For those who have a site or perhaps an web app, pace is crucial. The speedier your site loads and then the swifter your applications work, the better for everyone. Because a site is only a group of data files that communicate with one another, the systems that store and work with these data files have a vital role in site operation.

Hard disks, or HDDs, were, until the past several years, the most trustworthy products for keeping data. However, in recent times solid–state drives, or SSDs, are actually gathering popularity. Have a look at our assessment chart to find out whether HDDs or SSDs are more appropriate for you.

1. Access Time

With the release of SSD drives, data accessibility speeds are now tremendous. On account of the new electronic interfaces employed in SSD drives, the standard data access time has shrunk to a record low of 0.1millisecond.

HDD drives depend on rotating disks for data storage reasons. When a file will be accessed, you have to wait for the appropriate disk to reach the right position for the laser beam to access the data file in question. This ends in an average access rate of 5 to 8 milliseconds.

2. Random I/O Performance

With thanks to the exact same revolutionary method that enables for better access times, you too can appreciate far better I/O performance with SSD drives. They can perform twice as many functions within a given time compared with an HDD drive.

An SSD can handle at the very least 6000 IO’s per second.

Hard drives feature reduced file access speeds because of the aging file storage and access technique they’re employing. In addition, they illustrate substantially sluggish random I/O performance compared with SSD drives.

In the course of our trials, HDD drives handled around 400 IO operations per second.

3. Reliability

SSD drives are made to have as less rotating components as possible. They use an identical technology like the one employed in flash drives and are significantly more efficient compared to traditional HDD drives.

SSDs have an average failing rate of 0.5%.

HDD drives utilize rotating hard disks for saving and browsing info – a concept since the 1950s. Along with hard disks magnetically suspended in the air, spinning at 7200 rpm, the prospect of anything going wrong are usually higher.

The standard rate of failure of HDD drives varies between 2% and 5%.

4. Energy Conservation

SSDs don’t have any moving elements and require not much cooling down power. They also call for a small amount of energy to function – lab tests have established they can be powered by a regular AA battery.

As a whole, SSDs consume amongst 2 and 5 watts.

HDD drives are famous for becoming noisy. They demand extra power for cooling purposes. With a hosting server which has a lot of different HDDs running continuously, you need a lot of fans to make sure they’re kept cool – this may cause them much less energy–effective than SSD drives.

HDDs consume between 6 and 15 watts.

5. CPU Power

The swifter the data accessibility rate is, the faster the file requests can be treated. It means that the CPU will not have to reserve resources looking forward to the SSD to answer back.

The normal I/O delay for SSD drives is barely 1%.

HDD drives allow for slower access rates as compared to SSDs do, which will result for the CPU having to wait around, whilst scheduling resources for the HDD to locate and return the inquired data.

The regular I/O wait for HDD drives is approximately 7%.

6.Input/Output Request Times

In the real world, SSDs operate as perfectly as they did in the course of the tests. We produced a complete platform back–up using one of our own production machines. All through the backup procedure, the typical service time for any I/O calls was indeed under 20 ms.

Using the same server, however this time loaded with HDDs, the results were completely different. The common service time for an I/O query fluctuated between 400 and 500 ms.

7. Backup Rates

A different real–life enhancement is the speed at which the backup has been created. With SSDs, a web server backup today can take only 6 hours by making use of our web server–enhanced software.

In contrast, on a hosting server with HDD drives, a similar data backup may take three to four times as long to finish. A complete backup of any HDD–driven server often takes 20 to 24 hours.

With EVOBRAND Marketing Hosting, you will get SSD–driven web hosting solutions at cost–effective price points. The web hosting plans and the Linux VPS servers contain SSD drives by default. Get an website hosting account along with us and experience how your sites can become much better automatically.


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