Hybrid quantum-classical optimization for financial index tracking
Abstract
Tracking a financial index boils down to replicating its trajectory of returns for a well-defined time span by investing in a weighted subset of the securities included in the benchmark. Picking the optimal combination of assets becomes a challenging NP-hard problem even for moderately large indices consisting of dozens or hundreds of assets, thereby requiring heuristic methods to find approximate solutions. Hybrid quantum-classical optimization with variational gate-based quantum circuits arises as a plausible method to improve performance of current schemes. In this work we introduce a heuristic pruning algorithm to find weighted combinations of assets subject to cardinality constraints. We further consider different strategies to respect such constraints and compare the performance of relevant quantum ans\"{a}tze and classical optimizers through numerical simulations.
Cite
@article{arxiv.2008.12050,
title = {Hybrid quantum-classical optimization for financial index tracking},
author = {Samuel Fernández-Lorenzo and Diego Porras and Juan José García-Ripoll},
journal= {arXiv preprint arXiv:2008.12050},
year = {2021}
}
Comments
24 pages, 12 figures. A few changes in structure implemented in version 2