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OPTIMIZINGPRIMARY STORAGE
WHITE PAPER FILE ARCHIVING SOLUTIONS FROM QSTAR AND CLOUDIAN
CONTENTS
EXECUTIVE SUMMARY 1
The Challenges of Data Growth 1
SOLUTION OVERVIEW 3
SOLUTION COMPONENTS 4
Cloudian HyperStore® Software 4
QStar Archiving Software 4
TECHNICAL DETAILS 5
Setting Archiving Policies 6
How much data can be reclaimed? 7
CONCLUSION 8
EXECUTIVE SUMMARY
Deployed together, QStar and Cloudian provide a robust file archive solution that allows organizations to easily migrate static data from primary storage systems such as NetApp filers, onto a cost efficient, highly scalable, object-based storage platform running Cloudian HyperStore® software. The components that make up this solution include the following:
• QStar Archive Manager: Acts as a local cache into backend Cloudian object store. A CIFS or NFSgateway is presented out and used as a target for QStar Network Migrator. Archiving to objectstorage happens automatically when certain thresholds and conditions are met (i.e. Cache reaches80% capacity).
• QStar Network Migrator: This component is responsible for the actual data movement fromprimary storage to the archive point and subsequently the Cloudian HyperStore platform. NetworkMigrator is also responsible for file stubbing and supports NetApp filers using FPolicy (CIFS).
• Cloudian HyperStore: A feature rich and highly scalable software-defined, object based storageplatform that is 100 percent S3 compatible. In this architecture, Cloudian acts as the centralrepository for all archive data. Cloudian is a scale out, geo cluster solution that supports variousfeatures and technologies including replication, erasure coding, multi-tenancy and QoS, as well asthe ability to tier-out into any other S3 compatible platform such as Amazon S3, Amazon Glacier oranother Cloudian system.
THE CHALLENGES OF DATA GROWTH
In an ever-evolving landscape, storage administrators and IT departments are often challenged with increasing demands for additional storage capacity to introduce new services, drive productivity, streamline business processes and accommodate the ‘natural growth’ of data. In addition to maintaining service levels for current platforms they are often expected to accommodate these requests while also reducing cost.
This can prove challenging with traditional NAS and SAN storage systems due to architectural limitations of scalability and performance, as well increased operational and support costs as systems fill up with data and reach the end of their expected duty cycles. Many frame-based storage arrays can only support a set number of drives before customers are forced to buy larger controllers, or ‘rip and replace’ entire systems also known as forklift upgrades. These upgrades are typically costly, can be disruptive and also have to be repeated periodically as older systems are phased out by storage vendors.
Traditional approaches to data storage and management are changing with utility compute models now becoming mainstream and many organization’s looking to cloud and SaaS based solutions to reduce primary storage spend and facilitate the introduction of new services.
The traditional NAS and SAN foothold on IT storage is in decline and sales are being disrupted by customers who now opt for flash based (hybrid type) systems to deliver high performance at reasonably low cost for Tier 1 data sets and applications. In addition to SSD caching, other technologies such as compression and deduplication are often integrated within these new systems and as such, the traditional storage vendors of old with their monolithic offerings are struggling to compete. This decline is also influenced by the fact that although transactional data sets are growing year on year, these workloads are the slowest moving trend of predicted data growth in the coming years.
At the other end of the spectrum, where performance is less important, cloud based services are now becoming the de-facto standard to deliver high capacity storage repositories and data archives. Many of these services can be consumed in the public cloud (e.g. Amazon S3) or privately, on site, behind the customer’s firewall (e.g. Cloudian HyperStore). Whether an organization chooses to deploy cloud services privately, or use a public cloud service, or a combination of the two, is often a matter for internal politics and debate but major software vendors are increasingly adopting these standards. For example, the S3 ecosystem has over 500 independent software vendors who now support the S3 standard, and this trend is set to rise. Unlike the transactional data sets described above, unstructured data sets are growing at an exponential rate.
