10 high-performance-computing-postdoc research jobs at University of Tennessee at Chattanooga
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houses high-level research and instructional space. There are core facilities and shared instrumentation for BSL-2 cell culture, next-generation sequencing, associated high-performance computation, flow
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through the integration of high-performance materials, robotics, automation, computation, and process optimization. Affordable mass customization of building designs that are produced with advanced
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to maximize productivity, affordability, quality, and safety across the construction lifecycle. 2. Develop and integrate onsite and offsite optimization processes for the high-performance materials, component
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partners, couple the standardized code framework with robotic and automated manufacturing for building construction. Combine these new manufacturing approaches with high-performance building materials
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high temperature performance. The work will also be closely coupled with modeling efforts providing insight and assistance with the experimental conditions and the materials that will be investigated
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supporting campus faculty approaches to writing instruction through professional development workshops, participating in community outreach with the Center’s Flagship high school writing project, providing
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recognized research program with interdisciplinary connections across the CRI network at UT and ORNL. Contribute social science expertise to collaborative studies on the transition to circular bioeconomy
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University of Tennessee at Chattanooga | Winston Salem, North Carolina | United States | about 9 hours ago
such a program, or commitment to doing so at the University of Tennessee School of Information Sciences once eligible for tuition remission. · Demonstrated interest in artificial intelligence and
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facing armor component performance and using this insight in developing materials for extreme applications with a focus on fusion environments. This work will be focused on utilizing a suite of
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environmental challenges while achieving high biomass yields, optimal fiber and chemistry attributes, net positive carbon sequestration, and improved soil health. Through understanding crop physiology, along with