The predicting computer
Imagine that determinism is true. Everything happens because of something else in a long chain of events, all following laws of nature, known and unknown to our current science.
In that case everything should be traceable back to the start of universe, if there ever was a start. Then the future must also be predictable (if not so then why?).
Now imagine that a super capable computer of some kind can then calculate everything that will happen given current state of everything and all ongoing processes.
It now predicts exactly what you are going to do and what you are going to think. Can you imagine doing that and not having any other option?
I have serious problems with answering yes to that question, even though I can’t rule out determinism completely.
In that case everything should be traceable back to the start of universe, if there ever was a start. Then the future must also be predictable (if not so then why?).
Now imagine that a super capable computer of some kind can then calculate everything that will happen given current state of everything and all ongoing processes.
It now predicts exactly what you are going to do and what you are going to think. Can you imagine doing that and not having any other option?
I have serious problems with answering yes to that question, even though I can’t rule out determinism completely.
Comments (33)
This is a pretty old idea in philosophy.
It even has a name.
It is called Laplace's demon
You will notice there are a number of arguments against the demon and one which should be of interest, even if you reject the others, is the one from David H. Wolpert.
If such prediction is impossible however, than I would say let's live in the illusion of a non-deterministic world, regardless of wether we do or not.
See, what's actually necessary to predict the future to a high degree of accuracy is for the past to contain it in every sense. Everything that can possibly happen would have to be predictable from the initial conditions based on like, a platonic landscape of potential forms or some such.
It's allready answered above, but I was not talking about observations but rather laws of nature. So if everything is determined from those laws of nature then at least an observer in another universe could calculate the future if our universe is some sort of predictable machine. I don't really see how the past is even necessary to know, if you know all objects, their current directions and all the laws the obey.
If the laws state the the objects given a situation can only end up one way, then that should be enough to predict the future.
My core point to take away, is that novelty is a complete myth in such a universe, and the future has to be contained within the past in its entirety, or at least to the extent that it is predictable. It isn't actually new or different, as it was always perceivable, or discernible from any point in the past before its occurrence. Just saying "the laws predict it" or whatever doesn't quite explain how this could be so, or in what form this could take?
Not sure I follow. Do you mean that novelty is excluded from a determinate universe or that novelty
I think all novelty rests on the past, that nothing is new under the sun, that what is new is a rearrangement of existing concepts. I doubt novelty in the sense of a novel series, something with no antecedent.
Not so sure about determinism, I think it is pretty much unsolvable problem due to its causal nature, the universe has no reason to be reasonable.
These so-called laws of nature have a fatal flaw. Which is...the problem of induction.
We cannot be 100% sure that there are any laws of nature. All scientifically analyzed phenomena could be just a probability streak and may alter behavior any time, any place.
In other words, determinism still needs to solve the problem of induction.
What do you all think?
No, I attempted to illustrate that being deterministic and being predictable aren't related.
I agree with you on the following
* Our knowledge on laws of nature comes from observations of the past or present.
* If we are interested in knowing why things are the way the are at (i.e. how the became the way) current, we must study the past.
But given knowledge about laws of nature (regardless of how we got that knowledge) and given knowledge about the present state, we can predict the future - if laws or nature only gives one possible outcome.
Novelty is just an illusion in such a universe (I would say thats terrible spontaneously), it something that appears to be unpredictable but was bound to happen all the time. Was that your point too?
If there are any laws of nature for everything, then the knowledge about them - all of them - is enough. What preceeded them in another universe does not affect us today and is there for not of interest in order to predict things.
Well if something is predictable than it must be determinstic. At least if we want certainty in our predictions.
The other way around I agree with you on. Things can be determinstic without being predictable, but that seems to Labe the case in extreme cases such as Laplaces demon.
The sense in which different things that never occurred yet existing in the past must be an ideal one, and not an empirical one. Just think about what it would mean to be an empirical one for a second.
What about my God schedule that perfectly predicts the future?
if you must obey that schedule then determinism is a fact. If you can do whatever you want with it - it's a prediction that may or may not be true, just someting that claims to be a prediction.
Surprisingly, according to the laws of physics, simulating the entire visible universe is indeed possible using a universal computer, from within the universe.
The visible universe is thought to contain about 10[sup]123[/sup] bits of information. A rudimentary quantum computer containing only a few hundred qubits vastly outstrips that!
Such a prediction is impossible for false physics under an out-dated conception of computing.
from the paper:
Your link doesn't work.
However, whatever you think determinism implies or otherwise, what can and cannot happen in the universe is solely determined by the laws of physics.