Gartner, IDC and almost all other analysts suggest that the rise of unstructured data will account for up-to 80% of all data created in the next decade. There are multiple drivers for this extreme growth including a massive increase in the amount of ‘human data’ that is being generated. This in itself isbeing driven by various market trends and technologies, including the consumerization of IT, an influx of mobility solutions, social platforms, online media, file sync and share tools and so on. Other major contributors to this growth include increasing amounts of ‘Interaction’ and ‘Log generated’ data, not to mention large data sets created by ‘Big Data’ & ‘Analytics’ as well as other machine-generated data from the ‘Internet of Things’. (Figure 1)
With the exception of certain workloads, this unstructured data typically does not have the same performance characteristics of traditional Tier 1 data and can therefore reside in a more cost-effective storage medium such as, Cloudian HyperStore, a highly scalable object storage platform.
Figure 1 - Growth Trends
Mainframe PC
Transactional Data
Human Files
Interactions
DATAVOLUME
2015
202035 Zettabytes of Data in 2020!
DATA GROWTH - INDUSTRY DRIVERS
MachineGenerated
Data
Internet Mobile Machine
Zettabyte
Exabyte
Petabyte
Terabyte
Transactional data has minimal growth
Very often organization’s will introduce new, capacity hungry services and applications using local primary storage systems, especially if these systems have been over provisioned and capacity is available. This can present challenges for IT and storage admins as capacity is quickly consumed, creating ‘bloated’ storage arrays that contain mostly aged, static and dormant data sets.
As a result, management of these platforms becomes more complex and challenging, support costs skyrocket, performance suffers and problems arise when Tier 1 applications require additional space, which has been consumed by data considered less business critical. Adding additional capacity to these systems is only a short-term fix and forklift upgrades will only take you so far before you need to repeat and restart the process all over again.
This is where QStar and Cloudian can provide a solution.
SOLUTION OVERVIEW
Used together, QStar and Cloudian provide a robust mechanism for organizations to easily identify and migrate static data sets from existing primary storage systems to a highly scalable, feature rich object based storage platform. Using this approach, customers can migrate data to the appropriate storage tier based on user defined polices such as file type, file modification time or file size. Once data has been migrated to Cloudian, QStar then creates a stub file to the data and users & applications continue to access the data transparently in the normal way.
SOLUTION BENEFITS:
• Lower storage total-cost-of-ownership (TCO)
• Extend the lifecycle of Tier 1 storage systems (NetApp, HDS HNAS, IBM GPFS, Windows, Linux, Mac, UNIX)
• Cap primary storage
• Reduce backup times
• Improve data governance
• Improve performance of Tier 1 systems (NetApp specifically)
• Achieve better storage efficiency by storing data in the appropriate tier based on performance characteristics
Take advantage of a rich S3 ecosystem, use cases include the following:
• Backup and Archive
• EFSS & File Collaboration services
• Web Content Storage
• Big Data Analytics
• Storage as a Service
• Hybrid Cloud with AWS
And many more...
SOLUTION COMPONENTS
CLOUDIAN HYPERSTORE® SOFTWARE
Cloudian HyperStore software delivers a fully S3 API compliant, multi-tenant, and multi-datacenter
hybrid cloud storage solution. Cloud service providers use Cloudian HyperStore software to deploy
public clouds and managed private clouds. Enterprises use Cloudian HyperStore software to deploy
private and hybrid clouds.
TENANT BTENANT A TENANT C
HyperStore: Software Defined Storage
300TB100TB
Heterogeneous Node
Industry Standard x86 Servers Scale Out Durable Simple to Use
Figure 2 - Cloudian HyperStore Software
Cloudian HyperStore software employs a fully distributed and replicated peer-to-peer architecture
with no single point of failure. It easily scales horizontally using industry standard x86 hardware
so deployments can start with a few servers in a single datacenter and then scale out as usage
increases to thousands of servers distributed across multiple datacenters managing hundreds of
petabytes of data. Its distributed architecture with automatic replication and recovery services makes
it highly resilient to network and node failures without data loss. Similarly, when scaling the storage
cluster or performing maintenance, changes in node availability are automatically detected without
service interruption.
Features like hybrid cloud streaming, virtual nodes, configurable erasure coding, data compression,
and encryption provide highly efficient storage and data management that lets users store and
access their data where they want it, when they want it.
QSTAR ARCHIVING SOFTWARE
QStar offers performance and cost flexibility with unlimited scalability. QStar Active Manager
Software can be easily integrated with an organization’s network environment and can be installed
on physical or virtual servers using Windows or Linux operating systems. It integrates seamlessly
with popular digital asset management and media asset management systems, providing simple
access to Cloudian HyperStore, without API support.
