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sepoqc · Project

Scalable Photonic Quantum Computing Platform for High-Performance Complex Problem Solving

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Imagine a computer that uses particles of light instead of electricity to process information. Because light doesn't get disrupted as easily as electricity, these machines can handle massive calculations without losing data. It's like switching from a crowded city road to a wide-open highway for data to travel faster and cleaner.

By the numbers
25
years of research at C2N
The business problem

What needed solving

Current supercomputers cannot solve certain complex problems due to hardware limits and data decoherence. Businesses need a scalable, stable way to run quantum algorithms without losing information.

The solution

What was built

The MOSAIQ full-stack photonic quantum computing platform, including the PROMETHEUS single photon source and the PERCEVAL open-source control software.

Audience

Who needs this

Quantum algorithm developersHigh-performance computing centersPharmaceutical R&D departmentsFinancial engineering firms
Business applications

Who can put this to work

Pharmaceuticals
enterprise
Target: Drug discovery firm

If you are a drug discovery firm dealing with molecular simulations that crash current supercomputers — this project developed the MOSAIQ platform that uses light-based qubits to solve problems impossible for today's hardware.

Finance
mid-size
Target: Quantitative hedge fund

If you are a hedge fund dealing with extreme portfolio optimization complexity — this project developed a scalable quantum computing stack that minimizes information loss to process complex algorithms faster.

Logistics
enterprise
Target: Global supply chain operator

If you are a logistics operator dealing with routing problems that exceed classical computing limits — this project developed a modular photonic system to run advanced quantum algorithms for optimization.

Frequently asked

Quick answers

What is the cost or pricing model for this technology?

Based on available project data, specific pricing is not disclosed, but the project is preparing commercialization through market segmentation analysis to identify customer groups.

Can this be produced at an industrial scale?

Yes, the project specifically aims to improve semiconductor wafer homogeneity to increase fabrication volumes and ensure high reproducibility.

What is the IP or licensing status?

The technology is based on over 25 years of research at the Center for Nanoscience and Nanotechnology and includes the open-source PERCEVAL software framework.

How does this integrate with existing IT infrastructure?

It provides a full-stack platform called MOSAIQ, which includes an operating system and a software stack to control and simulate the hardware layer.

What is the timeline for deployment?

The project period is from 2023-01-01 to 2024-12-31, focusing on improving performance and preparing for commercial launch.

Consortium

Who built it

The project is led by a single French SME, QUANDELA, which holds 100% of the industry ratio. This indicates a highly centralized development model where the company controls the entire value chain from semiconductor research to software stack.

How to reach the team

Contact QUANDELA in France regarding the MOSAIQ platform

Next steps

Talk to the team behind this work.

Contact us to explore photonic quantum computing partnerships