MicroCloud Hologram Inc. Develops Quantum Random Number Generator (QRNG) of the Superposition and Entanglement Properties Based on Quantum Walks
MicroCloud Hologram Inc. (NASDAQ: HOLO) has announced the development of a new quantum random number generator (QRNG) based on quantum walks technology. The system leverages quantum properties of superposition and entanglement to generate multiple bits from a single qubit, offering enhanced efficiency over traditional random number generation methods.
The company's research focuses on analyzing quantum coherence through discrete-time quantum walk (DTQW) dynamics, incorporating randomness metrics in both position and coin spaces. Despite practical limitations in quantum walk steps due to experimental constraints, HOLO's research demonstrates that quantum walk dynamics can significantly enhance particle randomness.
This QRNG technology shows promise for applications in cryptography, offering improved security for encryption algorithms, and in scientific computing where high-quality random numbers are essential for accurate simulations. HOLO plans to continue optimizing the technology to improve performance and stability.
MicroCloud Hologram Inc. (NASDAQ: HOLO) ha annunciato lo sviluppo di un nuovo generatore di numeri casuali quantistici (QRNG) basato sulla tecnologia dei cammini quantistici. Il sistema sfrutta le proprietà quantistiche di sovrapposizione e intanglement per generare più bit da un singolo qubit, offrendo un'efficienza superiore rispetto ai metodi tradizionali di generazione di numeri casuali.
La ricerca dell'azienda si concentra sull'analisi della coerenza quantistica tramite la dinamica dei cammini quantistici a tempo discreto (DTQW), incorporando metriche di casualità sia negli spazi di posizione che in quelli delle monete. Nonostante le limitazioni pratiche nei passi del cammino quantistico dovute a vincoli sperimentali, la ricerca di HOLO dimostra che le dinamiche del cammino quantistico possono migliorare significativamente la casualità delle particelle.
Questa tecnologia QRNG presenta promettenti applicazioni nella crittografia, offrendo una maggiore sicurezza per gli algoritmi di crittografia, e nel calcolo scientifico, dove numeri casuali di alta qualità sono essenziali per simulazioni accurate. HOLO prevede di continuare a ottimizzare la tecnologia per migliorarne le prestazioni e la stabilità.
MicroCloud Hologram Inc. (NASDAQ: HOLO) ha anunciado el desarrollo de un nuevo generador de números aleatorios cuánticos (QRNG) basado en la tecnología de caminatas cuánticas. El sistema aprovecha las propiedades cuánticas de superposición y entrelazamiento para generar múltiples bits a partir de un solo qubit, ofreciendo una mayor eficiencia en comparación con los métodos tradicionales de generación de números aleatorios.
La investigación de la empresa se centra en analizar la coherencia cuántica a través de la dinámica de caminatas cuánticas en tiempo discreto (DTQW), incorporando métricas de aleatoriedad tanto en los espacios de posición como en los de moneda. A pesar de las limitaciones prácticas en los pasos de caminata cuántica debido a restricciones experimentales, la investigación de HOLO demuestra que la dinámica de caminatas cuánticas puede mejorar significativamente la aleatoriedad de las partículas.
Esta tecnología QRNG muestra un gran potencial para aplicaciones en criptografía, ofreciendo una mayor seguridad para los algoritmos de cifrado, y en computación científica, donde se requieren números aleatorios de alta calidad para simulaciones precisas. HOLO planea seguir optimizando la tecnología para mejorar su rendimiento y estabilidad.
MicroCloud Hologram Inc. (NASDAQ: HOLO)는 양자 경로 기술을 기반으로 한 새로운 양자 난수 생성기 (QRNG)의 개발을 발표했습니다. 이 시스템은 단일 큐비트에서 여러 비트를 생성하기 위해 중첩 및 얽힘의 양자 속성을 활용하여 전통적인 난수 생성 방식에 비해 효율성을 높입니다.
회사의 연구는 이산 시간 양자 경로 (DTQW) 역학을 통해 양자 일관성을 분석하는 데 중점을 두며, 위치와 동전 공간 모두의 무작위성 매트릭스를 포함합니다. 실험적 제약으로 인한 양자 경로 단계의 실제적인 제한에도 불구하고, HOLO의 연구는 양자 경로 역학이 입자의 무작위성을 주목롭게 향상시킬 수 있음을 보여줍니다.