QStar’s Archive Manager Software creates an Active Archive gateway for Cloudian HyperStore to
provide a quick and easy method of archiving any file-based archive content. The software presents
the archive as a network share or mount point. Using standard network protocols such as CIFS
or NFS, creative users, editors and administrators can easily store, search and retrieve data within
the archive. In addition, completed digital content from production, post-production, mastering,
transcoding or distribution can be archived, freeing up capacity on primary storage for new content.
QStar software then uses the Cloudian S3 API to move content across the LAN or WAN into the
Cloudian HyperStore object-based storage solution – all while being transparent to applications.
QStar software allows retention periods to be set, converting data into a secure read-only format for
a set period of time. Data can be automatically removed at the end of this period, allowing the re-
use of this capacity for new content. Multiple retention periods can be created to support different
data sets to meet varying business needs. Additionally, QStar can independently replicate data to
multiple sites and to other archive technologies, such as LTFS tape for example.
For digital content already stored on SAN or NAS primary disk systems, organizations can create
policies using QStar Network Migrator software, which automatically migrates content to QStar
Archive Manager, and then to the Cloudian HyperStore object-based dispersed storage system.
TECHNICAL DETAILS
QStar software easily integrates within an organization’s network environment and can be installed
on physical or virtual servers using Windows or Linux operating systems. QStar Archive Manager
creates an “Active Archive gateway” for Cloudian HyperStore to provide a quick and easy method of
archiving any file-based archive content. The software presents the archive as a network share or
local mount point. Using standard network protocols such as CIFS or NFS, users, applications and
administrators can easily store, search and retrieve data within the archive.
The ASM server, or server cluster is responsible for data archiving from the local cache to the
Cloudian backend storage platform. High and low capacity thresholds can be configured to govern
when actual data archiving to the object store happens, and it is the ASM server (or cluster) that is
responsible for maintaining all indexes and catalogues pertaining to media management and the
QStar Structured Storage Device (QSSD), which in this case is the Cloudian HyperStore storage
platform.
Aged and unstructured primary storage data sets can be easily archived, freeing up capacity for
new content. The software then uses the Cloudian S3 API to move content across the LAN or WAN
into the Cloudian HyperStore object-based storage solution all completely transparent to users and
applications.
HIGH AVAILABILITYPhysical or Virtual Windows or Linux
HETEROGENEOUS NODESCOMMODITY X86 HARDWARE
S3
REPLICATION(RF=1,2,3,4)
ERASURE CODING(N+1,2,3,4)
COMPRESSION(ZLIB, LZ4)
HYPERSTORE: SOFTWARE DEFINED STORAGE
Figure 3 - ASM Solution Overview
The introduction of a secondary storage platform can help to reduce the overall total cost of
ownership (TCO) for storage as well as future proof storage investments. By taking advantage of
Cloudian object storage and QStar software, customers can easily move data into the appropriate
storage platform, based on custom defined criteria automatically and do this completely
transparently. Traditional approaches to data storage are inefficient; RAID overhead, replication, over
provisioning of volumes all lead to very poor storage utilization rates, object storage overcomes
these challenges and provides a robust scalable platform for the future.
SETTING ARCHIVING POLICIES
In order to migrate data already stored on SAN or NAS primary disk systems, organizations can
create policies using QStar Network Migrator software, which automatically migrates content to the
QStar Archive Manager access point, and then ultimately to the Cloudian object-based dispersed
storage system when the cache reaches configurable thresholds.
Using the Network Migrator component, administrators are able to define specific polices for data
movement based on standard file metadata. These polices can be custom tuned and are based on
various parameters including file type, file age, last access time, size and many more. Once a policy
has been defined and is executed, QStar will copy, move or migrate the data to the Cloudian
HyperStore cluster via the ‘Archive Manager Software’ (ASM) solution, which provides a CIFS/NFS
gateway with S3 support into Cloudian.
Once data has been migrated to the object store, QStar will leave a stub file on the file system. This
stub file, or reparse point, is used to call the data from the S3 object store. When a user or
application attempts to open the file, the object is pulled from the Cloudian backend storage
repository or if the file has already been retrieved, from the cache. An example stub file is shown
below, in Figure 4.
