AI’s next frontier is physics
Our foundational AI model is the first to be trained on the fundamental laws of physics. That provides the generalized knowledge to validate and simulate designs at incredible speeds and scale, with engineering-grade accuracy.
It’s an advancement in how we engineer and what we can discover.
Until now, AI’s advances have mostly served our digital worlds—but BeyondMath will deliver innovative impact to our physical world.
Explore thousands of designs and get real-time feedback with the first foundational AI model of physics.
Turn simulation into a strategic differentiator, not a bottleneck.
Go from concept to validated design in days, not months.
Explore radically new designs unconstrained by legacy data.
Achieve predictive accuracy that stands up to the real world.
Cut compute costs while expanding design capacity enterprise-wide.
Faster EV range extension, fuel efficiency, aero/thermal optimization
Lighter, more efficient designs under tighter regulatory timelines
Turbomachinery, wind, and renewables simulation at scale
Faster design iteration and mission-readiness modeling
Cooling/thermal management
Wind loading, acoustics, and airflow in built environments
Antenna Design and EMC
Consumer Electronics
Transform your workflow with 1000x faster validation
Upload your geometry directly — no solver ready mesh or preprocessing required. BeyondMath automatically interprets and prepares your model for simulation.
Run full-fidelity transient simulations using our foundational AI model of physics. Achieve engineering-grade accuracy up to 1000× faster than traditional solvers.
Visualize pressure, velocity, temperature, and other fields in real time. Export detailed results or integrate directly into the rest of your workflow.
BeyondMath was created to discover critical technology gains that will transform our world.
Discover the latest from BeyondMath
BeyondMath Selected to Provide AI-Driven Simulation and Design Optimization for £14M Honeywell-Led Aerospace Consortium