We describe a quantum variational algorithm for securities transactions settlement optimization, based on a novel mathematical formalization of the problem that includes the most relevant constraints considered in the pan-European securities settlement platform TARGET2-Securities. The proposed algorithm is designed for Noisy Intermediate-Scale Quantum devices, specifically targeting IBM's superconducting qubit machines. We adopt non-linear activation functions to encode inequality constraints in the objective function of the problem, and design customized noise mitigation techniques to alleviate the effect of readout errors. We consider batches of up to 40 trades obtained from real transactional data to benchmark our algorithm on quantum hardware against classical and quantum-inspired solvers.
@article{arxiv.2501.08794,
title = {Securities Transaction Settlement Optimization on superconducting quantum devices},
author = {Francesco Martini and Daniele Lizzio Bosco and Carlo Barbanera and Serena Bernardini and Giacomo Ranieri and Francesca Cibrario and Davide Corbelletto and Giuseppe Bruno and Alessandra Di Pierro and Luca Dellantonio},
journal= {arXiv preprint arXiv:2501.08794},
year = {2025}
}