According to the official account of Peking University's Artificial Intelligence Research Institute, yesterday, researcher Sun Zhong's team and collaborators from the Peking University Artificial Intelligence Research Institute published a paper in the international academic journal “Nature Electronics”, making a major breakthrough in the new computing architecture. The research team successfully developed a high-precision, expandable analog matrix calculation chip based on resistive memory. For the first time, they realized an analog calculation system comparable to digital calculation in terms of accuracy, improving the accuracy of traditional analog calculation by an astonishing five orders of magnitude. Relevant performance evaluations show that when solving key scientific problems such as large-scale MIMO signal detection, the chip's computational throughput and energy efficiency are 100 to 1000 times higher than current top digital processors. This achievement marks that China has broken through the problems of the century of analog computing, made a major breakthrough in the post-Moorish computing paradigm change, and opened up a new path for dealing with computing power challenges in fields such as artificial intelligence and 6G communication.

According to the official account of Peking University's Artificial Intelligence Research Institute, yesterday, researcher Sun Zhong's team and collaborators from the Peking University Artificial Intelligence Research Institute published a paper in the international academic journal “Nature Electronics”, making a major breakthrough in the new computing architecture. The research team successfully developed a high-precision, expandable analog matrix calculation chip based on resistive memory. For the first time, they realized an analog calculation system comparable to digital calculation in terms of accuracy, improving the accuracy of traditional analog calculation by an astonishing five orders of magnitude. Relevant performance evaluations show that when solving key scientific problems such as large-scale MIMO signal detection, the chip's computational throughput and energy efficiency are 100 to 1000 times higher than current top digital processors. This achievement marks that China has broken through the problems of the century of analog computing, made a major breakthrough in the post-Moorish computing paradigm change, and opened up a new path for dealing with computing power challenges in fields such as artificial intelligence and 6G communication.