According to the DoIT, the MOEA has long invested in the semiconductor industry and has encouraged ITRI in the R&D of Spin-Orbit Torque (SOT) MRAM technology. Based on the achievements, ITRI and UCLA further collaborated on VC-MRAM, which has 50% higher writing speed and 75% less energy consumption than SOT-MRAM and is thereby ideal for AIoT and automotive industry applications. The partnership is expected to strengthen the link between both parties, accelerate the R&D and industrialization of new memory technologies, and help companies adopt cutting-edge manufacturing processes at an early stage to enhance their industry competiveness.
Dr. Chih-I Wu, ITRI’s Vice President and General Director of Electronic and Optoelectronic System Research Laboratories, emphasized that the advantages of VC-MRAM such as fast reading/writing and low power consumption make it suitable for energy-saving and low-carbon emissions applications, presenting a golden opportunity for ITRI’s collaboration with UCLA. “This is the first time that ITRI has received actual funding from DARPA in a cooperation initiative. We believe our strengths can be combined to add greater depth to the development of VC-MRAM technology,” he said.
Dr. Kang Wang, Distinguished Professor and Raytheon Chair in Electrical Engineering at UCLA, remarked that ITRI, as an internationally renowned applied research institution, has unique formidable expertise and technical capacities. It has a solid foundation and R&D strengths in MRAM technology, and the two sides should be able to leverage their respective foundations through their cooperation, yielding even more groundbreaking achievements.
UCLA Professor and Circuits & Embedded Systems Area Director Dr. Sudhakar Pamarti said that ITRI has platforms and experience in the development of components and manufacturing verification. By realizing the innovative ideas of UCLA in process development, the development of material components will be promoted to related applications. He expects that by the beginning of 2023, the advanced technology developed through this cooperation will create a whole new paradigm in next-generation memory.
ITRI began cultivating MRAM technology years ago, including component
innovation, breakthroughs in materials, and circuit optimization, and is poised
to address the demands for rapid processing of big data in the AI and 5G era. This
is one of the examples that demonstrate ITRI’s commitment to promoting
Intelligentization Enabling Technologies and fostering innovative applications.
ITRI will continue to join hands with industrial, academic, and research
organizations in helping industries to upgrade their technology, explore novel
solutions and create new possibilities.