2.5 Gbit Network Connectivity
Notice what ‘2.5-Gbps network connectivity’ suggests and what impact it'll have on your web sites and web applications.
Network connectivity defines a couple of things - what number of people will be able to look through a specific website all at once and how quickly they will be able to accomplish that. In case the connection capacity is low, for example, the maximum throughput could be hit with only a few visitors checking out the Internet site, so newcomers will be unable to gain access to the webpages, or in another scenario, all site visitors could have difficulties. If the capacity is sufficient, but the hosting server access speed is small, it shall take longer for any web page on the site to load and this may lead to visitors simply closing the Internet site, if they find that they ought to wait for a few minutes just to see a number of webpages. In this light, if you want to start and maintain a prosperous presence online, the server where you host your site should offer both superior access speeds and high traffic capacity.
2.5 Gbit Network Connectivity in Website Hosting
When you get a website hosting service from our company, you will be able to take advantage of the multi-gigabit routes which we use, no matter the location of your account. We guarantee fantastic connectivity in all data centers - in Chicago (USA), in London (UK) and in Sydney (Australia), so any website hosted in them will load really quick at all times. Each one of the 3 facilities has direct fiber connections with other major cities on the respective continents, in addition to overseas cities, so how quickly your Internet sites will open depends solely on your visitors’ connection to the Internet. By using redundant providers, we ensure that there will not be any kind of service interruptions due to a slow or bad connection. In addition, we use completely new highly effective hardware to be sure that the network inside the data centers can handle higher traffic volumes without affecting the speed or the performance of the sites.