I think it’s still faster than actual solutions in some cases, I’ve seen someone train an ML model to animate a cloak in a way that looks realistic based on an existing physics simulation of it and it cut the processing time down to a fraction
I suppose that’s more because it’s not doing a full physics simulation it’s just parroting the cloak-specific physics it observed but still
I suppose that’s more because it’s not doing a full physics simulation it’s just parroting the cloak-specific physics it observed but still
This. I’m sure to a sufficiently intelligent observer it would still look wrong. You could probably achieve the same thing with a conventional algorithm, it’s just that we haven’t come up with a way to profitably exploit our limited perception quite as well as the ML does.
In the same vein, one of the big things I’m waiting on is somebody making a NN pixel shader. Even a modest network can achieve a photorealistic look very easily.
I think it’s still faster than actual solutions in some cases, I’ve seen someone train an ML model to animate a cloak in a way that looks realistic based on an existing physics simulation of it and it cut the processing time down to a fraction
I suppose that’s more because it’s not doing a full physics simulation it’s just parroting the cloak-specific physics it observed but still
This. I’m sure to a sufficiently intelligent observer it would still look wrong. You could probably achieve the same thing with a conventional algorithm, it’s just that we haven’t come up with a way to profitably exploit our limited perception quite as well as the ML does.
In the same vein, one of the big things I’m waiting on is somebody making a NN pixel shader. Even a modest network can achieve a photorealistic look very easily.