我国团队最新突破，世界首颗超高并行光计算芯片问世，光计算瓶颈有望被打破

Group 1 - The research team at the Shanghai Institute of Optics and Fine Mechanics has developed a high-parallel optical computing integrated chip named "Meteor No. 1," achieving a parallelism greater than 100 in photon computing prototype verification [1] - This advancement addresses the bottleneck in computing density for optical computing, paving the way for the development of low-power, low-latency, high-performance, and high-speed super photonic computers [1] - The Chinese Communication Association has indicated the importance of incorporating optical computing chips into national development strategies, promoting the foundational development of semiconductor materials and optical chip devices [1] Group 2 - Tianfeng Securities highlights that optical computing or optoelectronic hybrid computing is currently the most promising technology to address computing power supply and low-power data processing challenges [2] - The use of photonic chips allows for data transmission with minimal electromagnetic interference, enabling operation at higher frequencies, thus providing greater data bandwidth and lower energy consumption [2] - According to Yole data, the photonic integrated circuit market is expected to reach $54 billion by 2035, driven by demand in artificial intelligence and data communication sectors [2] Group 3 - Shijia Photonics focuses on the optical communication industry, with its main business covering optical chips and devices, indoor optical cables, and cable materials [3] - Robotec is recognized as one of the leading companies in precision coupling packaging equipment for optical communication [4]