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For ultra-reliable storage in even the most
harsh environments, Sun offers telecom storage arrays that
can stand up to extremes in temperature, humidity, shock,
corrosive gases and airborne particulates. As complements
to its carrier-grade servers, these telecom storage arrays
ensure reliable storage and retrieval.
A carrier-grade version of the Sun StorEdge
A1000/D1000 storage systems, the Netra st A1000/D1000 storage
arrays have proven themselves capable of operating in telecom
central office environments. Offering rack-optimized storage
solution is the new Rackable Thin Storage Netra st D130 that
provides up to 54GB in a 1U rack mount form factor. It comes
with hot-swap high performance disks, powered by either AC
or -48VDC in a ruggedized enclosure that can operate in harsh
environments. The D130 connects directly to on-board SCSI
port that comes standard on most Sun servers for easy setup.
Software is available to provide remote status monitoring.
Telecommunications is about providing access
to information -- information on a Web page, in an e-mail,
in a fax or in a phone call. That information is data that
has to be stored, accessed and managed. But as the number
of ways to access data grows, so does the amount of data itself.
The explosion of the Internet has caused a parallel explosion
in the amount of data on telecommunications networks.
Designed for telecom and Internet applications,
the Netra st A1000 and D1000 and Netra st D130 carrier-grade
storage systems feature hot-swap components that enable fast
and easy service and redeployment while the system remains
online. This makes the Netra st A1000/D1000 and Netra st D130
perfect for NEP and ISP OEMs requiring rack-mount high storage
density storage with -48VDC or AC power, Central Office /
Points of Presence ruggedization, and Telcordia NEBS certification.
That means the Netra st A1000/D1000 and D130
carrier-grade storage have proven themselves capable of reliable
operation in environments subject to wide temperature and
humidity variations, earthquakes, corrosive atmospherics,
and airborne particulates. These are the kinds of physical
factors that are normally devastating to a precision electromechanical
system, such as a high-speed, high-density disk subsystem.
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