MicroCloud Hologram Inc. Proposes Multi-Qubit Quantum State Sharing Scheme: Sharing Multiple Quantum Information in One Operation
MicroCloud Hologram (NASDAQ: HOLO) has announced a breakthrough in quantum computing with their proposed multi-qubit quantum state sharing scheme. The technology enables sharing multiple quantum information in a single operation through an innovative "one-time distribution + one-time recycle" mechanism.
The scheme achieves 3x improvement in resource efficiency through hyper-entangled state multiplexing, 30% reduction in measurement requirements, and maintains 85% fidelity under 1% channel error rate. The technology successfully demonstrated simultaneous sharing of 2 3-qubit GHZ states in a photonic system, reducing entangled particle usage by 50% and classical communication volume by 40%.
While showing promising results, the technology faces implementation challenges including automated preparation of high-dimensional entangled states and femtosecond-level timing synchronization requirements.
MicroCloud Hologram (NASDAQ: HOLO) ha annunciato una svolta nel calcolo quantistico con il loro innovativo schema di condivisione di stati quantistici multi-qubit. Questa tecnologia permette di condividere molteplici informazioni quantistiche in un'unica operazione grazie a un meccanismo innovativo di "distribuzione una tantum + riciclo una tantum".
Lo schema raggiunge un miglioramento di 3 volte nell'efficienza delle risorse tramite la multiplexazione di stati iper-entangled, una riduzione del 30% nei requisiti di misurazione e mantiene una fedeltà dell'85% con un tasso di errore del canale inferiore all'1%. La tecnologia ha dimostrato con successo la condivisione simultanea di 2 stati GHZ a 3 qubit in un sistema fotonico, riducendo l'uso di particelle entangled del 50% e il volume di comunicazione classica del 40%.
Nonostante i risultati promettenti, la tecnologia deve affrontare sfide di implementazione, come la preparazione automatizzata di stati entangled ad alta dimensionalità e requisiti di sincronizzazione temporale a livello di femtosecondi.
MicroCloud Hologram (NASDAQ: HOLO) ha anunciado un avance en la computación cuántica con su esquema propuesto para compartir estados cuánticos multi-qubit. La tecnología permite compartir múltiples informaciones cuánticas en una sola operación mediante un innovador mecanismo de "distribución única + reciclaje único".
El esquema logra una mejora de 3 veces en la eficiencia de recursos gracias a la multiplexación de estados hiperentrelazados, una reducción del 30% en los requisitos de medición y mantiene una fidelidad del 85% con una tasa de error del canal inferior al 1%. La tecnología demostró con éxito la compartición simultánea de 2 estados GHZ de 3 qubits en un sistema fotónico, reduciendo el uso de partículas entrelazadas en un 50% y el volumen de comunicación clásica en un 40%.
Aunque muestra resultados prometedores, la tecnología enfrenta desafíos de implementación, incluyendo la preparación automatizada de estados entrelazados de alta dimensión y requisitos de sincronización temporal a nivel de femtosegundos.
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� 방식은 과다 얽힘 상태 다중화로 자원 효율성을 3� 향상시키�, 측정 요구사항� 30% 감소시키�, 1% 이하 채널 오류율에� 85%� 충실�� 유지합니�. � 기술은 광자 시스템에� 2개의 3-큐비� GHZ 상태� 동시� 공유하는 � 성공했으�, 얽힌 입자 사용량을 50%, 고전 통신량을 40% ѫ습니�.
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MicroCloud Hologram (NASDAQ : HOLO) a annoncé une avancée majeure en informatique quantique avec leur schéma proposé de partage d'état quantique multi-qubit. Cette technologie permet de partager plusieurs informations quantiques en une seule opération grâce à un mécanisme innovant de « distribution unique + recyclage unique ».
Le schéma atteint une amélioration de 3 fois de l'efficacité des ressources grâce au multiplexage d'états hyper-enchevêtrés, une réduction de 30 % des besoins en mesures, et maintient une fidélité de 85 % avec un taux d'erreur de canal inférieur à 1 %. La technologie a démontré avec succès le partage simultané de 2 états GHZ à 3 qubits dans un système photonique, réduisant l'utilisation des particules enchevêtrées de 50 % et le volume de communication classique de 40 %.
Bien que les résultats soient prometteurs, la technologie doit relever des défis d'implémentation, notamment la préparation automatisée d'états enchevêtrés à haute dimension et les exigences de synchronisation temporelle au niveau de la femtoseconde.
