<p>➀ Chiplet technology breaks down components from a single system-on-chip (SoC) into multiple small chips (chiplets) with specific functions, and then interconnects them using advanced packaging technology to form a system-in-package (SiP). Advanced packaging technology enhances Chiplet design and performance in terms of interconnect density, signal transmission optimization, thermal performance improvement, reduction of process dependency, and heterogeneous integration, accelerating chip design and application deployment.</p><p>➁ With the continuous improvement of chip performance, Chiplet design requires higher signal transmission speed from the substrate. Traditional substrates struggle to meet this demand, but glass substrates offer faster signal transmission rates, lower dielectric losses, and higher interconnect density, providing faster signal transmission channels for Chiplet chips. Additionally, glass substrates have larger packaging sizes and good mechanical stability, allowing for more chiplets in the same area, facilitating large-scale integration of Chiplets and enabling more complex system-in-package designs to meet the performance requirements of high-performance computing and artificial intelligence.</p><p>➂ On October 18th at 19:30, the 11th 'Xing Xing Chiplet and Advanced Packaging Public Lecture' will feature a talk by Ma Xiaobo, President of Hunan YueMo Research Institute, titled 'Glass Substrate Chiplet Advanced Packaging and Multi-Physical Field Simulation'. Ma will discuss the prospects and industry status of Chiplet advanced packaging technology, share the application advantages of glass substrates in advanced packaging, and focus on multi-physical field simulation for glass substrate Chiplet advanced packaging and the application and future development trends of deep learning in advanced packaging simulation.</p>