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  • At Jefferson Lab we have several GPU nodes dedicated to AI projects. We have several CPU nodes as well for parallel computations that does not require GPUs.

    Useful Links:

  • “AI Lunch Series” (recurring), Jefferson Lab, every Wednesday include link to past meetings (https://www.jlab.org/ai/lunch_series)

    "AI for Nuclear Physics" Workshop, Jefferson Lab, March 4-6, 2020

    "ICFA 3rd Mini-Workshop on Machine Learning for Charged Particle Accelerators", Seoul, South Korea, June 16-19, 2020

  • Program Directors
    Kyungseon Joo (University of Connecticut), Principal Investigator, kyungseon.joo@uconn.edu
    Christian Weiss (Jefferson Lab), Co-Investigator, weiss@jlab.org

     

    Coordinating Committee
    The Coordinating Committee (CC) is appointed by the program managers and consists of representatives from the US and Japan:

  • JLab's Past Winning T-Shirt Designs

    The 20s:

    2023 tshirt

    2023

  • JLab T-Shirt Archives

    2023

      Holiday Events

    • The Electron-Ion Collider (EIC) is a particle accelerator facility planned for construction at Brookhaven National Laboratory (BNL) in partnership with the Jefferson Lab (JLab) to address the following key science questions:

    • If your activity group wishes to be supported by the JAG Committee, just click on a particular form above and fill out the form electronically. Contact Mary Jo Bailey x7183 for more information.

      [ Definitions & Rules ] [ Equipment Request ] [ Funding Request ]

    • Sensitive pre-clinical biomedical imaging is critical for conducting animal studies in search of cures for diseases in people and animals. Jefferson Lab has already drawn on its expertise in detector technology to design and build several small-animal imagers for biomedical research. These tools are already being used for basic research into diseases such as Alzheimer’s, Parkinson’s and cystic fibrosis.

    • After years of design, construction and testing, Jefferson Lab is installing a state-of-the-art Gas Electron Multiplier (GEM) tracking detector in one of its experimental areas. The detector tracks charged particles, such as those emitted by cancer cells tagged with a radiopharmaceutical or radiation beams used to target cancers. The extreme precision and fast readout technologies developed for the GEM detectors are now being applied to new state-of-the-art systems for nuclear medicine.