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By huge numbers, I mean if you took a gigabyte (instead of 4/8 bytes etc.) and tried to add/subtract/multiply/divide it by some other arbitrarily large (or small) number.

Adding and subtracting are rather easy (one k/m/byte at a time):

out_byteN = a_byteN + b_byteN + overflowBit 

For every byte, thus I can add/subtract as I read the number from the disk and not risk running out of RAM.

For multiplying/dividing, simply do the above in a loop.

But what about taking the nth root of a HUGE number?

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Numerical operations have big-O runtime and memory complexity just like "real" programs do. We programmers just tend to ignore or minimize the variability of their expense by always using the same operand size. Wikipedia's coverage of math operations typically does include such analysis, though. en.wikipedia.org/wiki/Nth_root#Computing_principal_roots –  Potatoswatter Oct 8 '10 at 19:18
FYI, there are much faster ways of doing multiplication on large numbers. –  MAK Oct 8 '10 at 19:24
@MAK: actually the alternatives don't get much faster until the numbers get very large. –  R.. Oct 9 '10 at 3:29
By the way, nice question, but I wouldn't consider square root a "basic" operation. –  R.. Oct 9 '10 at 3:31
@R..: not very large though. To perform x*y, the OP is adding x to itself y times. Even if x and y are as small as 100 or 1000, the basic multiplication algorithm we learn in primary school is much faster. –  MAK Oct 9 '10 at 5:30

4 Answers 4

up vote 7 down vote accepted

Same as any other number: Newton iteration.

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No, your denominator is incorrect. Should be nx^(n-1) –  duffymo Oct 8 '10 at 19:04

Are you asking for something like "The GNU Multiple Precision Arithmetic Library" (at http://gmplib.org/)?

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You mean the GNU crash-your-program-with-abort()-when-passed-huge-numbers Multiprecision Arithmetic Library? –  R.. Oct 9 '10 at 3:29

There are multiple ways: Bisection, Newtons, Householder's method.


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You can use an Arbitrary-precision Arithmetic library. BigDigits is a good one.

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