First, brains (and biological systems more generally) have many constraints that artificial networks do not. Brains exist in the context of a physically instantiated body, with heavy energy constraints. Further, they exist in specific niches, with particular evolutionary histories, which has enormous effects on structure and function.
Second, biological brains have different types of intelligence from AI systems, at least currently. A bird is able to land fluidly on a thin branch in windy conditions, while gpt4 can help you code. In general, the intelligences that one thinks of in the context of AGI do not totally overlap with the varied, often physical and metabolic, intelligences of biology.
All that being said, who knows what future AI systems will look like
First, brains (and biological systems more generally) have many constraints that artificial networks do not. Brains exist in the context of a physically instantiated body, with heavy energy constraints. Further, they exist in specific niches, with particular evolutionary histories, which has enormous effects on structure and function.
Second, biological brains have different types of intelligence from AI systems, at least currently. A bird is able to land fluidly on a thin branch in windy conditions, while gpt4 can help you code. In general, the intelligences that one thinks of in the context of AGI do not totally overlap with the varied, often physical and metabolic, intelligences of biology.
All that being said, who knows what future AI systems will look like