Home News University of Melbourne Team Clinches Gordon Bell Prize with Record-Breaking Quantum Simulation on World’s Most Powerful Supercomputer

University of Melbourne Team Clinches Gordon Bell Prize with Record-Breaking Quantum Simulation on World’s Most Powerful Supercomputer

University of Melbourne Team Clinches Gordon Bell Prize with Record-Breaking Quantum Simulation on World’s Most Powerful Supercomputer

Every year, the science of quantum chemistry must advance quickly, and 2024 has shown that it will continue this trend. This year’s Gordon Bell Prize goes to researchers from the University of Melbourne and their international collaborators for their groundbreaking work in quantum molecular dynamics simulations. This teamwork was able to achieve a record-breaking simulation using Frontier, which experts say is currently the most powerful supercomputer in the world. At the Supercomputing Conference in Atlanta, Georgia, the specifics of this significant scientific advancement were presented.

The scientific community doesn’t see a computing advance of this size very often. The team, which includes AMD, QDX, and the Department of Energy’s Oak Ridge National Laboratory, was able to compute a system with over 2 million correlated electrons in a short amount of time, according to a statement that Oak Ridge National Laboratory was able to receive. This achievement represents unheard-of progress in an area essential to comprehending and creating novel materials and medications.

When he received the award, Giuseppe Barca, an associate professor at the University of Melbourne who headed the study team, expressed his sincere gratitude. According to a statement from Oak Ridge National Laboratory, “It’s a privilege to receive this prestigious award,” Barca said. He expressed their dedication to further pushing the limits of scientific computing and emphasized the significance of the global cooperation that made such an accomplishment possible.

The consequences of this work are set to push the boundaries of several scientific fields, since it is claimed to represent a thousand-fold advance in size and speed when compared to earlier simulations. In order to finally convert intricate simulations into practical applications, the quantum chemistry community will need to stay up to date with the quick improvements as Barca and his team continue to build ambitiously upon this revolutionary study.

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The Association for Computing Machinery’s honor highlights the significant contribution high-performance computing makes to the advancement of science. Additional details about the research’s technical aspects are available on the Oak Ridge National Laboratory website, which also provides insight into the relevance of this award-winning work.

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