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, influencing the direction of future HPC technologies to benefit the scientific community. Determine methods and procedures on new or complex assignments, and formally coordinate the activities of other
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) applications. You will specifically apply these methods to dynamic reservoir modeling, area of review evaluation, and wellbore integrity assessment of GCS in both new fields and reuse scenarios. You will also
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conferences. Engage in community knowledge-sharing (e.g. tutorials for the NERSC user base). What is Required: PhD awarded within the last five years in Physics, Computational Chemistry, Computational Science
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future NERSC supercomputers, evaluating new storage systems for AI and HPC. Collaborate with scientists and industry partners to enable transformative science. Determine methods and procedures on new
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software Shape future NERSC supercomputers, evaluating new architectures for AI. Collaborate with scientists and industry partners to enable transformative AI for science Determine methods and procedures
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tight AI-simulation coupling. What is Required: PhD in Physics, Chemistry, Computational Science, Data Science, Computer Science, Applied Mathematics, or a related numerical field. Programming experience
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partners to develop and utilize novel characterization and diagnostic methods to identify critical performance and durability barriers for these electrochemical devices and develop hypotheses and strategies
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methods, select test equipment, and analyze results to ensure compliance with specifications. Perform routine maintenance and calibration of complex equipment using both standard and specialized methods
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, advanced isotopic methods, scanning probe microscopy, X-ray and electron imaging, scattering or spectroscopy, geochemical modeling, and molecular modeling, to understand and control the fundamental molecular
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stability and performance in nanoscale materials for microelectronics. You will measure interfacial thermal conductance in 2D material systems using advanced optical methods such as time-domain