MicroCloud Hologram Inc. Explored the Combination of Detection Fields and Quantum Trajectories, Achieving In-depth Exploration and Accurate Measurement of Quantum Systems
MicroCloud Hologram (NASDAQ: HOLO) has announced breakthroughs in quantum systems research through the combination of detection fields and quantum trajectories. The company has successfully developed a method for studying quantum bits and physical interaction parameters through detection field interaction, requiring highly precise control and advanced experimental equipment.
HOLO's quantum trajectory simulation process involves determining initial quantum system states and detection field parameters, calculating their interaction, and analyzing random measurement records to understand system evolution patterns. The company's analytical method demonstrates broad applicability across different measurement strategies and input quantum states.
The research has shown superior measurement accuracy by calculating the theoretical lower bound of average discrimination error, which consistently proves lower than the average inference error across all test cases. This advancement provides more precise data and reliable results for quantum system research.
MicroCloud Hologram (NASDAQ: HOLO) ha annunciato delle scoperte significative nella ricerca sui sistemi quantistici grazie alla combinazione di campi di rilevamento e traiettorie quantistiche. L'azienda ha sviluppato con successo un metodo per studiare i qubit e i parametri di interazione fisica attraverso l'interazione dei campi di rilevamento, richiedendo un controllo estremamente preciso e attrezzature sperimentali avanzate.
Il processo di simulazione delle traiettorie quantistiche di HOLO comporta la determinazione degli stati iniziali del sistema quantistico e dei parametri del campo di rilevamento, calcolando la loro interazione e analizzando registrazioni di misurazioni casuali per comprendere i modelli di evoluzione del sistema. Il metodo analitico dell'azienda dimostra una grande applicabilità attraverso diverse strategie di misurazione e stati quantistici di input.
La ricerca ha mostrato una superiore accuratezza di misurazione calcolando il limite inferiore teorico dell'errore medio di discriminazione, che si dimostra costantemente inferiore all'errore medio di inferenza in tutti i casi di test. Questo progresso fornisce dati più precisi e risultati affidabili per la ricerca sui sistemi quantistici.
MicroCloud Hologram (NASDAQ: HOLO) ha anunciado avances significativos en la investigación de sistemas cuánticos mediante la combinación de campos de detección y trayectorias cuánticas. La empresa ha desarrollado con éxito un método para estudiar los qubits y los parámetros de interacción física a través de la interacción del campo de detección, lo que requiere un control extremadamente preciso y equipos experimentales avanzados.
El proceso de simulación de trayectorias cuánticas de HOLO implica determinar los estados iniciales del sistema cuántico y los parámetros del campo de detección, calculando su interacción y analizando registros de mediciones aleatorias para entender los patrones de evolución del sistema. El método analítico de la empresa demuestra una amplia aplicabilidad en diferentes estrategias de medición y estados cuánticos de entrada.
La investigación ha mostrado una superior precisión de medición al calcular el límite inferior teórico del error promedio de discriminación, que se demuestra constantemente inferior al error promedio de inferencia en todos los casos de prueba. Este avance proporciona datos más precisos y resultados confiables para la investigación de sistemas cuánticos.
MicroCloud Hologram (NASDAQ: HOLO)는 탐지 필드와 양자 궤도의 결합을 통해 양자 시스템 연구에서 중요한 혁신을 발표했습니다. 이 회사는 탐지 필드 상호작용을 통해 양자 비트와 물리적 상호작용 매개변수를 연구하는 방법을 성공적으로 개발했으며, 이는 매우 정밀한 제어와 고급 실험 장비를 요구합니다.
HOLO의 양자 궤적 시뮬레이션 프로세스는 초기 양자 시스템 상태 및 탐지 필드 매개변수를 결정하고, 이들의 상호작용을 계산하며, 시스템 진화 패턴을 이해하기 위해 무작위 측정 기록을 분석하는 것을 포함합니다. 회사의 분석 방법은 다양한 측정 전략과 입력 양자 상태에서 폭넓은 적용 가능성을 보여줍니다.
연구 결과, 평균 판별 오차의 이론적 하한을 계산하여 측정 정확도가 우수함을 입증했으며, 이는 모든 테스트 사례에서 평균 추론 오차보다 일관되게 낮습니다. 이 발전은 양자 시스템 연구를 위한 더 정밀한 데이터와 신뢰할 수 있는 결과를 제공합니다.
MicroCloud Hologram (NASDAQ: HOLO) a annoncé des percées dans la recherche sur les systèmes quantiques grâce à la combinaison de champs de détection et de trajectoires quantiques. L'entreprise a réussi à développer une méthode pour étudier les bits quantiques et les paramètres d'interaction physique par le biais de l'interaction des champs de détection, nécessitant un contrôle extrêmement précis et un équipement expérimental avancé.
Le processus de simulation des trajectoires quantiques de HOLO implique la détermination des états initiaux des systèmes quantiques et des paramètres des champs de détection, le calcul de leur interaction et l'analyse d'enregistrements de mesures aléatoires pour comprendre les modèles d'évolution du système. La méthode analytique de l'entreprise démontre une large applicabilité à travers différentes stratégies de mesure et états quantiques d'entrée.
