Currently, all of the new computers are equipped with SSD drives as opposed to HDD drives. You’ll discover superlatives to them throughout the professional press – they are a lot faster and perform far better and they are the future of desktop computer and laptop computer manufacturing.
Then again, how can SSDs perform within the hosting community? Are they responsible enough to replace the successful HDDs? At Internet Accredited Hosting, we will help you much better be aware of the dissimilarities in between an SSD and an HDD and judge the one that best suits you needs.
1. Access Time
After the release of SSD drives, file access rates have gone through the roof. As a result of completely new electronic interfaces employed in SSD drives, the average data file access time has been reduced into a all–time low of 0.1millisecond.
HDD drives still take advantage of the same fundamental data access technique that was originally created in the 1950s. Though it has been significantly advanced after that, it’s slow when compared to what SSDs will offer. HDD drives’ data access speed varies between 5 and 8 milliseconds.
2. Random I/O Performance
Resulting from the unique significant file storage solution adopted by SSDs, they give you quicker data access speeds and swifter random I/O performance.
For the duration of Internet Accredited Hosting’s tests, all SSDs showed their capability to work with at the very least 6000 IO’s per second.
Hard drives present reduced data access rates because of the older file storage space and accessibility technique they are implementing. Additionally they show substantially reduced random I/O performance compared with SSD drives.
Throughout our lab tests, HDD drives handled around 400 IO operations per second.
SSD drives are meant to have as fewer rotating parts as is possible. They utilize a similar technique to the one used in flash drives and are generally significantly more trustworthy in comparison with classic HDD drives.
SSDs offer an average failing rate of 0.5%.
For an HDD drive to work, it has to spin a pair of metallic hard disks at a minimum of 7200 rpm, having them magnetically stable in mid–air. There is a good deal of moving components, motors, magnets and other gadgets packed in a small space. Hence it’s obvious why the common rate of failure associated with an HDD drive ranges between 2% and 5%.
4. Energy Conservation
SSDs lack moving elements and require minimal cooling energy. Additionally they need not much electricity to perform – tests have established that they can be powered by a standard AA battery.
In general, SSDs take in between 2 and 5 watts.
HDD drives are renowned for staying loud. They require far more electric power for cooling purposes. On a hosting server which includes a multitude of HDDs running constantly, you will need a great deal of fans to keep them cool – this makes them far less energy–effective than SSD drives.
HDDs use up between 6 and 15 watts.
5. CPU Power
SSD drives enable speedier data file accessibility rates, which generally, consequently, enable the processor to complete data calls considerably faster and after that to go back to different tasks.
The typical I/O wait for SSD drives is barely 1%.
When you use an HDD, you must devote time awaiting the results of your data file request. Consequently the CPU will remain idle for more time, waiting for the HDD to respond.
The common I/O wait for HDD drives is about 7%.
6.Input/Output Request Times
In real life, SSDs perform as perfectly as they managed throughout the checks. We produced a complete system back up using one of the production machines. All through the backup procedure, the typical service time for I/O queries was under 20 ms.
With the same web server, but this time furnished with HDDs, the results were totally different. The regular service time for any I/O request changed somewhere between 400 and 500 ms.
7. Backup Rates
An additional real–life advancement will be the speed at which the back–up is produced. With SSDs, a server backup today requires only 6 hours by using Internet Accredited Hosting’s server–designed software solutions.
On the other hand, on a web server with HDD drives, the same back–up will take 3 to 4 times as long to complete. A complete backup of an HDD–equipped hosting server typically takes 20 to 24 hours.
- Live Demo
- All of our Virtual Private Servers provide no installation service fees and work in a stable network delivering 99.9% of uptime. Full root access guaranteed.
Compare our prices
- Preview the instruments and capabilities coming with our Virtual Private Servers. You could start off with a smaller VPS Hosting setup and move up with simply a mouse click as your requirements increase.
- Compare our hosting plans
- Our representatives are on duty for you 7 days a week to resolve any sort of inquiries in relation to our VPS Hosting solutions. 60–min reply–back time guarantee.