INDUSTRY
University at Buffalo To Use Powerful IBM Supercomputer
Joint Research Collaboration to Predict 3-D Protein Structures and Support Drug Discovery -- IBM announced that the University at Buffalo (UB) Center of Excellence in Bioinformatics, The State University of New York, will use IBM technologies and research expertise to study the structure and behavior of human proteins. The outcome of this research could lead to more targeted drugs to treat diseases such as cancer, Alzheimer's, AIDS and multiple sclerosis. The new IBM system represents the next-generation solution to meet the growing computational and storage needs of the COE that were originally provided by a cluster of Dell servers and EMC storage systems. To help COE achieve its research goals, IBM researchers will collaborate with COE scientists and provide algorithms for discovering patterns and correlations among protein data.
The UB Center of Excellence merges high-end technology, including supercomputing and visualization, with expertise in such areas as genomics, proteomics, bio-imaging and pharmaceutical sciences, to enable major contributions in science and health care. An emerging discipline, bioinformatics uses the power of supercomputers to interpret data in the biological sciences at the molecular level.
"The switch to IBM technology will be more three times faster than our current cluster, shaving critical time off achieving tangible results in our research," said Dr. Jeffrey Skolnick, director of the Center. "The new IBM supercomputer will deliver the kind of performance we are looking for to make significant strides in protein structure and function prediction. The greatly improved manageability and simplified infrastructure allows us to focus on generating results to find the causes of deadly diseases and develop new drugs to treat them."
"IBM has worked closely with the University at Buffalo to develop a powerful, state of the art clustered supercomputing solution that would meet their needs and help the COE reach the goal to become one of the worlds best bioinformatics centers," said Dave Turek, vice president of Deep Computing, IBM. "The unmatched power and scalability of the BladeCenter supercomputer will enable the university to tackle many important life science endeavors."
The new supercomputer, capable of a peak performance of more than 1.32 TeraFlops, will consist of a cluster of 266 IBM eServer(tm) BladeCenter(tm) HS20 systems running Red Hat Advance Server 2.1 Linux, each with two 2.8 GHz Intel Xeon processors and 1.0 GB of memory. Seven IBM xSeries 345 Intel processor-based servers connect to 5 terabytes (TB) of IBM FAStT700 Storage to house large volumes of biological and research data. The supercomputer forms the basis of the IBM eServer Cluster 1350, a pre-packaged and tested supercluster that is ultra-dense and incredibly easy to manage.