Iterative Optimization: after completing one round of error detection and correction, the quantum error correction algorithm undergoes iterative optimization. This step involves continuously repeating ...

Shenzhen, May. 27, 2025––MicroAlgo Inc. (the "Company" or "MicroAlgo") (NASDAQ: MLGO), today announced efforts to improve the accuracy and reliability of quantum algorithms by exploring and ...

The core of quantum error correction algorithms lies in constructing stable quantum information encoding and efficient mechanisms for error detection and correction, ensuring the accuracy and ...

This step involves continuously repeating the processes of encoding, detection, and correction to progressively reduce the error rate in qubits and improve the accuracy of quantum algorithms.

Performance: The dual-rail qubit approach focuses on high fidelity and efficiency per qubit, aiming to achieve better results with fewer qubits compared to traditional scaling methods. Application: ...

These results herald the advent of early error-corrected quantum computation and chart a path toward large-scale logical processors. NOTE: They did error detection and the surface code distance was ...

Two other established error-detection techniques are checksum (add up all the bits of the entire message, document or program and produce a single sum) and cyclic redundancy check, which operates ...

A new technical paper titled “Error Detection and Correction Codes for Safe In-Memory Computations” was published by researchers at Robert Bosch, Forschungszentrum Julich, and Newcastle University.