Prof. Yang Hu, Tsinghua University, China

Bio: Yang Hu is a doctoral advisor, and a high-level young talent. His research focuses on wafer-level AI chip architecture, integration architecture, and compiler toolchains. He serves as the principal investigator for the “New Generation Artificial Intelligence” major project under the Science and Technology Innovation 2030 initiative and received the 2020 NSF CAREER Award. He earned his Ph.D. from the Department of Electrical and Computer Engineering at the University of Florida in 2017. From 2017 to 2021, he served as an assistant professor in the Department of Electrical and Computer Engineering at the University of Texas at Dallas. Hu Yang has published more than 20 first-author and corresponding-author papers in leading international conferences and journals in the fields of computer architecture and integrated circuits, including ISSCC, JSSC, ISCA, HPCA, ASPLOS, MICRO, and DAC, and has published a total of more than 90 academic papers. His academic achievements have earned him three Best Paper nominations at the top international conferences on computer architecture—ISCA and HPCA—as well as the 2015 Best Paper of the Year Award from the journal *Computer Architecture Letters*. He serves on the editorial board of *IEEE Transactions on Computers*, is a Technical Program Committee (TPC) track chair for DAC, the premier conference on design automation, and serves as a grant reviewer for the U.S. National Science Foundation (NSF).

Prof. Yue Zhang, Beihang University, China

Bio: Executive Vice Dean (in charge of daily operations) of the School of Integrated Circuit Science and Engineering at Beihang University. Director of the Ministry of Education Engineering Research Center for “Integrated Circuit Process Testing Technology and Equipment”; Director of the Anhui Provincial Key Laboratory for “Spin-Based Chip R&D and Manufacturing”; Deputy Director of the Ministry of Industry and Information Technology Key Laboratory for “Aerospace and Information Spin Electronics Technology”; Deputy Director of the Ministry of Science and Technology “111” Talent Introduction Base for “Ultra-Low-Power Spin-Based Storage and Computing”; and Executive Deputy Director of the Fair Beijing Research Institute. Chief Scientist of the National Key Research and Development Program. Recipient of the National Natural Science Foundation of China’s Outstanding Young Scientist Grant. Selected for the China Association for Science and Technology’s “Young Talent Support Program.” Outstanding Science and Technology Worker of the China Electronics Society. Recipient of the Huawei Olympus Pioneer Award. Recipient of the First Prize for Technological Invention from the China Instrumentation Society; the First Prize and Second Prize of the Beijing Municipal Education and Teaching Achievement Award; and the Special Prize and First Prize for Teaching Achievement from Beihang University. Selected as one of the top 2% of scientists worldwide. Research areas include spintronics, spin-based compute-in-memory devices, ultra-low-power integrated circuit design, and novel computational logic systems. He received his bachelor’s degree from the Department of Optoelectronic Information Engineering at Huazhong University of Science and Technology in 2009 and his Ph.D. in Physics from the University of Paris-Sud in France in 2014. He was awarded the National Scholarship for Outstanding Overseas Students. From 2014 to 2015, he conducted postdoctoral research at the French National Academy of Sciences. In 2015, he was selected for Beihang University’s “Top 100 Excellence” Program.

Prof. Guangzhang Zhang, Peking University ShenZhen Graduate School, China

Bio: Research focuses on neuromorphic electronics, bioelectronics, novel memory devices, and supercritical fluids. He has developed various neuromorphic electronic devices based on biomaterials and conducts brain-inspired computing research based on these devices; he has also developed novel memory devices, continuously exploring advancements in device structure, overall performance, and 3D integration; furthermore, he is expanding the application of highly compatible, environmentally friendly supercritical fluid technology in the electronics field, using supercritical processing to improve the overall performance of various electronic devices and materials (including memory devices, thin-film transistors, third-generation semiconductors, and two-dimensional materials).

Prof. Weifeng Lv, Hangzhou Dianzi University, China

Bio: Weifeng Lv, Ph.D., Professor, and Ph.D. advisor. He earned his Ph.D. in Circuits and Systems from Zhejiang University, served as a visiting scholar at the University of Texas at Austin, and is a member of the China Electronics Society. His research focuses on nano-CMOS circuits and CAD, novel integrated nanodevices, ultra-low-power devices and circuits, and statistical design methods for Design for Manufacturing (DFM). As principal investigator, he has led two General Projects of the National Natural Science Foundation of China, two General Projects of the Zhejiang Provincial Natural Science Foundation, one Open Fund Project of a National Key Laboratory, and one project funded by the Zhejiang Provincial Department of Education. As a key research member, he has participated in numerous projects funded by the National Natural Science Foundation of China and the Zhejiang Provincial Natural Science Foundation, and possesses extensive experience in teaching and research as well as a strong academic background. Over the years, he has published nearly 70 papers in domestic and international journals and at international conferences, of which more than 40 have been indexed by SCI and more than 20 by EI. He has received one Zhejiang Provincial Higher Education Scientific Research Achievement Award. He has served as the lead editor for two textbooks and co-authored five others. He has been invited to serve as a reviewer for 33 SCI- and EI-indexed journals worldwide.

Prof. Zhiting Lin, Anhui University, China

Bio: Zhiting Lin, Professor, Ph.D., and advisor to master’s and doctoral students. His work primarily focuses on teaching and research in integrated circuit design. He has received support from national-level talent programs and has led one sub-project under a National Key Research and Development Program, two General Projects of the National Natural Science Foundation of China, and one Key Project of the National Natural Science Foundation of China (as co-principal investigator). He has also received special funding from the China Postdoctoral Science Foundation and support from the Anhui Province Outstanding Young Talent Support Program for Universities. He has published more than 80 high-impact papers and filed 100 invention patent applications. He has received one Special Prize and two First Prizes in the Teaching Achievement Awards, as well as the Baosteel Outstanding Teacher Award, the Li Shixiong Award, and the Anhui Province Gold Medal Employee Award. His primary research areas are memory design and compute-in-memory circuit design.