Amber robot blueprint reference architecture diagram for 10Things

Amber reference architecture

The reference build for the 10Things deployment path.

Amber is the robot we use to make the 10Things approach tangible: robot modeling, capability definition, simulation evidence, robot-ready assets, hardware validation, and deployment packaging.

Amber reference robot build
Reference build in progress

Reference build in progress

Amber is the reference architecture for how 10Things turns robots into deployable systems.

Amber shows how a real robot can move through the 10Things process: understanding the hardware, defining what it can do, validating behavior in simulation, generating control paths, and preparing the work for safer deployment and sale.

Public proof assets, build footage, technical specs, availability details, and milestone evidence will be added as the reference architecture progresses through reviewed release milestones.

Status: Reference build in progress. Public proof assets, sales details, and technical milestones will be added as they are reviewed and released.

What Amber will demonstrate

A practical path from robot product to robot-ready code and deployment.

01Hardware understood
02Capabilities structured
03Simulation assets ready
04Robot-ready code generated
05Validation evidence
06Robot operationalized

Why it matters

Amber turns the 10Things workflow into a reference architecture.

Proof, not theater

The first robot moving through the workflow

Amber makes the 10Things process visible on a real robot: artifacts, tests, simulations, and deployment gates around a product intended for sale.

Simulation-first

Validate before real-world risk

The build will show how simulation and structured capability definitions reduce unknowns before behavior is pushed into real product hardware.

Deployment discipline

From prototype toward readiness

Amber is the reference architecture for turning a robot design into a more controlled, inspectable, and repeatable path toward field readiness and market availability.