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I want to optimize some division algorithm for large numbers, but this is dependent on how fast i can multiply the divisor with powers of ten: divisor * power(10, n) where n is a positive integer. i know about some optimized multiplication algorithms such as the use of FFT, but that still goes though O(nlog(n)), but am looking for something optimized for this case only, otherwise my algorithm performance will have performance greater than O(nlog(n)). Any idea if there is an optimization for this special case?

Note that i intend to implement this in C++.

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Sadly, I can't help much, but why are you working with powers of ten instead of the more natural powers of two ? –  J.N. Mar 12 '12 at 8:32
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You might try precalculating power(10, n) for the range of values of n you might encounter (given there can only be a few thousand before double's range's exhausted): put them into an array for direct indexing by n. –  Tony D Mar 12 '12 at 8:37
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@TonyDelroy: You should put some more details on it and put it as an answer, it is a good solution [IMO], which will probably be easier to implement and faster then FFT or other solutions. –  amit Mar 12 '12 at 8:39
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If you want to go fast, you have no choice but speaking a language your computer understands, that is binary. Every step of translation will cost you an order of magnitude in performance. –  J.N. Mar 12 '12 at 8:51
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Providing ideas on how your builtin integer work will help people give you better answers. –  J.N. Mar 12 '12 at 8:52
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1 Answer

If you use array to store large numbers, you can copy the divisor to a new array and add n zeros to the end of it. The new array is the the answer you want. The complexity is O(n).

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