Rosenberger OSI has revealed the next step on from its PerCONNECT portfolio of data centre cabling infrastructure for the office and building cabling sector in its new EcoFlex’IT. The new launch is designed to enable an efficient active and passive network from a single source, featuring active components and an overall concept that focuses on efficient and flexible new and existing network installations.
AUGSBURG, GERMANY – Rosenberger Optical Solutions & Infrastructure (Rosenberger OSI), manufacturer of innovative cabling infrastructures based on fiber optics, is announcing that it has successfully completed a project to build a new data centre for Deutsche Vermögensberatung AG (DVAG) in Frankfurt. The Augsburg based company acted as general contractor during the entire project for cabling planning as well as the installation of copper and optical fiber cables. It was also responsible for the delivery and installation of the racks, cooling aisles and row coolers.
Cabling infrastructure supplier Rosenberger OSI has created a singlemode version of its structured parallel optical data centre cabling system, under the name PreCONNECT OCTO.
The increasing importance of bandwidth for businesses has prompted Rosenberger Optical Solutions & Infrastructure (Rosenberger OSI), to start offering its data centre cabling infrastructure to the office and building cabling sector.
Rosenberger OSI’s new portfolio, under the brand name of PerCONNECT, combines planning and installation services with hardware to create comprehensive portfolio from one experienced supplier.
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