Scientific Computing World is hosting a virtual roundtable in February for research leaders, scientists and R&D experts in drug discovery, particularly those working with new modalities, such as RNA therapeutics, gene therapies, ADCs (Antibody Drug Conjugates) and protein degraders.

Computational science has progressed steadily over the past decade. Improvements in computing performance allow us to model much more complex chemical, biological, and materials systems, and to understand increasingly large quantities of data. But these advances require finesse, as well as power ...

In today’s rapidly evolving technological landscape, scientific computing is at the forefront of innovation, driving discoveries across various disciplines. From life sciences to engineering, advancements in high-performance computing (HPC), laboratory informatics, quantum computing, and ...

The power of scientific computing is changing our world. Breakthroughs is a unique, year-round series of interviews and events with the thought leaders spearheading that innovation across five distinct areas.

The convergence of artificial intelligence (AI) and high-performance computing (HPC) promises to transform the scientific computing landscape, with its potential to enable research groups to tackle challenges that would otherwise have been beyond their capabilities.

I n addition to the normal annual progression of HPC technology, 2017 will see the introduction of many technologies that will help shape the future of HPC systems. Production-scale ARM supercomputers, advancements in memory and storage technology such as DDN’s Infinite Memory Engine (IME), and much wider adoption of accelerator technologies and from Nvidia, Intel and FPGA manufacturers such ...

As Scientific Computing World marks its 20th anniversary and IDBS celebrates 25 years of creating advanced software for research and development (R&D), we are braced for change. Businesses are on the brink of significant disruption, with four key forces set to …

Spinning out of The University of Oxford in January 2022, Lumai is developing all-optical neural networks for next-generation AI. With £1.1m in Smart funding, the company is creating advanced optical computing processors where the information flow and calculations are not dependent on electronic processing.

Developing skills to use advanced computing resources such as high-performance computing (HPC), artificial intelligence (AI) and machine learning (ML), and quantum computing is becoming an increasingly important skill set for scientists and engineers. While it is generally not the scientists' job to ...

The kids’ bedroom may be a far cry from the science laboratory, but technology that once painted realistic 3D graphics for computer games and animated films could be the answer to scientists’ prayers for greater processing powers at reduced costs. …