이 QRNG 기술은 암호화 알고리즘에 대한 보안성을 개선하여 암호화 및 정확한 시뮬레이션을 위해 질 높은 난수가 필수적인 과학적 컴퓨팅 분야에서의 응용 가능성을 보여줍니다. HOLO는 성능과 안정성을 향상시키기 위해 기술을 계속 최적화할 계획입니다.
MicroCloud Hologram Inc. (NASDAQ: HOLO) a annoncé le développement d'un nouvel générateur de nombres aléatoires quantiques (QRNG) basé sur la technologie des marches quantiques. Le système exploite les propriétés quantiques de superposition et d'intrication pour générer plusieurs bits à partir d'un seul qubit, offrant ainsi une efficacité accrue par rapport aux méthodes traditionnelles de génération de nombres aléatoires.
Les recherches de l'entreprise se concentrent sur l'analyse de la cohérence quantique à travers la dynamique des marches quantiques en temps discret (DTQW), intégrant des métriques de randomisation à la fois dans l'espace de position et dans l'espace des pièces. Malgré les limitations pratiques des étapes de marche quantique en raison de contraintes expérimentales, la recherche de HOLO montre que la dynamique des marches quantiques peut considérablement améliorer l'aléatoire des particules.
Cette technologie QRNG présente des promesses pour des applications en cryptographie, offrant une sécurité améliorée pour les algorithmes de chiffrement, ainsi que dans le calcul scientifique où des nombres aléatoires de haute qualité sont essentiels pour des simulations précises. HOLO prévoit de continuer à optimiser la technologie pour améliorer ses performances et sa stabilité.
MicroCloud Hologram Inc. (NASDAQ: HOLO) hat die Entwicklung eines neuen quantenbasierten Zufallszahlengenerators (QRNG) bekannt gegeben, der auf der Technologie der quantenmechanischen Spaziergänge basiert. Das System nutzt die quantenmechanischen Eigenschaften der Überlagerung und Verschränkung, um mehrere Bits aus einem einzigen Qubit zu erzeugen, was eine höhere Effizienz im Vergleich zu herkömmlichen Methoden der Zufallszahlengenerierung bietet.
Die Forschung des Unternehmens konzentriert sich auf die Analyse der quantenmechanischen Kohärenz durch die Dynamik der diskreten Zeitquantengänge (DTQW) und integriert Zufallsmetriken sowohl im Positions- als auch im Münzraum. Trotz praktischer Einschränkungen bei den Quantenwanderungen aufgrund experimenteller Beschränkungen zeigt die Forschung von HOLO, dass die Dynamik der Quantenwanderungen die Zufälligkeit von Partikeln erheblich verbessern kann.
Diese QRNG-Technologie zeigt vielversprechende Anwendungen in der Kryptographie, da sie die Sicherheit von Verschlüsselungsalgorithmen erhöht, und in der wissenschaftlichen Berechnung, wo qualitativ hochwertige Zufallszahlen für genaue Simulationen unerlässlich sind. HOLO hat vor, die Technologie weiter zu optimieren, um die Leistung und Stabilität zu verbessern.
- Development of innovative QRNG technology with potential applications in cryptography and scientific computing
- Technical advancement allowing generation of multiple bits from single qubit, improving efficiency
- Potential competitive advantage in quantum technology sector
- Experimental limitations in quantum walk steps due to equipment precision and environmental interference
- Technology still requires further optimization and development
- Practical implementation challenges need to be overcome
Insights
MicroCloud Hologram's development of a quantum random number generator (QRNG) represents a potentially significant technological advancement, though its immediate business impact remains uncertain. In simple terms, think of this technology as a super-advanced random number generator that uses quantum physics principles to create truly unpredictable numbers - something important for cybersecurity and encryption.
The key technological differentiator lies in HOLO's unique approach using quantum walks, which allows generating multiple random bits from a single quantum bit (qubit). This could theoretically provide better efficiency than traditional methods. However, several important considerations need attention:
- While the technology sounds promising, HOLO is still in the research phase with no clear timeline for commercialization
- The quantum computing market, particularly for random number generation, is highly competitive with established players like ID Quantique and Quantum Numbers Corp
- The company's tiny market cap of
$34.3 million raises questions about its ability to fund continued R&D and eventual commercialization - No information is provided about potential partnerships, customers, or revenue projections
The technology could find applications in cybersecurity, scientific computing and financial services - all massive markets. However, investors should note that quantum technology commercialization typically requires significant capital investment and faces various technical challenges. The company's ability to overcome these hurdles and successfully bring this technology to market remains to be proven.
