I don’t know, I’m not a physicist. Don’t they have vacuum energy and virtual particles and other stuff that makes even empty space full of information?
Not so much as near black holes. Just look at their respective entropies.
FWIW, I expect that the human brain will prove to be highly compressible with advanced molecular nanotechnology.
Do you mean the compressibility of a single human brain in isolation, or the compressibility of an individual human brain given that at least one other human brain has already been stored (or is expected to be available during restoration), or both? I expect the data storage requirements of the latter to be orders of magnitude smaller than the former.
Not so much as near black holes. Just look at their respective entropies.
FWIW, I expect that the human brain will prove to be highly compressible with advanced molecular nanotechnology.
Do you mean the compressibility of a single human brain in isolation, or the compressibility of an individual human brain given that at least one other human brain has already been stored (or is expected to be available during restoration), or both? I expect the data storage requirements of the latter to be orders of magnitude smaller than the former.
I was talking about the compressibility of a single human brain in isolation.