US Energy Department unveils supercomputer that merges with AI
Scientific computing and artificial intelligence were once separate worlds, using different kinds of calculations on distinctly different hardware. But the two fields are steadily merging, as shown by a massive new machine coming to Berkeley, California.
On Thursday, the Department of Energy's laboratory near the University of California, Berkeley, said it had selected Dell Technologies to deliver its next flagship supercomputer in 2026. The system will use Nvidia chips tailored for AI calculations and the simulations common to energy research and other scientific fields.
Lawrence Berkeley National Laboratory expects the new machine — to be named for Jennifer Doudna, a Berkeley biochemist who shared the 2020 Nobel Prize for chemistry — to offer more than a tenfold speed boost over the lab's most powerful current system. If fully outfitted, the machine could be the Energy Department's biggest resource for tasks like training AI models, said Jonathan Carter, associate laboratory director for computing sciences at the Berkeley center.
The supercomputer stands out for its technology choices, which indicate the growing desire for government labs to adopt more technologies from commercial AI systems. Nvidia chips, though widely used by big cloud companies as well as in supercomputers, were passed over by the Energy Department for three previous record-setting machines that were assembled by Hewlett Packard Enterprise. Dell has hardly been a player in the highest end of the supercomputer market, but it has had success in large commercial AI installations.
'HPE has been sweeping the DOE space,' said Addison Snell, the CEO of Intersect360 Research, which tracks the supercomputer market. 'This is a big win for Dell.'
Chris Wright, secretary of energy, who has compared AI's development to the Manhattan Project, called the Doudna machine a key tool for winning the global AI race in remarks prepared for a Thursday event in Berkeley to announce the system.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
&w=3840&q=100)
Business Standard
2 hours ago
- Business Standard
US scientists warn that trump's cuts will set off a brain drain
Ardem Patapoutian's story is not just the American dream, it is the dream of American science. He arrived in Los Angeles in 1986 at age 18 after fleeing war-torn Lebanon. He spent a year writing for an Armenian newspaper and delivering Domino's at night to become eligible for the University of California, where he earned his undergraduate degree and a postdoctoral fellowship in neuroscience. He started a lab at Scripps Research in San Diego with a grant from the National Institutes of Health, discovered the way humans sense touch, and in 2021 won the Nobel Prize. But with the Trump administration slashing spending on science, Dr. Patapoutian's federal grant to develop new approaches to treating pain has been frozen. In late February, he posted on Bluesky that such cuts would damage biomedical research and prompt an exodus of talent from the United States. Within hours, he had an email from China, offering to move his lab to 'any city, any university I want,' he said, with a guarantee of funding for the next 20 years. Dr. Patapoutian declined, because he loves his adopted country. Many scientists just setting out on their careers, however, fear there is no other option but to leave. Scientific leaders say that's risking the way American science has been done for years, and the pre-eminence of the United States in their fields. China and Europe are on hiring sprees. An analysis by the journal Nature captured the reversal: Applications from China and Europe for graduate student or postdoctoral positions in the United States have dropped sharply or dried up entirely since President Trump took office. The number of postdocs and graduate students in the United States applying for jobs abroad has spiked. A university in France that created new positions for scientists with canceled federal grants capped applications after overwhelming interest. A scientific institute in Portugal said job inquiries from junior faculty members in the United States are up tenfold over the last two months. 'We are embarking on a major experiment in restructuring the innovative engine in America, and China is the control,' said Marcia McNutt, a geophysicist and the president of the National Academy of Sciences, which was established by President Abraham Lincoln to advise the government on science policy. 'China is not going to cut its research budget in half.' Since the 1950s, when the federal government expanded the National Institutes of Health and created the National Science Foundation as public-private research partnerships, the United States has become the international mecca for science. It was the uniquely American system that President Franklin D. Roosevelt's science adviser, Vannevar Bush, envisioned in his landmark report, 'Science, The Endless Frontier': Federal money enabled scientific discoveries that made American research institutions the envy of the world, and they in turn fueled the rise of the United States as the leader in technology and biotechnology. As that system attracted international talent, it came to depend on the aspiring scientists who come to the United States to work in university labs at low wages for the privilege of proximity to the world's best researchers. They often stay: In the American defense industry and fields like engineering and computer and life sciences, at least half the workers with doctorates are foreign-born. Now, American science finds itself fighting on several fronts as the Trump administration seeks to cut budgets and seal borders, to punish universities for their liberalism and federal health agencies for their responses to Covid. Federal science budgets have been slashed. Stricter immigration policies have spread fear among international scientists working in the United States, and those who had hoped to. Graduate and postdoctoral students have had their visas canceled, or worry they will. The administration cut off funding for international students at Harvard — a judge blocked the move, but other universities worry about being next. Secretary of State Marco Rubio pledged to 'aggressively revoke' the visas of Chinese students in what he called 'critical fields,' which almost certainly includes science, where labs often have more Chinese than American-born graduate students and postdocs. President Trump has worried about the nation losing its scientific edge to 'rivals abroad,' as he wrote in a letter in March to his science adviser, Michael Kratsios. He urged Mr. Kratsios to continue Vannevar Bush's vision, 'recapturing the urgency which propelled us so far in the last century.' Yet Mr. Kratsios argues that philanthropies and industry should pick up more of the cost, and that too much federal science spending goes to bureaucracy. 