We study an efficient algorithm to hash any single-qubit gate into a braid of Fibonacci anyons represented by a product of icosahedral group elements. By representing the group elements by braid segments of different lengths, we introduce a series of pseudogroups. Joining these braid segments in a renormalization group fashion, we obtain a Gaussian unitary ensemble of random-matrix representations of braids. With braids of length O(log(2)(1/epsilon)), we can approximate all SU( 2) matrices to an average error epsilon with a cost of O(log(1/epsilon)) in time. The algorithm is applicable to generic quantum compiling.
Topological Quantum Hashing with the Icosahedral Group / Burrello M; Xu HT; Mussardo G; Wan X. - In: PHYSICAL REVIEW LETTERS. - ISSN 0031-9007. - 104:(2010). [10.1103/PhysRevLett.104.160502]
Topological Quantum Hashing with the Icosahedral Group
Burrello M;
2010
Abstract
We study an efficient algorithm to hash any single-qubit gate into a braid of Fibonacci anyons represented by a product of icosahedral group elements. By representing the group elements by braid segments of different lengths, we introduce a series of pseudogroups. Joining these braid segments in a renormalization group fashion, we obtain a Gaussian unitary ensemble of random-matrix representations of braids. With braids of length O(log(2)(1/epsilon)), we can approximate all SU( 2) matrices to an average error epsilon with a cost of O(log(1/epsilon)) in time. The algorithm is applicable to generic quantum compiling.
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