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As scaling becomes increasingly difficult, 3D integration has emerged as a viable alternative to achieve the requisite bandwidth and power efficiency challenges. However mechanical stress induced by the through silicon vias (TSV) is one of the key constraints in the 3D flow that must be controlled in order to preserve the integrity of front end devices. For the first time an extended and comprehensive...
Thin wafer handling has become a very challenging topic of emerging 3D technologies, and temporary wafer bonding to a carrier support wafer is one way to guarantee the required mechanical stability and rigidity to the thin wafer during subsequent backside processing. The temporary bonding approach followed by Imec is based on the adhesive material HT10.10 from Brewer Science (WaferBond® HT-10.10)...
We describe the design challenges for a low-cost 130nm 3D CMOS technology with 5μm diameter at 10μm pitch Cu-TSV. We investigate electrical, thermal and thermo-mechanical issues encountered in 3D. The electrical yield and ESD of TSVs is reviewed and designers are advised how to ensure yield and reliability. For thermal and thermo-mechanical we'll indicate based on experimental characterization, the...
3D integration has the potential to alleviate the performance limitations that CMOS scaling is facing provided that it preserves the integrity of both front end and back end devices and constituting materials. The impact of wafer thinning and of the proximity of through silicon via on active devices, back end structures, ring oscillators and mixed signal circuit are reported for the first time for...
In this paper we demonstrate functional 3D circuits obtained by a 3D Stacked IC approach using Die-to-Wafer Hybrid Collective bonding with Cu Through Silicon Vias (TSV). The Cu TSV process is inserted between contact and M1 of our reference 130 nm CMOS process on 200 mm wafers. The top die is thinned down to 25 mum and bonded to the landing wafer by a combination of polymer bonding and copper to copper...
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