'Spending more money on the wrong things is far worse than spending less money on the right things,' he said in a speech at the National Academy in May. But even at Johns Hopkins, which has benefited from the philanthropy of former New York Mayor Michael R. Bloomberg, those dollars can't make up the shortfall. Industry doesn't typically fund basic research, and it costs more to do research in industry in part because companies, unlike university labs, have to pay competitive wages. 'It's not just the international students, the whole system is on hold because the uncertainty does not allow you to plan,' Dr. Patapoutian said. 'With all these grants frozen or cut, it creates this massive chaos.' Just under half of the graduate students and postdocs in his lab hail from other countries. Now he is seeing less interest from abroad, but like many other lab heads he is not hiring new postdocs anyway: 'Everybody's kind of bolted down making sure we have the funds to keep the people we have.' In the first half of the 20th century, American scientists joined European universities to make fundamental discoveries: the structure of molecules (J. Robert Oppenheimer), the structure of DNA (James Watson). The rise of fascism in Europe drove many Jewish scientists to the United States. After World War II, 'we brought the rocket scientists here,' said Dr. McNutt. 'That's what got us to the moon.' While the logistics and expense of moving entire labs is likely to daunt more established researchers from moving, for postdocs and others just starting their labs, other countries offer the promise of greater stability. 'They are going to be able to recruit the best and brightest, proven people,' Dr. McNutt said. 'They are going to give them labs. They're going to give them equipment and funds, no questions asked.' At Johns Hopkins, which has long received more N.I.H. funding than any other university, Richard Huganir, the chairman of neuroscience, said he is 'terrified' of being unable to enroll international students. His department has 36 labs with 100 graduate students and postdocs, about 30 percent are international. 'For us, it would be losing 30 percent of our work force,' he said. 'They are integral to the whole fabric of American science, and losing that population would be devastating.' Graduate students and postdocs are going home to China and Korea for jobs, he said. Beyond losing talent, Dr. Huganir worries about the increasing isolation of American science. He canceled plans to host an international meeting at Hopkins because foreign scientists did not want to come to the United States; organizers considered moving it to Oxford, in England, but realized international students in the United States would not go because they fear not being allowed back in. Robert F. Kennedy Jr., the nation's top federal health official, this week said he wanted to bar scientists at the N.I.H. and other federal agencies from publishing in leading scientific journals, which he called 'corrupt.' Mathias Unberath, a computer scientist who studies computer-assisted medicine, came to Hopkins from Germany eight years ago. He has 13 doctoral students and two postdocs, all but five from abroad. 'My whole team, including those who were eager to apply for more permanent positions in the U.S., have no more interest,' he said. Those looking for jobs are applying in Europe, 'including some of my superstars,' he said. One American citizen, the recipient of a prestigious Siebel scholarship and an award for best paper, has taken a postdoc in Germany. Dr. Unberath himself was in the hospital with his wife, who had just given birth to their second son, when the first Trump administration suspended H-1B visas — Dr. Unberath had one. Now, he said, even if his students can get visas, they see the cuts to the N.S.F. and N.I.H. and worry they will not be able to get the early career grants they need to earn tenure. 'And if you don't make tenure,' he said, 'well, then what?' Daphne Koller came from Israel to do her Ph.D. in computer science at Stanford, became a professor there and was awarded a MacArthur Fellowship before founding two tech companies, Coursera, which puts university courses online, and Insitro, which uses artificial intelligence to drive drug discovery. Most of the first employees at both companies, she said, were hired right out of universities, and most were foreign-born. 'I would like nothing better than for the U.S. education system to really have the same emphasis on rigor and science and STEM so that we can train great scientists and engineers here,' Dr. Koller said. 'That would be incredible, but it doesn't happen magically. Even if that were ultimately the case, it's wonderful for a country to be in the unique position where it is the beacon, the magnet for the best and brightest from all over the world.' No institution has been more affected than Harvard, as the administration has made it an example of what it sees as the woke excesses of higher education. Rudolf Pisa, in a cell biology lab there, lost the N.I.H. grant that helps postdoctoral researchers transition to running their own labs. He came from the Czech Republic to do his Ph.D. at Rockefeller University in New York because he believed the American approach to science was 'brave.' His wife, a neuroscientist at Boston University, is American, but fears it is only a matter of time before her grant is canceled, too. They are looking for jobs in Europe. 'Two months ago I would not have thought of any of this,' Dr. Pisa said. He had considered himself a good investment for the United States. His work at Rockefeller helped lead to a patent and then a company to design cancer drugs that would be less likely to develop resistance over time. 'We created jobs,' he said. 'There's more out of it than just the papers.' The head of Dr. Pisa's lab, Tom Rapoport, said five of his students had their visas revoked before a judge temporarily restored them. He also lost the federal grant that funds his lab — despite a perfect score from N.I.H reviewers. He may have to reduce his lab from 14 people to eight, only one of them is American. Dr. Rapoport knows well how political turbulence affects science. His parents fled Nazism in Germany and Austria to train and work in the United States: His mother was a pediatrician, his father a biochemist who discovered how to prolong the shelf life of blood, which the U.S. military used to save countless service members. They left after being blacklisted as members of the Communist Party, ending up in East Germany. Dr. Rapoport was a professor there until the fall of the Berlin Wall; after, he had trouble getting a position, he said, because universities were suspicious of those from the East. He joined Harvard in 1995 because he admired the innovation and rigor of American science. 'This is scientific heaven,' he said. 'Or it used to be.' He worries that Americans don't appreciate how the system has worked for so long. 'Many people look at us as just parasites,' he said. 'All the medicines that people take, they were all developed in the U.S. There's essentially nothing developed by anyone else. We are on the top of the whole thing, and we're really risking it all.'
