Recall

Learn faster and retain more with Recall. Use my code artem25 for 25% off a subscription, that is valid until 1 April 2026 - Recall: https://www.getrecall.ai/?t=artem Take my challenge on this video: https://app.getrecall.ai/c/b1eaba93-d755-5710-b075-373b6a26d02d ===== My name is Artem, I'm a neuroscience PhD student at Harvard University. 🌎 Website and Social links: https://kirsanov.ai/ 📥 "Receptive Field" neuro-newsletter: https://artemkirsanov.substack.com/ ✨ Support me on Patreon to get access to Discord community: https://patreon.com/artemkirsanov ===== How does the brain learn new tasks so quickly, without starting from scratch each time? In this video, we explore a recent paper from Tim Buschman’s lab at Princeton that provides compelling evidence for compositionality in the prefrontal cortex. By recording neural population activity while monkeys flexibly switch between tasks, the researchers uncover stable “sensory” and “motor” subspaces that are reused across contexts. We’ll examine how these reusable neural modules enable rapid generalization, how task-irrelevant information is actively suppressed, and how an internal “task belief” signal dynamically reconfigures cortical geometry to route information to the appropriate output. Together, these findings suggest that flexible intelligence may emerge from the brain’s ability to compose, amplify, and route reusable neural components, rather than rebuilding circuitry for every new problem. 🕒 OUTLINE: 00:00 Introduction 01:20 Sponsor: Recall 2:32 Task Setup 4:14 Detecting Neural Subspaces 5:54 Task Interference & Shared Subspaces 7:34 Neural Switchboard 8:50 Task Belief signal 10:50 Conclusion 📚 FURTHER READING & REFERENCES: Link to the paper (open access): https://www.nature.com/articles/s41586-025-09805-2 ===== Music by Artlist ===== **Disclaimer:** This channel is my personal project. The views and content expressed here are my own and are separate from my research role at Harvard University.