404 Media

2026-04-23 20:30:30

Community Votes to Deny Water to Nuclear Weapons Data Center

Ypsilanti Township in Michigan is attempting to cut off the flow of water to a planned data center that would power a new generation of nuclear weapons research. On Wednesday, the Township’s Board of Trustees voted to institute a 365 day moratorium on the delivery of water to hyperscale data centers so the township can study the impact of the building’s massive water needs.

The proposed data center in the Ypsilanti Township’s Hydro Park has been a sore spot for the community since its proposal. The $1.2 billion 220,000 square foot facility would be used by Los Alamos National Laboratories (LANL) some 1,500 miles away for nuclear weapons research. In February, UofM’s Steven Ceccio told the University of Michigan Record that the facility would consume 500,000 gallons of water per day and that the University planned to buy it from the Ypsilanti Community Utilities Authority. (YCUA)
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The YCUA has spent the past month lobbying for a moratorium on providing water and sewer access to hyperscale data centers and “artificial intelligence computing facilities,” according to notes on a presentation stored on the organization's website. The moratorium would include LANL’s data center.

The YCUA cited an American Water Works Association white paper about data center water demands and concluded it needed more time to investigate the matter. “Hyper-scale data centers, as well as other mid-sized data centers, artificial intelligence computing facilities, and high-performance computational centers are ‘high-impact customers’ for water and sewer utilities,” YCUA said in its presentation.

The moratorium places a 12-month stop on serving water to data centers while the YCUA conducts a long-term water supply analysis and looks into the environmental sustainability studies. “During the 12-month moratorium period, the Authority will refrain from executing any capacity reservation agreement.”

This is a delay tactic on the part of a Township that does not want to see the data center constructed. Many in the community have strong feelings about the use of parkland for a facility that researchers nuclear weapons. Beyond the moral and ethical concerns, some are worried about becoming targets in a war. Last month, Township attorney Douglas Winters told the Board of Trustees that building hosting the data center would make Ypsilanti Township a “high value target.” He pointed to the recent bombing of Gulf Coast data centers by Iran as evidence.

America is embarking on a new nuclear arms race and Ypsilanti Township is one small part of it. The Pentagon has called for US nuclear scientists to design new kinds of nuclear weapons and Trump’s 2027 budget proposal almost doubled the money set aside to create new cores for nukes. UofM has repeatedly said that the data center would not “manufacture” nuclear weapons.

“Los Alamos is tasked with nuclear stewardship—not conducting live tests on weaponry, but instead using advanced computation to ensure the safety and reliability of our existing stockpile without the need for nuclear testing, especially as our stockpile ages. Computation provides an important tool for LANL to achieve this mission,” UofM’s Ceccio told the Record.

But during a public open house about the data center, LANL deputy laboratory director Patrick Fitch confirmed it would be used for weapons research. “One of the two computers we’re planning in our 55 megawatts (section)—if this facility is built—will be for what’s called secret restricted data. So it’ll be for the nuclear weapons program. Not exclusively, but it’ll be able to do that work,” Fitch told the Michigan Daily.

During the Wednesday meeting of the Ypsilanti Township Board, attorney Winters gave a clear eyed summary of the Township’s place in the new nuclear arms race. “This facility they’re proposing in partnership with the UofM is the digital brain for everything that’s going to take place in New Mexico. Make no mistake about it, you can rename, reframe, and repackage all you want. It is a high value target,” Winters said.

Even with the proposed water moratorium, the University and LANL plan to break ground on the data center on Monday. The University of Michigan did not return 404 Media’s request for a comment.

2026-04-21 Township Board Regular Meeting Video

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404 Media

2026-04-22 15:45:59

Trump Wants to Double Production of New Nuclear Weapon Cores

Trump’s proposed 2027 budget would almost double the budget for plutonium pits, the chemical filled metal sphere inside a nuclear warhead that kicks off the explosion in a nuclear weapon. The same budget would slash almost $400 million from nuclear environmental cleanup. The budget request follows a leaked National Nuclear Security Administration (NNSA) memo calling on America’s nuclear scientists to prototype new kinds of nukes and to double plutonium pit production from 30 to 60 triggers a year.

