Science & Technology
Fri, April 27, 2012
FREMONT, Calif.--([ BUSINESS WIRE ])--[ SGI ] (NASDAQ:SGI), the trusted leader in technical computing, today announced that researchers in the compute-intensive field of biotechnology research are continuing to make breakthrough progress with their selection of the SGI UVa" high performance computing (HPC) system. SGI UV is the leading scalable shared memory architecture in the industry today, and is being deployed to tackle many of the worldas most difficult and complex compute challenges. The Center for Pharmaceutical Biotechnology, University of Illinois at Chicago (UIC) and The Genome Analysis Centre (TGAC) in the UK are two examples.
"The SGI UV family is quickly becoming the de facto industry standard for customers tackling some of the worldas most complex big data challenges in the field of life sciences"
Researchers at the [ Center for Pharmaceutical Biotechnology ] at UIC are working on the development of new therapeutics focused on the treatment of infectious diseases, critical with the advent of new resistant bacterial strains and ineffective treatments for many diseases. The discovery of novel chemical compounds that form the basis for the development of molecular scaffolds of new antimicrobials is a daunting task. One promising approach is the use of diverse chemical compound librariesa"thousands of chemical compoundsa"that are tested against unique targets to find effective inhibitors of bacterial growth. The approach is promising, but can be extremely time-consuming, expensive and resource-intensive.
A parallel approach is the virtual screening of chemical compounds against these unique targets since their three-dimensional structures have been determined. After a virtual library of molecules is screened, they are ranked. Literally millions of molecules can be screened in this fashion, and used to generate a smaller library of molecules for testing. This virtuala"or in silicoa"screening requires the use of hundreds of processors working in parallel to screen millions of compounds in a timely manner.
aResearchers at the Center have been using SGI IRIX OS-based clusters for the past decade, and have now migrated to an SGI UV high performance compute solution powered by large arrays of Intel Xeon series processors and NVIDIA Tesla series GPUs,a said Michael E. Johnson, professor and director emeritus at the Center for Pharmaceutical Biotechnology at UIC. aThese clusters provide computing flexibility in managing both serial and parallel calculations, and the forward compatibility of SGI systems have allowed us to seamlessly evolve and expand our computing power through the years and keep up with the increasing complexity of the problems we need to address.a
In the UK, [ TGAC ] specializes in genomics and bioinformatics with a focus on the analysis and interpretation of plant, animal and microbial genomes. Launched in July 2009, TGAC has steadily grown its team to over 50 members, with half of the institute working in a bioinformatics capacity to interpret, assemble and analyze datasets generated from the sequencers housed in their lab. Located on the Norwich Research Park in Norwich, UK, TGAC receives strategic funding from the UKas Biotechnology and Biological Sciences Research Council (BBSRC).
aSGI UV was chosen because of the productas superior performance and scalability, reflecting the companyas support and experience in high-end, high performance computing,a said Paul Fretter, science computing team leader at the Norwich Bioscience Institutes. aThe main benefit of using such a system is the ability to assemble and analyze large and complex multi-billion base genome sequences in memory.a
TGAC researchers have been using an SGI UV 100 since early 2011. SGI Professional Services was involved in helping the centre drive the implementation of fusion_IO SSD and the integration of NVIDIA Tesla GPUs. At the time of installation, this was the worldas largest Red Hat Enterprise Linux 6 system. The centre is also due to receive the worldas largest shared memory system for genome research when it initiates service of the future generation SGI UV system powered by Intel MIC series processors.
aThe SGI UV family is quickly becoming the de facto industry standard for customers tackling some of the worldas most complex big data challenges in the field of life sciences,a said Rick Rinehart, senior vice president of services at SGI. aThe versatility, flexibility and scalability of the UV system make it the proper foundation for a complete compute and storage solution for these massive data intensive challenges.a
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2012 Silicon Graphics International Corporation. SGI, the SGI logo, IRIX and UV are trademarks or registered trademarks of Silicon Graphics International Corp. or its subsidiaries in the United States and/or other countries.
Intel and Xeon are registered trademarks of Intel Corporation.
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