A year in a day is not very impressive, but 365 years (of research) in a year is. Depending on how many people can be placed in these boxes at any given time, this may amount to three centuries worth of progress (at least in software and mathematics).
I think the characters in Primer may have done something like this, getting around a limitation of their time machine by putting a second time machine inside of the first. Then again, the movie isn’t always clear as to what’s happening, so it’s hard to tell...
The above comment would be insightful if it was a counterexample. This means it is not a counterexample. That means that it is not insightful. That means it is a counterexample. It’s like the least interesting number paradox of nonsense strings of letters.
Regardless, I might recognize the technical accuracy of your point, but your point is only superficially useful. I liked the original comment and thought that it was both funny and insightful. Yes, some of that insight is mine as well, rocks can’t sing or dance or use logic, but that doesn’t mean that the initial comment isn’t also interesting.
The above comment would be insightful if it was a counterexample. This means it is not a counterexample. That means that it is not insightful.
This does not follow. You’re treating the first premise like a double implication, but it’s certainly not true that the comment would be insightful if and only if it was a counterexample.
Clearly the comment “afsd;ljkurjzvn,x” was just a typo for “afsd:ljkurjzvn.x”, which I read as agreement with my point, making clever reference to complexity theory and Aaronson’s refutation of the waterfall argument.
Indeed. Put a hyperbolic time chamber inside another hyperbolic time chamber, and you get a speedup factor of 365 squared.
I think the characters in Primer may have done something like this, getting around a limitation of their time machine by putting a second time machine inside of the first. Then again, the movie isn’t always clear as to what’s happening, so it’s hard to tell...
Yeah, it would be interesting, but it’s not doable in either the original DBZ scenario, or in upload scenarios: you can’t emulate an emulator and get a speedup like that—the buckpassing doesn’t work, the computations still have to be done somewhere.
(Any optimization you could apply to emulating an emulation, like some sort of Futamura projection collapsing the emulated program and the emulated hardware, could be done at the original emulation level, so all it leaves you with is possible programming convenience and constant factors of inefficiency and indirection.)
You can have an arbitrarily deep sequence of speeding-up optimized nested emulations, with each subsequent emulation running faster by its container’s clock than the otherwise identical container would run by itself (by its own clock).
(The catch is that n obk gung’f ehaavat na rzhyngvba znl or fybjre ol vgf pbagnvare’f pybpx guna vs vg vfa’g.)
I think you’d have to get a pretty large team in there to see any substantial results. One person, working alone without feedback or contact with other scientists or any chance to do experiments won’t do very much more in 365 years than they would in one.
A year in a day is not very impressive, but 365 years (of research) in a year is. Depending on how many people can be placed in these boxes at any given time, this may amount to three centuries worth of progress (at least in software and mathematics).
yo dawg we heard you like hyperbolic time chambers
I think the characters in Primer may have done something like this, getting around a limitation of their time machine by putting a second time machine inside of the first. Then again, the movie isn’t always clear as to what’s happening, so it’s hard to tell...
Note: the above is actually a highly insightful comment if you stop and think about it for a second.
Any comment can seem insightful if you’re allowed to supply details until it makes sense.
I don’t think the details you have to supply here (you have to know what the meme is, I suppose?) are particularly difficult or unreasonable.
afsd;ljkurjzvn,x
The above comment would be insightful if it was a counterexample. This means it is not a counterexample. That means that it is not insightful. That means it is a counterexample. It’s like the least interesting number paradox of nonsense strings of letters.
Regardless, I might recognize the technical accuracy of your point, but your point is only superficially useful. I liked the original comment and thought that it was both funny and insightful. Yes, some of that insight is mine as well, rocks can’t sing or dance or use logic, but that doesn’t mean that the initial comment isn’t also interesting.
This does not follow. You’re treating the first premise like a double implication, but it’s certainly not true that the comment would be insightful if and only if it was a counterexample.
Clearly the comment “afsd;ljkurjzvn,x” was just a typo for “afsd:ljkurjzvn.x”, which I read as agreement with my point, making clever reference to complexity theory and Aaronson’s refutation of the waterfall argument.
So it’s isn’t rot13?
Indeed. Put a hyperbolic time chamber inside another hyperbolic time chamber, and you get a speedup factor of 365 squared.
I think the characters in Primer may have done something like this, getting around a limitation of their time machine by putting a second time machine inside of the first. Then again, the movie isn’t always clear as to what’s happening, so it’s hard to tell...
Yeah, it would be interesting, but it’s not doable in either the original DBZ scenario, or in upload scenarios: you can’t emulate an emulator and get a speedup like that—the buckpassing doesn’t work, the computations still have to be done somewhere.
(Any optimization you could apply to emulating an emulation, like some sort of Futamura projection collapsing the emulated program and the emulated hardware, could be done at the original emulation level, so all it leaves you with is possible programming convenience and constant factors of inefficiency and indirection.)
You can have an arbitrarily deep sequence of speeding-up optimized nested emulations, with each subsequent emulation running faster by its container’s clock than the otherwise identical container would run by itself (by its own clock).
(The catch is that n obk gung’f ehaavat na rzhyngvba znl or fybjre ol vgf pbagnvare’f pybpx guna vs vg vfa’g.)
I think you’d have to get a pretty large team in there to see any substantial results. One person, working alone without feedback or contact with other scientists or any chance to do experiments won’t do very much more in 365 years than they would in one.