2.5 Gbit Network Connectivity
Discover what ‘2.5-Gbps network connectivity’ means and just what effect it'll have on your sites and web applications.
Network connectivity defines a couple of things - how many people shall be able to look at a particular site at the same time and how quickly they'll be able to perform that. In case the connection capacity is small, for instance, the maximum throughput could be hit with only several visitors looking at the site, so newcomers will not be able gain access to the pages, or in a different scenario, all website visitors may have problems. If the capacity is sufficient, but the hosting server access speed is lower, it will require longer for any webpage on the Internet site to load and this could lead to visitors simply closing the site, if they find that they must wait for a couple of minutes just to look through a few webpages. In this light, if you'd like to launch and maintain a successful presence online, the server in which you host your website should offer both superior access speeds and large traffic capacity.
2.5 Gbit Network Connectivity in Shared Hosting
If you get a shared hosting service from us, you'll be able to take full advantage of the multi-gigabit routes we use, irrespective of the location of your account. We ensure fantastic connectivity in all data centers - in Chicago (USA), in Coventry (UK) and in Sydney (Australia), so any site hosted inside them will load very fast all the time. Each of the 3 facilities has direct fiber connections with other major urban centers on the respective continents, in addition to overseas cities, so how quick your Internet sites will open depends completely on your visitors’ connection to the Internet. By using redundant providers, we make certain that there won't be any sort of service interruptions due to a slow or bad connection. Furthermore, we use completely new powerful hardware to make sure that the network within the data centers can handle high traffic volumes without having an effect on the speed or the general performance of the Internet sites.