A native understanding of the invisible
Our foundation model is the first of its kind, trained directly on electromagnetic fields and is the first step of a much larger effort.
The first foundation model for electromagnetism
We’re building the first foundation model for electromagnetism, one of the four fundamental forces of physics alongside the strong force, the weak force, and gravity. Electromagnetism governs nearly every system that transmits, senses, or connects. Our foundation model understands the electromagnetic world natively. Given a physical structure, it predicts electromagnetic behavior in milliseconds, 18,000× faster than traditional solvers at sub-1 dB error.
This is not a surrogate model. Where today’s ML-for-physics approaches train narrow approximations for specific components, we train a single foundation on electromagnetic fields directly. In other words, we train on the cause, not the effect.
Read the full technical deep dive →The beginning of something larger
Our foundation model is the first of its kind trained directly on electromagnetic fields and the start of a much larger arc. As the model scales, so does what it can design: from filters and antennas to full RF systems, from PCB-scale to silicon, and much more. We’re actively building with the world’s leading RF engineers and institutions to get there. Get a taste of where electromagnetic design is going.
Atlas RF StudioBeta
Atlas RF Studio is an interactive sandbox powered by our foundation model. Describe your requirements, and Atlas uses agentic workflows to generate candidate designs, run full EM simulations, and iterate autonomously. No simulation setup; no manual iteration.
- →Chat to design: describe your requirements in natural language
- →Atlas iterates autonomously: generates layouts and verifies behavior using our foundation model
- →Inspect candidate designs: compare layouts, S-parameters, and Smith charts
- →Launch parallel designs: explore multiple candidates at once
Stay in the loop
RF technology is often overlooked because it’s invisible, yet it underlies nearly every system that matters: communications, sensing, defense, and data infrastructure. The tools for designing these systems haven’t fundamentally changed in decades.
Foundation models change that. When design cycles compress from weeks to seconds, what gets built changes too. Systems too expensive to scale become manufacturable. Ideas that exist only in simulation become testable. That’s what we’re building toward.
Stay in the loop as we push further.