Its primary purpose is single-fiber bidirectional transmission, enabling the conservation of fiber capacity and facilitating flexible deployment. Design: Square-shaped type with a pull/push mechanism and a big 2. 5 mm ceramic ferrule for high performance. Unlike traditional duplex optics that require separate fibers for transmit and receive signals, BiDi optics uses distinct wavelengths to carry bidirectional traffic on the same strand. This approach not only optimizes fiber utilization but also addresses the growing demand for scalable, high-speed. In the fast-paced world of modern networking, optical transceivers play a crucial role in the transmission of data in data centers, 5G, and enterprise networks, where their compact design and high data transfer rates make them indispensable components. Bidirectional communication has emerged as an effective solution for reducing fiber usage while. Therefore, in this study, we address the following research question: How does the selective deployment of BiDi-HCF influence network-wide throughput, power consumption per Tbps, and transceiver allocation (ZR+ vs.
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