Boston Limited Announces the Launch of its Next-Generation SuperFlex Blade(TM)

By Boston Ltd, PRNE
Sunday, November 14, 2010

NEW ORLEANS, Louisiana and ST ALBANS, England, November 15, 2010 - Boston Limited, now in its 18th year as a distribution partner for
Silicon Valley-based Super Micro Computer, Inc. (NASDAQ: SMCI), today has
formally announced the launch of their next generation of blade server
solutions, the groundbreaking new Boston SuperFlex Blade(TM).

Designed in partnership with Supermicro, the SuperFlex Blade(TM) brings
to the industry a new dimension of energy efficient hybrid parallel compute
processing power for technical and enterprise computing. SuperFlex Blade(TM)
platforms have been optimised to offer a new dimension in flexibility for
Blade Servers by providing 2 x PCI-Express x 16 expansion slots per blade
with support for dual full-length and double-height expansion cards.

"Building off the success of the 1U GPU Superserver, the new SuperFlex
Blade delivers high density GPU computing in a highly flexible and scalable
solution," said Sumit Gupta, Manager of Tesla products at NVIDIA. "Through
our collaboration with Boston and Supermicro, this solution takes full
advantage of the massive computational power of Tesla GPUs and provides
exceptional performance across a wide range of demanding applications."

Optimised for hybrid computing, the SuperFlex Blade(TM) is suitable for
the most demanding applications requiring high-speed and high-density
processing with maximized GPU and CPU compute performance. High performance
networking has also been optimised with two independent, high-bandwidth,
low-latency onboard QDR InfiniBand controllers standard to ensure that this
platform is suitable for today's most resource-hungry computing challenges.

"The Boston SuperFlex Blade has been jointly developed with Supermicro to
solve the key scalability and usability challenges that face customers in
high performance computing (HPC) environments. Using the standard Supermicro
10-bay blade enclosure, it offers unparalleled compute density when equipped
with two double-width GPU accelerators," says Manoj Nayee, Managing Director
of Boston Limited.

Designed to meet the most demanding applications computing challenges,
the SuperFlex Blade(TM) provides phenomenal levels of hybrid computational
power by combining the latest technologies made available by Intel Xeon 5600
processors in conjunction with the latest generation of NVIDIA(R) Tesla(TM)
2050 and 2070 GPU compute processors for maximum computational performance.

"This new GPU-optimized blade design offers a much higher level of
computing performance, density and performance-per-watt," said Wally Liaw,
Vice President of Sales-International at Supermicro. "By supporting up to
twenty GPU cards in one 7U blade enclosure, this solution easily delivers the
highest GPU density available today in a blade form factor."

About Boston Limited

Founded in 1992 Boston Limited is uniquely placed with nearly 20 years of
experience in the design, build, and test of high performance solutions to
meet clients' exact needs, possessing the unique ability to ascertain the
detailed requirements and then create a fully bespoke platform based on
Supermicro hardware with customer branding, documentation and packaging. In
addition to the technical expertise, Boston is able to offer global on-site
warranty and a range of financial solutions including leasing. Boston has key
offices in the UK, Germany and India.

About Super Micro Computer, Inc. (NASDQ: SMCI)

Supermicro, established in 1993, emphasizes superior product design to
produce class-leading motherboards, chassis and server systems.


For further details visit or e-mail

To have Boston products featured within any news and review articles or
for any review sample requests please contact Neil Kalsi.

Tel: +44(0)1727-876-100 or email

For further details visit or e-mail sales at; To have Boston products featured within any news and review articles or for any review sample requests please contact Neil Kalsi. Tel: +44(0)1727-876-100 or email neil.kalsi at

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