I strongly suspect that the paper you have tried to link to deals with classical computation, operating under the laws of classical physics - i.e. an outmoded conception of computation operating under false physics.
Strange. The link worked when I made the post but it now appears to be unavailable. ETA: It seems to work now.
Here's an alternative paper which makes a similar argument - DOES DETERMINISM IMPLY ABSOLUTE PREDICTABILITY?
False physics.
OK, perhaps that's a bit of an overstatement. There exists a very strange interpretation of quantum mechanics, that is compatible with that one-world determinism. It goes by the name "Super-Determinism". As far as I can tell, there are 3 people who hold that view, one being extremely famous.
Do you think that a few hundred qubits could completely simulate a black hole? And by that, I mean the object itself, not just the effect on things outside the event horizon.
That's ludicrous. The information within your computer cannot not be within the Universe. If it was to make accurate predictions about the Universe such a computer would need to contain every bit of information in the Universe including the information it contains about every bit of information in the Universe including the information it contains about every bit of information in the Universe including the information it contains about ...... infinite capacity in other words. Moreover just one step in any calculation toward predicting the future of the universe would involve a change of state of part of that information requiring a refresh of all of it to make the calculation valid leading to an infinte regression. The precise future of the Universe is therefore, by definition, incalculable by any calculation device within the Universe no matter how sophisticated. Moreover, by implication, it is equally impossible to calculate the exact history of the Universe to date.
It depends on the size of the black hole. If the black hole is smaller than the visible universe, then yes. More interestingly, a universal computer inside a black hole could simulate the black hole.
What does the algorithm for computing a black hole look like? Do we know that a quantum computer can operate as a turing machine, and do we know that black holes are computable?
Let's say the answer to the first is yes, do we know that a simulation running on qubits is more efficient than a classical computer? I know that quantum computers can perform some algorithms much faster, but I'm pretty sure there are plenty of programs that would not benefit. Like say, running Microsoft Office on a quantum computer.
So let's say you have hundreds of qubits available. Does that mean you could run Office 365 as a service for every human being on the planet?
Back to this. Let's say all of physics is computable with a few hundred qubits, including black holes and Microsoft Office for all sentient beings insid the visible universe. Do we know what the algorithm for consciousnes is, such that our simulated Office users experience the Joys of making yet another thrilling Powerpoint presentation?
Simple question:
How many bits of information are required to fully describe the visible universe?
How many states are available to a quantum computer comprising 1000 qubits?
So a universal computer could compute the result of itself being sucked into a black hole and having contact with the interior (singularity or whatever lies there).
Although, this seems unfair. I'm guessing the idea of simulating precludes the thing doing the simulating, otherwise we have regress and self-referential issues. I might as well ask if the computer can simulate itself itself being introduced to a really strong magnet, or whatever would disrupt a QC.
Perhaps a more fair question would be could a QC compute a black hole used as a computer? I ask, because there are some articles out there about the possibility of black hole computers:
https://aeon.co/essays/is-the-black-hole-at-our-galaxy-s-centre-a-quantum-computer
The visible universe could hold ~10[sup]124[/sup] bits of information if it were a black hole of the same size. I've seen arguments that the the number will be of the order ~10[sup]90[/sup] for a realistic non-black hole universe.
So, you need at most ~2[sup]412[/sup] bits of information to describe the universe. (I hope I did the change of base correctly i.e. 10^124 ~ 2^412)
A 1000 qubit quantum computer in a maximally entangled state, would require 2[sup]1000[/sup] bits to describe it!
Whatever is going on in a quantum computer, the Bekenstein bound does not apply!
We've got a pretty good idea of what it is like to fall into a black hole, so I don't see why you could not in principle do this - any finite system can be simulated to arbitrary accuracy by finite means.
Quoting Marchesk
A quantum computer has got to be isolated from its environment. This can never be perfectly achieved, but there seems to be ways around the technical issues involving extra qubits and error correction. It's thus perhaps not too much of a stretch to think of the QC as a black box, with which there is no interaction save for setting inputs and reading the output.
Haven't thought this through, but this feature of the QC might solve any perceived problems with regression etc. The QC is actually in its own Hilbert space!
What am I missing?
It is undoubtedly counter-intuitive, particularly as there is a great deal of work that indicates that for a classical Turing machine, operating under classical physics this could not be possible. I think the culprit is classical physics.
As I mentioned, the Bekenstein bound cannot apply to what is going on in a quantum computer. This implies that the state of a quantum computer, even its output in general, is not an observable.