Mint
3 hours ago
- Mint
Nvidia-backed Nebius raises $1 billion in convertible debt
Nvidia-backed cloud operator Nebius Group NV, spun out from Russian internet giant Yandex, said it has raised $1 billion in convertible debt to expand its operations next year. Amsterdam-based cloud computing services company plans to use the capital to finance additional infrastructure and expand its data-center footprint. The notes are in two tranches: $500 million in convertible notes due in 2029 and $500 million due in 2031, the company said in a statement on Monday. The notes will convert into equity on the basis of the original, principal amount of the debt. Last December, Nebius had raised $700 million from investors including Nvidia Corp. and Accel Partners. Nebius Chief Executive Officer Arkady Volozh had said at the time that he anticipated raising more this year as the company works to expand its 'GPU clusters' — a package of specialized AI chips and cloud services within data centers, reported Bloomberg. Last year, the company renamed itself after selling its business in Russia, which included Yandex's popular Russian search engine, amid geopolitical pressure and sanctions following Russia's invasion of Ukraine. Goldman Sachs is acting as the sole placement agent and the notes will go to qualified institutional buyers, the company said. Earlier in May, Nvidia had reported a larger-than-anticipated stake in Nebius' rival CoreWeave Inc. Nvidia, the world's most valuable chipmaker, disclosed a holding of 24.18 million shares, or about 7% of outstanding stock, as of March 31. That stake, included in a 13G filing, compared with a 5.2% figure in CoreWeave's prospectus. The amount showed how Nvidia supported CoreWeave's late-March initial public offering, acquiring about 6 million shares to add to its existing holding. Santa Clara, California-based Nvidia, which has fast become one of the most influential companies in Silicon Valley, anchored the IPO with an order of about $250 million, Bloomberg had reported. The Livingston, New Jersey-based company is accelerating capital spending to meet demand for its services.
Time of India
3 hours ago
- Time of India
Cornelis Networks releases tech to speed up AI datacenter connections
By Stephen Nellis SAN FRANCISCO: Cornelis Networks on Tuesday released a suite of networking hardware and software aimed at linking together up to half a million artificial intelligence chips. Cornelis, which was spun out of Intel in 2020 and is still backed by the chipmaker's venture capital fund, is targeting a problem that has bedeviled AI datacenters for much of the past decade: AI computing chips are very fast, but when many of those chips are strung together to work on big computing problems, the network links between the chips are not fast enough to keep the chips supplied with data. Nvidia took aim at that problem with its $6.9 billion purchase in 2020 of networking chip firm Mellanox, which made networking gear with a network protocol called InfiniBand, which was created in the 1990s specifically for supercomputers. Networking chip giants such as Broadcom and Cisco Systems are working to solve the same set of technical issues with Ethernet technology, which has connected most of the internet since the 1980s and is an open technology standard. The Cornelis "CN5000" networking chips use a new network technology created by Cornelis called OmniPath. The chips will ship to initial customers such as the U.S. Department of Energy in the third quarter of this year, Cornelis CEO Lisa Spelman told Reuters on May 30. Although Cornelis has backing from Intel, its chips are designed to work with AI computing chips from Nvidia, Advanced Micro Devices or any other maker using open-source software, Spelman said. She said that the next version of Cornelis chips in 2026 will also be compatible with Ethernet networks, aiming to alleviate any customer concerns that buying Cornelis chips would leave a data center locked into its technology. "There's 45-year-old architecture and a 25-year-old architecture working to solve these problems," Spelman said. "We like to offer a new way and a new path for customers that delivers you both the (computing chip) performance and excellent economic performance as well."
