Abstract
Hybrid bonding is an important interconnect technology for heterogeneous integration. As the wafer-to-wafer hybrid bonding is extending towards chip-to-wafer bonding for better yield and versatility of chiplets integration, various issues have been raised on top of those for wafer-to-wafer hybrid bonding. A few key applications to be potentially benefited by high density chip-to-wafer hybrid bonding is first overviewed. Progress would not have been made without the great support of the industry at all levels, but manufacturing challenges are yet to be overcome as addressed by a few examples in this overview. These challenges include not limited to establishing package platforms up to 3.5D package and fabricating hybrid bonded integrated chiplets by manufacturers, enabling high accuracy bonding overlay and reticle stitching as well as bonding thin chiplets by equipment upgrades, developing materials and processing technology to support lateral expansion of interposer size and vertical expansion of the multi-layer stacking, and improving the understanding of hybrid bonding mechanisms and the impacts of various dielectric materials. Nevertheless, the system technology co-optimization should always be conducted to minimize the warpage, reduce thermal impacts, and achieve the desired yield and reliability lifetime.
