For years there was only one reputable solution to store data on your computer – by using a hard disk drive (HDD). Nonetheless, this type of technology is by now demonstrating it’s age – hard drives are loud and slow; they can be power–ravenous and have a tendency to produce a lot of heat during intense operations.

SSD drives, on the other hand, are quick, take in significantly less power and they are much cooler. They feature a brand new method of file accessibility and data storage and are years ahead of HDDs relating to file read/write speed, I/O performance and also power capability. Observe how HDDs fare against the newer SSD drives.

1. Access Time

SSD drives present a completely new & impressive way of data safe–keeping using the usage of electronic interfaces in place of just about any moving components and rotating disks. This innovative technology is noticeably faster, allowing for a 0.1 millisecond data access time.

The technology driving HDD drives goes all the way back to 1954. And while it has been substantially enhanced over time, it’s nevertheless can’t stand up to the revolutionary concept powering SSD drives. Through today’s HDD drives, the very best file access rate you’re able to reach differs between 5 and 8 milliseconds.

2. Random I/O Performance

The random I/O performance is extremely important for the general performance of a data file storage device. We’ve run thorough exams and have confirmed that an SSD can handle at least 6000 IO’s per second.

Having an HDD drive, the I/O performance steadily enhances the more you use the hard drive. Nevertheless, right after it extends to a specific cap, it can’t proceed swifter. And due to the now–old technology, that I/O limit is noticeably below what you can receive with an SSD.

HDD can only go as far as 400 IO’s per second.

3. Reliability

The absence of moving parts and rotating disks in SSD drives, and the latest improvements in electronic interface technology have resulted in a significantly safer data file storage device, having an typical failing rate of 0.5%.

For the HDD drive to operate, it must spin a couple metal disks at more than 7200 rpm, keeping them magnetically stabilized in mid–air. They have a large amount of moving parts, motors, magnets and also other devices jammed in a small place. Consequently it’s no wonder that the standard rate of failure of an HDD drive can vary in between 2% and 5%.

4. Energy Conservation

SSD drives are considerably smaller compared to HDD drives and they don’t have virtually any moving parts at all. Because of this they don’t make so much heat and need less power to function and fewer power for cooling down purposes.

SSDs take in somewhere between 2 and 5 watts.

HDD drives are famous for getting noisy. They demand extra power for cooling applications. Within a hosting server which includes lots of HDDs running consistently, you’ll need a large amount of fans to ensure they are cool – this makes them a lot less energy–economical than SSD drives.

HDDs use up somewhere between 6 and 15 watts.

5. CPU Power

SSD drives enable speedier data access speeds, which will, in turn, permit the CPU to perform file queries much quicker and after that to return to different duties.

The regular I/O wait for SSD drives is barely 1%.

When compared to SSDs, HDDs allow for reduced data file access speeds. The CPU will need to lose time waiting for the HDD to come back the demanded data, scheduling its resources meanwhile.

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

6.Input/Output Request Times

Almost all of FlashBuilder’s brand–new web servers are now using solely SSD drives. All of our tests have established that using an SSD, the common service time for an I/O request whilst performing a backup remains below 20 ms.

In comparison with SSD drives, HDDs offer considerably slower service times for I/O requests. In a hosting server backup, the average service time for any I/O request can vary between 400 and 500 ms.

7. Backup Rates

Referring to back ups and SSDs – we have discovered a substantual progress with the backup speed since we transferred to SSDs. Now, a usual hosting server data backup will take solely 6 hours.

Through the years, we’ve got employed predominantly HDD drives on our web servers and we’re well aware of their efficiency. With a web server equipped with HDD drives, a full web server data backup may take around 20 to 24 hours.

If you want to promptly improve the overall overall performance of one’s sites with no need to adjust any kind of code, an SSD–operated website hosting solution is a very good option. Have a look at the shared web hosting service packages and also the Linux VPS web hosting service – our solutions include really fast SSD drives and are offered at competitive prices.

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