Quebec startup shows progress toward practical quantum computing

Quebec startup shows progress toward practical quantum computing

Nord Quantique says it has successfully used one of its own devices to encode a form of error detection for the first time

Nord Quantique claims error-correcting quantum physics breakthrough

Nord Quantique has announced what it calls a breakthrough in quantum physics that will make quantum error correction a bit better. Errors are the top obstacle today preventing the industry from having usable quantum computers, since the individual qubits are prone to mistakes and degradation. Typically, quantum computing companies address the error problem with redundancy. They add extra qubits to compensate for those that go off the rails. The …

Nord Quantique Demonstrates Multimode Encoding for Fault-Tolerant, Energy-Efficient Quantum Computing - Quantum Computing Report

Nord Quantique has announced a significant physics breakthrough that advances the field of quantum error correction (QEC) and positions its hardware for scalable, fault-tolerant performance with major energy efficiency gains. By implementing multimode encoding using a bosonic Tesseract code, the company demonstrated a new error correction technique that supports high performance while minimizing physical hardware [...] The post Nord Quantique De…

Nord Quantique: Multimode Quantum Encoding Cuts Qubit Count & Boosts Error Correction Performance

Nord Quantique has demonstrated a scalable quantum computing approach utilising multimode encoding with Tesseract codes to achieve robust error correction—potentially reducing qubit requirements and energy consumption—and paving the way for utility-scale, fault-tolerant systems projected by 2029.