Quantum computing in civil engineering: Potentials and Limitations

TL;DR

This paper explores the potential and limitations of quantum computing for solving complex problems in civil engineering, providing an overview of its capabilities and constraints in this field.

Contribution

It offers a comprehensive analysis of where quantum computing can outperform traditional methods in civil engineering and discusses its practical limitations.

Findings

Quantum computing can potentially accelerate certain civil engineering computations.

Limitations include current hardware constraints and problem suitability.

The paper identifies specific civil engineering problems suitable for quantum solutions.

Abstract

Quantum computing is a new computational paradigm with the potential to solve certain computationally challenging problems much faster than traditional approaches. Civil engineering encompasses many computationally challenging problems, which leads to the question of how well quantum computing is suitable for solving civil engineering problems and how much impact and implications to the field of civil engineering can be expected when deploying quantum computing for solving these problems. To address these questions, we will, in this paper, first introduce the fundamentals of quantum computing. Thereupon, we will analyze the problem classes to elucidate where quantum computing holds the potential to outperform traditional computers and, focusing on the limitations, where quantum computing is not considered the most suitable solution. Finally, we will review common complex computation use cases in civil engineering and evaluate the potential and the limitations of being improved by quantum computing.