Astronomers are
using powerful supercomputers to simulate the gravitational interactions of millions of particles and they program guesses of the behavior of dark matter into the simulation code.
Plus, he shows you «kitchens» around the world, where he's
using powerful supercomputers to fine - tune the recipe.
To simulate this supernova, the scientists
used powerful supercomputers to employ a representation in three dimensions that allowed the various multidimensional instabilities to be expressed.
Not exact matches
By far the most interesting case happened in Russia, where FSB secret service agents arrested multiple suspects who had
used one of Russia's most
powerful supercomputers to mine Bitcoin.
Starting from the observation that the properties of water seem to appear fine - tuned, a collaboration between Dr John Russo from the University of Bristol's School of Mathematics and Professor Hajime Tanaka from the University of Tokyo, harnessed the power of
powerful supercomputers,
using computational models to slowly «untune» water's interactions.
That's why University of Washington (UW) researchers are
using one of the nation's most
powerful supercomputers, the 10 - petaflop / s Mira at the Argonne Leadership Computing Facility (ALCF), to improve their software for designing protein structures to likewise virtually design and test mini-proteins called peptides.
Fifteen years ago, Peter Shor, a computer scientist at the Massachusetts Institute of Technology, predicted that quantum computers could beat even the most
powerful supercomputers and crack the widely
used RSA encryption algorithm.
They are good for personal computers, but when you
use these semiconductors to build
supercomputers, they produce heat and noise, demand
powerful cooling systems.
ALBUQUERQUE, NEW MEXICO —
Using one of the world's most
powerful supercomputers, scientists from the Los Alamos National Laboratory in New Mexico have given new depth to supernova simulations.
Hill has been a TACC user for many years; he began with the Lonestar
supercomputer in 2007 and is now
using Stampede, one of the most
powerful supercomputers in the world.
Using the Stampede
supercomputer at the Texas Advanced Computing Center — one of the most
powerful in the world — Henry ran simulations that captured the behavior of localized vibrations as never before.
Using a combination of data gathered from
powerful radio telescopes and
supercomputer simulations, the teams found that a quasar spits out cold gas at speeds up to 2000 kilometres per second, and across distances of nearly 200,000 light years — much farther than has been observed before.
For this task the most
powerful existing
supercomputers are
used, but still it has been possible to conduct such calculations only with radical and crude simplifications until recently.
With a quantum computer, APL researchers have now shown that these calculations can be done much faster and model much more complex objects than would be possible
using even on the most
powerful classical
supercomputers.
This team
used the same guiding physics principles, but
used supercomputers that were many times more
powerful, employing a representation in three dimensions that allowed the various multidimensional instabilities to be expressed.
A key to the team's success was the
use of
powerful supercomputers at PNNL and EMSL, the Environmental Molecular Sciences Laboratory.
These computational investigations typically rely on scientific software that makes it possible to perform virtual experiments and explore laboratory research data with reliable, reproducible results, whether one is
using a desktop computer or the nation's most
powerful supercomputers.
UNLV was recently awarded the
use of the Intel «Cherry Creek»
supercomputer, which ranks among the world's fastest and most
powerful supercomputers for its combination of speed, power, and energy efficiency.
But
using some of the most
powerful supercomputers now available, Lawrence Berkeley National Laboratory (Berkeley...
The SAP 3.1 report describes complex mathematical models
used to simulate the Earth's climate on some of the most
powerful supercomputers, and assesses their ability to reproduce observed climate features, and their sensitivity to changes in conditions such as atmospheric concentrations of carbon dioxide.
They've
used strong encryption which, with a reasonably long and non-obvious passphrase, isn't crackable in practice (brute force methods even
using the most
powerful supercomputers on the planet would take lifetimes, at least).
The
supercomputer will
use powerful algorithms and analyze data from medical health records, fitness devices, drug prescriptions, and other things to warn health officials of potential problems before it gets to that point.