Every transmission channel loses data, and the real puzzle is recovering it without wasting bandwidth or computing power.

In 2026, quantum computing reached a long-awaited commercial tipping point, moving decisively from the noisy intermediate-scale quantum (NISQ) era toward the first stages of fault-tolerant operation.

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Algorithms called phantom codes could help quantum computers run complex programs without errors, overcoming a big hurdle for making the technology more broadly useful. Many popular error-correcting ...

A new technical paper titled “Leveraging Qubit Loss Detection in Fault-Tolerant Quantum Algorithms” was published by researchers at MIT, Harvard and QuEra Computing. “Qubit loss errors constitute a ...

The National Institute of Information and Communications Technology (NICT, President: TOKUDA Hideyuki Ph.D.) and the Nagoya Institute of Technology (NITech, President: OBATA Makoto), collaborated with ...

Japan's National Institute of Information and Communications Technology, Nagoya Institute of Technology, and Japan Aerospace Exploration Agency, have achieved what ...

These novel error-correction codes can handle quantum codes with hundreds of thousands of qubits, potentially enabling large-scale fault-tolerant quantum computing, with applications in diverse fields ...

Quantum computers hold incredible promise, but right now, they’re a bit like a brand new car with a faulty engine. They can do amazing things, but they’re prone to errors. Think of it this way: ...