Essentially, I’m using the definition of the first paragraph of this wikipedia article, where you imitate a real world system. although in this case, the model of the real world and the real world are the same object, so the simulation connotations usually used in lower-scale regimes break down, and thus I will be treating simulation and the real world as the same object.
Ok then that’s standard language and there’s no need to redefine it, you’re right.
Let’s try another example if you indulge my curiosity. If I use some cryptographic method you won’t be able to crack it without hypercomputing, but you could simulate cracking it if you could guess the secret. Is that the kind of thing you have in mind?
Essentially, I’m using the definition of the first paragraph of this wikipedia article, where you imitate a real world system. although in this case, the model of the real world and the real world are the same object, so the simulation connotations usually used in lower-scale regimes break down, and thus I will be treating simulation and the real world as the same object.
Link is below:
https://en.wikipedia.org/wiki/Simulation
Ok then that’s standard language and there’s no need to redefine it, you’re right.
Let’s try another example if you indulge my curiosity. If I use some cryptographic method you won’t be able to crack it without hypercomputing, but you could simulate cracking it if you could guess the secret. Is that the kind of thing you have in mind?