Track 9: Processing-in-Memory Technology and Emerging Memory Design

With the explosive evolution of artificial intelligence and large language models, the traditional Von Neumann architecture faces severe bottlenecks known as the "memory wall" and "power wall". Processing-in-Memory (PIM) technology, developed on the basis of emerging memories, is becoming a core path to reshape the high-energy-efficiency computing paradigm by breaking through the limitations of underlying materials and physical mechanisms. This forum aims to gather top global scholars and industry experts to build an interdisciplinary exchange platform from micro-material breakthroughs to macro-system designs, exploring future-oriented high-energy-efficiency processing-in-memory chip system architectures, and accelerating the transformation of cutting-edge devices into large-scale arrays and industrial applications.

随着人工智能与大模型技术的爆发式演进，传统冯·诺依曼架构面临严峻的“内存墙”与“功耗墙”瓶颈。依托新型存储器发展起来的存算一体技术，通过突破底层材料与物理机制的限制，正成为重塑高能效算力范式的核心路径。本论坛旨在汇聚全球顶尖学者与产业专家，搭建从微观材料突破到宏观系统设计的跨学科交流平台，探索面向未来的高能效存算芯片系统架构，加速前沿器件向大规模阵列和产业落地的转化。