Reversible computing and superconducting wires seem like hardware innovations. You are saying that this will actually materially change the nature of the algorithm you’d want to run?
I’d bet against. I’d be surprised if this was the case. As far as I can tell everything we have so seen so far points to a common simple core of general intelligence algorithm (basically an open-loop RL algorithm on top of a pre-trained transformers). I’d be surprised if there were materially different ways to do this. One of the main takeaways of the last decade of deep learning process is just how little architecture matters—it’s almost all data and compute (plus I claim one extra ingredient, open-loop RL that is efficient on long horizons and sparse data novel domains)
I don’t know for certain of course. If I look at theoretical CS though the universality of computation makes me skeptical of radically different algorithms.
Reversible computing and superconducting wires seem like hardware innovations. You are saying that this will actually materially change the nature of the algorithm you’d want to run?
I’d bet against. I’d be surprised if this was the case. As far as I can tell everything we have so seen so far points to a common simple core of general intelligence algorithm (basically an open-loop RL algorithm on top of a pre-trained transformers). I’d be surprised if there were materially different ways to do this. One of the main takeaways of the last decade of deep learning process is just how little architecture matters—it’s almost all data and compute (plus I claim one extra ingredient, open-loop RL that is efficient on long horizons and sparse data novel domains)
I don’t know for certain of course. If I look at theoretical CS though the universality of computation makes me skeptical of radically different algorithms.