Nvidia today announced the Nvidia Vera Rubin platform, delivering supercomputers for science, combining native double-precision (FP64) performance, Nvidia CUDA-X libraries and the full-stack ...
A pioneer of computational biomedicine, Andrea Townsend-Nicholson reflects on the power of HPC to transform drug discovery, education and digital twins research, while championing broader access to ...
SCW75 honourees were recognised at ISC High Performance 2026 in Hamburg, where Scientific Computing World presented certificates to members of the inaugural Class of 2026 in celebration of their ...
High-performance computing (HPC) systems – advanced computing ensembles that harness deliver massive processing power – are used for a range of applications, and the demand for them has increased with ...
Yale’s capacity to conduct high-performance computing and artificial intelligence-related research continues to expand, thanks to a pair of recent moves aimed at advancing the university’s computing ...
High-performance computing, or HPC for short, might sound like something only scientists use in secret labs, but it’s actually one of the most important technologies in the world today. From ...
In the life sciences and healthcare industries, the speed of innovation impacts how soon new products, medications and treatments make it to market—and, in turn, how quickly people are able to benefit ...
Spectral methods are very efficient numerical algorithms for solving partial differential equations in relatively simple geometries. The numerical errors introduced by spectral algorithms typically ...
With 7 Exaflops of AI for Science and 5 Petaflops of Native FP64 Performance, Vera Rubin Packs TOP500 Supercomputing in a Single Rack. News Summary: NVIDIA Vera Rubin accelerates ...
High performance computing (HPC) harnesses parallel architectures, specialised interconnects and optimised software stacks to solve computationally intensive problems far beyond the reach of ...