An SSD (solid-state drive or solid-state disk) is a storage device that stores persistent data on solid-state flash memory.
SSDs actually aren't hard drives at all, as there are no moving parts involved.
Instead, an SSD has an array of semiconductor memory organized as a disk drive, using integrated circuits (ICs) rather than magnetic or optical media.
This arrangement has many advantages
Data transfer to and from solid-state drives is much faster than electromechanical disk drives.
Seek time and latency are also substantially reduced. Users typically enjoy much faster boot times as well.
In general, SSDs are also more durable and much quieter, with no moving parts to break or spin up or down.
SSDs do, however, have slower write times and a set life expectancy, as there is a finite number of erase/write cycles before performance becomes erratic.
Development and adoption of SSDs has been driven by a rapidly expanding need for higher input/output performance. High performance laptops, desktops or any application that needs to deliver information in real-time or near real-time can benefit from SSDs. Historically, SSDs have been much more expensive than conventional hard drives. Due to improvements in manufacturing technology and expanded chip capacity, however, prices have dropped, leading both consumers and enterprise-level customers to re-evaluate SSDs as viable, if still expensive, alternatives to conventional storage.
In recent years, SSDs have been used in enterprise storage to speed up applications and performance without the cost of adding additional servers. According to storage expert Rick Cook, one of the most potent uses of SSDs is to employ them as a "super cache" in a SAN, dramatically speeding up access to frequently accessed files or applications.
Related glossary terms: hard disk, magnetoresistive head technology, yottabyte, serverless backup, byte, partition, InfiniBand, failover, RAMAC (random access method of accounting and control), Fibre Channel
How to perform an SSD test?
Unlike HDDs, the write process for SSDs is done a block at a time, and space must be cleared ahead of each write operation. This means a “garbage collection” step must occur before each block of data is committed to flash, adding to the overall write cycle time. When SSDs are new — in the “fresh out of box” state — they’re essentially empty and can conduct data writes without taking the garbage collection step. Obviously, performance results gathered during this initial period before the flash device is filled for the first time are not indicative of how it will perform over the long term.
To perform an SSD test, the SSDs must be in a “steady-state” condition, where the device has been filled and refilled enough so that every write operation requires a consistent garbage collection step. For more information about this “pre-conditioning” process, the SNIA website is a good resource. It’s also important to run the SSD test in an environment as similar to the expected production environment as possible, including servers, storage and applications. Also, test one drive at a time and test them continuously; don’t start and stop tests.
Drive reliability and endurance are also different on SSDs. The NAND substrate used in flash SSDs has a finite number of write cycles — called program/erase (P/E) cycles — it can endure. Each manufacturer rates SSDs for this endurance level, which can also be expressed as total bytes written and calculated as a product of maximum P/E cycles and the capacity of the drive. SSDs also leverage the self-monitoring, analysis and reporting technology (SMART) standard for drive diagnostics, which provides a number of drive attributes including the net number of P/E cycles remaining. Published drive endurance can be confirmed by comparing this remaining P/E cycle number with the rated drive maximum after a controlled test period.
For VARs, SSDs represent an opportunity to show customers their value. The disparity that exists between the quality of products and of vendors means that customers will be relying on their VARs to help them navigate the marketplace. Besides identifying the best vendors and products through an SSD test, VARs will need to help customers set reasonable expectations for SSD deployment.
External Links:
http://searchstorage.techtarget.com/definition/solid-state-drive
SSD Testing : http://itknowledgeexchange.techtarget.com/storage-channel-pipeline/how-to-perform-an-ssd-test/
http://www.objective-analysis.com/uploads/2010_Putting_SSDs_to_the_Test_Outline.pdf