MicroAlgo Inc. Explores Optimization of Quantum Error Correction Algorithms to Enhance Quantum Algorithm Accuracy
MicroAlgo Inc. (NASDAQ: MLGO) has announced its exploration into optimizing quantum error correction algorithms to enhance quantum algorithm accuracy. The company's approach focuses on four key areas: quantum information encoding using redundant qubits, error detection through specific measurement operations, error correction to restore correct quantum states, and iterative optimization to progressively reduce error rates.
The company's quantum error correction algorithm features efficient encoding schemes that improve quantum information resistance to interference while maintaining high encoding efficiency. The technology demonstrates high sensitivity in error detection and strong robustness in correcting erroneous qubits. Applications span across quantum communication, quantum computing, quantum simulation, and quantum optimization.
MicroAlgo Inc. (NASDAQ: MLGO) ha annunciato il proprio impegno nell'ottimizzazione degli algoritmi di correzione degli errori quantistici per migliorare la precisione degli algoritmi quantistici. L'approccio dell'azienda si concentra su quattro aree chiave: codifica dell'informazione quantistica mediante qubit ridondanti, rilevamento degli errori tramite operazioni di misura specifiche, correzione degli errori per ripristinare gli stati quantistici corretti e ottimizzazione iterativa per ridurre progressivamente i tassi di errore.
L'algoritmo di correzione degli errori quantistici dell'azienda presenta schemi di codifica efficienti che aumentano la resistenza dell'informazione quantistica alle interferenze, mantenendo al contempo un'elevata efficienza di codifica. La tecnologia si distingue per l'alta sensibilità nel rilevamento degli errori e una forte robustezza nella correzione dei qubit errati. Le applicazioni spaziano dalla comunicazione quantistica, al calcolo quantistico, alla simulazione quantistica e all'ottimizzazione quantistica.
MicroAlgo Inc. (NASDAQ: MLGO) ha anunciado su exploración para optimizar algoritmos de corrección de errores cuánticos con el fin de mejorar la precisión de los algoritmos cuánticos. El enfoque de la compañía se centra en cuatro áreas clave: codificación de información cuántica utilizando qubits redundantes, detección de errores mediante operaciones de medición específicas, corrección de errores para restaurar estados cuánticos correctos y optimización iterativa para reducir progresivamente las tasas de error.
El algoritmo de corrección de errores cuánticos de la compañía presenta esquemas de codificación eficientes que mejoran la resistencia de la información cuántica a las interferencias, manteniendo una alta eficiencia de codificación. La tecnología muestra una alta sensibilidad en la detección de errores y una fuerte robustez en la corrección de qubits erróneos. Sus aplicaciones abarcan comunicación cuántica, computación cuántica, simulación cuántica y optimización cuántica.
MicroAlgo Inc. (NASDAQ: MLGO)는 양자 알고리즘의 정확도를 향상시키기 위해 양자 오류 수정 알고리즘 최적화를 탐구하고 있다고 발표했습니다. 회사의 접근법은 중복 큐비트를 이용한 양자 정보 인코딩, 특정 측정 연산을 통한 오류 감지, 올바른 양자 상태를 복원하는 오류 수정, 그리고 오류율을 점진적으로 줄이기 위한 반복 최적화의 네 가지 핵심 영역에 중점을 둡니다.
회사의 양자 오류 수정 알고리즘은 간섭에 대한 양자 정보의 저항성을 높이면서도 높은 인코딩 효율을 유지하는 효율적인 인코딩 방식을 특징으로 합니다. 이 기술은 오류 감지에 높은 민감도를 보이며, 잘못된 큐비트를 수정하는 데 강한 견고성을 갖추고 있습니다. 응용 분야는 양자 통신, 양자 컴퓨팅, 양자 시뮬레이션 및 양자 최적화에 걸쳐 있습니다.
MicroAlgo Inc. (NASDAQ : MLGO) a annoncé son exploration visant à optimiser les algorithmes de correction d'erreurs quantiques afin d'améliorer la précision des algorithmes quantiques. L'approche de l'entreprise se concentre sur quatre domaines clés : le codage de l'information quantique à l'aide de qubits redondants, la détection d'erreurs par des opérations de mesure spécifiques, la correction d'erreurs pour restaurer les états quantiques corrects, et l'optimisation itérative pour réduire progressivement les taux d'erreur.
L'algorithme de correction d'erreurs quantiques de l'entreprise propose des schémas de codage efficaces qui renforcent la résistance de l'information quantique aux interférences tout en maintenant une grande efficacité de codage. La technologie fait preuve d'une grande sensibilité dans la détection des erreurs et d'une forte robustesse dans la correction des qubits erronés. Ses applications couvrent la communication quantique, le calcul quantique, la simulation quantique et l'optimisation quantique.
MicroAlgo Inc. (NASDAQ: MLGO) hat bekannt gegeben, dass das Unternehmen an der Optimierung von Quantenfehlerkorrekturalgorithmen arbeitet, um die Genauigkeit von Quantenalgorithmen zu verbessern. Der Ansatz des Unternehmens konzentriert sich auf vier Hauptbereiche: Quanteninformationskodierung mit redundanten Qubits, Fehlererkennung durch spezifische Messoperationen, Fehlerkorrektur zur Wiederherstellung korrekter Quantenzustände und iterative Optimierung zur schrittweisen Verringerung der Fehlerraten.
