Relying on industry-leading technologies and smart factories, Far East has achieved large-scale mass production of G.657.A1/A2 single-mode optical fibers. The multi-mode optical fibers feature low loss and high bandwidth, providing stable support for AI 10G transmission; meanwhile, it has made forward-looking layout in the cutting-edge technology of hollow-core optical fibers, seizing the core track of next-generation computing power transmission with the advantage of ultra-low loss.

As the iteration of AI large models accelerates and the scale of cloud computing continues to expand, data centers, the "heart" of the digital economy, are facing a new challenge of explosive growth in computing power. From the power of a single cabinet soaring to over 100kW to the massive data interaction of 10,000-card GPU clusters, traditional transmission media can hardly meet the core demands of high efficiency, low latency and large bandwidth. As the "neural network" of the computing power network, optical fibers and cables are becoming the key support to activate the new quality productive forces of data centers. With the deepening advancement of the "East Data, West Computing" project and the doubling of the bidding scale for AIDC (Artificial Intelligence Data Center), data centers have set unprecedented requirements for transmission links – higher bandwidth, lower latency, better energy conservation and stronger scalability have become the core indicators for measuring transmission systems.

Having deeply rooted in the cable field for many years, guided by the "Electric Energy + Computing Power + AI" strategy, Far East has accurately targeted the transmission pain points of data centers. The developed OM4/OM5 series multi-mode optical fibers boast core features such as low transmission loss, high transmission bandwidth, excellent micro-bending resistance and strong adaptability to multiple environments. In terms of transmission performance, the optical fibers can realize ultra-high speed and long-distance low-loss transmission, adapt to 400G, 800G and even 1.6T bandwidth requirements, reduce latency and support the collaboration of GPU clusters; in terms of energy conservation and environmental protection, they feature low energy consumption, long service life and no electromagnetic interference, helping data centers meet PUE standards; in terms of scalability, they can adapt to the large-scale and complex upgrading of data centers and cope with the high bandwidth demand of AI.Meanwhile, for high-density and multi-bending wiring scenarios such as inside data center cabinets and fiber-to-the-desktop, Far East has developed bend-resistant multi-mode optical fibers and bend-resistant single-mode optical fibers. By optimizing the core and cladding structures, they can maintain extremely low signal attenuation even under repeated bending and small-radius turns, ensuring transmission stability. In response to the higher future demand of data centers for ultra-low latency and ultra-broadband, Far East has simultaneously launched the pre-research of cutting-edge technologies such as hollow-core optical fibers, laying out the next-generation transmission technology track in advance. It provides a new solution for high-speed communication and high-power laser transmission, helping data centers achieve performance leap.

In the future, Far East Electric will continue to uphold the "Electric Energy + Computing Power + AI" strategy, base itself on the outlet of digital infrastructure, use more competitive technologies and higher-quality products to solve the pain points of computing power transmission, empower AI supercomputing and quantum computing, and continue to write a legend in the all-optical interconnection track.