Nvidia announced this week a suite of new services and tools aimed at speeding up the development of humanoid robots as the company seeks to position itself at the forefront of this emerging technology.
The chipmaker introduced new microservices for robot simulation, a cloud computing orchestration service, and an AI-enabled workflow for capturing human movements to train robots. These offerings are designed to help robotics companies, AI developers and software makers create more advanced humanoid robots quicker.
Experts say the development of humanoid robots could have implications for commerce and industry. These robots, with their human-like form and potential for complex movements, could revolutionize manufacturing, warehousing and customer service sectors. They may be able to perform tasks that are challenging for traditional robots, such as navigating cluttered environments or manipulating objects with human-like dexterity.
“AI-powered industrial and collaborative robots are significantly increasing efficiency, productivity and safety today compared to current manual processes,” Plus One Robotics CEO and co-founder Erik Nieves told PYMNTS. “They can take over repetitive, strenuous physical tasks like picking, moving and placing objects, freeing up human workers for higher-level roles. This can increase warehouse throughput and get products to consumers faster.”
“The next wave of AI is robotics, and one of the most exciting developments is humanoid robots,” said Nvidia founder and CEO Jensen Huang in a statement. “We’re advancing the entire Nvidia robotics stack, opening access for worldwide humanoid developers and companies to use the platforms, acceleration libraries and AI models best suited for their needs.”
One key challenge in humanoid robotics is the vast amount of data required to train these machines. Nvidia’s new teleoperation workflow aims to address this by allowing developers to generate large amounts of synthetic data from a small number of human demonstrations.
“Developing humanoid robots is extremely complex — requiring an incredible amount of real data, tediously captured from the real world,” Alex Gu, CEO of Fourier, a general-purpose robot platform company, said in a statement. “Nvidia’s new simulation and generative AI developer tools will help bootstrap and accelerate our model development workflows.”
Nvidia’s move comes as several companies are making strides in humanoid robotics. Tesla unveiled its Optimus robot, which is designed for general-purpose use. Tesla CEO Elon Musk announced plans to deploy humanoid robots within the company’s operations as early as next year.
In a post on social platform X, Musk said: “Tesla will have genuinely useful humanoid robots in low production for Tesla internal use next year and, hopefully, high production for other companies in 2026.”
Tesla will have genuinely useful humanoid robots in low production for Tesla internal use next year and, hopefully, high production for other companies in 2026
— Elon Musk (@elonmusk) July 22, 2024
The declaration signals Tesla’s ambition to integrate advanced robotics into its manufacturing processes, potentially reshaping labor practices in the automotive industry and beyond.
Meanwhile, Boston Dynamics’ Atlas robot demonstrated agility and balance. Agility Robotics’ Digit is being tested for warehouse operations by companies like Amazon. These developments underscore the growing interest and potential applications for humanoid robots across various industries.
“Boston Dynamics and Nvidia have a long history of close collaboration to push the boundaries of what’s possible in robotics, Boston Dynamics Chief Technology Officer Aaron Saunders said in a statement. “We’re really excited to see the fruits of this work accelerating the industry at large, and the early-access program is a fantastic way to access best-in-class technology.”
However, Nieves cautioned against overestimating the near-term impact of humanoid robots specifically.
“Generalized applications of humanoid AI robots are gaining interest, but for the foreseeable future, they’re far too impractical and expensive to replace warehouse workers,” he said. “Any and all robots working on variable tasks will routinely experience circumstances outside of their realm of expertise that necessitate intervention or cooperation from a human co-worker.”
Looking to the future, Nieves said he sees a transformative potential in combining AI capabilities with increasingly dexterous robotic systems.
“We’re witnessing an exciting period of rapid adoption for AI-powered robotics across many sectors, but warehousing and logistics are really leading the charge,” he said. “Autonomous mobile robots and intelligent picking arms are being deployed to handle a wide range of tasks like transporting inventory, loading and unloading, and processing parcels.”
Nvidia is also launching a Humanoid Robot Developer Program, which will offer early access to the new tools and the company’s existing robotics platforms. Several prominent robotics companies, including Boston Dynamics, Figure and ByteDance Research, have already joined the program.
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