New Technology: Advanced MIP
In November 2024, LEYARD officially launched its first phase of a new generation Advanced MIP production line at the Wuxi Lijing Factory. This Micro LED packaging technology is developed entirely in-house.
LEYARD states that Advanced MIP can penetrate many sectors where traditional display technologies have struggled, such as small cinemas and conference rooms, where 4K displays were previously challenging and expensive. With Advanced MIP, these applications become more feasible and cost-effective. It is an upgrade to traditional technology that can drive the entire industry chain, including light-emitting chips, control chips, and equipment, thus stimulating growth throughout the sector. Additionally, as LED display screens become more cost-efficient, their application scope expands significantly. Beyond traditional control rooms for monitoring and dispatch, the technology is now being used in cultural tourism, virtual filming, cinemas, and studios. Applications like outdoor billboards or wall decor also represent major market opportunities.

Through technological innovation and product upgrades, this development is set to drive industry-wide growth. For companies, having technology with barriers to entry ensures the generation of profits.
New Product: Micro LED Cinema Screen
In 2024, LEYARD partnered with Huaxia Film to jointly establish Huaxia Leyard Film Technology Co., Ltd., aiming to reshape the film industry landscape. At the same time, Huaxia Leyard will collaborate with the China Film Research Institute to establish an exclusive laboratory for research, promotion, and operation of the LED film version.

Currently, Huaxia Leyard has launched the “Huan Ying Dao HUAN the Live” multi-scenario application and solution, covering full-size demands from VIP cinemas to giant-screen theaters. Additionally, by the end of December, the first Micro LED 0.9-pitch cinema screen will light up in Shijiazhuang, and the first movie experience center will open in Beijing.

Virtual Motion Point and Spatial Computing Technology
It has been revealed that LEYARD’s virtual motion point spatial computing technology is empowering the robotics industry, improving robot movements through data, algorithms, and services. This accelerates the global debut of domestic humanoid robots. Additionally, this technology is supporting the gaming industry by enabling motion capture for China’s first AAA game, Black Myth: Wukong, creating both economic and cultural benefits.

Moreover, this virtual motion point spatial computing technology is being applied in multiple industries, including sports and healthcare, to help traditional sectors upgrade with new technologies, creating new scenarios such as remote healthcare and rehabilitation training.
In the past two years, with the rise of AI large models, virtual motion points has introduced markerless motion capture technology and motion large models. These innovations have greatly enhanced the efficiency of spatial computing and expanded its application range.
Additionally, it is reported that LEYARD plans to develop a motion data trading platform, which will have wide applications across industries like robotics, film, gaming, and animation production, improving efficiency and reducing costs.


Disclaimer: The views and opinions expressed in this article are those of the original authors and do not necessarily reflect the official policy or position of MiniMicroLED Insights . While we strive to ensure the accuracy and reliability of the information provided, the content on this website may include translations, re-edited versions of second-hand information, or information derived from unverifiable sources. MiniMicroLED Insights makes no representations or warranties, express or implied, regarding the completeness, accuracy, or timeliness of such content. The information in this article is for informational purposes only and should not be construed as professional advice. Any reliance you place on such information is strictly at your own risk. To the fullest extent permitted by law, MiniMicroLED Insights disclaims all liability for any direct, indirect, incidental, consequential, or punitive damages arising out of your use of, or reliance on, the information contained in this article.
Copyright Notice: This article may include translated and re-edited content derived from various online sources, including websites and social media platforms. While we strive to credit the original authors and sources to the best of our ability, we may not always be able to verify the original source of the content. All rights to the original content remain with the original author or source publication. Where applicable, this content is reproduced for educational and informational purposes under the fair use doctrine. If you believe any content on this site infringes upon your intellectual property rights, or if you are the copyright owner and believe we have not credited you correctly, please contact us at minimicroled.business@gmail.com. We will investigate and take corrective action, including removing or properly crediting the content if necessary.
Content sourced and adapted by MiniMicroLED Insights (Doris).