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A single destination for timely, editor-curated robotics news from around the world.

Nvidia and Hugging Face Enhance LeRobot with Advanced Open Robotics AI Tools

Nvidia and Hugging Face Enhance LeRobot with Advanced Open Robotics AI Tools

Nvidia and Hugging Face have expanded their partnership to introduce new AI models and robotics frameworks to the LeRobot platform, enhancing accessibility for developers. The integration of Nvidia Isaac GR00T 1.7, a vision-language-action foundation model, and the Isaac Teleop framework aims to streamline the development process for AI-powered robots. This collaboration is significant as it combines Nvidia's community of over three million robotics developers with Hugging Face's 16 million AI developers, fostering a broader access to physical AI technologies. The new tools will enable standardized workflows for data collection, model training, and performance evaluation, making it easier for developers to create and deploy robotic solutions. Looking ahead, the planned support for Nvidia Cosmos 3 will further empower developers by allowing the generation of synthetic data and simulation of environments. No further timeline was disclosed at the time of publication.

Artificial Intelligence Computing ai Hugging Face humanoid robots Isaac GR00T 1.7
NVIDIA and Hugging Face Enhance LeRobot with New AI Models and Frameworks

NVIDIA and Hugging Face Enhance LeRobot with New AI Models and Frameworks

NVIDIA has expanded its collaboration with Hugging Face to enhance the LeRobot open-source robotics platform with new AI models and frameworks. This integration includes the NVIDIA Isaac GR00T 1.7 vision-language-action model and the Isaac Teleop framework, aimed at streamlining robot development. The partnership seeks to make advanced robotics tools more accessible to developers and researchers, with plans to incorporate NVIDIA Cosmos 3 in the future. This collaboration is significant as it addresses the fragmented nature of robotics development by providing standardized workflows for data collection, model training, and robot deployment. The introduction of the Isaac Teleop framework allows for high-quality training data collection through human demonstrations, which can be shared within the LeRobot ecosystem. By lowering barriers to entry, NVIDIA and Hugging Face aim to foster broader collaboration in the robotics community. Looking ahead, NVIDIA plans to integrate the Cosmos 3 model into LeRobot, which will generate synthetic robotics data and assist in policy development. The collaboration builds on existing resources, including a dataset with over 350,000 robot trajectories and 57 million grasp examples. No further timeline was disclosed at the time of publication.

AI and Robotics
NVIDIA and Hugging Face Bring New Models and Frameworks to LeRobot for the Open Robotics Community

NVIDIA and Hugging Face Bring New Models and Frameworks to LeRobot for the Open Robotics Community

New LeRobot integrations give developers open access to NVIDIA Isaac GR00T 1.7, Isaac Teleop, datasets and robotics workflows, with NVIDIA Cosmos 3 integration planned to bring frontier world models to open robotics development.

Aetina Expands Nvidia Jetson Support with T3000 and T2000 AI Modules

Aetina Expands Nvidia Jetson Support with T3000 and T2000 AI Modules

Aetina, a specialist in edge AI computing, is set to enhance its offerings by adding support for the newly unveiled Nvidia Jetson T3000 and T2000 modules. These modules are designed for robotics and industrial edge AI applications, and Aetina plans to integrate them into its DeviceEdge AIE-KT and AIE-PT systems, providing scalable and efficient AI computing solutions. This expansion is significant as it allows Aetina to leverage Nvidia's advanced AI capabilities, including the ability to run generative AI models with low latency, which is crucial for applications like humanoid robots. The Nvidia Jetson T3000 module boasts up to 865 FP4 TFLOPS, while the T2000 offers up to 400 FP4 TFLOPS, catering to a range of robotics applications from visual AI agents to autonomous mobile robots. Looking ahead, Aetina is among the first partners to support these new modules, with Nvidia expecting them to be available in the first quarter of 2027. The company plans to provide further details on system specifications and developer support as the launch date approaches, making it a key player in the evolving landscape of AI-driven robotics solutions.

