In a significant collaboration, Singapore’s robotics firm Sharpa has teamed up with Nvidia and Chinese humanoid robot maker Unitree to create an advanced humanoid robot platform. This initiative, unveiled by Nvidia CEO Jensen Huang during Computex in Taipei, aims to accelerate the development of AI systems capable of executing intricate manual tasks. Scheduled for release to researchers by late 2026, the platform is poised to enhance artificial intelligence’s ability to perform delicate and precise actions.
The centerpiece of this groundbreaking project is the Nvidia Isaac GR00T H2 Plus humanoid robot. This sophisticated system integrates Sharpa’s dexterous robotic hands, Unitree’s H2 humanoid body, and Nvidia’s cutting-edge AI computing technologies. Notably, Sharpa’s robotic hands boast 22 degrees of freedom, closely mimicking the dexterity and tactile sensitivity of human hands, thus enabling robots to undertake tasks that require fine motor skills and precise object manipulation.
The platform is designed to facilitate research in various domains, including precision manufacturing, healthcare assistance, food preparation, and cleaning, where accurate handling and manipulation of objects are crucial. Alongside the hardware, researchers will have access to Nvidia’s robust AI models, simulation tools, and software development ecosystem, streamlining the training and testing of robotic systems.
This collaboration is seen by industry experts as a pivotal step towards broadening the capabilities of humanoid robots and making advanced robotics research more accessible to academic and research institutions worldwide. Early adopters of this platform include leading research organizations and universities across the United States and Europe, underscoring the global interest in advancing humanoid robotics.
The announcement underscores the increasing investment in “physical AI”—AI systems designed for real-world interaction and operation. As AI technologies continue to evolve, the focus on humanoid robots is intensifying, with potential applications in labor-intensive and precision-demanding industries. This partnership highlights the rapid global push to develop practical humanoid robots that can seamlessly work alongside humans in diverse environments.