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R&D100 Award logo The ASA architecture can be used to accelerate sparse accumulation for GraphBLAS to deliver much faster performance and energy efficiency for those operations. For the first time, researchers have a better understanding of how gluons (left side) and quarks (right side) form the substructure of protons and other hadrons. (Credit: Kent Leech for Lawrence Berkeley National Laboratory, Creative Services Office) During her long career, NERSC Administrative Supervisor Zaida McCunney cherished working with staff and researchers across Berkeley Lab. RhizoNet harnesses the power of artificial intelligence to transform how we study plant roots, offering new insights into root behavior under various environmental conditions. It uses EcoFAB (shown here), a novel hydroponic device that facilitates in-situ plant imaging by offering a detailed view of plant root systems. (Credit: Thor Swift, Berkeley Lab) Ana Kupresanin portrait The Superfacility model connecting DIII-D and NERSC via ESnet enabled DIII-D to send fusion experiment data to NERSC’s Perlmutter supercomputer for large-scale automated analysis and high-fidelity reconstruction of plasma pulses. Dr. Lin Lin (left), a faculty scientist in the Applied Mathematics and Computational Research division at Berkeley Lab and a Professor of Mathematics at the University of California, Berkeley; and Dr. Xin Xing (right), a former postdoctoral scholar from Lin’s group at UC Berkeley who is now at Apple. Daniel Martin (right) presents a retirement plaque to his mentor, Phillip Colella (left). A researcher adjusts a detector deep underground at the Sanford Underground Research Facility in South Dakota, the array of sensors used by the Majorana Collaboration to search for particle-level violations of the Standard Model. Credit: Matthew Kapust, Sanford Underground Research Facility
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