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  "created_at": "2026-06-04T00:06:03.054Z",
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  "title": "Berkeley Lab’s MODMD Approach Advances Quantum Simulations Beyond Ground States",
  "description": "Berkeley Lab's MODMD hybrid quantum-classical framework advances molecular energy simulations beyond ground states using fewer computational resources. This progress in quantum computing for materials discovery is relevant to long-term quantum hardware and software investment themes. Near-term commercial impact is limited but signals continued academic momentum in quantum simulation.",
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    "transcript": "Everyone is making AI videos. But what about quantum simulations? Berkeley Lab's MODMD framework is pushing boundaries. This new hybrid quantum-classical approach simulates molecular energy beyond ground states. It uses fewer resources, paving the way for future quantum breakthroughs. \n\nWhy does it matter? Quantum simulations are crucial for discovering new materials. They hold the potential to revolutionize technology and industry. While immediate commercial impact is limited, the academic world is buzzing. This signals a promising path for long-term investments in quantum hardware and software.\n\nImagine the possibilities in the next decade as quantum computing evolves. Berkeley Lab's innovation might just be the stepping stone we need. Stay informed and explore how this could impact future technologies. \n\nFor in-depth insights, check out the full article. Full article link in bio.",
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    "summary": "Berkeley Lab's MODMD hybrid quantum-classical framework advances molecular energy simulations beyond ground states using fewer computational resources. This progress in quantum computing for materials discovery is relevant to long-term quantum hardware and so...",
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        "label": "Berkeley Lab’s MODMD Approach Advances Quantum Simulations Beyond Ground States",
        "url": "https://www.hpcwire.com/off-the-wire/berkeley-labs-modmd-approach-advances-quantum-simulations-beyond-ground-states/",
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