Zayo Expands Fiber Network in San Diego
High Fiber Count Network Extends Reach to Surrounding Markets
BOULDER, Colo. – July 16, 2013 – Zayo Group announces it is expanding its fiber network in the San Diego market by over 5,000 fiber miles. The expansion will provide additional capacity on existing routes, as well as extend its metro network to include surrounding communities of Oceanside, Encinitas, Del Mar and Escondido. The new network will provide access to important carrier, healthcare, technology, energy and government locations.
As part of this project, Zayo will also enable San Diego with access to its international long haul network for transport, IP and colocation services. Zayo’s fiber network spans 74,300 route miles providing connectivity to 283 markets throughout the US and Western Europe.
“Our expanded San Diego coverage will enable us to meet the growing demand for Bandwidth Infrastructure across a range of customers. San Diego joins our other key metro markets in California with deep fiber networks including San Francisco, Los Angeles and Sacramento” states Brett Palmer, VP, Dark Fiber Product Group at Zayo Group.
To view Zayo’s Fiber Network footprint, visit www.zayo.com.
Based in Boulder, Colo., privately owned Zayo Group (www.zayo.com) is an international provider of fiber-based Bandwidth Infrastructure services and carrier-neutral colocation and interconnection services. Zayo serves wireline and wireless carriers, data centers, Internet content and services companies, high bandwidth enterprises, and federal, state and local government agencies. Zayo provides these services over metro, national, international and fiber-to-the-tower networks. With its acquisitions of USCarrier, FiberGate and AboveNet, Zayo’s network includes 74,300 route miles, serving 45 states and Washington, D.C. Its network serves approximately 11,740 on-net buildings, including 571 data centers, 563 carrier PoPs, and 3,045 cell towers. Zayo’s colocation assets include 141,000 billable square feet of interconnect-focused colocation space.