Figure 4 - Stub File Properties
As the QStar Network Migrator policy server is not in the data path, it is therefore not a single
point of failure. Operations will continue even if this server is offline. All information pertaining to
the location of the file is held within the stub file. A SQL database is maintained on the Network
Migrator server which provides reports on files moved and helps with simulating policies to view
their effectiveness before being applied. The database also allows QStar to recreate the stubs on the
primary storage if accidentally deleted.
HOW MUCH DATA CAN BE RECLAIMED?
As well as actually being able to copy, move or migrate data from primary to secondary storage
systems, QStar’s Network Migrator product also has another useful feature in terms of its ‘Storage
Reporter’ capabilities. This tool (which can be run for free and does not require installation on
primary systems or shares) can be easy used to determine how much data would be archived to the
secondary system based on user defined characteristics. This gives organizations the ability to easily
identify how much capacity can be reclaimed without impact to services. Depending on the data
type and use case, up to 80% of inactive file data can be migrated to Cloudian via QStar software.
Figure 5 - Storage Reporter Output
CONCLUSION
Deployed together, QStar and Cloudian can be used to help to extend the life of existing
primary storage systems by optimizing storage placement of file data based on the performance
characteristics of the data itself. Once the data has been moved to the appropriate platform,
administrators should see capacity and performance gains on their primary storage systems. For
example, with NetApp, ‘WAFL’ file system performance significantly degrades over time as system
capacity increases with data and snapshots. Figure 6. More information can be found in this post
http://wikibon.org/wiki/v/WAFL_Performance
Figure 6 - NetApp - WAFL Performance Degradation on Loaded Systems
100.00
90.00
80.00
70.00
60.00
50.00
40.00
30.00
20.00
10.00
0.00
WAFL Random IPOS Efficiency
WAFL Random IPOS Efficiency
WAFL Random IPOS Efficiency
100.086.072.058.0RAID-10Capacity
44.030.01600.0
£800,000.00
£700,000.00
£600,000.00
£500,000.00
£400,000.00
£300,000.00
£200,000.00
£100,000.00
£0.00
Initial Year 1 Year 2 Year 3 Year 4 Year 5
COST PER USABLE TERABYTE
NetApp
Cloudian
The introduction of a secondary storage platform can help to reduce the overall total cost of
ownership (TCO) for storage as well as future proof storage investments. By taking advantage of
Cloudian object storage and QStar software, customers can easily move data into the appropriate
storage platform, based on custom defined criteria automatically and do this completely
transparently. Traditional approaches to data storage are inefficient; RAID overhead, replication, over
provisioning of volumes all lead to very poor storage utilization rates, object storage overcomes
these challenges and provides a robust scalable platform for the future.
Get started today and receive 10TB for free with our Community Edition:
http://www.cloudian.com/free-trial/
By moving inactive data sets to Cloudian and freeing up capacity performance and response times
will improve for Tier 1 applications and workloads.
Figure 7 highlights the delta between primary and secondary storage system costs over time,
although to calculate costs for your own environment a TCO calculator can be located here. For
accurate QStar and HyperStore costs, please work with your local Cloudian sales reps.
Click the paper clip icon to launch the TCO Calculator
Data Entry
Input
Results
Cost per TB
Storage Acquisition TCO Comparison
Instructions and Background
Please fill in the tables below with your own data:
1. Populate the white cells with your organization's own data.
Cells colored tan are automatically populated based on the numbers you enter.
