This becomes a philosophical question. I think you are still kinda stuck on a somewhat obsolete view of intelligence. For decades people thought that AGI would require artificial self awareness and complex forms of metacognition.
This is not the case. We care about correct answers on tasks, where we care the most about “0 shot” performance on complex real world tasks. This is where the model gets no specific practice on the task, just a lot of practice to develop the skills needed for each step needed to complete the task, and access to reference materials and a task description.
For example if you could simulate an auto shop environment you might train the model to rebuild Chevy engines and have a 0 shot test on rebuilding Ford engines. Any model that scores well on a benchmark of Ford rebuilds has learned a general understanding about the real world.
Then imagine you don’t have just 1 benchmark, but 10,000+, over a wide range of real world 0 shot tasks. Any model that can do at human level, across as many of these tests as the average human (derived with sampling since a human taking the test suite doesn’t have time for 10,000 tests) is an AGI.
Once the model beats all living humans at all tasks in expected value on the suite the model is ASI.
It doesn’t matter how it works internally, the scores on a realistic unseen test is proof the model is AGI.
This becomes a philosophical question. I think you are still kinda stuck on a somewhat obsolete view of intelligence. For decades people thought that AGI would require artificial self awareness and complex forms of metacognition.
This is not the case. We care about correct answers on tasks, where we care the most about “0 shot” performance on complex real world tasks. This is where the model gets no specific practice on the task, just a lot of practice to develop the skills needed for each step needed to complete the task, and access to reference materials and a task description.
For example if you could simulate an auto shop environment you might train the model to rebuild Chevy engines and have a 0 shot test on rebuilding Ford engines. Any model that scores well on a benchmark of Ford rebuilds has learned a general understanding about the real world.
Then imagine you don’t have just 1 benchmark, but 10,000+, over a wide range of real world 0 shot tasks. Any model that can do at human level, across as many of these tests as the average human (derived with sampling since a human taking the test suite doesn’t have time for 10,000 tests) is an AGI.
Once the model beats all living humans at all tasks in expected value on the suite the model is ASI.
It doesn’t matter how it works internally, the scores on a realistic unseen test is proof the model is AGI.
I think I understand, thank you. For reference, this is the tweet which sparked the question: https://twitter.com/RichardMCNgo/status/1735571667420598737
I was confused as to why you would necessarily need “understanding” and not just simple next token prediction to do what ChatGPT does