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arxiv: 2003.11895 · v1 · pith:ZXINOPXN · submitted 2020-02-28 · physics.app-ph · cs.ET

Redesigning Photonic Interconnects with Silicon-on-Sapphire Device Platform for Ultra-Low-Energy On-Chip Communication

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classification physics.app-ph cs.ET
keywords photonicon-chipsos-baseddevicesinterconnectslinksplatformanalysis
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Traditional silicon-on-insulator (SOI) platform based on-chip photonic interconnects have limited energy-bandwidth scalability due to the optical non-linearity induced power constraints of the constituent photonic devices. In this paper, we propose to break this scalability barrier using a new silicon-on-sapphire (SOS) based photonic device platform. Our physical-layer characterization results show that SOS-based photonic devices have negligible optical non-linearity effects in the mid-infrared region near 4{\mu}m, which drastically alleviates their power constraints. Our link-level analysis shows that SOS-based photonic devices can be used to realize photonic links with aggregated data rate of more than 1 Tb/s, which recently has been deemed unattainable for the SOI-based photonic on-chip links. We also show that such high-throughput SOS-based photonic links can significantly improve the energy-efficiency of on-chip photonic communication architectures. Our system-level analysis results position SOS-based photonic interconnects to pave the way for realizing ultra-low-energy (< 1 pJ/bit) on-chip data transfers.

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