La recherche a montré une précision de mesure supérieure en calculant la limite inférieure théorique de l'erreur de discrimination moyenne, qui s'avère constamment inférieure à l'erreur d'inférence moyenne dans tous les cas d'essai. Cette avancée fournit des données plus précises et des résultats fiables pour la recherche sur les systèmes quantiques.
MicroCloud Hologram (NASDAQ: HOLO) hat bedeutende Fortschritte in der Forschung an Quantensystemen durch die Kombination von Detektionsfeldern und Quantenbahnen bekannt gegeben. Das Unternehmen hat erfolgreich eine Methode entwickelt, um Quantenbits und physikalische Interaktionsparameter durch die Wechselwirkung von Detektionsfeldern zu untersuchen, was eine hochpräzise Kontrolle und fortgeschrittene experimentelle Ausrüstung erfordert.
Der Simulationsprozess der Quantenbahn von HOLO umfasst die Bestimmung der ursprünglichen Quantenzustände und der Parameter des Detektionsfeldes, die Berechnung ihrer Wechselwirkung und die Analyse zufälliger Messprotokolle, um die Evolutionsmuster des Systems zu verstehen. Die analytische Methode des Unternehmens zeigt eine breite Anwendbarkeit über verschiedene Messstrategien und Eingangsquantenzustände hinweg.
Die Forschung hat eine überlegene Messgenauigkeit gezeigt, indem der theoretische untere Grenzwert des durchschnittlichen Diskriminierungsfehlers berechnet wurde, der konsequent niedriger ist als der durchschnittliche Inferenzfehler in allen Testfällen. Dieser Fortschritt liefert genauere Daten und zuverlässige Ergebnisse für die Forschung an Quantensystemen.
- Developed innovative quantum measurement methodology with broad applicability
- Achieved superior measurement accuracy compared to existing methods
- Successfully prepared specialized detection field for quantum system research
- None.
To better understand the states and evolution of quantum systems, HOLO employed a quantum trajectory simulation method. Quantum trajectories are a powerful tool for describing the evolution of quantum systems, helping researchers gain deeper insights into the behavior of quantum systems under various conditions. By simulating random measurement records, a large amount of data can be obtained, providing a solid foundation for analyzing the characteristics of quantum systems. At the same time, the conditional evolution of quantum system states is clearly presented through quantum trajectories, enabling researchers to accurately grasp the changing patterns of quantum systems in different environments.
Specifically, the quantum trajectory simulation process used by HOLO is as follows: First, the initial state of the quantum system and the parameters of the detection field are determined. Then, based on the principles of quantum mechanics, the interaction process between the quantum system and the detection field is calculated. In this process, various possible quantum states and interaction methods are considered to ensure the accuracy of the simulation. Next, a large amount of quantum system state data is obtained through random measurement records. After processing and analyzing this data, the characteristics and evolution patterns of the quantum system can be determined. Finally, based on the analysis results, further research and optimization of the quantum system are conducted.
HOLO's analytical method has broad applicability. It is suitable for different measurement strategies and arbitrary input quantum states of the detection field pulses. This means that regardless of the measurement method used or the quantum state of the detection field, HOLO's method can be applied for analysis. This versatility provides great convenience for quantum system research, allowing different research teams to choose appropriate measurement strategies and detection field states based on their specific needs.
In terms of metrological advantages, HOLO has verified the superiority of its method in measurement accuracy by deterministically calculating the theoretical lower bound of the average discrimination error. Specifically, the average discrimination error is an important metric for assessing the measurement precision of quantum systems. Through precise theoretical calculations, HOLO determined the theoretical lower bound of the average discrimination error and compared it with the average inference error. The results show that, in all cases, the theoretical lower bound of the average discrimination error is lower than the average inference error. This indicates that HOLO's method has a clear advantage in measurement accuracy, providing more precise data and more reliable results for quantum system research.
In this quantum system study, HOLO achieved in-depth exploration and accurate measurement of quantum systems through the perfect integration of the detection field and quantum trajectories. Its innovative research methods and advanced technical approaches have laid a solid foundation for the development and application of quantum systems. It is believed that in the future, HOLO will continue to play an important role in the quantum field, making even greater contributions to the advancement of science and technology.
About MicroCloud Hologram Inc.
MicroCloud is committed to providing leading holographic technology services to its customers worldwide. MicroCloud's holographic technology services include high-precision holographic light detection and ranging ("LiDAR") solutions, based on holographic technology, exclusive holographic LiDAR point cloud algorithms architecture design, breakthrough technical holographic imaging solutions, holographic LiDAR sensor chip design and holographic vehicle intelligent vision technology to service customers that provide reliable holographic advanced driver assistance systems ("ADAS"). MicroCloud also provides holographic digital twin technology services for customers and has built a proprietary holographic digital twin technology resource library. MicroCloud's holographic digital twin technology resource library captures shapes and objects in 3D holographic form by utilizing a combination of MicroCloud's holographic digital twin software, digital content, spatial data-driven data science, holographic digital cloud algorithm, and holographic 3D capture technology. For more information, please visit http://ir.mcholo.com/
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