI's curriculum integrates modern device physics and material science to provide a comprehensive graduate program that studies advanced CMOS technology for 3 nm and beyond, compound materials and devices technology, solid-state physics, semiconductor device physics, semiconductor process technology, material thermodynamics, quantum applications, advanced memory devices and materials, display technology, SI/PI/RFI/EMI design for heterogeneous integration, and more.
The NENS program is dedicated to fostering innovation and practical application of nanoengineering and nanosciences technology. The NENS program is divided into three fields: (1) low-dimensional semiconductor research, (2) nanoengineering and micro-electro-mechanical systems (MEMS/NEMS), and (3) advanced process and precision measurement.
The PHIM program aims to cultivate talent with expertise in developing precision medical technology from the perspectives of big data, intelligent medical devices, and clinically-initiated medicine. To promote cross-disciplinary research and foster connections with the biotech and semiconductor areas, the program focuses on the following fields: (1) precision medicine, (2) advanced medical imaging, and (3) innovative medical devices and genomics.