NEC HYDRAstor: Difference between revisions

NEC HYDRAstor
Stable release	HS8-5000 / 2016
Written in	C++
Platform	Cross-platform
Type	Backup and Archive
License	proprietary
Website	http://www.necam.com/hydrastor/

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Revision as of 18:59, 11 January 2017

NEC HYDRAstor is a disk-based grid storage system with data deduplication for backups and archiving, developed by NEC Corporation. A HYDRAstor storage system can be composed of multiple nodes, starting from one up to 100+ nodes. Each node contains standard hardware including disk drives, CPU, memory and network interfaces and is integrated with the HYDRAstor software into a single storage pool. HYDRAstor software incorporates multiple features of distributed storage systems: content-addressable storage, global data deduplication, variable block size, Rabin fingerprinting, erasure codes, data encryption and load balancing.

History

HYDRAstor project was started in 2002 by Cezary Dubnicki and Cristian Ungureanu in NEC Research in Princeton, NJ.^{[citation needed]} Prototype version was implemented and evaluated in 2004.^[1] After another 3 years of development, first version of HYDRAstor was brought to the market in US and Japan. Subsequent version with improved software and hardware were released in following years, with latest version, HS8-5000, providing 72TB raw storage per node, up to 11.88PB of raw capacity in its maximum configuration.Cite error: The <ref> tag has too many names (see the help page).

Main features

HYDRAstor can be scaled from single node to 165 nodes in a multi-rack grid appliance.Cite error: The <ref> tag has too many names (see the help page). Capacity and bandwidth can be scaled independently by using different types of nodes:

storage nodes – adding capacity
accelerator nodes – adding performance
hybrid nodes – adding both capacity and performance

HYDRAstor supports online expansion, with automatic data migration and with no application downtime.^[2] In standard configuration, HYDRAstor provides resiliency to up to 3 concurrent disk or node failures.^[3] Failures are automatically detected and data reconstruction is automatically performed, which means that if time between failures is enough to reconstruct data, system can withstand any number of them.^[2]

References

^ Cezary Dubnicki; Cristian Ungureanu; Wojciech Kilian. "FPN: a distributed hash table for commercial applications". IEEE. doi:10.1109/HPDC.2004.1323509. {{cite journal}}: Cite journal requires |journal= (help); Unknown parameter |conference= ignored (help)
^ ^a ^b Cezary Dubnicki; Leszek Gryz; Łukasz Heldt; Michał Kaczmarczyk; Wojciech Kilian; Przemysław Strzelczak; Jerzy Szczepkowski; Cristian Ungureanu; Michał Wełnicki (February 24–27, 2009). "HYDRAstor: a Scalable Secondary Storage". Proceedings 7th USENIX Conference on File and Storage Technologies. San Francisco, California: USENIX. Retrieved 2015-04-29. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)
^ "HYDRAstor - FAQ". NEC America. Retrieved 2015-04-29.

[HPDC04-1] Cezary Dubnicki; Cristian Ungureanu; Wojciech Kilian. "FPN: a distributed hash table for commercial applications". IEEE. doi:10.1109/HPDC.2004.1323509. {{cite journal}}: Cite journal requires |journal= (help); Unknown parameter |conference= ignored (help)

[fast09-2] Cezary Dubnicki; Leszek Gryz; Łukasz Heldt; Michał Kaczmarczyk; Wojciech Kilian; Przemysław Strzelczak; Jerzy Szczepkowski; Cristian Ungureanu; Michał Wełnicki (February 24–27, 2009). "HYDRAstor: a Scalable Secondary Storage". Proceedings 7th USENIX Conference on File and Storage Technologies. San Francisco, California: USENIX. Retrieved 2015-04-29. {{cite conference}}: Unknown parameter |booktitle= ignored (|book-title= suggested) (help)

[FAQ-3] "HYDRAstor - FAQ". NEC America. Retrieved 2015-04-29.

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  | doi = 10.1109/HPDC.2004.1323509
  | publisher = IEEE
-}}</ref> After another 3 years of development, first version of HYDRAstor was brought to the market in US and Japan. Subsequent version with improved software and hardware were released in following years, with latest version, HS8-5000, providing 72[[terabyte|TB]] raw storage per node, up to 11.88[[petabyte|PB]] of raw capacity in its maximum configuration.<ref name=HS8-4000>{{cite web | url = https://www.necam.com/Docs/?id=dcb67490-2973-443a-b81c-13c6600f4627 | title = HYDRAstor HS8-5000: Scale-out Global Dedupliaction Storage for Backup and Archive | publisher = NEC America | accessdate = 2017-01-11}}</ref>
+}}</ref> After another 3 years of development, first version of HYDRAstor was brought to the market in US and Japan. Subsequent version with improved software and hardware were released in following years, with latest version, HS8-5000, providing 72[[terabyte|TB]] raw storage per node, up to 11.88[[petabyte|PB]] of raw capacity in its maximum configuration.<ref name=HS8-5000 Datasheet>{{cite web | url = https://www.necam.com/Docs/?id=dcb67490-2973-443a-b81c-13c6600f4627 | title = HYDRAstor HS8-5000: Scale-out Global Dedupliaction Storage for Backup and Archive | publisher = NEC America | accessdate = 2017-01-11}}</ref>
 == Main features ==
-HYDRAstor can be scaled from single node to 165 nodes in a multi-[[19-inch rack|rack]] grid appliance.<ref name=HS8-5000/> Capacity and bandwidth can be scaled independently by using different types of nodes:
+HYDRAstor can be scaled from single node to 165 nodes in a multi-[[19-inch rack|rack]] grid appliance.<ref name=HS8-5000 Datasheet>{{cite web | url = https://www.necam.com/Docs/?id=dcb67490-2973-443a-b81c-13c6600f4627 | title = HYDRAstor HS8-5000: Scale-out Global Dedupliaction Storage for Backup and Archive | publisher = NEC America | accessdate = 2017-01-11}}</ref> Capacity and bandwidth can be scaled independently by using different types of nodes:
 * storage nodes – adding capacity
 * accelerator nodes – adding performance