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Recently I was asked this question in a technical discussion. What is the longest possible loop that can be written in computational science considering the machine/architecture on which it is to run? This loop has to be as long as possible and yet not an infinite loop and should not end-up crashing the program (Recursion etc...)

I honestly did not know how to attack this problem, so I asked him if is it practically possible. He said using some computer science concepts, you can arrive at a hypothetical number which may not be practical but nevertheless it will still not be infinite.

Anyone here; knows how to analyse / attack this problem.

P.S. Choosing some highest limit for a type that can store the highest numerical value is apparently not an answer.

Thanks in advance,

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I'm curious what kind of answers come out of this. I can't help but think back to my Discrete class and learning about the smallest countable infinite set of numbers. +1 good topic! – Shaded Dec 23 '10 at 20:42
Define length. Time to run? Number of iterations? – Joseph Stine Dec 23 '10 at 20:45
@Joseph: There is no defined length, time or limit. Its a computer science theory test i think, wherein u need to arrive at the maximum possible number which is not infinite loop. – Abhay Dec 23 '10 at 20:49
@Abhay: It needs clarification. In my answer, I listed four possible problems this could be. – David Thornley Dec 23 '10 at 21:18
@David: I agree with the possibilities in your answer. But from a computer science perspective the 'Busy Beaver' comes close to an answer. I changed the wording 'programming languages' to 'computational science'. Let me know if the question is to the point. – Abhay Dec 23 '10 at 21:40
up vote 10 down vote accepted

You are getting into the field of turing machines.

Simply put (lets stay in the deterministic fields...) your computer/machine can be in a finite number of states that are passed during the algorithm. every state is unique and only occours once, otherwise you would by defnition have an endless loop. like "goto". we can remove that limitation, but it would not make much sense because then a trivial algorithm can be found that always has one more loop runs than every other possible algorithm.

so it depends on the machines possible states which you could naively translate by "its ram".

so the question now is: whats the longest possible loop on a machine that can be in X several states? and wikipedia gives the answer

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yes, i think this is how i would start to analyse the problem. – Abhay Dec 23 '10 at 20:47

Please read up on the Busy Beaver problem.

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but this could also be an infinite loop, so that's not what op wants. But very good answer, +1 – OlimilOops Dec 23 '10 at 20:49
@Oops: "this could also be an infinite loop"? Really? "The Turing machines in this class must meet certain design specifications and are required to eventually halt after being started with a blank tape" is the quote on Wikipedia. Is that wrong? – S.Lott Dec 23 '10 at 20:51
The Busy Beaver problem allows infinite tape which gives it the ability to have way longer loops with a finite number of states than I think a regular computer can do. – munificent Dec 24 '10 at 2:05
@munificent: An infinite tape is not the same as non-terminating. The "infinite tape" is a mathematical formalism that merely removes an arbitrary upper bound. The fact that the busy beaver algorithms must halt makes them finite. – S.Lott Dec 24 '10 at 15:28
Understood. But the reason a Busy Beaver program can run for a fantasticastically long (but not infinite) time with a relatively small number of states is because it has access to as much tape as it needs. Give a busy beaver a finite tape, and you'll find the bounds go way down. – munificent Dec 24 '10 at 17:37

The largest possible finite value? As a mathematician, I find that ridiculous. Perhaps the problem could be explained better.

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+1. Just find the reciprocal of an infinitesimal ;) – Blender Dec 23 '10 at 20:46

If we're talking about language limitation, well, some languages define arbitrary-precision integers (like Python and Common Lisp), so you could count up to any number you liked as far as the language goes. You could easily set it too large for any actual machine, but that's not a language limitation.

As far as counting on actual machines go, it's a matter of the number of possible states. For each bit you can allocate as a counter (and it doesn't have to be as one data element, since it's real easy to make an arbitrary-length counter), that's two states, so if you had 8G of memory available you could count to something like 2^8G with it. You could of course use the file system for more counter space.

Or, assuming you're not using physically reversible computation, you could check the minimum energy necessary to flip a bit, divide the amount of energy available (like the total expected solar output or whatever), and get a limit.

There is a limit for Turing machines of specified complexity. It goes up pretty fast.

There's too many possible answers to provide one.

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If "long" means time, the following finite loop should be a good bet:

for(unsigned long long i = 0; i < ULONG_LONG_MAX; ++i) sleep(UINT_MAX);

Okay this answer is not really serious, but actually my opinion is that the question is totally useless to ask in a job interview. Why? According to S.Lott's answer, this could be about the Busy Beaver problem which is almost 50 years old and is totally unknown because nobody could make use of it in a real job.

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