中国科学家创出全新计算架构提升算力 让新器件真正“跑起来”

Core Viewpoint - The research team from Peking University has developed a novel multi-physical domain fusion computing architecture that enhances the performance of Fourier transform calculations by nearly four times, utilizing new post-Moore devices [1] Group 1: Technological Innovation - The new architecture integrates volatile vanadium oxide devices with non-volatile tantalum/hafnium oxide devices, creating a hardware system suitable for diverse computational methods including Fourier transform [1] - The system integration allows for complementary advantages in frequency generation control and in-memory computing, increasing the speed of Fourier transform calculations from approximately 130 billion operations per second to about 500 billion operations per second [1] Group 2: Application Potential - This new computing framework is expected to address the challenges of expanding the operator spectrum of post-Moore devices, enabling support for multiple computational methods and accelerating the practical applications of these new devices in advanced fields such as artificial intelligence foundational models, embodied intelligence, autonomous driving, brain-machine interfaces, and communication systems [1]