About the size of a bowling ball, a plutonium pit is an essential part of a nuclear warhead. The implosion of these plutonium filled balls in a nuclear weapon triggers the massive explosion and unleashes the weapon’s destructive potential. Until 1992, American manufactured 1,000 plutonium pits a year. Now it makes fewer than 30. Trump wants to change that and he’s willing to throw money at the problem to make it happen.
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The 2027 White House budget request sets aside $53.9 billion for the Department of Energy (DOE). This includes a 87 percent increase of funding for pit production at the Savannah River Site—$2.25 billion up from $1.2 billion—and an 83 percent increase in pit funding at Los Alamos National Lab (LANL)—$2.4 billion up from $1.3 billion.

These are shocking increases, especially given that there are around 15,000 existing and unused plutonium pits sitting in a warehouse in Texas. “We have thousands of pits that should be eligible to be reused. The NNSA has publicly acknowledged that they will be reusing pits for some number of warheads,” Dylan Spaulding, a senior scientist at the Union of Concerned Scientists, told 404 Media.

Many of those plutonium pits are old and some in the American government have concerns that they no longer function. But a 2006 and 2019 study from an independent group of scientists said the nuclear triggers should have a lifespan of 85 to 100 years. But some interpreted the 2019 study as cause for alarm.

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“They essentially said we haven’t learned anything alarming about detrimental degradation to pits, but nonetheless the NNSA should resume pit production ‘as expeditiously as possible.’ So those words ‘as expeditiously as possible,’ that raised a lot of alarm because it suggested there was something to worry about,” Spaulding said. “I don’t think it’s clear to me that there’s any physical evidence that pits have a shorter lifetime…we should have decades left to solve the pit production problems and I think using aging as an excuse to go back right now is sort of a red herring.”

For Spaulding, the budget increase isn’t about replacing old pits. It’s about making new ones for new and different kinds of nuclear weapons. “The new budget really corresponds to a new push to accelerate everything in the nuclear complex that this administration has increasingly emphasized,” he said.

A leaked NNSA memo dated February 11, 2026 from Deputy Administrator for Defense Programs David Beck outlined a plan for new weapons aimed at “enhancing American nuclear dominance.” The memo was first published by the Los Alamos Study Group, an independent community think tank.

The Beck memo outlined an ambitious project for plutonium pit production. “Complete near-term modifications at Los Alamos National Laboratory’s Plutonium Facility (PF-4) to enable production of 100 pits and achieve a sustained production rate of at least 60 pits per year and begin production,” it said. “Position the Savannah River Site (SRS) to facilitate expanded pit production at PF-4 until Savannah River Plutonium Processing Facility (SRPPF) achieves full operations.”

Spaulding said that getting LANL to produce 60 pits a year at a sustained rate was going to be difficult. “They were already going to be struggling to get to 30 in the next few years. It's not clear that 60 is feasible,” he said. “I don't think that LANL is incapable of doing that if they choose to do it, but it's putting a lot of additional strain on a system that was already struggling to meet half the requirement.”

Spaulding also pointed out an interesting line in the Beck memo that seemed to call for new weapon designs. “They’re adding new requirements to LANL. One of those is to demonstrate what they call two new ‘novel Rapid Capability’ weapon systems, and for LANL to produce what they call ‘design-for-manufacture’ pits.’”

Spaulding said he interpreted these new tasks as the federal government asking America’s nuclear scientists to figure out how to get new weapons from the drawing board to prototype fast. “I think one of the things they’re thinking about is to be able to have increased flexibility in the 2030s to be able to produce different kinds of warheads,” he said. “We’re seeing calls for next generation hard and deeply buried target capabilities…it really seems like NNSA is shifting their philosophy from life extension and refurbishment…to all new production. This boost is really to try to get this industrial base moving faster than it is.”

Xiaodon Liang, a senior policy analyst for the Arms Control Association, also interpreted the increased plutonium pit budget as a sign of a new nuclear arms race. “There are new warhead designs that are currently in the early stages of production, if not late stages of development. One of those is the W87-1, which is a new warhead for the Sentinel,” he told 404 Media.

The Sentinel is a new intercontinental ballistic missile that’s set to replace the Minutemans that dot underground silos across the United States. The Sentinel program is billions over budget, will require the digging of new ICBM silos, and has no end in sight.

Liang pointed to the W93 warhead, another new design that’s set to be used in submarine-launched ballistic missiles. “I think the case has been even weaker as to why the existing warheads don't satisfy requirements,” he said. “And I would add that part of the argument for the W93 is that the British were very strongly in favor of it because the British are reliant on our sea based systems for their own deterrence. So they lobbied very hard for the W93 and the case for why the United States needs it was never made clear.”

Both the United States and Russia have about 5,000 nuclear weapons each. None of the other nuclear countries have anywhere close to that number. Experts estimate that China has the next biggest stockpile with only around 400 warheads. It begs the question: Why do we need more? Why make more plutonium pits at all?

“People are pointing at China as an emerging threat. There’s a widespread assumption in the defense world—which UCS disagrees with—that China is necessarily seeking parity with the United States in terms of numbers of weapons,” Spaulding said.

The amount of nuclear weapons began to plummet at the end of the Cold War. A series of treaties between Russia and the United States limited the amount of deployed weapons and both countries began to decommission the weapons. But all those treaties are gone now and global instability—largely driven by America and Russia—has many countries reconsidering their anti-nuclear stance.

The US military is worried it won’t have enough nukes to deter everyone who might get one in the future. It’s also worried about hypersonic weapons, AI-driven innovations, and nukes from space. “That doesn’t mean it’s still a game of numbers,” Spaulding said. “That sort of simplistic thinking that applied to the Cold War with the arms race against Russia was, well, if they have X number, we have to have X number. Once there's sort of horizontal proliferation across nine nuclear armed states. It's not clear that this sort of tit for tat numbers game works the same way. More and more weapons are not the solution to nuclear proliferation elsewhere, that doesn't lead us to a safer state in the world.”

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The attorney for the township of Ypsilanti, Michigan, said the construction of the data center puts “a big bulls eye target on this entire township.”
404 MediaMatthew Gault

That hasn’t stopped the US from throwing billions at making new nuclear weapons triggers and asking its scientists to step up production. But it’s unclear if that’s even possible in the short term. In 1992, when the US was making 1,000 pits a year, it did so because of a plant in Rocky Flats, Colorado. The plant closed because the FBI raided it. The plant was an environmental disaster that killed its workers and irradiated the surrounding community. But it met quotas.

Since the closure, America’s nuclear scientists have worked on preserving the pits they had instead of making new ones. “I think the feeling is that science based stockpile stewardship was not enough because it did not leave us with the capability to respond to geopolitical change,” Spaulding said. “I think it’s being looked at quite a bit as an indicator of how well the United States is meeting this new aspiration even if the goals and quantities we’re setting are completely unbounded by reality, which is one of the problems right now.”

The budget and NNSA call for South Carolina’s SRS to manufacture the bulk of the plutonium pits in the future. But it’s unclear if that will ever happen. The ACA’s Liang is skeptical. “The key unanswered question is whether the Savannah River Site will ever come online,” he said. “The current estimate is 2035 for when it’ll reach construction’s end.” Current projections predict the pit factory will cost $30 billion, making it one of the most expensive buildings ever constructed in the US.

All that money and time making new plutonium is less that goes towards other projects. “There’s ongoing remediation work that the state of New Mexico says should be done, that the NNSA has not performed because it claims ‘we are expanding pit production, we can’t do this until later,’” Liang said.

“Los Alamos will start producing pits at some number soon. The question to me is, at what cost. Not just financial cost,” he said. “If you look at the DOE budget, what is getting cut? The Trump administration has tried to cut $400 million from the Environmental Management budget twice in the last two years."

Ramping up pit production will lead to more radioactive waste that the DOE will be responsible for cleaning up. “We know from historical experience when pits were produced before…that this is a dangerous and hazardous process. Plutonium is radioactive. It’s a carcinogenic material. It results in large amounts of waste…which present human and environmental risks, not only to the workers who will be charged with carrying this out but to communities around these facilities,” Spaulding said at a press conference on Wednesday.

The United States spends billions of dollars every year cleaning up its radioactive messes, including around Rocky Flats where it once produced most of its plutonium pits. If this budget is approved, and it looks like it will be, then America will spend less money on helping people poisoned by nuclear weapons and more money making new ones.

