Science Simplified: What Is Supercomputing?
What Is Supercomputing? There are computers. And then there are supercomputers. Most personal and work computers are powerful enough to perform tasks like doing homework…
Supercomputing involves the use of supercomputers, which are extremely powerful computers designed to handle complex and massive computational tasks that are beyond the capability of general-purpose computers. Supercomputers are characterized by their enormous processing power, typically measured in FLOPS (floating point operations per second), and are used for a range of scientific and engineering applications that require large-scale simulations, data analysis, and real-time processing. These include weather forecasting, climate research, physical simulations (like those for nuclear and astrophysical phenomena), genetic analysis, and complex financial modeling. Supercomputers consist of thousands of processors working in parallel, allowing them to process huge amounts of data at unprecedented speeds. They play a crucial role in advancing scientific research, developing new materials, understanding natural disasters, and enhancing our understanding of fundamental physical processes.
What Is Supercomputing? There are computers. And then there are supercomputers. Most personal and work computers are powerful enough to perform tasks like doing homework…
The simulations of the Lyman-𝛼 forest spectral data conducted by the PRIYA supercomputer, the largest-ever of their kind, illustrate the large-scale structure of the universe….
Computational model allows researchers to simulate cellular-scale interactions across unprecedented distances in the human vasculature. Biomedical engineers at Duke University have significantly enhanced the capabilities…
A new solver algorithm for the MPAS-Ocean model significantly enhances climate research by reducing computational time and improving accuracy. This breakthrough, integrating Fortran and C++…
The method developed by the Harvard team to reduce errors addresses a significant obstacle in scaling up technology. Quantum computing technology, with its potential for…
A novel method of simulating supernovae could shed light on our cosmic origins. Supernovae, which are exploding stars, play a pivotal role in galaxy formation…
Scientists have created a contained ball of turbulence in a tank, which could help answer longstanding questions. Turbulence is all around us. From the swirl…
A new study published in the journal Science by an international team reveals that historical fluctuations in atmospheric CO2 levels and the subsequent alterations in climate…
The dynamic interplay where high-performance computing converges with biophysical exploration is pushing the frontiers of knowledge and catalyzing a new era of unprecedented discoveries in…
Molecular modeling suggests structural consequences of an early protein mutation that promoted viral transmission. RIKEN researchers discovered that an early mutation (D614G) in the SARS-CoV-2…
Whether developing new technologies for landing on other planets, improving air travel here at home, or more realistically simulating global weather and climate, supercomputing is…
With the help of the world’s most powerful supercomputer and new artificial intelligence techniques, an international team of scientists has theorized how the extreme conditions…
Scientists’ increasing mastery of quantum mechanics is heralding a new age of innovation. Technologies that harness the power of nature’s most minute scale show enormous…
With new algorithms and supercomputers, an incredibly detailed radio map of the universe was created. Now astronomers can look at radio data of galaxies with…
With a tensor language prototype, “speed and correctness do not have to compete … they can go together, hand-in-hand.” High-performance computing is required for an…
University of Texas researcher identifies factors for safe and effective carbon capture and storage. The road to a stabilized climate is challenging and contentious. A…
New method from Clemson University researcher, enabled by Frontera supercomputer, helps explain role of phonons in copper-based superconductivity. Researchers have known about high-temperature superconducting copper-based…
What Is Exascale Computing? Exascale computing is the next major milestone in the development of supercomputers. Able to process information much faster than today’s most…