Google's next moonshot wants to shoot AI data centers into space - orbiting Suncatcher facilities will be equipped with AI TPUs

Date:
Thu, 06 Nov 2025 21:32:00 +0000

FULL STORY

Googles Project Suncatcher introduces an ambitious idea: to place fully functional AI data centers in orbit.

These orbital platforms would consist of a constellation of compact
satellites operating in a dawndusk sun-synchronous low Earth orbit, designed
to capture near-continuous sunlight.

Each unit would house machine learning hardware, including TPUs, powered by solar energy collected more efficiently than on Earth.

A radical concept for orbital computing

The configuration aims to reduce dependency on heavy energy storage and to
test whether computation beyond Earths atmosphere can be both scalable and sustainable.

The research team proposes inter-satellite communication at bandwidths comparable to ground-based data centers .

Using multi-channel dense wavelength-division multiplexing and spatial multiplexing, the satellites could theoretically achieve tens of terabits per second.

To close the signal power gap, the satellites would fly within just hundreds
of meters of each other, enabling data transfer rates that a bench-scale test has already demonstrated at 1.6 Tbps.

Maintaining such close formations, however, requires complex orbital control, modeled using Hill-Clohessy-Wiltshire equations and refined numerical simulations to counter gravitational and atmospheric effects.

According to Google , its Trillium Cloud TPU v6e under 67 MeV proton exposure revealed no critical damage even at doses far exceeding expected orbital levels.

The most sensitive components, high-bandwidth memory subsystems, showed only minor irregularities.

This finding suggest existing TPU architectures could, with limited modification, endure low-Earth orbit conditions for extended missions.

However, economic viability remains uncertain, though projected reductions in launch costs may make deployment plausible.

If prices fall below $200 per kilogram by the mid-2030s, the expense of launching and maintaining space-based data centers could approach parity with terrestrial facilities when measured per kilowatt-year.

Yet this assumes long-term reliability and minimal servicing requirements,
both of which remain untested at scale.

Despite the promising signals, many aspects of Project Suncatcher rest on theoretical modeling rather than field validation.

The upcoming partnership with Planet, set to deploy two prototype satellites
by 2027, will test optical interlinks and TPU performance under real orbital conditions.

Whether these orbiting facilities can transition from research experiment to operational infrastructure depends on sustained advances in energy
management, communication stability, and cost efficiency.

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Link to news story: https://www.techradar.com/pro/googles-next-moonshot-wants-to-shoot-ai-data-cen ters-into-space-orbiting-suncatcher-facilities-will-be-equipped-with-ai-tpus

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