Topological quantum computing is an alternative framework for avoiding the quantum decoherence problem in quantum computation. The problem of executing a gate in this framework can be posed as the problem of braiding quasiparticles. Because these are not Abelian, the problem can be reduced to finding an optimal product of braid generators where the optimality is defined in terms of the gate approximation and the braid's length. In this paper we propose the use of different variants of estimation of distribution algorithms to deal with the problem. Furthermore, we investigate how the regularities of the braid optimization problem can be translated into statistical regularities by means of the Boltzmann distribution. We show that our best algorithm is able to produce many solutions that approximates the target gate with an accuracy in the order of $10^{-6}$, and have lengths up to 9 times shorter than those expected from braids of the same accuracy obtained with other methods.
A Probabilistic Evolutionary Optimization Approach to Compute Quasiparticle Braids
Roberto Santana,R. B. McDonald,H. Katzgraber
Published 2014 in Asia-Pacific Conference on Simulated Evolution and Learning
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- Publication year
2014
- Venue
Asia-Pacific Conference on Simulated Evolution and Learning
- Publication date
2014-10-02
- Fields of study
Mathematics, Physics, Computer Science
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