Slice Wireless Solutions Chooses FiberLight Network for Enhanced Airport WiFi Capabilities

FiberLight, LLC, a fiber infrastructure provider with more than 20 years of construction experience building mission-critical, high-bandwidth networks, announces its network has been chosen by Slice Wireless Solutions to deliver public WiFi and Distributed Antenna System (DAS) wireless capabilities for the Baltimore/Washington International Thurgood Marshall Airport (BWI Marshall).

FiberLight offers more than 20 years of dedicated expertise designing, building, maintaining and monitoring large-scale, custom high-capacity fiber infrastructure in some of the country´s most rapidly growing areas. The company´s dark fiber solutions deliver complete operational control, security and scalability, improving business operations and provisioning peace of mind for network and data center providers, large enterprises across the US and up-the-Stack partners who are evolving their capabilities.

FiberLight designs, builds and deploys mission-critical high bandwidth networks to ignite our client´s digital transformation. With 14,000 route miles of fiber networks and 78,000 pre-qualified near-net buildings, FiberLight operates in over 30 metropolitan areas in the US Our service portfolio includes high-capacity Ethernet and Wave Transport Services, Cloud Connect, Dedicated Internet Access, Dark Fiber and Wireless Backhaul serving domestic and international telecom companies, wireless, wireline, cable and cloud providers as well as key players across enterprise, government and education. For more information, visit

Slice Wireless Solutions, based in New York City, utilizes high-density public wireless network infrastructure to access, capture new audiences, and outpace change. With Slice you can rethink your culture, your processes, and the way you do business by giving you the power to connect to the people, the places, and the things you care about. With 1000s of access points deployed, Slice offers a tested, managed Wi-Fi platform with proven ability to support densely populated public Wi-Fi. For more information, visit