2. Blank rows in the table give you room to enter other costs, if applicable.
3. To see a graphical representation of cumulative costs, navigate to the Results - Data Entry tab.
Assumptions:NetApp: Assuming 50% usable to Raw numbers based on RAID overhead, WAFL, Snapshots, Replication etc. For environments with heavy replication this value will need to be further reduced. Cloudian: Assuming 80% storage efficiency through the use of Erasure Coding. For environments where multiple replicas are required, this value will need to be adjusted
Currency for cost estimations:
NetApp
CostsInitial Investment (CapEx)Year 1Year 2Year 3Year 4Year 5Total Life-Cycle Costs
Hardware Costs
E2760 DC w. 4GB, 60 x 4TB, 4 x 16Gb FC/10Gb ISCSI ports (SFP+)$ 65,000.00$ 65,000.00
DE6600 expansion shelf 60 x 4TB NL-SAS$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00$ 607,500.00
E2724 w. DC 8GB, 12 x 900GB, 6 x 400GB SSD, 8 x 16Gb FC/10Gb ISCSI ports (SFP+) $32787$ 33,000.00$ 33,000.00
$ - 0
$ - 0
$ - 0
Subtotal Hardware Costs$ 98,000.00$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00$ 705,500.00
System Software and Integration Costs
Integration and Installation Services$ - 0
$ - 0
$ - 0
Subtotal System Software and Integration Costs$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0
Support & Facilities Costs
Projected support costs $ 20,000.00$ 30,000.00$ 40,000.00$ 50,000.00$ 100,000.00$ 150,000.00$ 390,000.00
Projected facilities costs added to existing loads (power and cooling)$ - 0
$ - 0
Subtotal Support & Facilities Costs$ 20,000.00$ 30,000.00$ 40,000.00$ 50,000.00$ 100,000.00$ 150,000.00$ 390,000.00
Other Costs
Supoort$ 1.00$ 100.00$ 1,000.00$ 10,000.00$ 11,101.00
Cost 2$ - 0
Cost 3$ - 0
Cost 4$ - 0
Cost 5$ - 0
$ - 0
Subtotal Other Costs$ - 0$ - 0$ 1.00$ 100.00$ 1,000.00$ 10,000.00$ 11,101.00
Quantity Information
Raw Storage Capacity (in Terabytes)$ 253.00$ 240.00$ 240.00$ 240.00$ 240.00$ 240.00
Usable Storage Capacity (in Terabytes)$ 126.50$ 120.00$ 120.00$ 120.00$ 120.00$ 120.00
Usability Rate50.00%50.00%50.00%50.00%50.00%50.00%
TOTAL COSTS$ 118,000.00$ 151,500.00$ 161,501.00$ 171,600.00$ 222,500.00$ 281,500.00$ 1,106,601.00
Cloudian
CostsInitial Investment (CapEx)Year 1Year 2Year 3Year 4Year 5Total Life-Cycle Costs
Hardware Costs
HSA2048 x3 using street price $18830$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 339,000.00
(enter chassis if required)$ - 0
$ - 0
$ - 0
$ - 0
Subtotal Hardware Costs$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 56,500.00$ 339,000.00
System Software and Integration Costs
Integration and Installation Services$ - 0
$ - 0
$ - 0
Subtotal System Software and Integration Costs$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0
Support & Facilities Costs
Support Costs$ 5,000.00$ 10,000.00$ 15,000.00$ 20,000.00$ 25,000.00$ 30,000.00$ 105,000.00
Projected facilities costs added to existing loads (power and cooling)$ - 0
$ - 0
Subtotal Support & Facilities Costs$ 5,000.00$ 10,000.00$ 15,000.00$ 20,000.00$ 25,000.00$ 30,000.00$ 105,000.00
Other Costs
Cost 1$ - 0
Cost 2$ - 0
Cost 3$ - 0
Cost 4$ - 0
Cost 5$ - 0
$ - 0
Subtotal Other Costs$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0$ - 0
Quantity Information
Raw Storage Capacity (in Terabytes)$ 144.00$ 144.00$ 144.00$ 144.00$ 144.00$ 144.00
Usable Storage Capacity (in Terabytes)$ 115.00$ 115.00$ 115.00$ 115.00$ 115.00$ 115.00
Usability Rate79.86%79.86%79.86%79.86%79.86%79.86%
TOTAL COSTS$ 61,500.00$ 66,500.00$ 71,500.00$ 76,500.00$ 81,500.00$ 86,500.00$ 444,000.00
Results - Data Entry
Input
Results
Cost per TB
Cumulative Costs: TCO Calculation
Cummulative costs
Initial InvestmentYear 1Year 2Year 3Year 4Year 5
NetApp$ 118,000.00$ 269,500.00$ 431,001.00$ 602,601.00$ 825,101.00$ 1,106,601.00
