![]() For instance, 25G optical transceivers comprise a large part of the front-haul infrastructure, as the granularity of the 5G front-haul network is 25Gbps. The 5G network structure consists of front-haul, middle-haul and back-haul sections which have different requirements of the transceiver modules. With 25G technology maturing, end users can expect seamless operation between the main components within the datacenter network. Moreover, 25GbE provides a simpler path to Ethernet speeds of 50 Gbps, 100 Gbps and beyond. 25G migration has boosted overall system throughput by 2.5× with small incremental costs. The technology trends in data centers and cloud computing lead the structure upgrading, and 25G prevails over 10G at the access layer. A continued adoption of 25GE switches at the access between servers and ToR switches brings a solution. More bandwidth is required as data moves down into the fabric or top of rack (ToR). ![]() For instance, virtualization has increased server utilization, making 10GbE insufficient. More and more cloud computing companies like Amazon, Facebook, Google, and Microsoft have been deploying 100G Ethernet in their data centers, but the terminal devices outgrowing 10GbE capabilities. Let’s take a look at the main drivers of the growth of 25G and why you should follow the trend to move from 10GbE to 25GbE. The 25G technology and 25G product portfolio develop nonstop driven by the future proofing technology and applications. The Rise of 25GbE - Necessity of 10GbE to 25GbE Migration
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |