nuclear-news

Google, NextEra expand collaboration to develop nuclear-powered gigawatt AI campuses

The initial three campuses under this new accord are now in the active development phase.

Interesting Engineering ByAman Tripathi, Dec 13, 2025

NextEra Energy and Google Cloud announced a significant expansion of their ongoing collaboration, creating a partnership designed to develop multiple gigawatt (GW)-scale data center campuses across the United States………………………………………………………………………………………………..

This collaborative effort focuses on accelerating the deployment of data centers by systematically addressing critical infrastructure hurdles.

These challenges include land acquisition, managing load interconnection, and the simultaneous development of supporting power generation resources needed to sustain large-scale artificial intelligence operations.A central component of this energy strategy involves the revitalization of nuclear power capabilities to support the electrical grid.

“Most recently, the companies announced the restart of the Duane Arnold Energy Center in Iowa followed by two new long-term power purchase agreements to add 600 megawatts of clean energy capacity to Oklahoma’s electricity grid to support Google’s technology infrastructure,” noted a press release.

To facilitate this restart, NextEra Energy has formally requested that the US Federal Energy Regulatory Commission (FERC) restore grid connection rights for the shuttered facility.

This regulatory filing seeks to reclaim interconnection rights that had previously been transferred from the nuclear plant to a planned solar energy project at the same site.

The move follows a licensing change request that NextEra filed with the US Nuclear Regulatory Commission (NRC) in January, marking a distinct shift from solar back to nuclear baseload power to meet steady demand.

Digital transformation of operations

Beyond the construction of physical infrastructure, the partnership will implement a digital transformation of NextEra Energy’s operations using Google Cloud’s artificial intelligence tools. ,…………………………………………………………

NextEra Energy Chairman and CEO John Ketchum characterized the partnership as a reflection of the current moment where the energy and technology sectors are becoming increasingly intertwined. He noted that the joint effort intends to build infrastructure at scale and change how energy companies function.

Similarly, Google Cloud CEO Thomas Kurian stated that combining NextEra’s domain expertise with Google’s AI infrastructure is necessary to support the digital future of energy infrastructure and meet the rising demand for AI technologies. https://interestingengineering.com/energy/nuclear-powered-gigawatt-ai-campuses-google

December 16, 2025 Posted by Christina Macpherson | technology | Leave a comment

DARPA Going Hard on Insect-Sized Spy Robots

It’s giving “bugged” a whole new meaning.

By Joe Wilkins,  Sep 24, 2025, https://futurism.com/future-society/darpa-robot-insects

Forget robot wolves and missile-deflecting satellites — those things are already becoming old news. Instead, future wars just might revolve around insect-size spy robots.

A recent digest of present-day microbots by US national security magazine The National Interest breaks down the many machines currently in development by the US military and its associates. They include sea-based microdrones, cockroach-style surveillance bots, and even cyborg insects.

Arguably the most refined program to date is the RoboBee, currently being shopped by Harvard’s Wyss Institute. Originally funded by a $9.3 million grant from the National Science Foundation in 2009, the RoboBee is a bug-sized autonomous flying vehicle capable of transitioning from water to air, perching on surfaces, and autonomous collision avoidance in swarms.

The RoboBee features two “wafer-thin” wings that flap some 120 times a second to achieve vertical takeoff and mid-air hovering. The US Defense Advanced Research Projects Agency (DARPA) has reportedly taken a keen interest in RoboBee prototypes, sponsoring research into microfabrication technology, presumably for quick field deployments.

In the future, the little bots may very well carry payloads of monitoring equipment like microphones and cameras, though that’s easier said than done at such a minute scale.

Other developments, like the aforementioned cyborg insect, remain in early stages. Researchers have successfully demonstrated the capabilities of these remote-control systems using of a range of insect hosts, from the unicorn beetle to the humble cockroach.

Though DARPA has been funding insect-machine technology since 2006, their practical application is up in the air. Still, researchers are trying to keep up with the times, looking into ways to tune drone swarming algorithms to fit their cyborg creations.

Underwater microrobotics are another area of interest for DARPA. In this case, the application is said to be less mobile, instead focusing on clandestine monitoring of vulnerable underwater infrastructure.

The Interest also points to an alleged “robo-jelly” the agency has in the works, a soft-bodied autonomous drone which can silently glide through coastal waters. How practical this is remains to be seen — jellyfish are notorious drifters, following the ebbs and flows of coastal tides and deep ocean currents.

Last is the cockroach bot, the Dynamic Autonomous Sprawled Hexapod (DASH) in the works at DARPA’s notorious proving grounds at UC Berkeley. A white paper released by UC Berkeley back in 2009 defines DASH as a 16 gram, 10cm long autonomous robot which maneuvers via six legs powered by a single motor. It’s also capable of surmounting steps greater than its own height, and absorbing significant blows, including falls “from any height.”

