WiMi Deploys Quantum Computing Optimization Based on Multi-Objective Deep Reinforcement Learning

Rhea-AI Summary

WiMi (NASDAQ:WIMI) announced research on quantum computing optimization using multi-objective deep reinforcement learning. The approach replaces traditional single-objective control with a global framework that reuses single-process optimization results, targets multiple indicators, and adapts in real time to quantum system dynamics.

Key objectives include improving quantum gate fidelity, operational efficiency, noise suppression, and energy consumption control, aiming for globally optimal quantum control strategies and higher precision and robustness in quantum systems.

AI-generated analysis. Not financial advice.

News Market Reaction – WIMI

+1.86%

3 alerts

+1.86% News Effect

+$541K Valuation Impact

$29.60M Market Cap

0.0x Rel. Volume

On the day this news was published, WIMI gained 1.86%, reflecting a mild positive market reaction. Our momentum scanner triggered 3 alerts that day, indicating moderate trading interest and price volatility. This price movement added approximately $541K to the company's valuation, bringing the market cap to $29.60M at that time.

Data tracked by StockTitan Argus on the day of publication.

Market Reality Check

Price: $1.6400 Vol: Volume 358,828 is about 7...

low vol

$1.6400 Last Close

Volume Volume 358,828 is about 72% below the 20-day average of 1,285,720, suggesting a modest participation move. low

Technical Price at 1.61 is trading below the 200-day MA of 2.87, keeping the stock in a longer-term downtrend despite today’s gain.

Peers on Argus

WIMI gained 6.62% while momentum peers were mixed: 1 up and 2 down, and close in...

1 Up 2 Down

WIMI gained 6.62% while momentum peers were mixed: 1 up and 2 down, and close industry peers (e.g., ABLV, FLNT, SWAG) showed smaller positive moves. This points to a stock-specific reaction rather than a broad sector rotation.

Historical Context

5 past events · Latest: May 11 (Positive)

Pattern 5 events

Date	Event	Sentiment	Move	Catalyst
May 11	Quantum AI tech update	Positive	-1.3%	Announced RAE quantum feature mapping with better accuracy and robustness.
May 06	Quantum NLP model	Positive	+6.3%	Unveiled multi-scale quantum CNN for text with higher accuracy and efficiency.
Apr 24	2025 annual results	Positive	-1.1%	Reported RMB 347.1M net income, up 235.9% year over year.
Feb 18	Hybrid quantum-classical net	Positive	+0.6%	Proposed hybrid Inception model targeting better image classification performance.
Feb 06	H-QNN launch	Positive	+11.5%	Released hybrid quantum-classical network with lower compute time on MNIST.

Pattern Detected

Quantum/AI technical releases have often driven positive moves, while even strong fundamental or R&D updates have sometimes seen muted or negative next-day reactions.

Recent Company History

Over the last few months, WiMi has repeatedly highlighted quantum and AI innovations, including hybrid quantum-classical networks and advanced quantum CNN and feature-mapping designs. These releases (Feb–May 2026) have produced mixed but often positive price reactions, with some days up over 6%–11%. Separately, the Apr 24, 2026 annual report showed a sharp net income increase, yet the stock slipped slightly. Today’s quantum control optimization update fits the pattern of continued R&D emphasis alongside a stock trading well below its 52-week high of 5.65.

Market Pulse Summary

This announcement outlines WiMi’s work on multi-objective deep reinforcement learning for quantum co...

Analysis

This announcement outlines WiMi’s work on multi-objective deep reinforcement learning for quantum control, targeting better quantum gate fidelity, noise suppression, and energy management. It extends a series of quantum and AI updates that previously produced mixed price reactions, including moves of -1.25% to +11.54%. Investors may watch how these technologies transition from research to practical deployment and how that interacts with a share price still below the 52-week high of 5.65 and the 200-day MA of 2.87.

Key Terms

multi-objective deep reinforcement learning, qubits, quantum gate fidelity, decoherence, +2 more

6 terms

multi-objective deep reinforcement learning technical

"WiMi ... is researching quantum computing optimization based on multi-objective deep reinforcement learning."

