Optimally compressed data is essentially indistinguishable from random noise. Could we tell the difference between a universe that has already been converted into computronium and one that’s empty? If you had an awful lot of matter and energy and wanted to make the most powerful computing device possible, would it end up looking a lot like a star? Nuclear fusion is a great energy source, and there’s lots of thermodynamic information in the atoms and molecules that make up a hot plasma.
Optimally compressed data is essentially indistinguishable from random noise. Could we tell the difference between a universe that has already been converted into computronium and one that’s empty?
Optimally compressed data also has the highest possible entropy (each bit is maximally informative), so that’s how a universe being used as computronium would look. So we’re not in such a universe, since:
a) It has too many observable regularities (i.e. we can and do further compress it by identifying laws of physics) b) black holes have the highest entropy per unit mass, and most of the universe isn’t one. c) ETA: entropy manages to keep increasing, so it can’t be at a maximum
It’s a great insight, but not that hard to prove (or at least “get” the reasoning behind it): anything that distinguishes the data from randomness is redundant information, and that redundancy can be used to further compress it.
(Obviously, that doesn’t count as a formal proof, &c.)
It’s a great insight, but not that hard to prove: anything that distinguishes the data from randomness is redundant information, and that redundancy can be used to further compress it.
(Obviously, that doesn’t count as a formal proof, &c.)
Optimally compressed data is essentially indistinguishable from random noise. Could we tell the difference between a universe that has already been converted into computronium and one that’s empty?
Optimally compressed data is maximum entropy, so that’s how a universe being used as computronium would look. So we’re not in such a universe, since:
a) It has too many observable regularities (i.e. we further compress it by identifying laws of physics) b) black holes have the most entropy per unit mass, and most of the universe isn’t one.
I’m not too up to date on my cosmology but isn’t it still theorized that dark matter accounts for more mass than visible matter? I would expect advanced civilizations to minimize energy wastage through electromagnetic emissions. I’m not sufficiently knowledgeable about physics to know whether computronium would possibly have the theorized characteristics of dark matter however.
Optimally compressed data is essentially indistinguishable from random noise. Could we tell the difference between a universe that has already been converted into computronium and one that’s empty? If you had an awful lot of matter and energy and wanted to make the most powerful computing device possible, would it end up looking a lot like a star? Nuclear fusion is a great energy source, and there’s lots of thermodynamic information in the atoms and molecules that make up a hot plasma.
Optimally compressed data also has the highest possible entropy (each bit is maximally informative), so that’s how a universe being used as computronium would look. So we’re not in such a universe, since:
a) It has too many observable regularities (i.e. we can and do further compress it by identifying laws of physics)
b) black holes have the highest entropy per unit mass, and most of the universe isn’t one.
c) ETA: entropy manages to keep increasing, so it can’t be at a maximum
YES! C.E. Shannon for the WIN :)
It’s a great insight, but not that hard to prove (or at least “get” the reasoning behind it): anything that distinguishes the data from randomness is redundant information, and that redundancy can be used to further compress it.
(Obviously, that doesn’t count as a formal proof, &c.)
It’s a great insight, but not that hard to prove: anything that distinguishes the data from randomness is redundant information, and that redundancy can be used to further compress it.
(Obviously, that doesn’t count as a formal proof, &c.)
Optimally compressed data is maximum entropy, so that’s how a universe being used as computronium would look. So we’re not in such a universe, since:
a) It has too many observable regularities (i.e. we further compress it by identifying laws of physics)
b) black holes have the most entropy per unit mass, and most of the universe isn’t one.
I’m not too up to date on my cosmology but isn’t it still theorized that dark matter accounts for more mass than visible matter? I would expect advanced civilizations to minimize energy wastage through electromagnetic emissions. I’m not sufficiently knowledgeable about physics to know whether computronium would possibly have the theorized characteristics of dark matter however.