For many years there seemed to be only one efficient solution to keep data on a personal computer – using a hard drive (HDD). However, this type of technology is presently displaying it’s age – hard drives are really noisy and slow; they’re power–ravenous and have a tendency to produce a lot of warmth in the course of intensive operations.

SSD drives, alternatively, are quick, consume a lot less power and are also far less hot. They furnish a new method to file access and data storage and are years ahead of HDDs when considering file read/write speed, I/O performance and then energy capability. See how HDDs stand up against the newer SSD drives.

1. Access Time

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SSD drives present a brand new & ground breaking way of file storage using the use of electronic interfaces in place of any sort of moving components and spinning disks. This unique technology is considerably faster, making it possible for a 0.1 millisecond data file accessibility time.

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HDD drives continue to utilize the very same basic data access technique that’s actually developed in the 1950s. Even though it has been substantially upgraded after that, it’s slow in comparison to what SSDs are offering to you. HDD drives’ file access rate can vary in between 5 and 8 milliseconds.

2. Random I/O Performance

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With thanks to the very same revolutionary method that permits for faster access times, you may as well experience improved I/O efficiency with SSD drives. They can carry out twice as many functions throughout a given time compared with an HDD drive.

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

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Hard drives feature reduced data file access speeds due to aging file storage and accessibility technology they’re implementing. In addition, they display noticeably sluggish random I/O performance matched against SSD drives.

During our lab tests, HDD drives handled typically 400 IO operations per second.

3. Reliability

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SSD drives do not have any kind of moving parts, meaning that there is significantly less machinery inside them. And the less actually moving parts you’ll find, the fewer the chances of failing will be.

The regular rate of failing of an SSD drive is 0.5%.

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To have an HDD drive to operate, it has to rotate 2 metal hard disks at a minimum of 7200 rpm, keeping them magnetically stable in mid–air. There is a good deal of moving components, motors, magnets and other devices packed in a small place. Therefore it’s no surprise the common rate of failing of an HDD drive ranges in between 2% and 5%.

4. Energy Conservation

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SSD drives work practically soundlessly; they don’t create extra heat; they don’t involve additional chilling methods and also consume less power.

Trials have established that the common electricity utilization of an SSD drive is somewhere between 2 and 5 watts.

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As soon as they have been constructed, HDDs have always been quite power–greedy products. So when you have a hosting server with different HDD drives, this will add to the month to month utility bill.

On average, HDDs use up between 6 and 15 watts.

5. CPU Power

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SSD drives permit speedier data file access rates, which, consequently, allow the CPU to perform data file queries much faster and then to go back to other tasks.

The standard I/O hold out for SSD drives is actually 1%.

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HDD drives support slower access speeds when compared with SSDs do, resulting in the CPU needing to delay, whilst scheduling assets for the HDD to uncover and return the required data.

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

6.Input/Output Request Times

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It’s time for some real–world instances. We competed a detailed system backup with a web server only using SSDs for data storage purposes. In that operation, the average service time for an I/O query stayed beneath 20 ms.

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During the same lab tests using the same web server, this time suited out using HDDs, performance was substantially reduced. During the server back–up procedure, the standard service time for I/O calls varied between 400 and 500 ms.

7. Backup Rates

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A different real–life development is the rate at which the back–up is made. With SSDs, a server data backup today requires only 6 hours using our hosting server–designed software solutions.

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On the flip side, with a hosting server with HDD drives, a comparable backup might take three or four times as long to finish. An entire back up of any HDD–equipped web server normally takes 20 to 24 hours.

To be able to automatically add to the general performance of your sites with no need to alter any kind of code, an SSD–operated web hosting service is a great alternative. Look at the – our solutions include swift SSD drives and are offered at cost–effective price points.


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