Developed by CRD's Biological Data Management & Technology Center, the IMG/M data management system, which supports the analysis of microbial communities sequenced by the Joint Genome Institute, crossed the boundry of 1 billion genes recorded in the system—more than any other similar system in the world. » Read More
Even as the "supernova of a generation" came into view in backyards across the northern hemisphere last August, physicists and astronomers who had caught its earliest moments were developing a surprising and much clearer picture of what happens during a titanic Type Ia explosion. Now they have announced the closest, most detailed look ever at one of the universe’s brightest “standard candles,” the celestial mileposts that led to the discovery of dark energy. » Read More
To build the break-through supercomputers that climate researchers need to accurately model clouds, scientists at Berkeley Lab are taking a cue from the world of consumer electronics, where everything from chips to batteries to software is optimized to the device's application. » Read More
A team of researchers that includes Berkeley Lab scientists are using state-of-the-art methods in data mining and high-performance computing to quantify extreme weather phenomena in the very large datasets generated by today’s climate models. Their work will help scientists predict how climate change impact the frequency of extreme weather events. » Read More
While the worst drought since the Dust Bowl of the 1930s grips Oklahoma and Texas, scientists are warning that what we consider severe drought conditions in North America today may be normal for the continent by the mid-21st century, due to a warming planet. » Read More
Developed by CRD's Biological Data Management & Technology Center, the IMG/M data management system, which supports the analysis of microbial communities sequenced by the Joint Genome Institute, crossed the boundry of 1 billion genes recorded in the system—more than any other similar system in the world.
In an effort to expose high school students to careers in science research, the Lawrence Berkeley National Laboratory’s (Berkeley Lab) Computing Sciences Diversity Outreach Program partnered with San Francisco’s Lowell High School research program.
Even as the "supernova of a generation" came into view in backyards across the northern hemisphere last August, physicists and astronomers who had caught its earliest moments were developing a surprising and much clearer picture of what happens during a titanic Type Ia explosion. Now they have announced the closest, most detailed look ever at one of the universe’s brightest “standard candles,” the celestial mileposts that led to the discovery of dark energy.
A team of researchers that includes Berkeley Lab scientists are using state-of-the-art methods in data mining and high-performance computing to quantify extreme weather phenomena in the very large datasets generated by today’s climate models. Their work will help scientists predict how climate change impact the frequency of extreme weather events.
While the worst drought since the Dust Bowl of the 1930s grips Oklahoma and Texas, scientists are warning that what we consider severe drought conditions in North America today may be normal for the continent by the mid-21st century, due to a warming planet.
To build the break-through supercomputers that climate researchers need to model clouds, scientists are taking a cue from consumer electronics where everything from chips to batteries to software is optimized to the device’s application.
