Welcome to ASCR Discovery, a webzine about the research
that powers computational science – the use
of computers to gain insight and understanding of scientific
The Office of Advanced Scientific Computing Research in the Department of Energy Office of Science supports the projects described here. ASCR’s portfolio includes projects at DOE laboratories and many public and private universities. Such research may take years to reach fruition, but has profound impact on science and, ultimately, the way we live.
We hope you find ASCR Discovery enlightening, and we encourage your comments.
Fusion heats up
Controlling fusion reactions has stymied physicists for decades. As the ITER international fusion reactor project approaches, researchers are putting in many hours on some of the world’s most powerful supercomputers at Department of Energy national laboratories to simulate conditions inside fusion reactors and work out persistent kinks.
Researchers want to put smart polymers to work in everything from drug delivery to oil recovery. Harnessing these macromolecules will rely on sorting out how polymers shift shape at their low critical solution temperature.
New supernova simulation codes run on more powerful supercomputers indicate a star’s death may be an even more complicated process than previously believed.
Armed with millions of processor hours on powerful computers, Princeton researchers are out to elucidate the surprisingly complex interactions of water molecules.
GE researchers, with the help of Department of Energy supercomputers, are studying the minute details of freezing water, with the goal of keeping wind turbine blades ice-free and efficient.
Simulations of the universe’s evolution have run with incredible speed – 10 petaflops or better – on a new supercomputer, DOE researchers say.
A DOE Early Career Award recipient works on algorithms that enable supercomputers to search the combined genomes of hundreds of plants or microbes, looking for genes useful for biofuels.
Increasing computing capabilities to the exascale will improve climate predictions. Meanwhile, scientists must figure out how to refine their models to make full use of all that power.