2009
Quantum algorithm for identifying hidden polynomial function graphs
Publication
Publication
Quantum Information and Computation , Volume 9 - Issue 0706.1219 p. 0215- 0230
We consider a natural generalization of an abelian Hidden Subgroup Problem where the subgroups and their cosets correspond to graphs of linear functions over a finite field F with d elements. The hidden functions of the generalized problem are not restricted to be linear but can also be m-variate polynomial functions of total degree n>=2.
The problem of identifying hidden m-variate polynomials of degree less or equal to n for fixed n and m is hard on a classical computer since Omega(sqrt{d}) black-box queries are required to guarantee a constant success probability. In contrast, we present a quantum algorithm that correctly identifies such hidden polynomials for all but a finite number of values of d with constant probability and that has a running time that is only polylogarithmic in d.
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Rinton | |
Quantum Information and Computation | |
Organisation | Networks and Optimization |
Decker, T., Draisma, J., & Wocjan, P. (2009). Quantum algorithm for identifying hidden polynomial function graphs. Quantum Information and Computation, 9(0706.1219), 0215–0230. |