Update 4/22/26: An earlier version of this story stated an incorrect statistic regarding cuts to environmental management. We've updated the piece with the correct information.

LIVE: Plaintiffs Inspect Savannah River Site Plutonium “Pit” Bomb Core Plant

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404 Media

2025-12-04 15:11:34

‘Atoms for Algorithms:’ The Trump Administration’s Top Nuclear Scientists Think AI Can Replace Humans in Power Plants

During a presentation at the International Atomic Energy Agency’s (IAEA) International Symposium on Artificial Intelligence on December 3, a US Department of Energy scientist laid out a grand vision of the future where nuclear energy powers artificial intelligence and artificial intelligence shapes nuclear energy in “a virtuous cycle of peaceful nuclear deployment.”

“The goal is simple: to double the productivity and impact of American science and engineering within a decade,” Rian Bahran, DOE Deputy Assistant Secretary for Nuclear Reactors, said.

His presentation and others during the symposium, held in Vienna, Austria, described a world where nuclear powered AI designs, builds, and even runs the nuclear power plants they’ll need to sustain them. But experts find these claims, made by one of the top nuclear scientists working for the Trump administration, to be concerning and potentially dangerous.

Tech companies are using artificial intelligence to speed up the construction of new nuclear power plants in the United States. But few know the lengths to which the Trump administration is paving the way and the part it's playing in deregulating a highly regulated industry to ensure that AI data centers have the energy they need to shape the future of America and the world.
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At the IAEA, scientists, nuclear energy experts, and lobbyists discussed what that future might look like. To say the nuclear people are bullish on AI is an understatement. “I call this not just a partnership but a structural alliance. Atoms for algorithms. Artificial intelligence is not just powered by nuclear energy. It’s also improving it because this is a two way street,” IAEA Director General Rafael Mariano Grossi said in his opening remarks.

In his talk, Bahran explained that the DOE has partnered with private industry to invest $1 trillion to “build what will be an integrated platform that connects the world’s best supercomputers, AI systems, quantum systems, advanced scientific instruments, the singular scientific data sets at the National Laboratories—including the expertise of 40,000 scientists and engineers—in one platform.”
Image via the IAEA.
Big tech has had an unprecedented run of cultural, economic, and technological dominance, expanding into a bubble that seems to be close to bursting. For more than 20 years new billion dollar companies appeared seemingly overnight and offered people new and exciting ways of communicating. Now Google search is broken, AI is melting human knowledge, and people have stopped buying a new smart phone every year. To keep the number going up and ensure its cultural dominance, tech (and the US government) are betting big on AI.

The problem is that AI requires massive datacenters to run and those datacenters need an incredible amount of energy. To solve the problem, the US is rushing to build out new nuclear reactors. Building a new power plant safely is a mutli-year long process that requires an incredible level of human oversight. It’s also expensive. Not every new nuclear reactor project gets finished and they often run over budget and drag on for years.

But AI needs power now, not tomorrow and certainly not a decade from now.

According to Bahran, the problem of AI advancement outpacing the availability of datacenters is an opportunity to deploy new and exciting tech. “We see a future of and near future, by the way, an AI driven laboratory pipeline for materials modeling, discovery, characterization, evaluation, qualification and rapid iteration,” he said in his talk, explaining how AI would help design new nuclear reactors. “These efforts will substantially reduce the time and cost required to qualify advanced materials for next generation reactor systems. This is an autonomous research paradigm that integrates five decades of global irradiation data with generative AI robotics and high throughput experimentation methodologies.”

“For design, we’re developing advanced software systems capable of accelerating nuclear reactor deployments by enabling AI to explore the comprehensive design spaces, generate 3D models, [and] conduct rigorous failure mode analyzes with minimal human intervention,” he added. “But of course, with humans in the loop. These AI powered design tools are projected to reduce design timelines by multiple factors, and the goal is to connect AI agents to tools to expedite autonomous design.”

Bahran also said that AI would speed up the nuclear licensing process, a complex regulatory process that helps build nuclear power plants safely. “Ultimately, the objective is, how do we accelerate that licensing pathway?” he said. “Think of a future where there is a gold standard, AI trained capacity building safety agent.”

He even said that he thinks AI would help run these new nuclear plants. “We're developing software systems employing AI driven digital twins to interpret complex operational data in real time, detect subtle operational deviations at early stages and recommend preemptive actions to enhance safety margins,” he said.

