|
|
||||||||||||||
|
|
|
|
||||||||||||
|
|
|
|
|
|
|
|
|
|
|
|
|
|
||
|
|
||||||||||||||
|
|
||||||||||||||
|
|
|
|
|
|
||||||||||
 |
| Secure Locked Cabinets using either Key or Combination Lock |
 |
| 20 or 40 Amp Circuits Available for each rack |
 |
| State of the art cooling and humidity control system |
 |
| Redundant Fiber Connection and Electrical Systems |
 |
| Call us now at 1-877-711-HOST for all your hosting needs! |
One of Get In Spaces State of the art
Cages
| NETWORK DETAILS Get In Space's network consists of a multi node dark fiber ring. The ring connects our facilities redundantly to other large data centers such as 60 Hudson, 25 Broadway, 111 8Th, 165 Halsey and others. DWDM gear is used to allow the expansion of the ring to facilitate our capacity. Atop the DWDM gear sits a Layer3 network between our routers which run MPLS. This setup to connect to carriers and provide the best possible routes out to our customers. Get In Space receives transit routes from Global Crossings, Level3, Teleglobe, Telia. In addition to our transit, we connect to multiple peering fabrics which allow us to directly connect to carriers and bypass the 'Internet'. Users who are connected to these carriers or ISPs would have a direct connection to Get In Space. Some of these carriers are Rogers cable, Shaw cable, Optimum online, British telecom, France telecome, etc, we have over 150 of such type connections. The fabrics we participate in are NYIIX, Equinix, XchangePoint, and AMS-IX (The largest type fabric in the world). The network within our data center consists of multiple edge routers, which link the data center to our network backbone. The edge routers also connect to local transit providers in the building. The edge layer then connects to our core layer of routers. Gigabit clients would connect to the Internet through there, having 2 redundant connections to two separate core routers. |