我国科学家创出全新计算架构提升算力

Core Insights - The research team from Peking University has developed a novel multi-physical domain fusion computing architecture that utilizes post-Moore new devices to support Fourier transforms, achieving nearly a fourfold increase in computing power, which opens new possibilities in fields such as embodied intelligence, edge perception, brain-like computing, and communication systems [1][2]. Group 1: Technological Advancements - The new computing architecture allows for various computational methods to be executed in their suitable physical domains, such as current, charge, and light, enhancing computational efficiency [2]. - The integration of volatile vanadium oxide devices and non-volatile tantalum/hafnium oxide devices has created a hardware system capable of diverse computational methods, including Fourier transforms [1]. Group 2: Performance Improvements - The new framework has improved the speed of Fourier transform calculations from approximately 130 billion operations per second to about 500 billion operations per second, representing a significant increase in computational speed [2]. - The innovative computing framework is expected to overcome the challenges of expanding the operator spectrum of post-Moore new devices, enabling them to support multiple computational methods effectively [2].