One of the slides Bahran showed during the presentation attempted to quantify the amount of human involvement these new AI-controlled power plants would have. He estimated less than five percent “human intervention during normal operations.”
Image via IAEA.
“The claims being made on these slides are quite concerning, and demonstrate an even more ambitious (and dangerous) use of AI than previously advertised, including the elimination of human intervention. It also cements that it is the DOE's strategy to use generative AI for nuclear purposes and licensing, rather than isolated incidents by private entities,” Heidy Khlaaf, head AI scientist at the AI Now Institute, told 404 Media.

“The implications of AI-generated safety analysis and licensing in combination with aspirations of <5% of human intervention during normal operations, demonstrates a concerted effort to move away from humans in the loop,” she said. “This is unheard of when considering frameworks and implementation of AI within other safety-critical systems, that typically emphasize meaningful human control.”

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Sofia Guerra, a career nuclear safety expert who has worked with the IAEA and US Nuclear Regulatory Commission, attended the presentation live in Vienna. “I’m worried about potential serious accidents, which could be caused by small mistakes made by AI systems that cascade,” she said. “Or humans losing the know-how and safety culture to act as required.”

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404 Media

2025-11-14 17:28:04

Power Companies Are Using AI To Build Nuclear Power Plants

Microsoft and nuclear power company Westinghouse Nuclear want to use AI to speed up the construction of new nuclear power plants in the United States. According to a report from think tank AI Now, this push could lead to disaster.

“If these initiatives continue to be pursued, their lack of safety may lead not only to catastrophic nuclear consequences, but also to an irreversible distrust within public perception of nuclear technologies that may inhibit the support of the nuclear sector as part of our global decarbonization efforts in the future,” the report said.
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The construction of a nuclear plant involves a long legal and regulatory process called licensing that’s aimed at minimizing the risks of irradiating the public. Licensing is complicated and expensive but it’s also largely worked and nuclear accidents in the US are uncommon. But AI is driving a demand for energy and new players, mostly tech companies like Microsoft, are entering the nuclear field.

“Licensing is the single biggest bottleneck for getting new projects online,” a slide from a Microsoft presentation about using generative AI to fast track nuclear construction said. “10 years and $100 [million.]”

The presentation, which is archived on the website for the US Nuclear Regulatory Commission (the independent government agency that’s charged with setting standards for reactors and keeping the public safe), detailed how the company would use AI to speed up licensing. In the company’s conception, existing nuclear licensing documents and data about nuclear sites data would be used to train an LLM that’s then used to generate documents to speed up the process.

But the authors of the report from AI Now told 404 Media that they have major concerns about trusting nuclear safety to an LLM. “Nuclear licensing is a process, it’s not a set of documents,” Heidy Khlaaf, the head AI scientist at the AI Now Institute and a co-author of the report, told 404 Media. “Which I think is the first flag in seeing proposals by Microsoft. They don’t understand what it means to have nuclear licensing.”

“Please draft a full Environmental Review for new project with these details,” Microsoft’s presentation imagines as a possible prompt for an AI licensing program. The AI would then send the completed draft to a human for review, who would use Copilot in a Word doc for “review and refinement.” At the end of Microsoft’s imagined process, it would have “Licensing documents created with reduced cost and time.”

The Idaho National Laboratory, a Department of Energy run nuclear lab, is already using Microsoft’s AI to “streamline” nuclear licensing. “INL will generate the engineering and safety analysis reports that are required to be submitted for construction permits and operating licenses for nuclear power plants,” INL said in a press release. Lloyd's Register, a UK-based maritime organization, is doing the same. American power company Westinghouse is marketing its own AI, called bertha, that promises to make the licensing process go from "months to minutes.”

The authors of the AI Now report worry that using AI to speed up the licensing process will bypass safety checks and lead to disaster. “Producing these highly structured licensing documents is not this box taking exercise as implied by these generative AI proposals that we're seeing,” Khlaaf told 404 Media. “The whole point of the lesson in process is to reason and understand the safety of the plant and to also use that process to explore the trade offs between the different approaches, the architectures, the safety designs, and to communicate to a regulator why that plant is safe. So when you use AI, it's not going to support these objectives, because it is not a set of documents or agreements, which I think you know, is kind of the myth that is now being put forward by these proposals.”

