Design and Feasibility of Multi-Gb/s Quasi-Serial Vertical Interconnects based on TSVs for 3D ICs

This paper proposes a novel technique to exploit the high bandwidth offered by through silicon vias (TSVs). In the proposed approach, synchronous parallel 3D links are replaced by serialized links to save silicon area and increase yield. Detailed analysis conducted in 90 nm CMOS technology shows that the proposed 2-Gb/s/pin quasi-serial link requires approximately five times less area than its parallel bus equivalent at same data rate for a TSV diameter of 20 um.

Design and Feasibility of Multi-Gb/s Quasi-Serial Vertical Interconnects based on TSVs for 3D ICs

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Towards Scalable Electronics: Synthetic 2D Materials for Large-Area 2D Circuit Integration

Lithium tantalate photonic integrated circuits for volume manufacturing

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Towards Scalable Electronics: Synthetic 2D Materials for Large-Area 2D Circuit Integration

Lithium tantalate photonic integrated circuits for volume manufacturing

Integrated Wireless Power, Data Communication, and Thermal Sensing System for Autonomous Multisite Brain Implants