A machine-learning approach that trains deep neural networks to make decisions while balancing several competing goals at once, such as maximizing returns, limiting risk, and reducing costs. For investors, it matters because these systems can power automated trading, portfolio allocation, or operational decisions that weigh trade-offs automatically—think of a GPS that routes you considering fastest time, lowest tolls, and safety simultaneously—helping firms pursue more nuanced investment strategies.

qubits technical

"dynamic characteristics of qubits, can adapt in real time to the dynamic changes"

Qubits are the basic units of information in quantum computing, similar to how traditional computers use bits. Unlike regular bits that are either 0 or 1, qubits can represent both at the same time, allowing quantum computers to process complex problems much faster. This potential for unprecedented speed and power could transform industries, making qubits a key focus for investors interested in cutting-edge technology.

quantum gate fidelity technical

"multiple factors such as quantum gate fidelity, operational efficiency, noise suppression"

Quantum gate fidelity measures how closely a quantum logic operation (a gate) performs the exact change to quantum bits that engineers intended, essentially the accuracy of a single building block in a quantum computer. High fidelity means fewer errors and more reliable calculations; low fidelity is like a steering wheel that drifts — it makes larger systems harder to scale and raises correction costs, so investors watch it as a proxy for technical viability and near‑term commercial prospects.

decoherence technical

"qubits are susceptible to environmental noise, crosstalk effects, decoherence, and other factors."

Decoherence is the process by which a quantum system loses its fragile quantum behavior and starts to act like an ordinary object because interactions with its surroundings disrupt the special correlations that enable quantum effects. For investors, decoherence matters because it limits the performance and reliability of quantum technologies — like quantum computers, sensors or communications — and therefore affects development costs, error rates, scalability and the timeline for commercial products, much like noise and friction slow down a precision machine.

reinforcement learning technical

"Among them, reinforcement learning, as an important branch of machine learning"

A type of artificial intelligence that learns by trial and error, receiving feedback from its actions to favor choices that lead to better outcomes. Think of it like a salesperson learning which pitches close deals by trying different approaches and keeping the ones that work. For investors, reinforcement learning matters because it can power smarter trading systems, optimize business operations, or improve products—potentially boosting efficiency and profits while also introducing model and execution risks.

quantum computing technical

"Quantum computing, as the core development direction of next-generation information technology"

Quantum computing is a type of advanced technology that uses the principles of quantum physics to perform calculations much faster than traditional computers. It can process vast amounts of information simultaneously, potentially solving complex problems that are currently impossible or take too long with regular computers. For investors, this technology could lead to breakthroughs in areas like cryptography, data analysis, and optimization, impacting financial markets and security systems.

AI-generated analysis. Not financial advice.

BEIJING, May 21, 2026 /PRNewswire/ -- WiMi Hologram Cloud Inc. (NASDAQ: WiMi) ("WiMi" or the "Company"), a leading global Hologram Augmented Reality ("AR") Technology provider, is researching quantum computing optimization based on multi-objective deep reinforcement learning. The core of this innovative solution lies in breaking the limitations of traditional single-objective optimization and constructing a global optimization framework that takes into account multi-dimensional constraints.

By using the single-process quantum control optimization results as the truncation threshold and reward function migration strategy for multi-objective optimization, effective reuse of optimization knowledge is achieved. This not only avoids redundant computation during the multi-objective optimization process but also improves the model's convergence speed. At the same time, by designing a multi-objective reward function that comprehensively considers various key indicators in the quantum control process, synergistic optimization of multiple factors such as quantum gate fidelity, operational efficiency, noise suppression, and energy consumption control is realized, ultimately obtaining a globally optimal control solution rather than a locally optimal solution targeting only a single error metric, effectively improving the control precision and robustness of the quantum system. WiMi's multi-objective deep reinforcement learning method, through deep learning and modeling of the dynamic characteristics of qubits, can adapt in real time to the dynamic changes of quantum systems, automatically adjust control strategies, and effectively suppress the impact of environmental noise and crosstalk effects.

The control of quantum systems essentially involves precisely regulating external physical fields to enable qubits to complete a series of processes such as state preparation, quantum gate operations, and state readout according to preset logic. Its core challenge lies in the openness and complexity of quantum systems—qubits are susceptible to environmental noise, crosstalk effects, decoherence, and other factors. Moreover, in multi-process quantum control, there exist multiple mutually constraining optimization objectives. Traditional control methods struggle to achieve global optimality. Traditional quantum control strategies are mostly based on model-driven optimization algorithms that rely on precise mathematical modeling of quantum systems. However, the dynamic characteristics of actual quantum systems are complex and easily affected by external interference, leading to deviations between the model and the actual system, which in turn affects control precision. At the same time, traditional methods mostly optimize for a single control objective, making them prone to falling into local optimal solutions. They cannot balance multi-dimensional requirements such as quantum gate fidelity, operation speed, and energy consumption control, making it difficult to adapt to the control scenarios of large-scale quantum systems.