Sofia Guerra, Khlaaf’s co-author, agreed. Guerra is a career nuclear safety expert who has advised the U.S. Nuclear Regulatory Commission (NRC) and works with the International Atomic Energy Agency (IAEA) on the safe deployment of AI in nuclear applications. “This is really missing the point of licensing,” Guerra said of the push to use AI. “The licensing process is not perfect. It takes a long time and there’s a lot of iterations. Not everything is perfectly useful and targeted …but I think the process of doing that, in a way, is really the objective.”

Both Guerra and Khlaaf are proponents of nuclear energy, but worry that the proliferation of LLMs, the fast tracking of nuclear licenses, and the AI-driven push to build more plants is dangerous. “Nuclear energy is safe. It is safe, as we use it. But it’s safe because we make it safe and it’s safe because we spend a lot of time doing the licensing and we spend a lot of time learning from the things that go wrong and understanding where it went wrong and we try to address it next time,” Guerra said.

Law is another profession where people have attempted to use AI to streamline the process of writing complicated and involved technical documents. It hasn’t gone well. Lawyers who’ve attempted to write legal briefs have been caught, over and over again, in court. AI-constructed legal arguments cite precedents that do not exist, hallucinate cases, and generally foul up legal proceedings.

Might something similar happen if AI was used in nuclear licensing? “It could be something as simple as software and hardware version control,” Khlaaf said. “Typically in nuclear equipment, the supply chain is incredibly rigorous. Every component, every part, even when it was manufactured is accounted for. Large language models make these really minute mistakes that are hard to track. If you are off in the software version by a letter or a number, that can lead to a misunderstanding of which software version you have, what it entails, the expectation of the behavior of both the software and the hardware and from there, it can cascade into a much larger accident.”

Khlaaf pointed to Three Mile Island as an example of an entirely human-made accident that AI may replicate. The accident was a partial nuclear meltdown of a Pennsylvania reactor in 1979. “What happened is that you had some equipment failure and design flaws, and the operators misunderstood what those were due to a combination of a lack of training…that they did not have the correct indicators in their operating room,” Khlaaf said. “So it was an accident that was caused by a number of relatively minor equipment failures that cascaded. So you can imagine, if something this minor cascades quite easily, and you use a large language model and have a very small mistake in your design.”

In addition to the safety concerns, Khlaaf and Guerra told 404 Media that using sensitive nuclear data to train AI models increases the risk of nuclear proliferation. They pointed out that Microsoft is asking not only for historical NRC data but for real-time and project specific data. “This is a signal that AI providers are asking for nuclear secrets,” Khlaaf said. “To build a nuclear plant there is actually a lot of know-how that is not public knowledge…what’s available publicly versus what’s required to build a plant requires a lot of nuclear secrets that are not in the public domain.”

“This is a signal that AI providers are asking for nuclear secrets. To build a nuclear plant there is actually a lot of know-how that is not public knowledge…what’s available publicly versus what’s required to build a plant requires a lot of nuclear secrets that are not in the public domain.”

Tech companies maintain cloud servers that comply with federal regulations around secrecy and are sold to the US government. Anthropic and the National Nuclear Security Administration traded information across an Amazon Top Secret cloud server during a recent collaboration, and it’s likely that Microsoft and others would do something similar. Microsoft’s presentation on nuclear licensing references its own Azure Government cloud servers and notes that it’s compliant with Department of Energy regulations. 404 Media reached out to both Westinghouse Nuclear and Microsoft for this story. Microsoft declined to comment and Westinghouse did not respond.

“Where is this data going to end up and who is going to have the knowledge?” Guerra told 404 Media.

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Nuclear is a dual use technology. You can use the knowledge of nuclear reactors to build a power plant or you can use it to build a nuclear weapon. The line between nukes for peace and nukes for war is porous. “The knowledge is analogous," Khlaaf said. “This is why we have very strict export controls, not just for the transfer of nuclear material but nuclear data.”

Proliferation concerns around nuclear energy are real. Fear that a nuclear energy program would become a nuclear weapons program was the justification the Trump administration used to bomb Iran earlier this year. And as part of the rush to produce more nuclear reactors and create infrastructure for AI, the White House has said it will begin selling old weapon-grade plutonium to the private sector for use in nuclear reactors.

