Efficient QUantum ALgorithms for IndusTrY

HORIZON.2.4HORIZON-RIAID: 101080142
EC Contribution
€60,439
Consortium Size
12 orgs
Summary

A quantum revolution is unfolding, and European scientists are on the lead. Now, it is time to take decisive action and transform our scientific potential into a competitive advantage. Achieving this goal will be critical to ensuring Europe’s technological sovereignty in the coming decades. EQUALITY brings together scientists, innovators, and prominent industrial players with the mission of developing cutting-edge quantum algorithms to solve strategic industrial problems. The consortium will develop a set of algorithmic primitives which could be used as modules for various industry-specific workflows. These primitives include differential equation solvers, material simulation algorithms, quantum optimisers, etc. To focus our efforts, we target eight paradigmatic industrial problems. These problems are likely to yield to early quantum advantage and pertain to the aerospace and energy storage industries. They include airfoil aerodynamics, battery and fuel cell design, space mission optimisation, etc. Our goal is to develop quantum algorithms for real industrial problems using real quantum hardware. This requires grappling with the limitations of present-day quantum hardware. Thus, we will devote a large portion of our efforts to developing strategies for optimal hardware exploitation. These low-level implementations will account for the effects of noise and topology and will optimise algorithms to run on limited hardware. EQUALITY will build synergies with Quantum Flagship projects and Europe’s thriving ecosystem of quantum start-ups. Use cases will be tested on quantum hardware from three of Europe’s leading vendors and two HPC centres. The applications targeted have the potential of creating billions of euros for end-users and technology providers over the coming decades. With EQUALITY, we aim at playing a role in unlocking this value and placing Europe at the centre of this development. The project gathers 9 partners and has a budget of €6M over 3 years.

Consortium (12)

Project Results (23)

Source: CORDIS, the EU research results database.

Publications (12)
Efficient Thermalization and Universal Quantum Computing with Quantum Gibbs Samplers
Proceedings of the 57th Annual ACM Symposium on Theory of Computing· 2025DOI
Cambyse Rouzé, Daniel Stilck França, Álvaro M. Alhambra
A hybrid quantum algorithm to detect conical intersections
Quantum· 2024DOI
Emiel Koridon, Joana Fraxanet, Alexandre Dauphin, Lucas Visscher, Thomas E. O'Brien, Stefano Polla
Amorphous quantum magnets in a two-dimensional Rydberg atom array
Physical Review A· 2024DOI
Sergi Julià-Farré, Joseph Vovrosh, Alexandre Dauphin
Automated Reasoning in Quantum Circuit Compilation
Lecture Notes in Computer Science, Model Checking Software· 2024DOI
Dimitrios Thanos, Alejandro Villoria, Sebastiaan Brand, Arend-Jan Quist, Jingyi Mei, Tim Coopmans, Alfons Laarman
Enriching Diagrams with Algebraic Operations
Foundations of Software Science and Computation Structures. FoSSaCS 2024. Lecture Notes in Computer Science· 2024DOI
Alejandro Villoria, Henning Basold, Alfons Laarman
Noise-induced shallow circuits and absence of barren plateaus
arXiv e-prints· 2024DOI
Antonio Anna Mele, Armando Angrisani, Soumik Ghosh, Sumeet Khatri, Jens Eisert, Daniel Stilck França, Yihui Quek
On the expressivity of embedding quantum kernels
Machine Learning: Science and Technology· 2024DOI
Elies Gil-Fuster, Jens Eisert, Vedran Dunjko
Optimization of Quantum Systems Emulation via a Variant of the Bandwidth Minimization Problem
arXiv e-prints· 2024DOI
M. Yassine Naghmouchi, Joseph Vovrosh, Wesley da Silva Coelho, Alexandre Dauphin
Quantized Thouless pumps protected by interactions in dimerized Rydberg tweezer arrays
Physical Review A· 2024DOI
Sergi Julià-Farré, Javier Argüello-Luengo, Loïc Henriet, Alexandre Dauphin
Variational protocols for emulating digital gates using analog control with always-on interactions
Physical Review A· 2024DOI
Claire Chevallier, Joseph Vovrosh, Julius de Hond, Mario Dagrada, Alexandre Dauphin, Vincent E. Elfving
Equivariant quantum circuits for learning on weighted graphs
npj Quantum Information volume· 2023DOI
Andrea Skolik, Michele Cattelan, Sheir Yarkoni, Thomas Bäck, Vedran Dunjko
Shallow circuits for deeper problems
Physical Review A· 2023DOI
Adrián Pérez-Salinas, Radoica Draškić, Jordi Tura, Vedran Dunjko
Deliverables (11)