Two recently funded computing projects work toward developing cutting-edge scientific applications for future exascale supercomputers that can perform at least a billion billion computing...
Merging two powerful 3-D X-ray techniques, researchers revealed new details of a process known as metal poisoning that clogs the pores of catalyst particles...
Two recently funded computing projects work toward developing cutting-edge scientific applications for future exascale supercomputers that can perform at least a billion billion computing operations per second.
Merging two powerful 3-D X-ray techniques, researchers revealed new details of a process known as metal poisoning that clogs the pores of catalyst particles used in gasoline production, causing them to lose effectiveness.