Fujikura developed and manufactured a set of Fibre Optic Identifiers (FID-30R & FID-31R) used for the essential maintenance and installation of fibre networks.
The amount of computing horsepower at our disposal today is growing at a staggering rate, driven by huge gains in processing performance, power optimization and architectural innovations. This progress is being driven at every level of the technology market, but none more so than the High-Performance Computing (HPC) ecosystem.
The global demand for fibre optic cable has never been higher. Network operators throughout the world are adding more optical fibre to their networks than ever before. Fibre, which once was confined to high-capacity core network connections, is now used throughout operator networks and has become a key component in the delivery of access networks.
Coriant and Telia Carrier demonstrate software-enabled real-time performance awareness
In this viewpoint, we offer some predictions for the optical networking domain in 2018, with a special focus on hyperscale data centers, where the pace of innovation is hitting breakthrough strides.
100G optimization and deployment
Cost and compatibility can make a compelling case for pushing 100Gb/s bandwidth over a single optical channel, both as individual links and supporting 400Gb/s Ethernet, finds Andy Extance
Robin Mersh takes a look at how the industry is creating next-generation optical access fit for 5G
Technological advances to aid the increasing demand for bandwidth, on the path towards the terabit network, should lead to optical signals that are flexible and adaptive, like water, argues Dr Maxim Kuschnerov and Dr Yin Wang