Der Quantenfehlerkorrekturalgorithmus des Unternehmens zeichnet sich durch effiziente Kodierungsschemata aus, die die Widerstandsfähigkeit der Quanteninformation gegen Störungen verbessern und gleichzeitig eine hohe Kodierungseffizienz beibehalten. Die Technologie zeigt eine hohe Empfindlichkeit bei der Fehlererkennung und eine starke Robustheit bei der Korrektur fehlerhafter Qubits. Die Anwendungen reichen von Quantenkommunikation über Quantencomputing und Quantensimulation bis hin zur Quantenoptimierung.
- Development of a highly sensitive quantum error correction algorithm capable of detecting minor qubit errors
- Algorithm demonstrates strong scalability for various quantum computing system sizes
- Broad application potential across quantum communication, computing, simulation, and optimization fields
- No concrete implementation timeline or specific performance metrics provided
- Early-stage exploration without proven commercial viability
- Faces significant technical challenges in handling large-scale qubit systems
SHENZHEN, May 27, 2025 (GLOBE NEWSWIRE) -- MicroAlgo Inc. Explores Optimization of Quantum Error Correction Algorithms to Enhance Quantum Algorithm Accuracy
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 optimizing quantum error correction algorithms. Quantum error correction algorithms are designed to detect and correct errors in qubits. Due to the fragility of qubits during quantum computation, quantum states are easily affected by various noise and interference. Challenges such as ensuring efficient error correction in large-scale qubit systems and better adapting to the continuously changing error patterns in complex environments lead to errors occurring in qubits.
MicroAlgo optimizes quantum error correction algorithms by introducing redundant qubits (i.e., auxiliary qubits) and specific measurement operations to detect errors in qubits. It then uses a series of complex operations to correct these errors and restore the correct quantum state. 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 reliability of quantum computation.
Quantum Information Encoding: the first step of a quantum error correction algorithm is encoding quantum information. This is typically achieved by introducing redundant qubits—distributing the original quantum information across multiple qubits to form what is known as a quantum codeword. This encoding method allows quantum information to retain enough data, even in the presence of noise and interference, to detect and correct errors. An efficient quantum encoding scheme can enhance the resilience of quantum information to disturbances while maintaining high encoding efficiency.
Error Detection: after the quantum information has been encoded, the next step is error detection. This is accomplished through specific measurement operations, typically by measuring auxiliary qubits to determine whether errors exist in the quantum codeword. A well-designed, high-sensitivity measurement scheme can accurately detect even subtle errors in qubits. At the same time, the scheme should have strong robustness, allowing it to withstand various types of noise and interference and ensure accurate error detection.
Error Correction: once an error is detected in a quantum codeword, error correction must be performed. This typically involves a series of complex quantum operations to restore the erroneous qubits to their correct states. Developing an efficient error correction algorithm enables rapid and accurate localization and correction of faulty qubits based on the detected error information. The algorithm should also be highly scalable, allowing it to be applied to quantum computing systems of various sizes.
Iterative Optimization: after completing one round of error detection and correction, the quantum error correction algorithm undergoes iterative optimization. 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. Additionally, the algorithm can dynamically adjust the encoding scheme, measurement protocol, and correction algorithm based on feedback gathered during the iterations, further enhancing the performance of quantum error correction.
MicroAlgo's quantum error correction algorithm adopts an efficient quantum encoding scheme that enhances the resistance of quantum information to interference while maintaining high encoding efficiency. This quantum error correction algorithm is highly sensitive, capable of accurately detecting even minor errors in qubits. It also exhibits strong robustness, enabling it to quickly and precisely locate and correct erroneous qubits, and it offers excellent scalability.
MicroAlgo's quantum error correction algorithm holds broad application prospects across multiple fields. In the field of quantum communication, the algorithm enhances the anti-interference capability and security of quantum communications, providing strong support for quantum key distribution and quantum-secure communication. In the realm of quantum computing, the algorithm reduces error rates in qubits, thereby improving the accuracy and reliability of quantum algorithms, which strongly supports the promotion and adoption of quantum computing in practical applications. Additionally, the algorithm can be applied in areas such as quantum simulation and quantum optimization, offering new technological tools and solutions for research and development in these domains.
About MicroAlgo Inc.
MicroAlgo Inc. (the “MicroAlgo”), a Cayman Islands exempted company, is dedicated to the development and application of bespoke central processing algorithms. MicroAlgo provides comprehensive solutions to customers by integrating central processing algorithms with software or hardware, or both, thereby helping them to increase the number of customers, improve end-user satisfaction, achieve direct cost savings, reduce power consumption, and achieve technical goals. The range of MicroAlgo's services includes algorithm optimization, accelerating computing power without the need for hardware upgrades, lightweight data processing, and data intelligence services. MicroAlgo's ability to efficiently deliver software and hardware optimization to customers through bespoke central processing algorithms serves as a driving force for MicroAlgo's long-term development.
Forward-Looking Statements
This press release contains statements that may constitute "forward-looking statements." Forward-looking statements are subject to numerous conditions, many of which are beyond the control of MicroAlgo, including those set forth in the Risk Factors section of MicroAlgo's periodic reports on Forms 10-K and 8-K filed with the SEC. Copies are available on the SEC's website, www.sec.gov. Words such as "expect," "estimate," "project," "budget," "forecast," "anticipate," "intend," "plan," "may," "will," "could," "should," "believes," "predicts," "potential," "continue," and similar expressions are intended to identify such forward-looking statements. These forward-looking statements include, without limitation, MicroAlgo's expectations with respect to future performance and anticipated financial impacts of the business transaction.
MicroAlgo undertakes no obligation to update these statements for revisions or changes after the date of this release, except as may be required by law.
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