Quick Takeaways
- Qualcomm is accelerating the shift from experimental robots to deployable, real-world intelligent machines through a tightly integrated AI-first architecture.
- The new robotics portfolio signals a strategic push into humanoid and industrial robotics with energy-efficient edge AI at its core.
Recently, Qualcomm robotics technologies took a major step forward as the company unveiled a new portfolio of solutions aimed at accelerating the adoption of intelligent machines in real-world environments. The announcement signals Qualcomm’s broader move into physical AI systems, spanning applications from domestic robots to large-scale humanoid and industrial platforms.
Unveiled during a major technology showcase in Las Vegas, the new portfolio is anchored by the Dragonwing IQ10 Series, a high-performance industrial processor built specifically for autonomous mobile robots and humanoid robots. This launch is not limited to silicon alone, as it introduces a complete robotics architecture that tightly integrates hardware, software, and advanced AI models.
Qualcomm robotics technologies focus on edge AI efficiency and scale
Building on years of expertise in edge AI and low-power computing, Qualcomm robotics technologies are designed to deliver high performance without compromising energy efficiency. The platform emphasizes scalability, allowing robotic systems to move beyond controlled laboratory settings and operate reliably in complex, real-world conditions.
Key platform capabilities include:
This combination is intended to support practical deployment across industrial and commercial use cases.
Collaboration accelerates humanoid robotics development
As part of its expansion strategy, Qualcomm has entered a collaboration with Figure, a humanoid robotics startup focused on general-purpose robots. The partnership centers on developing next-generation compute architectures as humanoid platforms scale in capability and production volume.
The collaboration highlights how energy-efficient compute and AI performance are becoming critical enablers for humanoid robots intended to work alongside humans in dynamic environments.
Advanced perception and motion enabled by end-to-end AI
The newly announced robotics architecture supports advanced perception, motion planning, and manipulation through end-to-end AI models. These capabilities enable more natural human-robot interaction and generalized manipulation, allowing robots to perform a wider range of tasks with higher autonomy.
The architecture is designed to:
This approach allows a single platform to adapt across multiple robotic use cases.
Expanding ecosystem strengthens industrial adoption
Qualcomm robotics technologies are already being used in humanoid robots from manufacturers such as Booster and VinMotion. Demonstrations showcased humanoid platforms powered by earlier Dragonwing processors, underscoring the continuity of the company’s industrial roadmap.
Beyond hardware, Qualcomm is actively building a broader ecosystem by working with partners across robotics hardware, software, and system integration. These collaborations are aimed at accelerating next-generation robotics solutions for sectors including retail, logistics, and manufacturing.
With this announcement, Qualcomm positions itself as a key enabler in the rapidly evolving robotics processor market, where scalable AI, power efficiency, and ecosystem collaboration are increasingly critical to commercial success.
Unveiled during a major technology showcase in Las Vegas, the new portfolio is anchored by the Dragonwing IQ10 Series, a high-performance industrial processor built specifically for autonomous mobile robots and humanoid robots. This launch is not limited to silicon alone, as it introduces a complete robotics architecture that tightly integrates hardware, software, and advanced AI models.
Qualcomm robotics technologies focus on edge AI efficiency and scale
Building on years of expertise in edge AI and low-power computing, Qualcomm robotics technologies are designed to deliver high performance without compromising energy efficiency. The platform emphasizes scalability, allowing robotic systems to move beyond controlled laboratory settings and operate reliably in complex, real-world conditions.
Key platform capabilities include:
- Optimized edge AI processing for real-time decision-making
- Low-power compute designed for continuous operation
- Scalable architecture supporting multiple robot form factors
This combination is intended to support practical deployment across industrial and commercial use cases.
Collaboration accelerates humanoid robotics development
As part of its expansion strategy, Qualcomm has entered a collaboration with Figure, a humanoid robotics startup focused on general-purpose robots. The partnership centers on developing next-generation compute architectures as humanoid platforms scale in capability and production volume.
The collaboration highlights how energy-efficient compute and AI performance are becoming critical enablers for humanoid robots intended to work alongside humans in dynamic environments.
Advanced perception and motion enabled by end-to-end AI
The newly announced robotics architecture supports advanced perception, motion planning, and manipulation through end-to-end AI models. These capabilities enable more natural human-robot interaction and generalized manipulation, allowing robots to perform a wider range of tasks with higher autonomy.
The architecture is designed to:
- Support real-time perception and environment understanding
- Enable precise motion control and planning
- Maintain industrial-grade reliability across deployments
This approach allows a single platform to adapt across multiple robotic use cases.
Expanding ecosystem strengthens industrial adoption
Qualcomm robotics technologies are already being used in humanoid robots from manufacturers such as Booster and VinMotion. Demonstrations showcased humanoid platforms powered by earlier Dragonwing processors, underscoring the continuity of the company’s industrial roadmap.
Beyond hardware, Qualcomm is actively building a broader ecosystem by working with partners across robotics hardware, software, and system integration. These collaborations are aimed at accelerating next-generation robotics solutions for sectors including retail, logistics, and manufacturing.
With this announcement, Qualcomm positions itself as a key enabler in the rapidly evolving robotics processor market, where scalable AI, power efficiency, and ecosystem collaboration are increasingly critical to commercial success.
Company Press Release
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