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WiMi Develops Quantum Error Mitigation Technology Based on Machine Learning

BEIJING, Dec. 23, 2024 /PRNewswire/ — WiMi Hologram Cloud Inc. (NASDAQ: WiMi) (“WiMi” or the “Company”), a leading global Hologram Augmented Reality (“AR”) Technology provider, today announced the development of an innovative solution: Machine Learning-based Quantum Error Suppression Technology (MLQES). This technology not only breaks through the error bottleneck in quantum computing but also demonstrates the potential to enhance the accuracy of quantum circuits through classical control and hybrid computing methods, without requiring additional quantum resources.

The computational potential of quantum computers stems from the unique properties of their qubits: through superposition, a quantum computer with a system of n qubits can provide a computational space of 2^n. This gives it a significant advantage in solving large-scale problems, particularly in fields such as factorization, molecular simulation, and artificial intelligence.

However, current quantum devices are still at the noisy intermediate-scale quantum (NISQ) stage, and the noise, thermodynamic disturbances, and other external environmental interferences during quantum circuit operations often lead to errors in qubits. Compared to errors in classical computing, quantum computing errors are more complex and harder to correct, with the risk of errors propagating throughout the quantum circuit. Therefore, effectively reducing these quantum computing errors is crucial for advancing quantum computing technology.

Traditional quantum error correction methods typically require additional qubits to store redundant information or use complex quantum error-correcting codes to fix errors. However, these methods not only consume significant quantum resources but also impose higher demands on the physical implementation of current NISQ devices. Against this backdrop, WiMi’s MLQES (Machine-Learning-Based Quantum Error Suppression) technology offers a new direction—by relying solely on the combination of classical computers and quantum devices, it can effectively reduce quantum errors without the need for additional quantum resources.

The core idea of WiMi’s Machine Learning-Based Quantum Error Suppression Technology (MLQES) is to predict potential errors in quantum circuits using machine learning models and dynamically adjust the circuit structure to minimize the impact of errors on the final computational results.

In MLQES, the quantum circuit is first analyzed using a supervised learning model. This supervised learning model is trained on a large dataset of historical quantum circuits and error distributions, enabling it to accurately predict common errors in different quantum circuits. When a new quantum circuit is input, MLQES can predict in real-time the potential error magnitude associated with various operations in the circuit, such as quantum gates, entanglement between qubits, and so on.

Once the machine learning model predicts that the error value in a quantum circuit exceeds a predetermined threshold, WiMi’s MLQES system triggers a circuit segmentation mechanism. This is one of the innovations of MLQES: to prevent the entire circuit from running under high-error conditions, MLQES can use an error-affected fragmentation strategy to split a large quantum circuit into two or more smaller sub-circuits. This segmentation strategy ensures that within each sub-circuit, errors are controlled within an acceptable range. MLQES employs an iterative segmentation process until the error prediction for each sub-circuit is below the set threshold.

The segmented sub-circuits can operate independently on the quantum device. Since the sub-circuits are smaller in scale, the entanglement and interaction between qubits become easier to control, thus reducing noise interference in quantum operations. Once each sub-circuit completes its execution, its output is sent to a classical computer for further processing.

On the classical computer, MLQES uses a classical reconstruction algorithm to combine the results from multiple sub-circuits into the output of the complete quantum circuit. This reconstruction process does not rely on additional quantum operations but leverages the powerful processing capabilities of classical computing to compensate for the limitations of quantum computation.

MLQES not only addresses the quantum error problem but also provides a scalable computational framework for the future of quantum computing. This technology combines the strengths of quantum computers and classical computers, using the powerful processing capabilities of classical computing to control the execution of quantum circuits. This fusion of classical and quantum computing opens up possibilities for further applications of future NISQ devices, especially in scenarios where the number of qubits is limited but high-precision computation is required. MLQES reduces the reliance on quantum error-correcting codes and redundant qubits in quantum computing while significantly enhancing the overall efficiency of quantum computation.

