24-core servers, hardware
Does a server actually need a 24-core CPU? Find the advantages of being hosted on a 24-core server.
The quality of the web hosting service which you receive for your sites depends not only on the characteristics which a particular plan includes, but also on the hardware your web apps work on. Increased CPU speeds, for instance, indicate that the processes running on the hosting server will be performed a lot faster, while extra physical memory (RAM) suggests that more processes can run together. The grade of the hardware could also have an impact on the overall performance and dependability of the server. Since the Internet hosting service nowadays features not only file storage, but also databases, e-mails, logs, etcetera, extra processing power is needed to run all the system processes and to ensure that they run properly and with no lag. In case the hardware is not powerful enough, the result will be slower Internet sites and / or even service timeouts as the machine might not be able to deal with all requests to the websites hosted on it.
24-core servers, hardware in Cloud Web Hosting
If you decide to buy one of our cloud web hosting solutions, you will not need to be worried about the servers where your Internet sites will be accommodated or about the deficiency of resources. We take advantage of an outstanding cloud platform and every service is taken care of by its own cluster of servers. Each and every machine within the clusters contains 24 processor cores and 64 GB RAM, so whatever applications you need to work with, they'll function at top speed constantly. We could always add extra machines to any of the clusters, meaning that the processing power and the disk space for our plans is practically limitless. For even superior performance, we use solid-state drives for the storage, which will increase the performance of your Internet sites substantially. Because our servers are not only extremely powerful, but also redundant, you will not notice any downtime for any site that you host on our end.