Exascale computing is the latest milestone in cutting-edge supercomputers — high-powered systems capable of processing calculations at speeds currently impossible using any other method. Exascale ...

Exascale computing systems are no longer theoretical milestones on research roadmaps. They’re operational infrastructure handling workloads that stress every layer of the stack, from interconnects to ...

University of Delaware Professor Sunita Chandrasekaran is leading the charge on the high-tech frontier, fearless in the face of complexity. She led an international team that stress-tested the world’s ...

LEMONT, Ill.--(BUSINESS WIRE)--The Aurora supercomputer at the U.S. Department of Energy’s (DOE) Argonne National Laboratory has officially surpassed the exascale threshold, measuring over a ...

Europe is about to unveil its first supercomputer of the exascale class on Friday. The machine, powered by Nvidia, is said to be the “fastest in Europe,” according to the company. The machine, called ...

This study will review the future of computing beyond exascale to meet national security needs at the National Nuclear Security Administration. (Exascale refers to a computer that performs 10^18 ...

Harnessing AI and exascale supercomputing, a research team led by the U.S. Department of Energy’s Argonne National Laboratory has developed a computing framework to speed up the design of new proteins ...

The Australian Academy of Science has published a brief calling for a national HPC strategy that should be backed by at least one exascale supercomputing facility in the country. Launching the brief ...

HPE-built Discovery will bolster productivity up to 10X and unlock new scientific horizons in precision medicine, cancer research, nuclear energy and aerospace The Lux system, to be built by HPE, will ...

Spanning eight rows and occupying the space of two professional basketball courts, Aurora is one of the largest supercomputer installations to date. Scientists are using Aurora to drive breakthroughs ...

Exascale computing can process over a quintillion operations every second — enabling supercomputers to perform complex simulations that were previously impossible. But how does it work? When you ...