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Given a bit vector V = (101101), and a permutation function: F(x) = (a*x + b) mod p. Where a and b are random numbers and p is a prime number. How can I calculate the permutation of the vector V? Does F(x) take V as an entire value or should I use each bit in V as a x for the function?

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What's your context? Is the bit vector representing a number in binary? –  greyfairer Jun 20 '13 at 13:25
    
@greyfairer No it's just a bit vector –  Alex Twain Jun 20 '13 at 13:47
    
Permutation on a bit vector using that function doesn't make sense to me. It would make sense if it was a permutation matrix multiplication or something... –  greyfairer Jun 20 '13 at 15:19
    
Usually scalar multiplication / addition with a vector means multiplying / adding the number with / to each element, but this won't really make sense when talking about binary. If a and b were vectors as well, it could make sense. If I were to guess, I'd say you should treat the bit vector as the number the bits represent. –  Dukeling Jun 20 '13 at 15:57

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Yes in order to permute the bit vector, then take each bit and apply the permutation function on it.

An introduction to permutation functions

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In that definition, the permutation function gives the new position for each entry in the vector. E.g. for a=2, b=0, p=7, the function gives {0,1,2,3,4,5,6}->{0,2,4,6,1,3,5}.

Using this function, any vector of 7 elements can be permuted, transforming {a,b,c,d,e,f,g} into {a,c,e,g,b,d,f}.

This only works if the size of the vector is equal to the prime p. So for a bit vector move each element at position n to position a*n+b mod p.

This also works for non-prime number p, as long as a and b are co-prime with p.

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