Yes, which is why I explicitly said that the scenario involves actual/manifest infinity of compute to actually implement the equations to actually make it a full world, and if you wanted to analogize physical laws to a computer system, I’d argue that they are analogous to the source code of a computer, or the rules/state of a Turing Machine, and I’m arguing that there is a very vast difference between us simulating Maxwell’s equations or the ideal gas law and the universe simulating whatever physical laws we turn out to actually have, and all of the difference is the universe has an actual infinity/manifest infinity of compute like FLOPs/FLOP/s and memory such that you can actually run the equations directly without relying on shortcuts to make the problem more tractable, whereas we have to rely on shortcuts that change the physics a little but get us a reasonable answer in a reasonable time.
Yes, which is why I explicitly said that the scenario involves actual/manifest infinity of compute to actually implement the equations to actually make it a full world, and if you wanted to analogize physical laws to a computer system, I’d argue that they are analogous to the source code of a computer, or the rules/state of a Turing Machine, and I’m arguing that there is a very vast difference between us simulating Maxwell’s equations or the ideal gas law and the universe simulating whatever physical laws we turn out to actually have, and all of the difference is the universe has an actual infinity/manifest infinity of compute like FLOPs/FLOP/s and memory such that you can actually run the equations directly without relying on shortcuts to make the problem more tractable, whereas we have to rely on shortcuts that change the physics a little but get us a reasonable answer in a reasonable time.
Oh I misparsed your comment somehow, I don’t even remember how.