The maintenance layer for the orbital compute era.

In late 2025, an NVIDIA-backed startup trained an AI model in orbit for the first time. Within months, the first orbital datacenter nodes went live, a single operator filed plans for an 88,000-node compute constellation, and Google announced TPU-carrying satellites. Hyperscale compute is leaving the ground - for unlimited solar power and free cooling.

Every one of those nodes is hardware that will degrade, drift, and fail. On Earth, datacenters employ technicians by the thousand. In orbit, the entire maintenance workforce is zero - and the existing servicing industry is built for one-off rescues of quarter-billion-dollar satellites, not fleet-scale upkeep of modular compute nodes.

Reeve exists to be that workforce. We build mini technician drones - thruster-propelled free-flyers, because rotor blades are useless without air - that live resident at the infrastructure they serve. They inspect continuously, intervene with swappable tooling on hardware designed to be serviced, and in their hardened variant, stand guard. The same autonomy and manipulation stack extends to the lunar surface as factories and datacenters reach the Moon.

We are deliberately starting where the revenue already is: proximity inspection, which defense and government customers fund today. That bridge pays for the climb to the destination market - maintenance-as-a-service for the compute constellations of the AI era.