This is one of the most interesting places where neuroscience and AI meet. If some behavior is already latent in the wiring, then biology may be teaching us something different from the standard “train on enough data” story. How much intelligence do you think is learned, and how much is built into the architecture?
"Biology’s bet: build the right wiring diagram, and intelligence is already latent in the architecture."
This has been obvious to me for decades. I've long said that the ONLY way we get "artificial intelligence" is to know how the human brain (our only model) does it.
And we don't know that...yet. The LLM technology doesn't even come close, as a number of AI experts are starting to realize, if they didn't before.
But how and where do you get this structure from to bootstrap our AI models with? Mapping connectomes of real organisms? Is such a mapping possible for larger organisms like rats or birds?
This is one of the most interesting places where neuroscience and AI meet. If some behavior is already latent in the wiring, then biology may be teaching us something different from the standard “train on enough data” story. How much intelligence do you think is learned, and how much is built into the architecture?
"Biology’s bet: build the right wiring diagram, and intelligence is already latent in the architecture."
This has been obvious to me for decades. I've long said that the ONLY way we get "artificial intelligence" is to know how the human brain (our only model) does it.
And we don't know that...yet. The LLM technology doesn't even come close, as a number of AI experts are starting to realize, if they didn't before.
But how and where do you get this structure from to bootstrap our AI models with? Mapping connectomes of real organisms? Is such a mapping possible for larger organisms like rats or birds?
Sir, could you provide the research paper or source of this discovery?