混合键合，下一个焦点

Group 1 - The core concept of hybrid bonding technology is gaining traction among major semiconductor companies like TSMC and Samsung, as it is seen as a key to advancing packaging technology for the next decade [2][4][10] - Hybrid bonding allows for high-density, high-performance interconnections between different chips, significantly improving signal transmission speed and reducing power consumption compared to traditional methods [5][11] - The technology is particularly relevant for high bandwidth memory (HBM) products, with leading manufacturers like SK Hynix, Samsung, and Micron planning to adopt hybrid bonding in their upcoming HBM5 products to meet increasing bandwidth demands [10][12] Group 2 - TSMC's SoIC technology utilizes hybrid bonding, achieving a 15-fold increase in chip connection density compared to traditional methods, which enhances performance and reduces size [14][15] - Intel has also entered the hybrid bonding space with its 3D Foveros technology, which significantly increases the number of interconnections per square millimeter, enhancing integration capabilities [19] - SK Hynix and Samsung are actively testing and planning to implement hybrid bonding in their next-generation HBM products, with Samsung emphasizing the need for this technology to meet height restrictions in memory packaging [20][22] Group 3 - The global hybrid bonding technology market is projected to grow from $123.49 million in 2023 to $618.42 million by 2030, with a compound annual growth rate (CAGR) of 24.7%, particularly strong in the Asia-Pacific region [22]