Oil wells often dry up far earlier than predicted, leaving companies baffled about the “missing” reserves. A Penn State team tackled this puzzle by harnessing PSC’s Bridges-2 supercomputer, adding a ...

Surgical robots powered by AI are transforming operating theaters worldwide, making complex procedures more accessible while ...

Why do glass and other amorphous materials deform more easily in some regions than in others? A research team from the University of Osaka, the National Institute of Advanced Industrial Science and ...

As packaging integrates diverse substrates, adhesives, and exotic metals, manufacturers must rethink precision from the ...

Large language models (LLMs) have revolutionized the AI landscape, demonstrating remarkable capabilities across a wide range ...

Structural and computational approaches uncover the molecular basis for dimerization, open-closed conformational transitions, and the dynamic behavior of the human angiotensin-I converting enzyme ...

The rise of agentic AI—systems that reason, act autonomously and communicate with other agents—increases the need for ...

Penn State team uncovers hidden structures missed by traditional seismic scans that prevent oil extraction. A frequent ...

Understanding the vast structure of the universe, from galaxies to superclusters, requires complex models and immense ...

A common problem with oil wells is that they can run dry even when sound-based measurements say there's still oil there. A team from Penn State ...