UCLA

At UCLA Center for Heterogeneous Integration and Performance Scaling (CHIPS), we have been developing a fine pitch heterogeneous wafer-scale platform with a single level of hierarchy called the silicon interconnect fabric (Si-IF). The Si-IF is a platform for heterogeneous integration of different bare dies at fine pitch (2 to 10 �m) and close proximity (<100 �m die spacing). The Si-IF platform can accommodate an entire 50 kW data center on a single 300 mm diameter wafer. Power delivery and heat extraction are fundamental challenges. To minimize the overhead of power conversion, current at mission voltage is planned to be delivered directly to the assembly; this requires a uniform delivery of tens of kA. Our approach is to deliver the current from the back of the Si-IF, using cooled Cu fins and through wafer vias (TWVs), to the front side of the wafer, where the dies are assembled facedown. TWVs are a key component of this power delivery system and are required to penetrate through the entire thickness of the Si-IF (500 – 700 �m). A process for fabrication of large-sized (100 �m diameter) TWVs for the Si-IF is described in this paper. The TWVs are etched in 500 �m Si wafer (aspect ratio of 1:5) and are designed to enable back-side power delivery to the integrated system. Each TWV exhibits a resistance of 1.1 mΩ with an extracted resistivity of 1.73∙10-8 Ω∙m. The scale and performance of these large-sized TWVs supports high current density for power delivery applications.