The launch of WiMi’s (NASDAQ: WIMI) MLQES technology marks an important step forward in quantum computing. At a stage when NISQ devices are still not fully matured, the ability to effectively reduce quantum computation errors means that more practical application scenarios can gradually be realized. Whether in quantum chemistry, optimization problems, or cryptography, error reduction will greatly enhance the feasibility and efficiency of quantum computing.

Compared to existing quantum error correction methods, the greatest advantage of MLQES is that it does not require additional qubit resources. For current quantum devices, qubit resources are highly limited, and maintaining these resources comes at a significant cost. MLQES simplifies the complex quantum error correction problem into a scalable classical-quantum hybrid computation problem, relying solely on classical computing control.

MLQES is designed for the current noisy intermediate-scale quantum (NISQ) devices. On these devices, quantum error correction becomes more challenging due to the operational noise of qubits and their limitations. MLQES is capable of adapting to these constraints, providing an easily implementable quantum error suppression solution.

Quantum computing is expected to bring about significant transformations in fields such as finance, materials science, and artificial intelligence. Through the MLQES technology, WiMi offers a more efficient and reliable quantum computing solution for these industries, helping businesses and research institutions to apply quantum computing to real-world production and research faster and earlier.

As an important milestone in the development of quantum computing technology, WiMi’s Machine Learning-Based Quantum Error Suppression Technology (MLQES) not only demonstrates the innovative potential of combining quantum and classical computing but also lays a solid foundation for more complex quantum computing applications in the future. Amid the intensifying global competition in quantum computing, the launch of MLQES will undoubtedly accelerate the popularization and application of quantum computing technology.

About WiMi Hologram Cloud

WiMi Hologram Cloud, Inc. (NASDAQ:WiMi) is a holographic cloud comprehensive technical solution provider that focuses on professional areas including holographic AR automotive HUD software, 3D holographic pulse LiDAR, head-mounted light field holographic equipment, holographic semiconductor, holographic cloud software, holographic car navigation and others. Its services and holographic AR technologies include holographic AR automotive application, 3D holographic pulse LiDAR technology, holographic vision semiconductor technology, holographic software development, holographic AR advertising technology, holographic AR entertainment technology, holographic ARSDK payment, interactive holographic communication and other holographic AR technologies.

Safe Harbor Statements

This press release contains “forward-looking statements” within the Private Securities Litigation Reform Act of 1995. These forward-looking statements can be identified by terminology such as “will,” “expects,” “anticipates,” “future,” “intends,” “plans,” “believes,” “estimates,” and similar statements. Statements that are not historical facts, including statements about the Company’s beliefs and expectations, are forward-looking statements. Among other things, the business outlook and quotations from management in this press release and the Company’s strategic and operational plans contain forward−looking statements. The Company may also make written or oral forward−looking statements in its periodic reports to the US Securities and Exchange Commission (“SEC”) on Forms 20−F and 6−K, in its annual report to shareholders, in press releases, and other written materials, and in oral statements made by its officers, directors or employees to third parties. Forward-looking statements involve inherent risks and uncertainties. Several factors could cause actual results to differ materially from those contained in any forward−looking statement, including but not limited to the following: the Company’s goals and strategies; the Company’s future business development, financial condition, and results of operations; the expected growth of the AR holographic industry; and the Company’s expectations regarding demand for and market acceptance of its products and services.

Further information regarding these and other risks is included in the Company’s annual report on Form 20-F and the current report on Form 6-K and other documents filed with the SEC. All information provided in this press release is as of the date of this press release. The Company does not undertake any obligation to update any forward-looking statement except as required under applicable laws.

View original content:https://www.prnewswire.com/news-releases/wimi-develops-quantum-error-mitigation-technology-based-on-machine-learning-302338319.html

SOURCE WiMi Hologram Cloud Inc.

Staff

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