Brain Design and Visualization
This journey is for robotics and AI practitioners who want to design and refine FEAGI brains as executable cognitive models, then observe how those brains behave in a closed loop with sensors and actuators. This path focuses on practical brain design workflows: understanding cortical structure, mapping connectivity, and inspecting runtime behavior with the visual tooling already integrated into FEAGI docs.
First Concept To Read
Before tooling walkthroughs, read the core concept page:
What This Journey Covers
- Core concepts needed to build and reason about a FEAGI brain model
- Brain Visualizer workflows for inspecting cortical areas and connections
- Navigation and analysis patterns for active brain state monitoring
- Practical steps to move from an empty brain layout to an inspectable model
Prerequisites
- A running FEAGI environment with access to the Brain Visualizer
- Comfort with reading technical diagrams and system state views
If FEAGI concepts like genome, cortical areas, and the NPU are new to you, read What Is a FEAGI Brain before the visualizer walkthroughs.
What You Will Be Able To Do
By the end of this journey, you will be able to:
- Navigate the Brain Visualizer efficiently across large cortical layouts
- Inspect cortical regions and connectivity to validate brain organization
- Use circuit and monitoring views to trace active sensorimotor pathways
- Apply visual checks to confirm whether a brain design matches intent
Start With Brain Visualizer Guides
Use the synced visualizer docs as your primary step-by-step references: