SciTechDaily
Researchers have developed a groundbreaking hybrid quantum error correction technique that integrates discrete and continuous variable methods. This new approach enhances fault tolerance and efficiency in quantum computing, offering up to four times the photon loss threshold and 13 times more resource efficiency. The technique, suitable for various systems including optical…
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Revolutionary Hybrid Tech Is Solving Quantum Computing’s Biggest Challenge
National Research Council of Science Technology
13:31
Researchers have developed a groundbreaking hybrid quantum error correction technique that integrates discrete and continuous variable methods. This new approach enhances fault tolerance and efficiency in quantum computing, offering up to four times the photon loss threshold and 13 times more resource efficiency. The technique, suitable for various systems including optical…
