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Pittsburg, PA - Oslo 01 July 2013

Pittsburgh Supercomputing Center, Numascale AS to Collaborate on Improved Memory Systems for Research

Pittsburgh Supercomputing Center (PSC), Pennsylvania’s only National Science Foundation high performance computing facility, and Numascale AS, whose products support the construction of low-cost, scalable-server computer systems, have launched a collaborative project investigating the applicability of Numascale systems to the many research projects requiring more directly addressable memory than is readily available on single, commodity, multi-socket, large memory servers.

 

“Rapid advancement in many scientific fields of data-dependent research will be facilitated by the availability of larger memory systems at near commodity prices,” says Michael J. Levine, scientific director, PSC. “Having large amounts of data in directly-addressable memory avoids very time-consuming disk input/output and allows a much more productive programming paradigm.”

 

The field of supercomputing is well known for engineering extreme processing speeds but increasingly, researchers’ calculations are limited not by the speed of processing but access to and efficient use of vast amounts of data. Application areas that require very large memories include natural language processing, multi-organism genomics and quantum chemistry.

 

“We see the collaboration with Pittsburgh Supercomputing Center as an important milestone for utilizing NumaConnect for a number of applications that have previously been limited by inferior memory capacity in standard servers,” says Einar Rustad, CTO and co-founder of Numascale. “The huge and scalable memory capacity in systems with NumaConnect allow users to operate in the familiar programming and runtime environment they are used to with workstations.”

 

This, Rustad explains, eliminates the need for explicit message passing and significantly reduces the overall time from idea to solution for a number of important applications in many scientific fields. “PSC's unique expertise will strengthen our focus on applications that are key to advances in major scientific fields and help us to widen the market for Numascale.”

 

The collaboration between PSC and Numascale seeks to leverage PSC’s unique and extensive experience with very large memory computing systems and Numascale’s NumaConnectTM memory technology to produce systems capable of handling such large data volumes without memory-retrieval lags. NumaConnect uses commodity servers as building blocks to provide memory capacities and retrieval speeds currently only available through high-end and enterprise-class systems. PSC’s application specialists will work with Numascale engineers and application programmers to find ways the two organizations’ experience and expertise can be combined synergistically.

 

About PSC: Pittsburgh Supercomputing Center (http://www.psc.edu) is a joint effort of Carnegie Mellon University and the University of Pittsburgh together with Westinghouse Electric Company. Established in 1986, PSC is supported by several federal agencies and private industry, and is a major partner in the National Science Foundation XSEDE program.

 

About Numascale AS: Numascale AS was founded in 2008 and develops advanced computer system interconnect technology. Numascale's NumaConnect™ technology enables scalable server computer systems to be built at a fraction of the price of current enterprise systems. NumaConnect allows high volume manufactured server boards to be used as building blocks for scalable systems with cache coherent shared memory and I/O. A Numascale system can scale to 256TBytes of main memory and more than 10 000 processor cores and run A single system image instance of Linux.

 

CONTACT:
Ken Chiacchia
Pittsburgh Supercomputing Center
chiacchi@psc.edu
412.268.4960
412.268.5869

 

Shandra Williams
Pittsburgh Supercomputing Center
shandraw@psc.edu
412.268.4960

 

Kåre Løchsen

Numascale, +47 95088731

email:

 

The Change is on

From Cluster
cluster
shared memory with ccnuma by numachip
To Scalable ccNUMA SMP
Cache Coherence - ccNuma - Clusters - Coherent - Directory Based Cache Coherence - Hypertransport - InfiniBand - Numa - NumaChip - Numascale - Snooping
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