Neither of those quite cover it. They’re using memristors as a much more dense and energy-efficient way of creating neural nets. Their research program will try to work out the best neural net architectures for various fuzzy tasks, the kind of thing that we intuitively think is easy because we have special-purpose hardware for it: vision, motion control, extrapolating the paths of moving objects, efficient locomotion, and so on. If those things can be accelerated with energy-efficient memristor-based neuromorphic chips, then it would be a great boon for robotics.
I’m still hoping for a second industrial revolution, brought about by a combination of cheap energy and better robotics. If we could just improve those things, we could have all sorts of cool futuristic dreams come true: arcologies, cheaper seasteading, large-scale space-based manufacturing—the resources are there, if we can just exploit them cheaply and efficiently enough. This looks like it has a lot of potential. Anybody who’s done robotics work would love to have vision and motion-control processors that don’t have to be treated like blind idiot chips.
However, any implication that they’re looking at this as a way of building general AI is just press-release hyperbole. Their research program itself is focused strictly on easier-to-achieve things.
Neither of those quite cover it. They’re using memristors as a much more dense and energy-efficient way of creating neural nets. Their research program will try to work out the best neural net architectures for various fuzzy tasks, the kind of thing that we intuitively think is easy because we have special-purpose hardware for it: vision, motion control, extrapolating the paths of moving objects, efficient locomotion, and so on. If those things can be accelerated with energy-efficient memristor-based neuromorphic chips, then it would be a great boon for robotics.
I’m still hoping for a second industrial revolution, brought about by a combination of cheap energy and better robotics. If we could just improve those things, we could have all sorts of cool futuristic dreams come true: arcologies, cheaper seasteading, large-scale space-based manufacturing—the resources are there, if we can just exploit them cheaply and efficiently enough. This looks like it has a lot of potential. Anybody who’s done robotics work would love to have vision and motion-control processors that don’t have to be treated like blind idiot chips.
However, any implication that they’re looking at this as a way of building general AI is just press-release hyperbole. Their research program itself is focused strictly on easier-to-achieve things.