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Data Storage Industry: Global Trends, Developments and Opportunities(September 11, 2011)
Singapore (PRWEB UK) 11 September 2011
The data storage industry is currently growing at a healthy rate. The holiday pictures that you now put on a CD-ROM (650 megabyte large) would have filled about 450 floppy discs. Even the data stored on CD-ROM is miniscule in comparison to that of a DVD (4.7 gigabyte large or 7 CD-ROMs) and that does not even begin to compare with todays average hard drives, which are easily 500 GB or even 1000 GB (1 terabyte or over 200 DVDs).
The amount of data created by individuals, businesses and research institutes (especially institutes in the genomics sector) continues to increase exponentially due in part to the high penetration of mobile devices such as the iPhone and iPad into the general consumer market, causing the demand for data storage to become greater than ever before. As a result, hard disk drives (HDD) and solid-state storage media, such as flash memory USB devices and cards, are facing very high growth (figure 1). In fact, the demand is so high that there might be a shortage of Solid State Drives (SSD), which unlike HDD contain no moving parts and instead use flash memory and are therefore less susceptible to physical shock and vibration than HDD.
This data explosion coupled with the expansion of cloud computing are creating an exciting and financially vibrant environment. The industry observed two multinational information technology giants, Hewlett Packard (HP) and DELL, vying for the acquisition of a small start-up (3PAR), a virtualisation and storage optimisation expert for data centers with annual revenue of less than US$100M, with HP finally paying US$2.4B for it. Oracle has also recently hired the ex-CEO of HP and declared its intention to play a major role and compete in data storage arena.
Changing Landscape for Hard Disk Drives:
While HDDs are currently the undisputed choice for mass storage devices and their future volume growth practically guaranteed by high data storage demand, there are some challenges such as improved internet bandwidth and the demands of the mobile computer user, for example. Another problem is the inability of the HDD industry to deliver the required throughput required by improved processing power of central processing units (CPUs) and the difficulty of the industry to maintain efficiency in drive recording technology, known as areal density growth. Areal density is a measure of the amount of data (calculated in bits) that could be stored within a unit surface area (one square inch) of the hard disk media. The availability of improved and low cost bandwidth is threatening the existence of HDDs in portable electronic devices such as netbooks and tablets. Faster, lower power and more robust non-volatile memory (i.e. computer memory such as flash memory that can retain stored information even when not powered) is more suitable for low capacity mobile applications.
The proposed future HDD technologies, such as Heat Assisted Magnetic Recording (HAMR) and Bit-Patterned Media (BPM), require more development to ensure high yields at low cost. Their introduction is likely to be delayed for another 3 years. In the meantime, improvements in areal density continue to be made by shingle writing technology. Like tiles on a roof, shingle writing technique stores overlapping data and can therefore store a greater amount, although this does have a negative impact on performance as side effect.
Change drivers for enterprise storage data centers:
The future green data center and cloud computing requirements will drive change in the current enterprise data storage architecture, distributed caching, data file systems, data security, metadata, query data, etc. Take for example tiered storage, a type of storage technology which stores data based on performance needs and frequency of access. Instead of putting all data into a single high performance storage technology which is also high in cost, storage tiering enables an organization to place data that is in high demand and accessed frequently in high performance storage media. Data that is accessed less frequently are placed into lower cost storage technology with high capacity.
Tiered storage architecture will be developed in the near future with next generation non-volatile memories either replacing or co-existing with current SSD as Tier 0, and hybrid HDDs with its high performance and lower energy consumption will replace Tier 1 high revolutions per minute (RPM) enterprise drives. Tier 2 in the future will continue to be very large, cheap but the slowest amongst the tiers. This architectural change will address the energy issue in conjunction with keeping costs and overheads manageable. In addition, very high capacity 7200 RPM or slower drives with Serial Advanced Technology Attachment (SATA) and Serial Attached Small computer system interfaces (SAS) will provide the main high capacity storage.
The future of tape drives in the data storage system will also be challenged by HDDs. While NAND flash memory currently offers the right balance of cost and performance to penetrate the market, its endurance and error rates are inadequate. NAND flash memory faces competition from better forms of non-volatile solid-state memories such as Spin Torque Transfer Magnetic Random Access Memory (STT-MRAM) or Phase Change Random Access Memory (PCRAM).
These changes create tremendous opportunities, especially for the Singapore based Agency for Science, Technology and Research (A*STAR) and Data Storage Institute (DSI). DSI focuses on providing solutions to the industry on next generation storage technologies. As the current Executive Director of the Institute, I combine both my industry experience with academic research to help direct into three specific areas of research: Hard Disk Drives (HDD), Non Volatile Memories (NVM) and Data Center Technologies (DCT).
In HDD research, DSI is focusing efforts in extending current perpendicular magnetic recording technology, developing next generation technology such as heat assisted or energy assisted magnetic recording, shingle writing, hybrid drives and advanced integration of drives into the overall future of Data Storage Architecture. In the area of NVM, DSI is focusing its research efforts on STTMRAM and PCRAM. We are also trying to differentiate by working on scale integration issues of NVM, including controllers and signal processing. DSI also intends to work on an overall advanced Data Center technology that incorporates NVM, SSD, hybrid and high capacity drives in order to achieve better energy efficiency, cost and improved performance, further defining the data center of the future.
The research conducted by DSI using production grade equipment and state-of-the-art facilities, allow us to make a significant contribution to the worlds demands for data storage. This is very exciting indeed.
The Agency for Science, Technology and Research (A*STAR) is the lead agency for fostering world-class scientific research and talent for a vibrant knowledge-based and innovation-driven Singapore. A*STAR oversees 14 biomedical sciences and physical sciences and engineering research institutes, and six consortia & centres, located in Biopolis and Fusionopolis as well as their immediate vicinity.
About the Data Storage Institute (DSI)
The Data Storage Institute (DSI) is a member of the Agency for Science, Technology and Research (A*STAR). Established in 1992 as the Magnetics Technology Centre (MTC), it was renamed Data Storage Institute in 1996. The research institute's vision is to be a vital node in a global community of knowledge generation and innovation, nurturing research talents and capabilities for world-class R&D in next generation storage technologies.
Read the full story at http://www.prweb.com/releases/2011/9/prweb8783382.htm.