Our hosting network is located in Chicago, Illinois, and boasts connectivity to the world's largest Tier 1 carriers Level(3) and NTT, Tinet, nLayer as well as 100+ additional peering relationships with companies such as Cox, Rogers, Cablevision, Hurricane Electric, and Facebook.
- Level(3) - Direct 10 GigE (10,000mbit/sec)
- NTT - Direct 10 GigE (10,000mbit/sec)
- Tinet - Direct 10 GigE (10,000mbit/sec)
- nLayer - Direct 10 GigE (10,000mbit/sec)
Level(3)
Level(3) is one of the world's largest and most reliable carriers. Nine out of ten of the world's largest telecom carriers all continue to use Level(3) services, as do five of the top six U.S. Internet Service Providers, and nine out of ten of the largest European telecom carriers. The company operates a 22,500 mile broadband fiber optic network in 72 US markets and 20 European markets.
NTT
NTT Communications is the international and long distance service arm of NTT (Nippon Telegraph and Telephone Corporation), one of the largest telecommunications companies in the world. NTT's extensive global infrastructure covers over 150 countries and a Tier 1 IP backbone connected with major ISPs worldwide, as well as secure data centres in Asia, North America and Europe. In 2009, NTT Corp. was ranked 44th in Fortune's Global 500 list with operating revenues of more than $103 billion.
Tinet
Tinet's extensive network includes over 100 IP/MPLS PoPs covering the most Europe, the USA, Canada and APAC. Based on the amount of Internet traffic on Tinet's IP backbone, Tinet is among the largest Internet carriers worldwide: the company operates one of the top 10 IP network backbone and the largest IPv6 network worldwide. In October 2010, Tinet was acquired by Neutral Tandem, a leading provider of tandem interconnection services to wireless, wireline, cable and broadband telephony companies based in Chicago.
nLayer
nLayer Communications has designed and deployed a robust, legacy-free, and highly scalable network spanning key markets across North America. Major backbone nodes are connected via multiple OC-192 (10 Gbps) diversely routed circuits, provisioned over a highly scalable Dense Wave Division Multiplexing (DWDM) infrastructure.