The key developments of the past two decades highlighting the transformation of scientific research driven by artificial intelligence (AI) are summarized. Both well-established and emerging applications of AI are explored: ranging from biomedicine, pharmaceuticals, nutrition science, education, data science, engineering, and fundamental disciplines to synchrotron radiation facilities and advanced megascience facilities. A detailed overview of AI approaches and architectures implemented in major international projects is provided, including the Large Hadron Collider and its High-Luminosity upgrade; the FAIR facility; the DUNE and Belle II experiments; the LIGO, Virgo, and KAGRA gravitational-wave observatories; the LSST survey telescope; the SKA radio interferometer; the Euclid space observatory; the ESS, SNS, and J-PARC neutron sources; the ITER and JT-60SA fusion reactors; the NIF laser facility; the ELI-NP laser complex; exascale climate simulation platforms; and cryo-electron microscopy systems powered by AlphaFold technology. The work is intended for a broad audience of specialists interested in the methodological, technical, and organizational aspects of AI integration into scientific research.
Musin et al. (Mon,) studied this question.