SpaceX and Blue Origin plan to build orbital data centers powered by solar energy

The AI industry has a power problem. Terrestrial data centers are devouring electricity at rates that make grid operators nervous, and suitable land near power sources is getting scarce. SpaceX and Blue Origin think the solution is obvious: just put the data centers in space.

Both companies have announced plans to deploy satellite constellations designed specifically to handle AI computing workloads, powered by the one energy source that never runs out in orbit: the sun.

The plans: thousands (or millions) of satellites

Blue Origin’s initiative, called “Project Sunrise,” aims to deploy up to 51,600 satellites into sun-synchronous orbits between 500 and 1,800 kilometers above Earth. The orbits are chosen so the satellites maintain a consistent angle to sunlight, which is critical when your entire power strategy depends on solar energy.

SpaceX’s plan involves launching up to one million satellites to provide 100 gigawatts of AI computing capacity. For context, 100 gigawatts is roughly equivalent to the total electricity generation capacity of the United Kingdom. SpaceX filed paperwork with the FCC on February 1, 2026 outlining the initiative.

The technical reality check

SpaceX itself appears to understand the gap between ambition and delivery. The company’s pre-IPO S-1 filing explicitly acknowledges “significant technical complexity and unproven technologies” involved in building space-based AI data centers.

Radiation is near the top of the list. Computer chips in orbit face constant bombardment from cosmic rays and solar radiation, which can corrupt data and degrade hardware far faster than on Earth’s surface.

Then there’s the latency question. AI training workloads require massive amounts of data to flow between processors with minimal delay. Sending that data from Earth to orbit and back introduces latency that could undermine the very efficiency gains these projects promise.

Maintenance presents another headache. When a server fails in a terrestrial data center, a technician walks over and swaps it out. When a satellite fails at 1,000 kilometers altitude, you have an expensive piece of space debris.

Which brings us to the biggest concern experts have raised: space congestion. The concept is called Kessler Syndrome, named after NASA scientist Donald Kessler, who proposed in 1978 that a critical density of objects in low Earth orbit could trigger a cascading chain of collisions. Each collision generates debris, which causes more collisions, which generates more debris. Eventually, entire orbital bands become unusable.

Adding up to one million satellites from SpaceX alone, plus 51,600 from Blue Origin, on top of the thousands already in orbit, makes space debris management a genuine concern rather than a theoretical one.