Trump’s done a lot to make it easier for companies to build new nuclear reactors and use AI for licensing. The AI Now report pointed to a May 23, 2025 executive order that seeks to overhaul the NRC. The EO called for the NRC to reform its culture, reform its structure, and consult with the Pentagon and the Department of Energy as it navigated changing standards. The goal of the EO is to speed up the construction of reactors and get through the licensing process faster.

A different May 23 executive order made it clear why the White House wants to overhaul the NRC. “Advanced computing infrastructure for artificial intelligence (AI) capabilities and other mission capability resources at military and national security installations and national laboratories demands reliable, high-density power sources that cannot be disrupted by external threats or grid failures,” it said.

At the same time, the Department of Government Efficiency (DOGE) has gutted the NRC. In September, members of the NRC told Congress they were worried they’d be fired if they didn’t approve nuclear reactor designs favored by the administration. “I think on any given day, I could be fired by the administration for reasons unknown,” Bradley Crowell, a commissioner at the NRC said in Congressional testimony. He also warned that DOGE driven staffing cuts would make it impossible to increase the construction of nuclear reactors while maintaining safety standards.

“The executive orders push the AI message. We’re not just seeing this idea of the rollback of nuclear regulation because we’re suddenly very excited about nuclear energy. We’re seeing it being done in service of AI,” Khlaaf said. “When you're looking at this rolling back of Nuclear Regulation and also this monopolization of nuclear energy to explicitly power AI, this raises a lot of serious concerns about whether the risk associated with nuclear facilities, in combination with the sort of these initiatives can be justified if they're not to the benefit of civil energy consumption.”

Matthew Wald, an independent nuclear energy analyst and former New York Times science journalist is more bullish on the use of AI in the nuclear energy field. Like Khlaaf, he also referenced the accident at Three Mile Island. “The tragedy of Three Mile Island was there was a badly designed control room, badly trained operators, and there was a control room indication that was very easy to misunderstand, and they misunderstood it, and it turned out that the same event had begun at another reactor. It was almost identical in Ohio, but that information was never shared, and the guys in Pennsylvania didn't know about it, so they wrecked a reactor,” Wald told 404 Media.

"AI is helpful, but let’s not get messianic about it.”

According to Wald, using AI to consolidate government databases full of nuclear regulatory information could have prevented that. “If you've got AI that can take data from one plant or from a set of plants, and it can arrange and organize that data in a way that's helpful to other plants, that's good news,” he said. “It could be good for safety. It could also just be good for efficiency. And certainly in licensing, it would be more efficient for both the licensee and the regulator if they had a clearer idea of precedent, of relevant other data.”

He also said that the nuclear industry is full of safety-minded engineers who triple check everything. “One of the virtues of people in this business is they are challenging and inquisitive and they want to check things. Whether or not they use computers as a tool, they’re still challenging and inquisitive and want to check things,” he said. “And I think anybody who uses AI unquestionably is asking for trouble, and I think the industry knows that…AI is helpful, but let’s not get messianic about it.”

But Khlaaf and Guerra are worried that the framing of nuclear power as a national security concern and the embrace of AI to speed up construction will setback the embrace of nuclear power. If nuclear isn’t safe, it’s not worth doing. “People seem to have lost sight of why nuclear regulation and safety thresholds exist to begin with. And the reason why nuclear risks, or civilian nuclear risk, were ever justified, was due to the capacity for nuclear power. To provide flexible civilian energy demands at low cost emissions in line with climate targets,” Khlaaf said.

“So when you move away from that…and you pull in the AI arms race into this cost benefit justification for risk proportionality, it leads government to sort of over index on these unproven benefits of AI as a reason to have nuclear risk, which ultimately undermines the risks of ionizing radiation to the general population, and also the increased risk of nuclear proliferation, which happens if you were to use AI like large language models in the licensing process.”

Dem NRC members warn they could be fired over safety decisions - E&E News by POLITICO

A Wednesday hearing also revealed more details about a meeting with a Department of Government Efficiency official.

^{Nico Portuondo, Francisco "A.J." Camacho (E&E News by POLITICO)}