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here is the problem from

ACM International Collegiate Programming Contest Asia Regional Contest, Yokohama, 2006-11-05

Starting with x and repeatedly multiplying by x, we can compute x^31 with thirty multiplications:

x^2 = x * x, x^3 = x^2 * x, x^6 = x^3 * x^3, x^7 = x^6 *x, x^14 = x^7 * x^7 ,
x^15 = x^14 * x, x^30 = x^15 * x^15 , x^31 = x^30 * x

write a program to find the least number of operations to compute x^n by multiplication and division starting with x for the given positive integer n and n<=200

for n = 31 the least #operations is 6
for n = 50 the least #operations is 7

Any ideas are welcome.

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@Martinho Fernandes - exponentiation by squaring will not use the minimum number of operations. –  IVlad Dec 28 '10 at 20:11

1 Answer 1

up vote 10 down vote accepted

See this: http://en.wikipedia.org/wiki/Addition-chain_exponentiation

There is no efficient algorithm that will get you the minimum number of steps, and dynamic programming does not work.

I am guessing that n is small enough to allow a brute force solution to pass, although it might need to be optimized. Do you know how to brute force it?

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+1 Oooh, shiny! I guess I've got my "new thing learned" for the day. Pity it's NP-complete though :( –  R. Martinho Fernandes Dec 28 '10 at 20:15
Yep, I think a lot of people will learn something interesting today :) +1 too –  Nikita Rybak Dec 28 '10 at 20:16
since it's NP complete, and n's domain is reasonably small, compile a table, and just do lookups... –  lijie Dec 29 '10 at 1:21
I don't think the NP-Hardness for finding the shortest chain for a single exponent is known. –  Aryabhatta Mar 23 '11 at 23:36

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