In a significant move to advance the field of robotics, Singapore-based company Sharpa has joined forces with Nvidia and Chinese robot manufacturer Unitree to create an innovative humanoid robot platform. This project, revealed by Nvidia’s Jensen Huang during his keynote at the Computex technology conference in Taipei, aims to provide researchers with sophisticated humanoid robots by late 2026. The new platform is expected to expedite the development of artificial intelligence capable of executing intricate manual tasks with precision.
Central to this initiative is the Nvidia Isaac GR00T H2 Plus humanoid robot, which integrates Sharpa’s dexterous robotic hands, Unitree’s H2 humanoid robot body, and Nvidia’s cutting-edge AI computing technologies. Sharpa’s robotic hands are designed to mimic the tactile sensitivity and dexterity of human hands, boasting 22 degrees of freedom. This feature allows the robots to perform tasks that require delicate motor skills, such as precision manufacturing and healthcare assistance.
Beyond the hardware, the project provides researchers access to Nvidia’s comprehensive suite of AI models, simulation tools, and a robust software development ecosystem. This access is set to enhance the efficiency of training and testing robotic systems, potentially transforming how robots are utilized in industries that demand precise object handling and manipulation, including food preparation and cleaning.
Industry analysts view this collaboration as a pivotal step towards broadening the capabilities of humanoid robots. It also makes advanced robotics research more accessible to academic institutions and research organizations worldwide. Several prominent research organizations and universities in the United States and Europe are already early adopters of this technology.
This announcement underscores the increasing investment in “physical AI”—a segment of artificial intelligence focused on interacting with the physical world. As AI technology progresses, there is heightened interest in developing humanoid robots that can work alongside humans in labor-intensive and precision-demanding settings. The partnership exemplifies the intensifying global efforts to create practical humanoid robots for real-world applications.