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Efforts are underway to scale these computers to support extreme-scale computationally intensive science applications and to deal with increasing volumes and velocities of experimental and observational data. Scientific instruments and supercomputer facilities generate, consume, process, and store both raw and analyzed data enabling the discovery of new knowledge. Improvements in the tools and services used to manage and operate this infrastructure are needed to meet the needs of both network operators and users. These networks also peer with commercial networks allowing scientists remote access to instruments and facilities while also allowing citizens access to the data and knowledge that has been produced. Optical networks operating at rates of more than 100 Gbps support the transfer of petabytes of data per day. Maximum Phase II Award Amount: $1,500,000Īdvanced digital network technologies and middleware services play a significant role in the way DOE scientists communicate with peers and collect/process data. ADVANCED DIGITAL NETWORK TECHNOLOGIES AND MIDDLEWARE SERVICES Applied Computational Sciences Partnership - to achieve breakthroughs in scientific advances via computer simulation technologies that are impossible without interdisciplinary effort.įor additional information regarding the Office of Advanced Scientific Computing Research priorities, click here.
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Distributed Network Environment - to develop integrated software tools and advanced network services to enable large-scale scientific collaboration and make effective use of distributed computing and science facilities in support of the DOE science mission. High-performance Computing Science - to develop scalable systems software and programming models, and to enable computational scientists to effectively utilize petascale computers to advance science in areas important to the DOE mission. Applied and Computational Mathematics - to develop the mathematical algorithms, tools, and libraries to model complex physical and biological systems. The HPC facilities include the Oak Ridge Leadership Computing Facility (OLCF) at Oak Ridge National Laboratory (ORNL), the Argonne Leadership Computing Facility (ALCF) at Argonne National Laboratory (ANL), and the National Energy Research Scientific Computing Center (NERSC) at Lawrence Berkeley National Laboratory (LBNL).ĪSCR supports research on applied computational sciences in the following areas: In addition, ASCR supports multidisciplinary science activities under a computational science partnership program involving technical programs within the Office of Science and throughout the Department of Energy.ĪSCR also operates high-performance computing (HPC) centers and related facilities, and maintains a high-speed network infrastructure (ESnet) at Lawrence Berkeley National Laboratory (LBNL) to support computational science research activities.
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To accomplish this mission, ASCR funds research at public and private institutions and at DOE laboratories to foster and support fundamental research in applied mathematics, computer science, and high-performance networks. A particular challenge of this program is fulfilling the science potential of emerging computing systems and other novel computing architectures, which will require numerous significant modifications to today's tools and techniques to deliver on the promise of exascale science.
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The primary mission of the Advanced Scientific Computing Research (ASCR) program is to discover, develop, and deploy computational and networking capabilities to analyze, model, simulate, and predict complex phenomena important to the Department of Energy. Office of Advanced Scientific Computing Research Please Note that a Letter of Intent is due Tuesday, September 06, 2016