The Multicasting Optical Reconfigurable Switch (MORS) offers a novel solution for data centers' networking needs, combining unicast and multicast capabilities with wavelength selectivity. By leveraging spatial light modulation across multiple planes, MORS eliminates the limitations of traditional optical switches, providing efficient and scalable solutions for large-scale operations. The paper details the architecture, operation principles, experimental validations, and scaling studies of MORS, showcasing its potential to revolutionize optical interconnect technologies in data centers.
Data routing within data centers traditionally relies on electrical packet switching but faces limitations as AI models scale up. Optical switches offer bandwidth advantages but struggle with multicasting capabilities. The introduction of MORS addresses these challenges by enabling programmable unicast and multicast connections simultaneously without power loss due to splitters.
The study demonstrates the feasibility and effectiveness of MORS through simulations and experiments that validate its scalability and efficiency. By utilizing spatial light modulation techniques across multiple layers, MORS achieves both unicast and multicast functionalities while maintaining low power losses even as the number of ports scales up.
MORS stands out from existing optical switch technologies by offering space-wavelength selectivity without additional layers or complexity. The research highlights the potential impact of MORS in optimizing network traffic management within data centers while providing flexibility for dynamic environments.
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by Niyazi Ulas ... às arxiv.org 02-29-2024
https://arxiv.org/pdf/2401.14173.pdfPerguntas Mais Profundas