Technical report on a quantum-inspired solver for simulating compressible flows
Fluid Dynamics
2025-06-05 v1 Computational Physics
Quantum Physics
Abstract
This document presents a quantum-inspired solver for 2D Euler equations, accepted at the final phase of the Airbus-BWM Group Quantum Computing Challenge (ABQCC) 2024. We tackle the case study of Quantum Solvers for Predictive Aeroacoustic and Aerodynamic modeling tasks. We propose a tensor network based solver that scales polylogarithmically with the mesh size, in both runtime and memory. This provides a promising avenue for tackling the curse of dimensionality that plagues the direct numerical simulations in the field of computational fluid dynamics.
Cite
@article{arxiv.2506.03833,
title = {Technical report on a quantum-inspired solver for simulating compressible flows},
author = {Raghavendra Dheeraj Peddinti and Stefano Pisoni and Egor Tiunov and Alessandro Marini and Leandro Aolita},
journal= {arXiv preprint arXiv:2506.03833},
year = {2025}
}