That’s a big satellite
“We could see another transformation of what’s done in space.”
Starlink V3 satellites will be quite a bit larger than their predecessors. Credit: SpaceX
Starlink V3 satellites will be quite a bit larger than their predecessors. Credit: SpaceX
As artificial intelligence drives the need for vastly more computing storage and processing power, interest in space-based data centers has spiked.
Although several startup companies, such as Starcloud, have begun to address this problem, the idea has also attracted the interest of tech barons. In May, it emerged that former Google chief executive Eric Schmidt acquired Relativity Space due to his inter…
That’s a big satellite
“We could see another transformation of what’s done in space.”
Starlink V3 satellites will be quite a bit larger than their predecessors. Credit: SpaceX
Starlink V3 satellites will be quite a bit larger than their predecessors. Credit: SpaceX
As artificial intelligence drives the need for vastly more computing storage and processing power, interest in space-based data centers has spiked.
Although several startup companies, such as Starcloud, have begun to address this problem, the idea has also attracted the interest of tech barons. In May, it emerged that former Google chief executive Eric Schmidt acquired Relativity Space due to his interest in space-based data centers. Then, earlier this month, Amazon founder Jeff Bezos predicted that gigawatt-scale data centers will be built in space within the next 10 to 20 years.
Now, Elon Musk, whose SpaceX owns and operates significantly more space-based infrastructure than any other company or country in the world, has also expressed interest in the technology.
Scaling up V3 satellites
After Ars wrote a story on the potential of autonomous assembly to construct large data centers in space, Musk responded on X by saying that Starlink satellites could be used for this purpose.
“Simply scaling up Starlink V3 satellites, which have high speed laser links would work,” he said on the social media site X. “SpaceX will be doing this.”
Musk’s interest in space-based data centers significantly raises the profile of the nascent industry. Proponents of the idea say the advantages are clear: free, limitless power from the Sun and none of the messy environmental costs of building these facilities on Earth (where opposition is starting to grow). Critics say it is economically impractical to build these facilities in space and that supporters underestimate the technology needed to make it work.
SpaceX’s Starlink constellation has already defied some of this conventional wisdom by delivering high-speed broadband to millions of customers around the world while making a profit. So if Musk believes the Starlink architecture can be applied to data centers, it will be difficult for the industry to ignore.
Interest is growing rapidly
“The amount of momentum from heavyweights in the tech industry is very much worth paying attention to,” said Caleb Henry, director of research at Quilty Space, in an interview. “If they start putting money behind it, we could see another transformation of what’s done in space.”
The essential function of a data center is to store, process, and transmit data. Historically, satellites have already done a lot of this, Henry said. Telecommunications satellites specialize in transmitting data. Imaging satellites store a lot of data and then dump it when they pass over ground stations. In recent years, onboard computers have gotten more sophisticated at processing data. Data centers in space could represent the next evolution of that.
Critics rightly note that it would require very large satellites with extensive solar panels to power data centers that rival ground-based infrastructure. However, SpaceX’s Starlink V3 satellites are unlike any previous space-based technology, Henry said.
A lot more capacity
SpaceX’s current Starlink V2 mini satellites have a maximum downlink capacity of approximately 100 Gbps. The V3 satellite is expected to increase this capacity by a factor of 10, to 1 Tbps. This is not unprecedented in satellite capacity, but it certainly is at scale.
For example, Viasat contracted with Boeing for the better part of a decade, spending hundreds of millions of dollars, to build Viasat-3, a geostationary satellite with a capacity of 1 Tbps. This single satellite may launch next week on an Atlas V rocket.
SpaceX plans to launch dozens of Starlink V3 satellites—Henry estimates the number is about 60—on each Starship rocket launch. Those launches could occur as soon as the first half of 2026, as SpaceX has already tested a satellite dispenser on its Starship vehicle.
“Nothing else in the rest of the satellite industry that comes close to that amount of capacity,” Henry said.
Exactly what “scaling up” Starlink V3 satellites might look like is not clear, but it doesn’t seem silly to expect it could happen. The very first operational Starlink satellites launched a little more than half a decade ago with a mass of about 300 kg and a capacity of 15Gbps. Starlink V3 satellites will likely mass 1,500 kg.
Eric Berger is the senior space editor at Ars Technica, covering everything from astronomy to private space to NASA policy, and author of two books: Liftoff, about the rise of SpaceX; and Reentry, on the development of the Falcon 9 rocket and Dragon. A certified meteorologist, Eric lives in Houston.