Galaxea AI, a prominent embodied intelligence startup, has successfully secured 1 billion yuan ($144.6 million) in its Series B funding round. This significant investment elevates the company's valuation to US$1.5 billion, officially granting it "unicorn" status within the competitive robotics sector. The financing round attracted a mix of new and existing investors, underscoring strong confidence in Galaxea's technological vision and market potential.
A New Unicorn in Embodied Intelligence
The latest capital injection brings Galaxea's total funds raised to nearly $434 million across approximately ten rounds since its inception in September 2023. This rapid financial growth positions the company alongside other major players in China's embodied intelligence landscape, such as Unitree and AgiBot. The round was supported by a consortium of high-profile industrial and institutional investors, reflecting broad market validation for its approach.
Pioneering a 'Physical Engine' for Robotics
At the core of its strategy, Galaxea is developing a "physical engine" designed to enable the rapid, cross-industry deployment of intelligent robots. The company is pursuing an end-to-end Vision-Language-Action (VLA) foundational model roadmap to achieve this ambitious goal. This software-centric approach aims to provide developers with out-of-the-box functionality, simplifying the integration of complex robotic systems into various workflows.
Its flagship software includes the G0 and G0 Plus dual-system models, which power its robots with a "slow thinking, fast execution" architecture. This allows for real-time visual recognition, semantic understanding, and precise task execution, as demonstrated at recent industry events. The company has also built a full-chain infrastructure for efficient physical world data collection and model training to continuously improve its systems.
Advanced Hardware and Commercial Traction
Galaxea's software advancements are complemented by a growing portfolio of sophisticated hardware, including the R1 Pro humanoid robot and the R1 Lite mobile platform. At CES 2026, the company showcased its DEXO dexterous hand, which features near-human dexterity and high-precision tactile sensing. This integrated hardware and software ecosystem has already translated into significant commercial interest from leading global institutions and corporations.
The company has already secured orders for thousands of its robotic units, with clients ranging from top-tier universities to prominent industry leaders. This early market traction demonstrates the practical appeal of its full-stack, in-house development capabilities. Galaxea is one of the few firms in the sector capable of closing the loop between algorithms, hardware, data, and successful commercialization.
Future Outlook and Strategic Moves
Looking ahead, Galaxea plans to launch multiple industry pilot programs globally within the first half of this year to accelerate scaled applications. The company is focused on building a comprehensive development ecosystem that encompasses its hardware, data, and proprietary models. This strategy aims to foster collaboration with global developers and partners to unlock new use cases for embodied intelligence.
In a move signaling its maturation, the company recently completed a business registration change, officially renaming itself "Galaxea (Beijing) Artificial Intelligence Technology Co., Ltd." It also transitioned from a limited liability company to a joint-stock company, a structural shift that aligns with its long-term growth ambitions. This positions Galaxea for its next phase of expansion and potential future listing.
This successful Series B funding round not only provides Galaxea with substantial capital but also solidifies its standing as a formidable force in embodied intelligence. By seamlessly integrating advanced AI models with proprietary hardware, the company is well-positioned to address complex real-world challenges. As Galaxea expands its global footprint, its progress will be closely watched by industries poised for robotic transformation.