NVIDIA introduces new services to aid developers in building future humanoid robots
From NVIDIA: 2024-07-29 16:30:00
NVIDIA introduces new NIM Microservices for robotics simulation, OSMO Robot Cloud Compute Orchestration Service, and more to aid developers in building future humanoid robots. CEO Jensen Huang affirms that humanoid development is the next AI wave.
NVIDIA offers NIM microservices for simulation and learning, OSMO for orchestration, and teleoperation workflow for humanoid robot developers worldwide. Benefits include faster deployment, generative physical AI, and simplifying robot training.
NVIDIA’s OSMO service simplifies robot training and simulation workflows, reducing development cycles significantly. Users can manage tasks like generating synthetic data, reinforcement learning, and software-in-the-loop testing efficiently for humanoid robots and industrial manipulators.
NVIDIA demonstrates a teleoperation workflow using AI and Omniverse at SIGGRAPH, allowing researchers to generate motion and perception data synthetically from human demonstrations. This speeds up training foundation models for humanoid robots using real and synthetic data.
NVIDIA partners with robotics companies like Fourier to enhance development workflows using simulation technology for training data generation, saving time and costs in model development.
Developers can access NVIDIA’s AI supercomputers, Isaac Sim, Jetson Thor, and other platforms through the NVIDIA Humanoid Robot Developer Program to advance humanoid robotics technology.
Boston Dynamics, ByteDance Research, and other leading companies are early participants in NVIDIA’s Humanoid Robot Developer Program, gaining access to new offerings for robotics development.
Join the NVIDIA Humanoid Robot Developer Program to access OSMO and Isaac Lab services now, and soon be able to utilize NVIDIA NIM microservices for humanoid robotics development. Explore the latest in generative AI and computing at SIGGRAPH through Huang’s fireside chats.
Read more at NVIDIA: NVIDIA Accelerates Humanoid Robotics Development