ASUS-NTU Joint Research Center Integrating the R&D energy of industry and academia and deepening the development of advanced technologies, this venture aims to connect outstanding talents from industry and academia, and is expected to result in investments of more than NT$100 million in research and development. The Center will focus on fields such as advanced electromagnetics, next-generation computers, the Internet of Things (IoT), and artificial intelligence (AI) in order to newly energize R&D and promote international technological development by connecting resources from industry and academia.

To inject innovative energy into R&D and upgrade the development of forward-looking technology, AUO teams with NTU to establish “AUO-NTU Joint Research Center”. The inauguration ceremony, hosted by NTU President Kuan Chung-Ming and AUO Chairman Shuang-Lang (Paul) Peng, was held today May 6, 2021. Funded by AUO with NTD 30 million, this center will focus on 3 major fields, including forward-looking display technology, sensing technology and AIoT and its field application to assist medium- to long-term large industry-academia collaboration projects. The goal is to aggregate cross-disciplinary talents to participate in the research of cutting-edge display technology and create a new era for industries and academia in Taiwan while fostering rising stars.

In response to the development trend of 5G/6G, and in order to promote technological research in related fields and strengthen industry-university cooperation, the college of EECS of National Taiwan University has cooperated with Chunghwa Telecom to establish the "CHT-NTU Innovation Research Center". The goal is to improve the implementation and research of the next-generation communication 5G/6G forward-looking core technologies, and to grasp the latest development trends through industry-university cooperation, so that the industry can make early market layout. The main research scope of this center is 5G/6G related technologies, including mmWave and Terahertz Communications, O-RAN, Software-Defined Networking, Network Virtualization and Orchestration Management, Cloud Computing and Edge Computing, Internet of Things, big Data Analytics, AI, Non -Related research on Terrestrial Networks, Information and Communications Security technologies, etc. These are important technologies for 5G/6G and are important directions for current research and development.

Delta Electronics and National Taiwan University jointly announced the establishment of the "Delta-NTU Joint Research & Development Center". Delta expects to invest more than 100 million yuan in research and development funds to create a forward-looking experimental field for the integration of virtual and real, with autonomous and sustainable development as its core concepts, focusing on electric vehicles, advanced artificial intelligence (AI), industrial In the fields of Internet of Things (IIoT) security and control, NTU will gather first-class R&D energy, deploy cutting-edge technologies, and jointly cultivate top R&D talents in line with international standards.

National Taiwan University and MediaTek have established the MediaTek-NTU Innovation Research Center in order to promote and enhance cross-field research and applications in chips, communications, software, systems and medical electronics, promote industry-university cooperation, and integrate relevant research resources. ” to carry out construction and education cooperation. This center is a cross-domain functional integration research center. The mission of the center is: Promote forward-looking technology research related to chips, communications, software, systems and medical electronics in our school, and build and integrate a common core laboratory. Integrate and promote forward-looking research and development and applications across colleges and fields. Cultivate cross-field key research leaders with forward-looking vision.

The major research interest of the Center include: 2D material, 2D devices, band structure analysis and simulation, emerging Si- & SiGe-based transistor, nanosheet transistor, backend interconnect, graphene, self-assembled monolayer molecule, high-K dielectric deposition, stacking of 3D electronics, ferroelectric material & memory, atomic layer technologies, negative capacitance FET, quantum computing using Si qubit, and synchrotron radiation photoemission studies on high-k/semiconductor interfaces.

In conjunction with the organizational structure and measures of industry-university cooperation in schools, the tasks of this office are as follows: 1. Promote students to participate in industrial internships and R&D 2. Assist teachers in industry-university cooperation 3. Support departments in raising resources