# Multiplication Algorithm for multipliers of powers of ten

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
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
@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
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
Providing ideas on how your builtin integer work will help people give you better answers. – J.N. Mar 12 '12 at 8:52