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team as part of NERSC's Exascale Science Acceleration Program (NESAP ). You'll work with NERSC staff, domain scientists, and engineers from industry partners to prepare key scientific workflows
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mitigation strategies. Validate, analyze, and interpret experimental data. Develop algorithms for near-term hardware based on critical evaluation of the literature, and original thinking. Design quantum
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partners at NVIDIA and Dell to prepare high-impact workflows for 12,000+ NERSC users. What You Will Do: Contribute to one or more NESAP AI-based scientific workflows targeting NERSC HPC resources, edge
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Administration (NNSA) nonproliferation mission. Fellows conduct their own project, build cross-lab networks, and receive targeted career and leadership development through the Next Generation Nonproliferation
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Daniel Carney. What You Will Do: Develop advanced techniques to surpass the Standard Quantum Limit (SQL) and enable quantum-coherent readout of multiple devices. Conduct original research both
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the development and application of a digital twin approach, aimed at bridging the gap between theoretical predictions, data interpretation, and experimental/spectroscopic observations. What You Will Do: Design
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of neural population dynamics. This position has the specific focus of developing ML methods to assess the feedback controllability of neural population dynamics recorded from brain organoids. This position
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domains. Hopper Fellows concentrate on the development and optimization of scientific and engineering applications leveraging high-speed network capability provided by the Energy Sciences Network or run
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development and laboratory automation systems (liquid handlers, robotic colony pickers etc.). Experience with sequencing technologies and microfluidics. Experience using fluorescence-activated cell sorting