MicroCloud Hologram (NASDAQ: HOLO) hat einen Durchbruch im Quantencomputing mit ihrem vorgeschlagenen Multi-Qubit-Quantenzustands-Teilungsschema bekanntgegeben. Die Technologie ermöglicht das Teilen mehrerer Quanteninformationen in einem einzigen Vorgang durch einen innovativen "Einmal-Verteilung + Einmal-Recycling"-Mechanismus.
Das Schema erzielt eine 3-fache Verbesserung der Ressourceneffizienz durch Hyperverschränkungs-Multiplexing, eine 30%ige Reduktion der Messanforderungen und hält eine 85%ige Treue bei einem Kanalfehlerrate von unter 1%. Die Technologie demonstrierte erfolgreich die gleichzeitige Teilung von 2 3-Qubit-GHZ-Zuständen in einem photonischen System, wodurch der Einsatz verschränkter Teilchen um 50% und das Volumen der klassischen Kommunikation um 40% reduziert wurde.
Trotz vielversprechender Ergebnisse steht die Technologie vor Implementierungsherausforderungen, darunter die automatisierte Vorbereitung hochdimensionaler verschränkter Zustände und Anforderungen an die Femtosekunden-Timing-Synchronisation.
- None.
- Technology faces significant implementation challenges in automated preparation of high-dimensional entangled states
- Requires complex femtosecond-level timing synchronization precision
- Limited by bandwidth constraints in quantum-classical interfaces
Insights
HOLO's multi-qubit sharing scheme significantly improves quantum resource efficiency but remains years from commercial application despite technical promise.
MicroCloud Hologram has developed a quantum state sharing technique that represents a meaningful advancement in quantum information processing efficiency. The core innovation enables multiple quantum states to be encoded into a single hyper-entangled state, effectively creating a "quantum express box" that can carry multiple qubits of information simultaneously.
The technical achievements are substantial: their approach increases resource efficiency threefold by utilizing multidimensional properties of photons, reduces measurement requirements by 30% while cutting errors to one-fifth of random measurement approaches, and maintains 85% fidelity even with a 1% channel error rate. The distributed reconstruction algorithm also addresses a critical quantum computing bottleneck by creating linear rather than exponential scaling.
However, practical implementation faces significant hurdles that investors should note. The technology requires automated preparation of high-dimensional entangled states, femtosecond-level timing synchronization, and improved quantum-classical interfaces. These challenges indicate this remains a laboratory-stage development rather than a near-term commercial product.
The company's work on the quantum Zeno effect for controlling state tunneling and their "measurement-material-device" collaborative design approach could eventually contribute to scalable quantum computing infrastructure, but the timeline for commercial application remains uncertain. This research positions MicroCloud within the competitive quantum computing landscape, though substantial engineering challenges remain before practical applications emerge.
The core process of the scheme can be likened to "quantum information express delivery": first, the dealer "packages" the target quantum state into a special entangled state, distributes it to participants through quantum channels, and then collaboratively reconstructs the original state based on local measurement data. Specifically, the dealer encodes \(m\) number of \(k\)-qubit states into a hyper-entangled state of \(n=m×k\) particles, for example, utilizing multidimensional properties such as polarization and path of photons to construct a "quantum express box," with each sub-entangled state carrying specific qubit information. After completing the encoding through quantum gate operations, the particles are distributed to participants, who obtain local data through generalized measurements and projective measurements. Finally, the dealer reconstructs the original state using a maximum likelihood estimation algorithm, with a fidelity exceeding
HOLO's technological innovation is reflected in three dimensions: first, the hyper-entangled state multiplexing technology breaks through the traditional single-state single-resource limitation, utilizing the multidimensional degrees of freedom of particles to enable a single photon to carry 3 qubits of information, improving resource efficiency by 3 times; second, the adaptive measurement strategy dynamically selects measurement bases, reducing the number of measurements by
The scheme successfully realized the simultaneous sharing of 2 3-qubit GHZ states in a photonic system, reducing the usage of entangled particles by
HOLO's research reveals the universal law of the quantum Zeno effect in controlling continuous state tunneling, and its technical framework not only provides a standardized solution for quantum dot isolation but also pioneers a new paradigm of "measurement-material-device" collaborative design. With further maturation of the technology, this achievement is expected to advance quantum computing from proof-of-principle to engineering applications, laying a critical foundation for building scalable quantum information processing platforms.
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
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