Deep-tech studio · Vancouver, BC

Forging the Future
of Space

Generative AI for novel high-entropy alloys.
Autonomous systems to clear orbital debris at scale.
Built for the next century of extreme engineering.

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One alloy. One orbit. At a time.

Two core missions

Foundational technologies for the next century of aerospace.

High-Entropy Alloys AI Platform

A generative AI system that designs novel, ultra-stable high-entropy alloys by combining machine learning, quantum chemistry simulations, and active learning. The platform rapidly predicts and optimizes metal compositions for extreme heat resistance, strength, and durability.

Target applications

Hypersonic vehicles Jet engines & turbines Fusion reactors Space hardware

Learn more about HEA →

Autonomous Orbital Debris Removal AI

Intelligent software that coordinates satellite swarms to predict, intercept, and safely de-orbit space junk. Reinforcement learning on real-time astrodynamics data aims to make large-scale orbital cleanup commercially viable.

Target applications

Mega-constellations Space domain awareness Sustainable orbital operations

Learn more about orbital →

Current stage

Research-grade intelligence is live. Physical validation is the next milestone.

We have operational retrieval and synthesis over a curated corpus of refractory high-entropy alloy and orbital debris literature, integrated with public computational datasets. Today we deliver structured technical intelligence reports — grounded in published research, cross-referenced against computational predictions, and clearly labeled by evidence type.

Our pipeline already turns fragmented papers and simulation outputs into decision-ready briefs for alloy selection, mission architecture, and technology gap analysis. That capability is real and in use now.

Literature retrieval & synthesis across HEA and orbital debris domains
Computational cross-checks against Materials Project, AFLOW, and JARVIS
Structured reports with explicit separation of experiment, prediction, and inference

What we have not done yet: produce or independently validate physical alloy samples. We are honest about that boundary — and focused on reaching it with the right partners.

What we deliver today

Technical Intelligence Reports

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Alloy Recommendation Reports

Structured recommendations for refractory high-entropy alloys with evidence basis, predicted properties, and strategic relevance.

Orbital Debris Strategy Briefs

Analysis of autonomous debris removal approaches, mission architectures, and technology gaps grounded in current literature.

Materials Intelligence

Synthesis across peer-reviewed literature and public computational datasets (Materials Project, AFLOW, JARVIS).

Let’s build what comes next.

We are looking for strategic partners, program managers, and early collaborators who care about real materials and real orbits.

Contact the team

Forging the Futureof Space