Solid-state storage

Solid-state storage (sometimes abbreviated as SSS) is a type of non-volatile computer storage that stores and retrieves digital information using only electronic circuits, without any involvement of moving mechanical parts. This differs fundamentally from the traditional electromechanical storage, which records data using rotating or linearly moving media coated with magnetic material.[1][2]

Solid-state storage devices typically store data using electrically-programmable non-volatile flash memory, however some devices use battery-backed volatile random-access memory (RAM). Having no moving mechanical parts, solid-state storage is much faster than traditional electromechanical storage; as a downside, solid-state storage is significantly more expensive and suffers from the write amplification phenomenon.[3][4][5]

Solid-state storage devices come in various types, form factors, sizes of storage space, and interfacing options to satisfy application requirements for many different types of computer systems and appliances.[4]

Overview

Historically, secondary storage in computer systems has been implemented primarily by using magnetic properties of the surface coatings applied to rotating platters (in hard disk drives and floppy disks) or linearly moving narrow strips of plastic film (in tape drives). Pairing such magnetic media with read/write heads allows data to be written by separately magnetizing small sections of the ferromagnetic coating, and read later by detecting the transitions in magnetization. For the data to be read or written, exact sections of the magnetic media need to pass under the read/write heads that flow closely to the media surface; as a result, reading or writing data imposes delays required for the positioning of magnetic media and heads, with the delays differing depending on the actual technology.[6]

An illustration of the write amplification phenomenon in flash-based storage devices

Over time, the performance gap between the central processing units (CPUs) and electromechanical storage (hard disk drives and their RAID setups) widened, requiring advancements in the secondary storage technology.[7] A solution was found in flash memory, which is an electronic non-volatile computer storage media that can be electrically erased and reprogrammed. Solid-state storage typically uses the NAND type of flash memory, which may be written and read in chunks much smaller than the entire size of the storage device. The size of a minimal chunk (page) for read operations is much smaller than the minimal chunk size (block) for write/erase operations, resulting in an undesirable phenomenon called write amplification that limits the random write performance and write endurance of flash-based solid-state storage devices. Another type of solid-state storage devices uses volatile random-access memory (RAM) combined with a battery that allows the contents of RAM to be preserved for a limited amount of time after the device's power supply is interrupted. As an advantage, RAM-based solid-state storage is much faster compared to flash, and does not experience write amplification.[3][8][9]

As a result of having no moving mechanical parts, solid-state storage virtually eliminates the data access latencies present in electromechanical storage devices, and allows significantly higher rates of I/O operations per second (IOPS). Additionally, solid-state storage allows much faster sequential access to stored data, consumes less power, has better physical shock resistance, and produces less heat and no vibrations during operation. As a downside, solid-state storage devices have much higher per-megabyte prices than electromechanical storage devices, and generally come in significantly smaller per-device capacities. Moreover, flash-based devices experience the memory wear that reduces their service life by imposing a limited amount of data that may be written to them, resulting from the limitations of flash memory that impose a finite number of program–erase cycles used to write data. As a result, solid-state storage is frequently used for the creation of hybrid drives, in which solid-state storage serves as a cache for frequently accessed data instead of being a complete substitute for the traditional secondary storage.[4][5][10]

Device types

An SSD, in form of a 2.5-inch bay device that uses Serial ATA (SATA) interface
Internals of an SD card, showing the flash memory and controller integrated circuits

Solid-state storage devices serve as secondary storage components for more complex systems, which may range from embedded and portable devices to large servers and dedicated network-attached storage (NAS) systems. As a result, solid-state storage devices exist in different capacities, physical layouts and dimensions, using various interfaces and providing different feature sets.[4] Less complex solid-state storage devices such as memory cards use simpler, slower interfaces such as the one-bit SD interface or SPI, while more sophisticated high-performance devices use faster interfaces such as Serial ATA (SATA) or PCI Express (PCIe) paired with logical device interfaces such as AHCI or NVM Express (NVMe).[11][12]

Types of flash-based solid-state storage devices include the following:[2][13]

  • MultiMediaCard (MMC)  a memory card type used in portable devices
  • Secure Digital (SD)  a memory card type available in different variants, speeds and sizes, used extensively in portable devices
  • Solid-state drive (SSD)  a computer storage device available in various form factors, with different interfaces, and in various classes targeting different market segments
  • USB flash drive  pocketable removable storage devices that interface through USB, available in various shapes and sizes

See also

  • Drum memory  a magnetic data storage device used as the main working memory in many early computers
  • i-RAM  a DRAM-based solid-state storage device produced by Gigabyte, operating as a SATA hard disk drive
  • Magnetic storage  the concept of storing data on a magnetised medium using different patterns of magnetisation
  • RAM drive  a block of random-access memory that the operating system treats as if it were secondary storage
  • Sequential access memory  a class of data storage devices that read stored data in a sequence
  • Wear leveling  a technique for prolonging the service life of some kinds of erasable computer storage media, such as flash memory

References

  1. "What is Solid-State Storage (SSS)?". techopedia.com. Retrieved July 11, 2015.
  2. "Backing Storage: Optical and Solid State". jhigh.co.uk. August 30, 2011. Retrieved July 11, 2015.
  3. Margaret Rouse; Brien Posey. "Solid-state storage definition". techtarget.com. Retrieved July 11, 2015.
  4. Michael Singer (January 7, 2013). "Solid State Storage Is Taking Over The Datacenter – Slowly". readwrite.com. Retrieved July 11, 2015.
  5. Jonathan Corbet (October 4, 2010). "Solid-state storage devices and the block layer". LWN.net. Retrieved July 11, 2015.
  6. "Red Hat Enterprise Linux 3: Introduction to System Administration, Chapter 5. Managing Storage". Red Hat. November 2, 2013. Archived from the original on 2016-03-21. Retrieved July 11, 2015.
  7. "Accelerating Financial Applications Using Solid State Storage" (PDF). LSI Corporation. November 2011. pp. 1–2. Retrieved July 11, 2015.
  8. Chris Evans (November 2014). "Flash storage 101: How solid state storage works". computerweekly.com. Retrieved July 11, 2015.
  9. Xiao-yu Hu; Evangelos Eleftheriou; Robert Haas; Ilias Iliadis; Roman Pletka (2009). "Write Amplification Analysis in Flash-Based Solid State Drives". ACM. CiteSeerX 10.1.1.154.8668. Cite journal requires |journal= (help)
  10. Joel Santo Domingo (February 17, 2015). "SSD vs. HDD: What's the Difference?". pcmag.com. Retrieved July 11, 2015.
  11. Chris Hoffman (September 19, 2014). "eMMC vs. SSD: Not All Solid-State Storage is Equal". howtogeek.com. Retrieved July 11, 2015.
  12. "PCIe SSD: What it is and how you can use it". computerweekly.com. June 2010. Retrieved July 11, 2015.
  13. "Solid-State Storage Devices". igcseict.info. April 25, 2015. Retrieved July 11, 2015.
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