The content discusses the challenges faced by datacenters in managing large volumes of data and the limitations of current optical switches in handling multicast communication patterns efficiently. The author proposes a Multicasting Optical Reconfigurable Switch (MORS) that leverages spatial light modulation to enable programmable unicast and multicast connections. By utilizing phase modulation across multiple layers, MORS achieves space-wavelength routing, eliminating power loss issues associated with fixed splitters. Experimental results confirm the feasibility, effectiveness, and scalability of MORS for multicasting applications in datacenters.
The paper compares MORS with existing technologies like MEMS-based switches and Wavelength-selective switches (WSSs), highlighting the advantages of MORS in providing both space and wavelength selectivity without additional complexity. The study includes detailed numerical simulations and experimental validations to demonstrate the performance of MORS in handling multicast connections efficiently while maintaining high power efficiency.
Furthermore, a scaling study reveals that increasing the number of parameters improves overall performance but shared pixel usage among connections can be a bottleneck for efficiency. The analysis showcases how MORS offers consistent efficiency for multicasting applications, bridging gaps in current optical interconnect technologies with enhanced flexibility through space-wavelength granularity.
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arxiv.org
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