Nord Quantique
About Nord Quantique
Nord Quantique
Nord Quantique is a pioneering quantum error correction company founded in 2020 in Sherbrooke, Quebec, that develops fault-tolerant quantum computers using bosonic codes and multimode encoding with their breakthrough Tesseract code, exploiting the natural redundancy of photons within quantum modes to achieve built-in error resilience without requiring more physical qubits, demonstrating industry-first quantum error correction at the qubit level with plans to deliver utility-scale machines exceeding 100 logical qubits by 2029 while consuming dramatically less energy than classical HPC systems.
Company Information
- Founded: 2020
- Country: Canada
- Website: https://nordquantique.ca
- Categories: hardware
Investment Information
- Status: private
- Total Raised: $28M
- Last Valuation: $120M
Recent Funding Rounds
- 2024-03-12: series-a - $15M - Series A funding for photonic quantum computing
- 2021-11-25: seed - $13M - Seed funding round
Related Companies
Explore other quantum computing companies in similar categories or regions.
Company Information
Investment Information
Status
Private
Total Raised
$28M
2 funding rounds tracked. View detailed investment history →
⚠️ Important Disclaimer
Information for Educational Purposes Only: All information about Nord Quantique is provided for informational and educational purposes only. This is not investment, financial, or professional advice.
No Warranties: While we strive for accuracy, Quantum Zeitgeist makes no warranties regarding the accuracy, completeness, or timeliness of company information. The quantum technology industry evolves rapidly, and information may become outdated.
No Endorsement: Inclusion in Quantum Navigator does not constitute an endorsement, recommendation, or verification of Nord Quantique's claims, technology, or business viability.
Do Your Own Research: Always conduct independent due diligence and consult qualified professionals (financial advisors, lawyers, etc.) before making investment, business, or career decisions.
For more information, see our Terms of Service and Privacy Policy.