For years there was just one efficient option to store info on your personal computer – having a hard disk drive (HDD). Then again, this type of technology is by now displaying its age – hard disks are loud and slow; they are power–hungry and frequently produce a lot of warmth throughout serious operations.

SSD drives, in contrast, are swift, use up significantly less energy and are much cooler. They offer a whole new solution to file access and data storage and are years in front of HDDs when it comes to file read/write speed, I/O efficiency and also power efficacy. Observe how HDDs fare up against the newer SSD drives.

1. Access Time

Due to a radical new method of disk drive operation, SSD drives allow for faster data file accessibility speeds. With an SSD, data accessibility instances are much lower (as low as 0.1 millisecond).

The concept behind HDD drives dates all the way back to 1954. And while it has been noticeably refined in recent times, it’s even now can’t stand up to the revolutionary concept powering SSD drives. Having today’s HDD drives, the best data file access speed you’re able to attain varies somewhere between 5 and 8 milliseconds.

2. Random I/O Performance

Due to the unique radical data storage solution incorporated by SSDs, they feature quicker file access speeds and quicker random I/O performance.

All through our trials, all of the SSDs revealed their ability to take care of at the very least 6000 IO’s per second.

With a HDD drive, the I/O performance progressively improves the more you use the hard drive. However, just after it actually reaches a certain restriction, it can’t get faster. And due to the now–old concept, that I/O limitation is significantly less than what you might have with a SSD.

HDD are only able to go so far as 400 IO’s per second.

3. Reliability

The lack of moving components and spinning disks inside SSD drives, and also the recent advancements in electric interface technology have generated a considerably risk–free file storage device, having an average failing rate of 0.5%.

To have an HDD drive to operate, it needs to rotate a few metallic disks at over 7200 rpm, keeping them magnetically stabilized in the air. They have a wide range of moving components, motors, magnets along with other gadgets loaded in a tiny location. Consequently it’s no surprise the common rate of failing of an HDD drive varies somewhere between 2% and 5%.

4. Energy Conservation

SSDs are lacking moving parts and require little or no chilling power. In addition they require a small amount of electricity to operate – tests have indicated they can be powered by a standard AA battery.

As a whole, SSDs take in somewhere between 2 and 5 watts.

HDD drives are famous for becoming noisy. They want far more energy for chilling applications. On a web server containing a range of HDDs running consistently, you will need a great deal of fans to keep them cool – this will make them much less energy–economical than SSD drives.

HDDs take in somewhere between 6 and 15 watts.

5. CPU Power

Because of SSD drives’ better I/O functionality, the key server CPU will be able to process file queries much faster and conserve time for different operations.

The normal I/O wait for SSD drives is exactly 1%.

As compared to SSDs, HDDs allow for reduced file accessibility rates. The CPU is going to wait around for the HDD to send back the required data, saving its allocations in the meanwhile.

The average I/O wait for HDD drives is about 7%.

6.Input/Output Request Times

The bulk of Get Lost Daddy’s brand new web servers are now using solely SSD drives. Our own tests have indicated that having an SSD, the normal service time for any I/O request whilst running a backup remains under 20 ms.

With the exact same hosting server, but this time furnished with HDDs, the effects were very different. The normal service time for any I/O query changed between 400 and 500 ms.

7. Backup Rates

An additional real–life development is the speed at which the back up is developed. With SSDs, a server back up currently requires no more than 6 hours implementing Get Lost Daddy’s server–enhanced software.

In the past, we have made use of largely HDD drives on our web servers and we are well aware of their effectiveness. With a web server furnished with HDD drives, an entire web server back–up will take around 20 to 24 hours.

To be able to immediately improve the overall performance of one’s websites without the need to adjust any code, an SSD–driven web hosting service will be a really good alternative. Check out the Linux shared website hosting packages – our services offer swift SSD drives and are available at inexpensive price points.


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