Tesla Bio Workbench Enables Scientists to Achieve New Breakthroughs
in BiosciencesSANTA CLARA, CA, Jan 14, 2010 (MARKETWIRE via COMTEX) --
NVIDIA today announced the Tesla Bio Workbench, which enables
scientists to push the boundaries of biological research by turning a
standard PC into a "computational laboratory" capable of running
complex bioscience codes in fields such as drug discovery and DNA
sequencing more than 10-20 times faster through the use of NVIDIA(R)
Tesla(TM) GPUs.
The Tesla Bio Workbench consists of:
-- A range of GPU-optimized bioscience applications for molecular dynamics- and
quantum chemistry- based research, including: AMBER, GROMACS, LAMMPS, NAMD,
TeraChem, VMD, and bioinformatics applications like CUDA-SW++ (Smith-Waterman),
GPU-HMMER, and MUMmerGPU.
-- A community site for downloading the applications, checking out the latest
benchmarks, reading academic papers and tutorials, joining discussion forums with
the application developers themselves and more.
-- Details on the Tesla GPU-based workstations and clusters available worldwide for
easy deployment of these applications.
Scientists have traditionally performed experiments in laboratories,
where chemicals are combined, their interactions studied and their
effectiveness measured. Advances in computational science have now
enabled these experiments to be carried out using molecular dynamics
and quantum chemistry simulation models, however these have typically
required very large supercomputers with thousands of central
processing units (CPUs).
By using the massively parallel CUDA(TM) architecture of NVIDIA GPUs,
these applications can now be run 10-20 times faster, which means even
a PC with Tesla GPUs can outperform a supercomputer.
Quotes:
"We are working on a new GPU-based technique in the VMD molecular
dynamics visualization software that investigates how small molecules
like oxygen and CO2 migrate inside proteins. This research is
critical in the study of enzymatic reaction mechanisms," said John
Stone, senior research programmer, University of Illinois at
Urbana-Champaign. "A simulation that takes 1 day to run on a
GPU-based workstation would have taken 30 days to run on a CPU-based
machine, rendering it impractical for real research."
"TeraChem is a powerful molecular modeling package whose calculations
can guide the design of new drugs while avoiding wasted time
synthesizing unpromising candidates," said Todd Martinez, professor
of physical and theoretical chemistry at Stanford University. "With
TeraChem, calculations that would have taken days or weeks on a
computer cluster can now be performed routinely on NVIDIA GPU-enabled
workstations. This allows high-throughput computational screening and
can accelerate the drug design process."
"Using AMBER to carry out simulations of a cellulose hydrolyzing
enzyme called Cellobiohydrolaze-I, which is a key component in
improving the efficiency of bio-ethanol production, we're seeing
performance from a single NVIDIA GPU that's equivalent to a 10 node
cluster," said Ross Walker, Research Professor at the San Diego
Supercomputer Center, UC San Diego.
"Researchers here are using the GPU-based NAMD molecular dynamics
software to study how virus cells react to different drugs, including
studying the effectiveness of drugs on the H1N1 virus," said Klaus
Schulten, Swanlund Professor of Physics, Director of the NIH Resource
for Macromolecular Modeling and Bioinformatics and Co-director of the
NSF Center for the Physics of Living Cells at University of Illinois
at Urbana-Champaign. "NAMD running on 4 GPUs in a workstation can
outperform 16 CPUs in a server farm."
"One of the future challenges of molecular simulation is to enable
automated drug screening. We have traditionally used GROMACS to
calculate the binding of drugs to membrane proteins by using large
clusters, but this is both a costly and complex process," said Erik
Lindahl, associate professor at the Center for Biomembrane Research
at Stockholm University. "We are now adding GPU support because a
single GPU can be up to 4-5X faster than a CPU for most normal
simulations. Within a few years, we expect workstations equipped with
a handful of compute cards to have taken a huge part of the market
and because of this we see NVIDIA as a critically important partner."
Weblinks to:
The Tesla Bio Workbench Website
Tesla GPU Computing Products
About NVIDIA Legal Info:
NVIDIA (NASDAQ: NVDA) awakened the world to the power of computer
graphics when it invented the graphics processing unit (GPU) in 1999.
Since then, it has consistently set new standards in visual
computing with breathtaking, interactive graphics available on
devices ranging from portable media players to notebooks to
workstations. NVIDIA's expertise in programmable GPUs has led to
breakthroughs in parallel processing which make supercomputing
inexpensive and widely accessible. Fortune magazine has ranked NVIDIA
#1 in innovation in the semiconductor industry for two years in a
row. For more information, see www.nvidia.com.
Certain statements in this press release including, but not limited
to, statements as to: the benefits, features, impact, performance and
capabilities of Tesla Bio Workbench, NVIDIA Tesla processors and CUDA
architecture; are forward-looking statements that are subject to
risks and uncertainties that could cause results to be materially
different than expectations. Important factors that could cause
actual results to differ materially include: development of more
efficient or faster technology; design, manufacturing or software
defects; the impact of technological development and competition;
changes in consumer preferences and demands; customer adoption of
different standards or our competitor's products; changes in industry
standards and interfaces; unexpected loss of performance of our
products or technologies when integrated into systems as well as
other factors detailed from time to time in the reports NVIDIA files
with the Securities and Exchange Commission including its Form 10-Q
for the fiscal period ended October 25, 2009. Copies of reports
filed with the SEC are posted on our website and are available from
NVIDIA without charge. These forward-looking statements are not
guarantees of future performance and speak only as of the date
hereof, and, except as required by law, NVIDIA disclaims any
obligation to update these forward-looking statements to reflect
future events or circumstances.
Copyright 2010 NVIDIA Corporation. All rights reserved. NVIDIA, the
NVIDIA logo, Tesla, and CUDA are trademarks or registered trademarks
of NVIDIA Corporation in the U.S. and other countries. Other company
and product names may be trademarks of the respective companies with
which they are associated. Features, pricing, availability, and
specifications are subject to change without notice.
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For more information:
Andrew Humber
NVIDIA Corporation
(408) 416 7943
ahumber@nvidia.com
SOURCE: NVIDIA
mailto:ahumber@nvidia.com
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