It the first phase of a 4-year project to build an optically connected, multi-node distributed quantum computing system.
The work will be based at the NQCC facility in Harwell and will involve removing scientific blocks to scaling quantum computers. NQCC's involvement with IDRA is supported by NSSIF (the National Security Strategic Investment Fund).
Scaling quantum computers to commercial utility requires billions of coherent operations across millions of qubits. Individual quantum cores or quantum processing units (QPU) will soon offer access to thousands of qubits per device.
The most promising route to scale these devices further, and the main focus of Project IDRA, is to network multiple QPUs together. In quantum computing, the term “networking” means to create entanglement between two distant qubits inside different QPUs - the same sort of entanglement that exists between qubits inside a QPU, and which powers the computation. In this case, a quantum networking layer creates entanglement between qubits inside multiple QPUs, which can then carry out complex computations by acting as one larger and more powerful machine.
Project IDRA is intended to address head-on the key technical risks limiting the development of distributed quantum processors and by removing this barrier will help to unlock the concept of distributed quantum computing.
Nu Quantum is developing a complete distributed quantum processor system, comprising high-efficiency qubit-photon interfaces and low-loss, high-rate, high-fidelity Quantum Networking Units (QNUs) as well as networking control and orchestration architectures. The collaboration aims to demonstrate entanglement rates and fidelities significantly beyond the academic state-of-the-art. The technologies created by Nu Quantum will be assembled, evaluated and tested in collaboration with the NQCC at the Harwell Campus in Oxfordshire.
There are multiple long-distance entanglement-based quantum networking testbeds - notably at TU Delft (Netherlands), Argonne and FermiLab National Labs (Chicago, Illinois), and Caltech-JPL (Los Angeles, California) around the world, but this project will set the UK apart in that it is the first specifically targeted at the networking of quantum processors toward scalable fault tolerant quantum computing within quantum data centres developed by an industrial partner.
Nu Quantum has announced the opening of an office at the Harwell Innovation Centre (a second location to their Cambridge HQ) co-located with the NQCC.
This project is complementary to the NQCC’s ‘SBRI: Development and Delivery of Quantum Computing Testbeds’, delivered in partnership with Innovate UK.
Once deployed, the NQCC will become a unique centre in the world with commercial QC systems across multiple qubit modalities available to researchers for the exploration of NISQ-era algorithm development, verification and benchmarking.
Thanks to these initiatives, the Harwell campus is expected to become home to a quantum ecosystem over the next few years anchored by the NQCC as a new National Laboratory.
According to Carmen Palacios, Co-founder and CEO of Nu Quantum, “The UK continues to lead in the field of quantum computing, which is set to be truly transformational for our society and the planet. We’re proud to be building on that base by collaborating with the NQCC to accelerate the usability and commercialisation of quantum computers, and to work together to build pioneering companies for a better future.”
”We are pleased to be collaborating with Nu Quantum to deliver the IDRA project, aimed at building an innovative optically-connected distributed quantum computing system,” said Dr. Michael Cuthbert, NQCC Director. “This is an important step towards a quantum data centre of the future.”
