Data Center Speed Upgrades

A data center network is a business engine, supporting commerce and revenue for the owner or user of the facility. Whether the business is streaming video, processing financial transactions, or anything in between, the speed with which the network operates is a critical parameter for success. Consequently, network-speed upgrades often are necessary in order for data center owners and operators to maintain a competitive edge. This webcast seminar, produced by Cabling Installation & Maintenance, explores strategies and objectives to ensure a cabling system can support data center network speed upgrades. It discusses the key role the cabling plays in supporting high speeds, and tactics that can be employed to support multiple generations of network speeds with an installed cabling infrastructure. Join us for this webcast sponsored by Finisar, Corning Optical Communications, and Sumitomo Electric Lightwave.

Jan 31st, 2019
1901 Cim Cr Data Center

A data center network is a business engine, supporting commerce and revenue for the owner or user of the facility. Whether the business is streaming video, processing financial transactions, or anything in between, the speed with which the network operates is a critical parameter for success. Consequently, network-speed upgrades often are necessary in order for data center owners and operators to maintain a competitive edge. This webcast seminar, produced by Cabling Installation & Maintenance, explores strategies and objectives to ensure a cabling system can support data center network speed upgrades. It discusses the key role the cabling plays in supporting high speeds, and tactics that can be employed to support multiple generations of network speeds with an installed cabling infrastructure.

Presentation: High-Speed Optics Roadmap
Multiple standards-development organizations (SDOs) have been working on the specifications for next-generation transmission speeds. Their efforts and timelines provide a roadmap of when professionals can anticipate the availability of standards- and MSA-based optical interfaces for specific speeds. As these standards come together, among their specifications are media types (e.g. single mode, multimode fiber) and transmission schemes (e.g. serial, parallel, WDM). This presentation looks at what is already available and what is currently under development for high-speed optical links, both inside and between data centers.

Presentation: Cabling Requirements for Spine-and-Leaf Topologies
The spine-and-leaf data center network architecture is designed to ensure full connectivity among switches. It is also sometimes called full-mesh, and it requires just that—a full mesh of fiber-optic cabling to support all switch-to-switch connections. This presentation describes the spine-and-leaf topology, explaining its characteristics and deployment options. The presentation pays specific attention to the topology’s demands on cabling systems, and approaches to take in order to meet those demands.

Presentation: Meeting Current and Future Speed Requirements in Colocation Facilities
In a colocation data center, scalability is a crucial attribute. The ability to upgrade transmission speeds without having to rip and replace the structured cabling is essential. Providing this scalability requires planning as well as the right cabling infrastructure. This presentation focuses on the cabling options that can be deployed in a colocation data center to provide scalability, and speed upgrades that are as seamless as possible.

Join us for this webcast sponsored by Finisar, Corning Optical Communications, and Sumitomo Electric Lightwave.

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