In a significant step toward advancing humanoid robotics, Singapore-based Sharpa has joined forces with Nvidia and Chinese manufacturer Unitree to create a cutting-edge humanoid robot platform. This initiative, unveiled by Nvidia’s CEO Jensen Huang at the Computex conference in Taipei, aims to equip researchers with sophisticated humanoid robots by late 2026. These robots are expected to enhance the development of AI systems capable of performing intricate manual tasks with precision and care.
The centerpiece of this innovation is the Nvidia Isaac GR00T H2 Plus humanoid robot, which integrates several advanced technologies. This system marries Sharpa’s remarkably agile robotic hands, featuring 22 degrees of freedom for human-like dexterity, with Unitree’s H2 humanoid body. Coupled with Nvidia’s AI computing prowess, these components are designed to enable robots to handle tasks that demand fine motor skills, similar to those of a human hand.
The new platform is geared toward facilitating research in areas such as precision manufacturing, healthcare assistance, food preparation, and cleaning—sectors where accurate handling and manipulation of objects are crucial. By providing access to Nvidia’s AI models, simulation tools, and a rich software development ecosystem, researchers can more effectively train and test robotic systems, thereby speeding up advancements in the field.
This collaboration is seen as a pivotal development by industry experts, who believe it will broaden the capabilities of humanoid robots while making advanced robotics research more accessible to universities and research institutions worldwide. Notably, top research organizations and universities across the United States and Europe have already begun adopting this technology.
The project underscores a growing investment in what is known as “physical AI,” where artificial intelligence systems are designed to interact with and operate within the physical environment. As AI technology continues to evolve, the focus on humanoid robots is gaining momentum as a potential solution for industries that require labor-intensive and precision-based tasks. This collaboration marks another milestone in the global race to develop practical humanoid robots capable of working alongside humans in everyday settings.
