MicroCloud Hologram Inc. Launches a New Computing Paradigm -- Digital Analog Quantum Computing (DAQC)

Rhea-AI Summary

MicroCloud Hologram (NASDAQ: HOLO) has announced the launch of Digital Simulated Quantum Computing (DAQC), a new computational paradigm that combines digital quantum computing with simulated quantum simulation. The company has developed an efficient digital simulated quantum algorithm for calculating the Quantum Fourier Transform, demonstrating improved fidelity as the number of quantum bits increases.

HOLO implemented DAQC using the homogeneous all-to-all two-body Ising model and conducted numerical simulation experiments on quantum devices with 3, 5, 6, and 7 qubits. The test results showed that DAQC outperforms purely digital implementations in terms of quality and fidelity. While DAQC has some inherent noise sources, it eliminates errors from entangling two-qubit gates, addressing challenges in the noisy intermediate-scale quantum (NISQ) era.

Positive

• Successfully developed and validated a new quantum computing paradigm (DAQC)
• Demonstrated superior performance compared to purely digital implementations
• Achieved improved fidelity in Quantum Fourier Transform calculations

Negative

• Technology still contains inherent noise sources
• to experimental phase with small number of qubits (3-7)

Insights

Quantum Computing Scientist

<p>HOLO's Digital Analog Quantum Computing (DAQC) represents a <b>significant technical breakthrough</b> in addressing quantum computing's noise challenges. The hybrid approach combining digital and analog methods shows promising results in improving quantum Fourier transform fidelity - a critical component for practical quantum applications. The demonstrated scalability with increasing qubit counts is particularly noteworthy.</p><p>For context: Think of traditional quantum computing like trying to write with an extremely shaky hand - the more complex the writing (more qubits), the more errors occur. HOLO's DAQC approach is like using a digital stabilizer that gets better at steadying the hand as the writing gets more complex.</p>

Technology Market Analyst

<p>While technically impressive, this development requires cautious investor interpretation. The <b><money>$96M</money> market cap</b> suggests HOLO is still in early-stage development. The DAQC technology, though promising, faces significant commercialization hurdles in a field dominated by tech giants like IBM and Google, who have invested billions in quantum computing. The path to revenue generation remains unclear and the technology is still far from practical commercial applications.</p><p>Simple take: It's like having a promising blueprint for a revolutionary engine - impressive, but still a long way from becoming a working car that people can buy.</p>

Research Patent Analyst

<p>The intellectual property implications of HOLO's DAQC innovation warrant attention. Their implementation of the homogeneous all-to-all Ising model represents a novel approach that could be patentable, potentially creating valuable IP assets. However, the quantum computing patent landscape is heavily contested, with over <b>3,000 active patents</b> in this space. HOLO's ability to defend and monetize this innovation will be crucial.</p><p>Simplified explanation: Think of this like inventing a new recipe in a restaurant full of master chefs - the recipe might be brilliant, but protecting and profiting from it in a crowded kitchen is the real challenge.</p>

SHENZHEN, China, Jan. 6, 2025 /PRNewswire/ -- MicroCloud Hologram Inc. (NASDAQ: HOLO), ("HOLO" or the "Company"), today announced the launch of a brand new computational paradigm — Digital Simulated Quantum Computing (DAQC). This paradigm cleverly combines the flexibility of digital quantum computing with the robustness of simulated quantum simulation, paving new paths for the development of quantum computing. Under this emerging paradigm, HOLO is actively exploring and has proposed an efficient digital simulated quantum algorithm specifically designed for calculating the Quantum Fourier Transform. As a subroutine widely used in various related quantum algorithms, improving the computational efficiency and accuracy of the Quantum Fourier Transform is of crucial importance to the overall development of the quantum algorithm framework.

Based on reasonable assumptions about the noise model, HOLO conducted in-depth research and discovered that as the number of quantum bits involved gradually increases, the fidelity of the Quantum Fourier Transform performed using this digital simulated quantum algorithm can be significantly improved. This achievement is attributed to HOLO's thorough exploration of algorithm development and the effective application of the digital simulated quantum computing paradigm.

During the research process, HOLO selected the homogeneous all-to-all (ATA) two-body Ising model as the foundational resource for implementing DAQC and further represented its Hamiltonian as a non-homogeneous ATA two-body Ising model. This approach established a solid theoretical framework for the efficient implementation of the algorithm.

To validate the effectiveness and superiority of the algorithm, HOLO conducted extensive numerical simulation experiments. In-depth studies were carried out on quantum devices with 3, 5, 6, and 7 qubits. During the simulation process, a reasonable noise model for interactions was carefully considered and incorporated to ensure that the experimental environment closely resembles real quantum computing scenarios. Additionally, HOLO employed both purely digital methods and the DAQC method to comprehensively test specific families of states. The test results clearly demonstrated that the fidelity between the ideal transformation and the transformation achieved by DAQC improves significantly as the number of qubits increases, outperforming the fidelity provided by purely digital implementations in terms of quality.

Although the emerging paradigm of digital simulated quantum computing itself has certain sources of noise, it successfully eliminates the errors generated by entangling two-qubit gates. This key feature enables HOLO to overcome the challenges posed by existing technologies in the noisy intermediate-scale quantum (NISQ) era and successfully implement relevant quantum algorithms. This achievement underscores that, in the current NISQ era, hybrid protocols combining digital and simulated quantum computing are highly likely to become a wise and effective approach to achieving "useful quantum supremacy" in the field of quantum computing.

HOLO will continue to explore the digital simulated quantum computing paradigm in depth, continuously optimizing related algorithms. The company is dedicated to advancing the practical application and development of quantum computing technology, contributing to the global progress of quantum computing, and laying a solid foundation for collaborating with partners from various sectors to create a brilliant future for quantum computing.

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 China and the international markets the Company plans to serve and assumptions underlying or related to any of the foregoing and other risks contained in reports filed by the Company with the Securities and Exchange Commission ("SEC"), including the Company's most recently filed Annual Report on Form 10-K and current report on Form 6-K and its subsequent filings. For these reasons, among others, investors are cautioned not to place undue reliance upon any forward-looking statements in this press release. Additional factors are discussed in the Company's filings with the SEC, which are available for review at www.sec.gov. The Company undertakes no obligation to publicly revise these forward-looking statements to reflect events or circumstances that arise after the date hereof.

 

 

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SOURCE MicroCloud Hologram Inc.

FAQ

What is HOLO's new Digital Simulated Quantum Computing (DAQC) technology?

DAQC is a computational paradigm that combines digital quantum computing with simulated quantum simulation, designed to improve the efficiency and accuracy of quantum computations while eliminating errors from entangling two-qubit gates.

How many qubits did HOLO test in their DAQC experiments?

HOLO conducted experiments on quantum devices with 3, 5, 6, and 7 qubits.

What advantages does HOLO's DAQC technology offer over traditional methods?

DAQC shows improved fidelity compared to purely digital implementations, especially as the number of qubits increases, and eliminates errors from entangling two-qubit gates.

What is the significance of HOLO's DAQC for the NISQ era?

DAQC represents a hybrid approach that could achieve 'useful quantum supremacy' in the noisy intermediate-scale quantum (NISQ) era by overcoming existing technological challenges.