This reminds me of Deutsch's idea of the "jump to universality" in a chapter of The Beginning of Infinity. The summary:
> All knowledge growth is by incremental improvement, but in many fields there comes a point when one of the incremental improvements in a system of knowledge or technology causes a sudden increase in reach, making it a universal system in the relevant domain. In the past, innovators who brought about such a jump to universality had rarely been seeking it, but since the Enlightenment they have been, and universal explanations have been valued both for their own sake and for their usefulness. Because error-correction is essential in processes of potentially unlimited length, the jump to universality only ever happens in digital systems.
I believe Deutsch might argue that when error correction is implemented, a system becomes digital. Babbage's early computer, for example: "thus Babbage's computers assigned only ten different meanings to the whole continuum of angles at which a cogwheel might be oriented. Making the representation digital in that way allowed the cogs to carry out error-correction automatically"
Interesting take on it. I was thinking mainly of DNA with its explicitly error-correcting features that try to fix transcription mistakes (at least as I understand it? I don't do much of the squishy science) but then branched off into control loops. Sure, if you're talking encodings and entropy etc. then digital is kind of implied, but I don't think the quote I replied to requires such things:
> in many fields there comes a point when one of the incremental improvements in a system of knowledge or technology causes a sudden increase in reach, making it a universal system in the relevant domain
If you're learning to balance a stick on your finger, there's no digital algorithm executing. You're just trying to tune your feedback loop to move the base of the inverted pendulum so as to keep it upright. Yet there's a clear point where you move from being able to balance the stick for 1 second, to 2 seconds, to 5 seconds, and suddenly you can now do it indefinitely until you mess up or get bored.
That stick carries no data, so it's not "error correction" as it normally means in this kind of context. And if you tried to apply any data in the angle it would immediately be destroyed. Or if you distinguished between "stick up" and "stick not up" you're now applying error correction to a digital system with 2 states.
> All knowledge growth is by incremental improvement, but in many fields there comes a point when one of the incremental improvements in a system of knowledge or technology causes a sudden increase in reach, making it a universal system in the relevant domain. In the past, innovators who brought about such a jump to universality had rarely been seeking it, but since the Enlightenment they have been, and universal explanations have been valued both for their own sake and for their usefulness. Because error-correction is essential in processes of potentially unlimited length, the jump to universality only ever happens in digital systems.