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Communication Dans Un Congrès Année : 2019

Quantum Algorithms for Portfolio Optimization

Résumé

We develop the first quantum algorithm for the constrained portfolio optimization problem. The algorithm has running time $\widetilde{O} \left( n\sqrt{r} \frac{\zeta \kappa}{\delta^2} \log \left(1/\epsilon\right) \right)$, where $r$ is the number of positivity and budget constraints, $n$ is the number of assets in the portfolio, $\epsilon$ the desired precision, and $\delta, \kappa, \zeta$ are problem-dependent parameters related to the well-conditioning of the intermediate solutions. If only a moderately accurate solution is required, our quantum algorithm can achieve a polynomial speedup over the best classical algorithms with complexity $\widetilde{O} \left( \sqrt{r}n^\omega\log(1/\epsilon) \right)$, where $\omega$ is the matrix multiplication exponent that has a theoretical value of around $2.373$, but is closer to $3$ in practice. We also provide some experiments to bound the problem-dependent factors arising in the running time of the quantum algorithm, and these experiments suggest that for most instances the quantum algorithm can potentially achieve an $O(n)$ speedup over its classical counterpart.

Dates et versions

hal-02411658 , version 1 (15-12-2019)

Identifiants

Citer

Iordanis Kerenidis, Anupam Prakash, Daniel Szilagyi. Quantum Algorithms for Portfolio Optimization. ACM AFT, 2019, Zurich, France. ⟨10.1145/3318041.3355465⟩. ⟨hal-02411658⟩
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