Physical AI

Every intelligent machine is a software-defined machine.

AI writes that software. LOCI predicts how it behaves on real hardware — before it ships.

LOCI predicts

TimingLatencyPowerEnergyVoltageThermalMemoryCacheRegressions

The machines it powers

RobotsAutonomous vehiclesDronesIndustrial automation
The Picture·Physical AI

AI Physics meets Physical AI.

A robot hand learns from a camera and pressure sensors. Claude Code writes its controllers and motion intelligence — and LOCI grounds that software on the robot’s real silicon, so a confident policy never becomes a motion the hardware can’t safely execute.

  • Camera + pressure trained

  • Claude writes the controllers

  • LOCI predicts the physics

  • Grounded, not hallucinated

Real siliconNo hallucinated motionPhysical AI
Robot hand · Physical AI real silicon
LOCI
CameravisionPressuretouchLOCIon-device

AI-written controllers, grounded on the robot’s real silicon before they move a motor.

Live·Physical AI

Watch LOCI catch the hallucination.

Claude Code writes the hand’s grasp controller — confident it’s safe. LOCI predicts how it actually runs on the MCU and stops the motion that would overrun the control period, before it ever drives a servo.

The agent fixes its own code — before a single line moves the hand.

robot-hand · grasp_controller.c + LOCI MCP live

How LOCI delivers it.

The engine · AI Physics

A behavioral foundation model trained on real hardware traces — predicting timing, power, energy, thermal, memory and cache from the compiled binary.

How it works

The surface · Cockpit

Execution signals and one verdict on every AI-generated change — live beside your coding agent, so nothing regresses before it reaches a machine.

See the Cockpit

The reach · every industry

One engine across robotics, automotive, aerospace, medical, industrial and edge — the software that runs the physical world, validated before silicon.

Explore industries

Trust the software that runs the physical world.