The rapid iteration of machine learning technology has provided a completely new approach to solving the challenges of quantum control. Its powerful data-driven learning capability and adaptive optimization characteristics can effectively adapt to the complexity and uncertainty of quantum systems. Among them, reinforcement learning, as an important branch of machine learning, breaks through the dependence of traditional optimization algorithms on complete parameter sets. Through real-time interaction between the agent and the environment, it dynamically adjusts control strategies during the trial-and-error process to achieve gradual convergence of optimization objectives. This closed-loop mechanism of interaction-feedback-iteration highly aligns with the real-time control requirements of quantum systems, providing core technical support for the optimization of control strategies in quantum computing.

Quantum computing, as the core development direction of next-generation information technology, cannot achieve its practical application process without continuous breakthroughs in core technologies. In the future, WiMi will continue to focus on the forefront of quantum technology, taking technological innovation as the core driving force, deeply cultivating the interdisciplinary fields of quantum control, quantum algorithms, and artificial intelligence, continuously breaking through technical bottlenecks, promoting the development of quantum computing technology, and assisting various industries in achieving transformation and upgrading with the help of quantum computing.

About WiMi Hologram Cloud

WiMi Hologram Cloud Inc. (NASDAQ: WiMi) focuses on holographic cloud services, primarily concentrating on professional fields such as in-vehicle AR holographic HUD, 3D holographic pulse LiDAR, head-mounted light field holographic devices, holographic semiconductors, holographic cloud software, holographic car navigation, metaverse holographic AR/VR devices, and metaverse holographic cloud software. It covers multiple aspects of holographic AR technologies, including in-vehicle holographic AR technology, 3D holographic pulse LiDAR technology, holographic vision semiconductor technology, holographic software development, holographic AR virtual advertising technology, holographic AR virtual entertainment technology, holographic ARSDK payment, interactive holographic virtual communication, metaverse holographic AR technology, and metaverse virtual cloud services. WiMi is a comprehensive holographic cloud technology solution provider. For more information, please visit http://ir.wimiar.com.

Translation Disclaimer

The original version of this announcement is the officially authorized and only legally binding version. If there are any inconsistencies or differences in meaning between the Chinese translation and the original version, the original version shall prevail. WiMi Hologram Cloud Inc. and related institutions and individuals make no guarantees regarding the translated version and assume no responsibility for any direct or indirect losses caused by translation inaccuracies.

View original content:https://www.prnewswire.com/news-releases/wimi-deploys-quantum-computing-optimization-based-on-multi-objective-deep-reinforcement-learning-302778891.html

SOURCE WiMi Hologram Cloud Inc.

FAQ

What did WiMi (NASDAQ:WIMI) announce about quantum computing on May 21, 2026?

WiMi announced research on quantum computing optimization based on multi-objective deep reinforcement learning. According to WiMi, this method aims to move beyond single-objective control, reuse existing optimization knowledge, and improve global quantum control performance across several technical indicators simultaneously.

How does WiMi use multi-objective deep reinforcement learning to optimize quantum computing?

WiMi applies multi-objective deep reinforcement learning to construct a global quantum control optimization framework. According to WiMi, it designs a multi-objective reward function, reuses single-process optimization results, and lets the model adapt in real time to system changes and environmental noise.

What quantum control metrics does WiMi’s new optimization method focus on?

WiMi’s method targets several key quantum control metrics at once. According to WiMi, these include quantum gate fidelity, operational efficiency, noise suppression, and energy consumption control, seeking a globally optimal solution instead of optimizing only a single error metric or constraint.

Why is WiMi replacing traditional single-objective quantum control strategies?

WiMi views traditional single-objective quantum control as limited for complex, noisy systems. According to WiMi, such methods can fall into local optima and struggle to balance fidelity, speed, and energy, while multi-objective deep reinforcement learning aims to handle these trade-offs more comprehensively.

How does WiMi’s reinforcement learning approach handle quantum system noise and crosstalk?

WiMi’s approach models dynamic qubit characteristics and updates control strategies during interaction with the environment. According to WiMi, this real-time adjustment helps suppress environmental noise and crosstalk effects, which are major challenges for maintaining precise, reliable quantum gate operations in practical systems.

What future directions in quantum technology is WiMi focusing on for WIMI shareholders?

WiMi plans to keep investing in core quantum technologies. According to WiMi, focus areas include quantum control, quantum algorithms, and artificial intelligence, with the goal of breaking technical bottlenecks and enabling quantum computing to support industry transformation and upgrading over time.