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infrastructure and digital hardware systems. This position is part of the Controls Integration Group in the Control Systems Section in the Research Accelerator Division of the Neutron Sciences Directorate at Oak
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' highest flux reactor-based neutron source, and the Spallation Neutron Source (SNS), the world's most intense pulsed accelerator-based neutron source. Together these facilities operate 31 instruments
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that accelerate AI/ML when applied to large scientific data sets; Energy efficient physics-aware algorithms, capable of distributed learning on high performance and edge computing; The design of architectures
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on Accelerating Fusion Technology and as an ORNL UT-ORII staff fellow, successful applicants will be part of a team of Research Faculty and ORNL staff to collaborate in the area of Fusion Materials. In this role
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for the design and analysis of computational methods that accelerate data analytics and machine learning, especially as the apply to scalable high-performance computing, cloud computing, and large interconnected
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(HFIR). The STS will deliver the highest peak brightness cold neutrons in the world, which together with advances linear accelerator technology, high powered targets, moderators, and neutron
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-based neutron source, and the Spallation Neutron Source (SNS), the world's most intense pulsed accelerator-based neutron source. Together these facilities operate 30 instruments for neutron scattering
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system architecture, infrastructure, system software and applications. This position is part of the Controls Integration Group within the Research Accelerator Division of the Neutron Sciences Directorate
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. To support ORNL strategic research and development activities at the Manufacturing Demonstration Facility (MDF) (https://www.ornl.gov/facility/mdf/ ), we are accepting applications for Postdoctoral Research