249 high-performance-quantum-computing-"https:"-"https:"-"https:" positions at Oak Ridge National Laboratory
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Qualifications: Experience applying LLMs to scientific software and quantum program compilation/verification; familiarity with compiler toolchains (e.g., MLIR/QIR) is a plus. Experience in assurance of deep
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home to more than 7,500 staff, an outstanding ecosystem of world-class user facilities, and an unparalleled breadth of expertise spanning neutron science, high-performance computing, materials and
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across ORNL's multidisciplinary science programs. This position offers a unique opportunity to continue to build a world-class NMR instrumentation while fostering collaboration between quantum
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algorithms, capable of distributed learning on high performance and edge computing; The design of architectures/models which accurately capture the complexities of the data, with robust estimates of confidence
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Directorate (PSD) at Oak Ridge National Laboratory (ORNL). This position offers an exciting opportunity to contribute to research in nuclear theory using high-performance computing and advanced many-body
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Requisition Id 15768 Overview: We are seeking a Nuclear Reactor Controller (Reactor Operator) for the High Flux Isotope Reactor (HFIR). Under limited supervision, this position is responsible
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, control theory, data science, data driven methods, discrete mathematics, graph algorithms, high-performance computing, integral equations and nonlocal models, linear and multilinear algebra, machine
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impactful research and development programs in healthcare informatics, bioinformatics, high performance computing and deep learning. You will work in a collaborative research and development environment
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for fundamental understanding of materials structure, composition, and behavior. Staff members in eMMA have expertise in high-resolution structural imaging via scanning transmission electron microscopy (STEM
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Postdoc Research Associate- Atomic-Resolution Optical Spectroscopies w/Scanning Tunneling Microscopy
investigate emerging solid-state single-photon emitters and explore the optoelectronic properties of quantum and low-dimensional materials, contributing to both fundamental discovery and the advancement of next