The Future
of Computing
is in Orbit.
Solar-powered satellite data centers delivering unlimited AI compute with zero land footprint, sub-2ms LEO latency, and 100% renewable energy.
Computing should not be constrained by Earth.
The AI revolution demands compute at a scale that Earth simply cannot sustain. Every data center we build requires land, water, and power — resources already stretched to their limits.
Orbital Computing breaks these constraints by moving the compute layer into space — where energy is abundant, cooling is natural, and the entire globe becomes your backyard.
Infinite Power
Direct solar exposure in orbit provides 8× more energy than ground installations with zero transmission loss. Our satellites are essentially self-powered supercomputers.
Global Coverage
Our constellation of 340 satellites ensures every point on Earth is within 550km of a data center node — eliminating geographic compute inequality.
Zero Footprint
No land, no water cooling, no terrestrial power grid. Orbital Computing eliminates all physical environmental impact of traditional data center infrastructure.
Engineering the Orbital Stack
From launch to computation, every layer of the Orbital Computing stack is built for reliability, performance, and sustainability.
Launch & Deploy
Custom-built compute satellites are launched into Low Earth Orbit at 550km altitude. Each satellite carries specialized AI accelerators, high-capacity memory, and high-bandwidth optical inter-satellite links.
// Technical Spec
Each compute node contains 32 custom AI chips with 8 petaFLOPS of FP8 performance, 512TB flash storage, and 100Gbps inter-satellite optical links.
Built for the demands of tomorrow.
Every feature of the Orbital stack is designed to remove limits — on energy, latency, scale, and sustainability.
AI-Native Compute
Custom orbital AI chips built for transformer inference and training. 8 PetaFLOPS FP8 per satellite node, with hardware-level model serving and dynamic batching.
Sub-2ms LEO Latency
Low Earth Orbit satellites sit just 550km above ground. Combined with optical inter-satellite links, total round-trip times beat transoceanic fiber for most workloads.
Infinite Scalability
Add capacity by adding satellites. No permits, no construction delays, no site acquisition. New compute nodes are operational within 72 hours of launch.
100% Renewable
Every computation is powered by direct solar energy. No carbon offsets, no renewable energy credits — actual zero-carbon computing by physics, not accounting.
Global Coverage
340-satellite constellation ensures continuous worldwide coverage. No more latency penalties for emerging markets — every region gets first-class compute access.
Quantum-Ready
Orbital proximity enables direct line-of-sight quantum key distribution between satellites, unlocking provably secure communications for the most sensitive workloads.
The scale of orbital compute.
Satellites
Active compute nodes in the constellation
Per Node
PetaFLOPS of AI inference per satellite
LEO Latency
Round-trip time from ground to satellite
Renewable
Direct solar — no offsets, no accounting tricks
Land Used
Square meters of terrestrial footprint
Deploy Time
From launch to production-ready compute
340 satellites. One seamless cloud.
Our inter-satellite optical links form a mesh network in space, routing traffic at the speed of light across the constellation. From your terminal, it looks like one giant distributed computer.
Workloads are automatically scheduled across the constellation, moving compute to wherever there is energy surplus — following the sun, always running at peak efficiency.
Be among the first to orbit.
We are onboarding a select group of founding partners to our early access program. Request your invitation to be first in orbit.