According to the Interest, DASH is being developed with an eye toward crush resistance implying a quality-over-quantity approach compared to more agile systems like the RoboBee.

November 30, 2025 Posted by Christina Macpherson | technology | Leave a comment

Elon’s last grift

Nov 22, 2025, https://johnquigginblog.substack.com/p/elons-last-grift?utm_source=post-email-title&publication_id=806934&post_id=179616238&utm_campaign=email-post-title&isFreemail=true&r=1ise1&triedRedirect=true&

The US is one big grift these days: the Trump Administration, traditional and social media, corporations, crypto, financial markets are all selling some kind of spurious promise. It’s hard to pick the most egregious example. But for me, it’s hard to go past Tesla. Having lost its dominant position in the electric car market, the company ought to be on the edge of delisting. Instead, its current market capitalisation is $US1.33 trillion ($A 2 trillion). Shareholders have just agreed on an incentive deal with Elon Musk, premised on the claim that he can take that number to $8.5 trillion.

Having failed with the Cybertruck and robotaxis, Tesla’s value depends almost entirely on the projected success of the Optimus humanoid robot. There’s a strong case that Optimus will be outperformed by rivals like Unitree But the bigger question is: why build a humanoid robot at all?

The choice of a humanoid form factor reveals more about the sloppy thinking of our tech elite than about engineering logic. The design represents a triumph of anthropomorphic fantasy over functional optimization, producing machines that excel primarily at generating media buzz rather than performing useful work.

In promoting Optimus, Tesla offers a long list of functions such as robot might perform: lifting and stacking goods in warehouses, operating in dangerous situations with ground too uneven for wheels and tracks, and performing various kinds of domestic labour.

In each of these cases, there is a better alternative available. Modern warehouses are designed around automated systems that exploit the advantages of robotics —conveyor networks, sorting systems, and wheeled or tracked robots specifically designed for lifting and moving tasks.

Industrial robots—fixed-position systems with multiple articulated arms—have dominated automotive and electronics assembly for decades precisely because they abandon human form constraints in favor of functional optimization.

Mobile warehouse robots can navigate autonomously while carrying loads that would topple any humanoid robot. Meanwhile, human workers remain more cost-effective for complex picking tasks, combining visual recognition, fine motor control, and problem-solving capabilities that no current robot approaches.

In less controlled environments, with uneven ground surfaces, quadruped robots (commonly presented as dog-like) are more stable than bipeds. They can be equipped with a wide range of grasping appendages including, but not limited to, the mechanical hands of a humanoid robot. Examples are already in use for tasks like bomb disposal and disaster response.

In domestic applications, Musk’s presentations envision Optimus folding laundry, preparing meals, and performing general housework—tasks that supposedly justify the human form factor because homes are designed for human occupancy.

This argument doesn’t stand up to even minimal scrutiny. Specialized appliances consistently outperform generalist approaches in domestic environments—robotic vacuum cleaners navigate more efficiently than any humanoid could, dishwashers clean more thoroughly than humanoid hands, and washing machines handle laundry with greater consistency than any robot attempting to mimic human movements. Where genuine flexibility is required, the combination of purpose-built tools and human intelligence remains unmatched. The complexity of truly autonomous domestic robots would require artificial intelligence capabilities that remain decades away, if achievable at all.

A final idea is that of robots as companions for lonely humans. This seems likely to fall into the “uncanny valley” – too human-like to be viewed as a machine, but too mechanical to be seen as human. But, if there is any market for Optimus, this will probably be it.

The humanoid form factor serves primarily to create an illusory impression of human-like intelligence. By mimicking human appearance and movement, these robots suggest cognitive capabilities they fundamentally lack. The fact that humans are more intelligent than dogs encourages the fallacious (implicit) inference that robot resambling a human must be more intelligent than one resembling a dog.

The humanoid form factor consistently proves inferior to specialized alternatives across every proposed application domain. I persists because it generates the kind of media attention and investor enthusiasm that Tesla requires for its business model. Effective robotics emerges from careful analysis of specific problems and optimisation for particular environments, not from attempts to recreate human form and movement. Until the technology sector abandons its anthropomorphic fantasies in favour of functional engineering, robotic development will remain trapped between impressive demonstrations and practical irrelevance.

Meanwhile, Tesla’s share price keeps going up, along with (until very recently), crypto, AI stocks, and the fortunes of the Trump family. By this time, the remaining sceptics have given up short-selling and retired to the sidelines to wait for the crash. That’s about the best advice I could give (bearing in mind that I Am Not a Financial Advisor).

But I’d be interested to read any contrary views on why humanoid robots are The Next Big Thing, or why bubbles like this can last forever.

November 25, 2025 Posted by Christina Macpherson | technology | Leave a comment