Cloudian$ 61,500.00$ 128,000.00$ 199,500.00$ 276,000.00$ 357,500.00$ 444,000.00
Cumulitive Costs
NetApp Initial InvestmentYear 1Year 2Year 3Year 4Year 51180002695004310016026018251011106601 Cloudian Initial InvestmentYear 1Year 2Year 3Year 4Year 561500128000199500276000357500444000
Time
Cumulative Cost
Cost per TB - Data Entry
Data Entry
Input
Results
Cost per TB
Cost per Usable TB TCO Comparison
Raw CapacityUsable CapacityUsability Rate
NetApp1453.00726.5050.00%NetApp Year 1Year 2Year3 Year4Year 5Year 6
InitialYear 1Year 2Year 3Year 4Year 5Spend$ 98,000.00$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00$ 121,500.00
Cost/Usable TB$ 118,000.00$ 269,500.00$ 431,001.00$ 602,601.00$ 825,101.00$ 1,106,601.00Cumulative spend$ 118,000.00$ 269,500.00$ 431,001.00$ 602,601.00$ 825,101.00$ 1,106,601.00
Usable Tib$ 126.50$ 246.50$ 366.50$ 486.50$ 606.50$ 726.50
Raw CapacityUsable CapacityUsability Rate
Cloudian864.00690.0079.86%
Cloudian
InitialYear 1Year 2Year 3Year 4Year 5
Cost/Usable TB$ 61,500.00$ 128,000.00$ 199,500.00$ 276,000.00$ 357,500.00$ 444,000.00Spend$ 61,500.00$ 66,500.00$ 71,500.00$ 76,500.00$ 81,500.00$ 86,500.00
Cumulative spend$ 61,500.00$ 128,000.00$ 199,500.00$ 276,000.00$ 357,500.00$ 444,000.00
Usable Tib$ 115.00$ 230.00$ 345.00$ 460.00$ 575.00$ 690.00
Net App
Cost Per TB$ 932.81$ 1,093.31$ 1,175.99$ 1,238.65$ 1,360.43$ 1,523.19
NetApp Cost Per GB$ 0.91$ 1.07$ 1.15$ 1.21$ 1.33$ 1.49
NetApp GB per month$ 0.08$ 0.09$ 0.10$ 0.10$ 0.11$ 0.12
Cloudian
Cost Per TB $ 534.78$ 556.52$ 578.26$ 600.00$ 621.74$ 643.48
Cloudian Cost Per GB $ 0.52$ 0.54$ 0.56$ 0.59$ 0.61$ 0.63
Cloudian GB per month$ 0.04$ 0.05$ 0.05$ 0.05$ 0.05$ 0.05
Cost per Usable Terabyte
NetApp InitialYear 1Year 2Year 3Year 4Year 51180002695004310016026018251011106601 Cloudian InitialYear 1Year 2Year 3Year 4Year 561500128000199500276000357500444000
NetApp Cost Per GB0.910943675889328011.06768192190669381.14842950630968631.20961467433196291.32854525195795551.4874948920337234Cloudian Cost Per GB 0.522248641304347780.543478260869565190.564707880434782590.58593750.607167119565217410.62839673913043481
tnguyenFile AttachmentNetApp Cloudian TCO-Comparison-Tool 1.5 dollars.xlsx
ABOUT QSTAR
QStar’s archive philosophy is reflected in the architecture of our software. Designed to be
operating system and storage hardware independent, QStar customers are not locked into vendor
specific server and storage hardware. In addition they have the choice of using QStar’s optimized
proprietary file system (TDO) or industry standard files systems, such as LTFS for tape, or UDF for
optical. The modular platform supports incremental capacity expansion from terabytes to petabytes,
and offers advanced features such as replication and real-time mirroring. This unique approach gives
QStar customers a long-term data archive strategy with the agility they need to evolve in changing
market and financial conditions.
ABOUT CLOUDIAN
Cloudian is a Silicon Valley-based software company specializing in enterprise-grade storage. Its
flagship product, Cloudian HyperStore®, is an S3-compatible storage platform that enables service
providers and enterprises to build reliable, affordable and scalable hybrid cloud storage solutions.
Follow us on Twitter @CloudianStorage
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Cloudian, Inc. | 177 Bovet Road, Suite 450 | San Mateo, CA 94402Tel: 1.650.227.2380 | Email: [email protected] | www.cloudian.com
©2015 Cloudian, Inc. Cloudian, the Cloudian logo, and HyperStore are registered trademarks or trademarks of Cloudian, Inc. All other trademarks are property of their respective holders.
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