Quantum walks, as a process of quantum state evolution, possess unique properties of superposition and entanglement. HOLO has cleverly utilized these properties to construct the quantum random number generator (QRNG). Quantum walks offer several advantages, among which the ability to generate multiple bits from a single qubit is particularly noteworthy. In traditional random number generation methods, obtaining multiple bits from a single bit source faces many limitations, while quantum walks break through these constraints, greatly enhancing the efficiency and flexibility of random number generation.
In any practical system, the application of quantum walks has certain limitations. The practical limits are primarily determined by the number of quantum walk steps that can be achieved experimentally. For example, in experimental scenarios such as nuclear magnetic resonance, ion trapping, cold atoms, and photonic systems, the number of quantum walk steps is constrained by factors like the precision of experimental equipment and environmental noise interference. However, HOLO, through in-depth analysis and numerical simulations, has found that despite these limitations, the dynamics of quantum walks can still significantly enhance the randomness of the particle's initial state.
In their research, HOLO considers a special form of randomness quantification in quantum systems, namely the inherent randomness of measurements, which has been quantified as coherent measurement. Through the study of coherent measurements, HOLO further clarifies the operational aspects of quantum coherence. Quantum coherence is one of the key characteristics that distinguish quantum systems from classical systems, and a deeper understanding of its operational aspects helps to better utilize quantum properties for random number generation.
Since the QRNG protocol proposed by HOLO is entirely based on discrete-time quantum walk (DTQW) dynamics, it requires good randomness metrics to be incorporated in both the position and coin spaces. In the theoretical framework of quantum walks, coin space and position space are two key concepts. The coin space is analogous to the probability distribution in classical random processes, while the position space describes the particle's position state in space.
To assess the randomness associated with the coin space, HOLO employs a specific method. First, it is necessary to trace a portion of the Hilbert space related to the position space from the density matrix. The density matrix is a crucial tool in quantum mechanics for describing the state of a quantum system, and by manipulating it, information related to specific spaces can be extracted. After tracing out the portion related to the position space, HOLO can calculate the randomness described in the method section from the simplified density matrix. This calculation method, based on relevant theories in quantum information theory, enables accurate quantification of randomness in the coin space.
Similarly, by tracing the coin space, HOLO can calculate the randomness combined with the position space. Through separate calculations of the randomness in these two spaces and their comprehensive analysis, a thorough evaluation of the randomness quality of the quantum walk-based QRNG can be achieved. This dual consideration of randomness in both position and coin spaces makes the QRNG proposed by HOLO more comprehensive and reliable in terms of randomness generation.
Compared to traditional random number generation methods, HOLO's quantum walk-based QRNG offers significant advantages. Traditional random number generators are often limited by algorithms and hardware, and the random numbers they generate have certain limitations in terms of randomness and unpredictability. In contrast, the quantum walk-based QRNG leverages the inherent properties of quantum systems to generate truly random numbers, whose randomness is not constrained by classical algorithms, offering higher security and reliability.
In practical applications, HOLO's QRNG has broad prospects. In the field of cryptography, the security and randomness of random numbers are critical to encryption algorithms. The quantum walk-based QRNG can provide high-quality random keys for encryption algorithms, enhancing the security of cryptographic systems and effectively defending against various forms of attacks. In fields such as scientific computing and simulation, high-quality random numbers can also improve the accuracy and reliability of computational results, providing strong support for scientific research.
In the future, HOLO will continue to conduct in-depth research on quantum walk-based QRNG technology, constantly optimizing algorithms and experimental schemes, overcoming limitations in practical applications, and further improving the performance and stability of QRNGs.
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/
Safe Harbor Statement
This press release contains forward-looking statements as defined by the Private Securities Litigation Reform Act of 1995. Forward-looking statements include statements concerning plans, objectives, goals, strategies, future events or performance, and underlying assumptions and other statements that are other than statements of historical facts. When the Company uses words such as "may," "will," "intend," "should," "believe," "expect," "anticipate," "project," "estimate," or similar expressions that do not relate solely to historical matters, it is making forward-looking statements. Forward-looking statements are not guarantees of future performance and involve risks and uncertainties that may cause the actual results to differ materially from the Company's expectations discussed in the forward-looking statements. These statements are subject to uncertainties and risks including, but not limited to, the following: the Company's goals and strategies; the Company's future business development; product and service demand and acceptance; changes in technology; economic conditions; reputation and brand; the impact of competition and pricing; government regulations; fluctuations in general economic; financial condition and results of operations; the expected growth of the holographic industry and business conditions in
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