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Suppose I know the value of a^b (or XOR(a,b)). It is impossible to know a and b for two reasons: most importantly, (i) there are "infinite" solutions and (ii) the solutions are symmetric: if (a,b) is a solution, so is (b,a). The "infinite" is in quotes because if I fix the number of bits, there can only be a finite number of numbers like a and b. In fact a^b=x reduces the search space by a square root.

My question: Can I have a small number of symmetric bitwise equations with a very small set of solutions among d-bit numbers? I suspect that the answer is with log d equations, I can narrow the solutions to O(1) [in d ] but perhaps not. Feel free to use shift and simple arithmetic operations and emphasize briefness in your solution please. Also appreciated: Are ideas similar to this used in cryptography or hashing?


I am looking for a pair (x,y) among 1 digit binary numbers. The search space of pairs has 2*2 members. If I know x^y=1 then the search spaces is reduced to 2 pairs: {(0,1),(1,0)}. I cannot possibly reduce this set any further by symmetric conditions. Similarly, one starts with a search space of pow(pow(2,d),n) for n variables and would like to reduce it to factorial(n) after applying a small set of conditions. I think, a trivial solution is to write an equation for testing the last bit and combine it with d bit shifts on each variable. This reduces the space but seems not optimal.

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What is the form of a "symmetric bitwise equation"? – lijie Dec 8 '10 at 15:59
Any equation whose left and right sides do not change (in value) by any permutation of the variables, such as x^y^z==1 or (x&y)^(x&z)^(y&z)==x|y|z. – Kaveh_kh Dec 8 '10 at 17:14
Might get a better response on maths ( or possibly CS theory: – Orbling Dec 8 '10 at 17:43
I am considering moving it but I fear it to be too trivial for the CS theory people – Kaveh_kh Dec 8 '10 at 18:50
This is simply linear algebra for vector spaces over the the Galois field of two elements, GF(2). Well defined and well understood, but this is not the correct forum. would be more appropriate – James K Polk Dec 8 '10 at 23:47

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