Near-term quantum computing techniques to address operational healthcare use-cases
The project focussed on improving the efficiency of a variety of operational challenges in NHS healthcare provision.
Find out moreBuilding the UK’s quantum computing capabilities
The NQCC is working with partners across industry, government and the research community to solve technology challenges and realise the benefits of quantum computers for social and economic development. Through our SparQ programme we engage with research institutions, companies, and government organisations to explore the potential of emerging quantum computers for tackling real-world applications.
Collaborative projects
Highlight Call on Quantum Computing:
Proof of Concept projects 2022-23
Data-driven reactivity prediction using computed quantum features for drug discovery
The project investigated a general approach where rich quantum-derived features can be used for downstream modelling without a significant understanding of reaction mechanisms.
Find out more
Quantum Monte Carlo radiation transport simulation
The project investigated the advantage offered by QC to make the runtime of Monte Carlo methods competitive with deterministic methods.
Find out more
Federated quantum machine learning for genomics data
The project investigated an FL solution implementation suitable for the NISQ hardware solutions with a particular focus on genomics datasets.
Find out moreHighlight Call on Quantum Computing:
Proof of Concept projects 2021-22
Automated control software to tune, stabilise and optimise qubits
The project investigated possible routes for creating an automated control software system to tune, stabilise and optimise qubits.
Find out more
Towards a quantum materials genome programme
The project paved the way for an accessible database of quantum tools for modelling key materials.
Find out more
Integrated photonics for ion trap quantum computing
The project explored the potential of thin-film lithium niobate as a future-proof material for photonics infrastructure in trapped-ion QC.
Find out more
Photonic quantum time-bin processing for image recognition
The project aimed to use software simulation of ORCA’s hardware environment to model image recognition problems on an ORCA PT-series system.
Find out moreCommercialising Quantum Technologies:
Feasibility Studies Call 2021-22
Realistic machine learning based ultra-fast simulator for semiconductor spin qubit devices
The project aimed to deliver an ultrafast simulator for semiconductor spin-qubit devices based on developments in classical M/L, quantum S/W and H/W.
Find out more
M-PIT: Miniature packaged ion traps
The project investigated to develop a high-performance, miniature and self-contained ion-trap system.
Find out more
INTERCOM: A high-performance ion-photon interface for multi-core trapped-ion QC
The project explored a device to enable quantum information to be transferred through photonic links between remote ion traps providing a scalable architecture.
Find out more