en.Wedoany.com Reported - On June 10, FICER Technology, a Taiwan, China-based manufacturer of fiber optic products and transmission systems, announced its participation in Vietnam ICTCOMM 2026, showcasing optical modules and OTN DWDM systems for AI, 5G, and IoT transmission connectivity. The exhibited products include the F520 OTN DWDM system, DCO coherent optical modules, 800G and 400G core optical engines, 25G and 100G edge network optical modules, and wide-temperature fiber optic modules for industrial IoT scenarios.

Vietnam ICTCOMM is one of the leading communication, information technology, and telecommunications exhibitions in Southeast Asia, where exhibitors typically showcase products related to carrier networks, data centers, optical communications, 5G applications, IoT, and enterprise digitalization. FICER's focus at this exhibition is on "expansion rather than reconstruction," addressing the data traffic growth challenges faced by carriers and infrastructure customers by enhancing the carrying capacity of existing networks through OTN DWDM and DCO optical modules. For markets currently building 5G, AI data centers, and IoT access networks, increasing bandwidth without large-scale fiber optic re-laying is key to reducing construction costs and shortening deployment cycles.

The F520 OTN DWDM system is primarily designed for high-capacity transmission networks, providing higher-density optical layer carrying capacity for multi-service access, long-distance transmission, and data aggregation. DCO coherent optical modules can enhance transmission distance, speed, and system flexibility within limited space, making them suitable for metropolitan area networks, backbone nodes, and data center interconnects. As demand for AI training, inference, and data aggregation increases, traditional network links face higher throughput and lower latency requirements, making high-speed optical modules a fundamental connectivity component between servers, switches, and transmission systems.

FICER also deploys 800G and 400G optical engines for AI servers and high-density computing environments, extending product application scenarios from traditional communication networks to within data centers. Generative AI and large model applications require continuous data exchange among numerous servers, where network bottlenecks can directly impact cluster efficiency. The 800G and 400G optical modules provide low-latency, high-bandwidth connectivity for high-density server environments, helping system vendors and data center operators enhance the data exchange capabilities of computing clusters.

In 5G edge and IoT scenarios, FICER's showcased 25G and 100G optical modules, along with industrial-grade fiber optic modules, are more oriented towards access networks and outdoor environments. Power facilities, railway systems, outdoor surveillance, communication access networks, and industrial control scenarios often face issues such as high temperatures, low temperatures, humidity, dust, and inadequate cabinet heat dissipation, making it difficult for standard commercial modules to operate stably long-term. Industrial-grade optical modules support a wide temperature range from -40°C to 85°C, enabling photoelectric signal conversion in unattended cabinets and critical facilities, supporting stable connections between distributed IoT nodes and central networks. As Vietnam and Southeast Asia advance the construction of 5G, smart cities, industrial internet, and data centers, the importance of optical communication basic components will continue to rise.

Future focus points center on whether FICER can expand cooperation with Southeast Asian customers through the Vietnam exhibition, whether its OTN DWDM systems and high-speed optical modules can enter carrier, data center, and industrial IoT projects, and whether its OEM/ODM manufacturing capabilities can support customized requirements from different customers. If these products are continuously introduced in the regional market, FICER will gain more project opportunities in AI data transmission, 5G edge networks, and industrial IoT connectivity markets, further driving demand growth for optical modules, coherent transmission, industrial communication, and network expansion solutions.

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