存算一体铁电晶体管，助力高算力低能耗AI芯片研发

Core Insights - A research team from Peking University's School of Electronics has developed the smallest and lowest power-consuming ferroelectric transistor to date, which is expected to support the enhancement of AI chip computing power and energy efficiency [1] - The physical gate length of the ferroelectric transistor has been reduced to the 1-nanometer limit, breaking traditional physical constraints and achieving energy consumption levels an order of magnitude lower than the best international standards [1] - The "storage-computation integration" feature of this transistor allows it to perform data storage and computation simultaneously, aligning well with the evolution direction of AI chips [1] Industry Impact - This breakthrough is anticipated to eliminate the efficiency bottleneck caused by the separation of "storage" and "computation" in traditional computing architectures, laying a critical technological foundation for the development of the next generation of high-performance, low-energy AI chips [1] - The ultra-low operating voltage and energy consumption characteristics of the nanoscale ferroelectric transistor provide a core device solution for constructing high-efficiency data centers, further establishing a technological basis for the next generation of high-performance AI chips [1] - This technological advancement fills a gap in the domestic atomic-scale ferroelectric transistor field and breaks the monopoly of international giants in the core device sector of AI chips [1] Related Companies - Relevant A-share concept stocks include Guolin Technology and Yidao Information, as reported [1]