2.5 Gbit Network Connectivity
Notice what ‘2.5-Gbps network connectivity’ signifies as well as what influence it will have on your sites and apps.
Network connectivity defines two things - exactly how many people will be able to check out a specific website concurrently and how fast they'll be able to accomplish that. If the connection capacity is small, for example, the maximum throughput can be hit with only a couple of visitors checking out the website, so newcomers will not be able to gain access to the web pages, or in some other scenario, all visitors may have problems. If the capacity is sufficient, but the server access speed is low, it'll take longer for any webpage on the Internet site to load and this could lead to visitors simply closing the Internet site, if they see that they ought to wait for a minute or two just to view a number of web pages. In this light, if you'd like to launch and maintain a prosperous presence online, the hosting server in which you host your site should offer both superior access speeds and large traffic capacity.
2.5 Gbit Network Connectivity in Shared Hosting
When you get a shared hosting plan from us, you'll be able to take full advantage of the multi-gigabit routes which we use, regardless of the location of your account. We provide outstanding connectivity in all data centers - in Chicago (USA), in Coventry (UK) and in Sydney (Australia), so any site hosted within them will load very quick at all times. Each one of the three facilities has direct fiber connections to other major urban centers on the respective continents, in addition to overseas cities, so how quickly your Internet sites will open depends only on your visitors’ Internet connection. By using redundant providers, we guarantee that there shall not be any sort of service interruptions because of a slow or bad connection. We use new powerful hardware to make certain that the network inside the data centers can handle higher traffic volumes without having an effect on the speed or the functionality of the Internet sites.