Computing Industry Aetina automation Autonomous robots DeviceEdge AIE-KT
Nvidia Launches Cosmos 3 Edge AI Model and Expands Physical AI Ecosystem in Japan

Nvidia Launches Cosmos 3 Edge AI Model and Expands Physical AI Ecosystem in Japan

Nvidia has introduced its new AI model, Cosmos 3 Edge, aimed at enhancing physical AI applications in Japan. This model is designed to help systems perceive and navigate real-world environments, marking a significant step in Nvidia's strategy to penetrate the physical AI market. The expansion is part of CEO Jensen Huang's visit to Japan, where Nvidia is forming partnerships with local industrial leaders such as Fujitsu, Hitachi, and Kawasaki Heavy Industries. Huang emphasized the potential for Japan to reinvent its manufacturing sector for intelligent industries, highlighting the country's historical significance in modern manufacturing. Looking ahead, Nvidia is also targeting Japan's healthcare and biotechnology sectors, collaborating on initiatives like the Tokyo-1 AI drug discovery consortium. With Japan's AI market projected to reach $27.9 billion by 2029, Nvidia's efforts could significantly influence the landscape of AI adoption in the region. No further timeline was disclosed at the time of publication.

Japan's Leaders in Robotics and Manufacturing Leverage NVIDIA Cosmos for Physical AI Advancements

Japan's Leaders in Robotics and Manufacturing Leverage NVIDIA Cosmos for Physical AI Advancements

NVIDIA has announced that Japan's leaders in physical AI are utilizing the NVIDIA Cosmos™, Isaac™, Metropolis, and Jetson™ platforms to enhance the deployment of intelligent machines across various sectors including manufacturing and robotics. The introduction of Cosmos 3 Edge aims to provide advanced capabilities for real-time reasoning and action prediction in robots, marking a significant step in integrating intelligence into physical systems. This initiative is crucial as Japan's established strengths in robotics and manufacturing position it to lead in the next wave of AI development. Jensen Huang, NVIDIA's CEO, emphasized the unique opportunity for Japan to reinvent modern manufacturing through intelligent technologies, combining its heritage in precision engineering with NVIDIA's advanced platforms. Looking ahead, NVIDIA is expanding the Cosmos Coalition to include Japan's physical AI leaders, enabling collaboration on open world models. This coalition will facilitate the testing and optimization of physical AI systems, potentially transforming operations across various industries such as logistics, healthcare, and construction. No further timeline was disclosed at the time of publication.

NVIDIA unveils 320 billion-parameter self-driving model "Alpamayo 2 Super" to accelerate Level 4 robo-taxi development.

NVIDIA unveils 320 billion-parameter self-driving model "Alpamayo 2 Super" to accelerate Level 4 robo-taxi development.

NVIDIA announced a significant expansion of its open AI model family, "NVIDIA Alpamayo," aimed at developing safe Level 4 robotic taxis. The announcement was made during the NVIDIA GTC Taipei event held on June 1, 2026, in Taipei, Taiwan. This initiative reflects NVIDIA's commitment to advancing autonomous vehicle technology, enhancing safety and efficiency in transportation. The expansion of Alpamayo is expected to play a crucial role in the future of urban mobility, as the company seeks to address the growing demand for innovative transportation solutions.

NVIDIA Launches Cosmos 3, the Open Frontier Foundation Model for Physical AI

NVIDIA Launches Cosmos 3, the Open Frontier Foundation Model for Physical AI

NVIDIA has unveiled its latest innovation, the NVIDIA Cosmos™ 3, a groundbreaking open world foundation model designed for physical AI. This advanced system integrates a mixture-of-transformers architecture that seamlessly combines vision reasoning, world generation, and action prediction into one cohesive platform. The launch, which took place today, marks a significant step forward in the development of artificial intelligence, aiming to enhance the capabilities of AI in understanding and interacting with the physical world. By leveraging this sophisticated technology, NVIDIA seeks to push the boundaries of AI applications across various industries, paving the way for more intelligent and responsive systems.

SpaceX's Starmind Targets AI Labs with $6.3 Billion Compute Contracts

SpaceX's Starmind Targets AI Labs with $6.3 Billion Compute Contracts

SpaceX's Starmind is designed to provide wholesale AI compute services to businesses, particularly AI labs and cloud customers, rather than individual consumers. The service operates similarly to AWS, where users benefit from applications running on Starmind without direct subscriptions. The compute capacity of a single AI1 satellite is comparable to one NVIDIA GB300 rack, emphasizing its enterprise-grade capabilities. The significance of Starmind lies in its positioning as a potential fourth hyperscaler, joining the ranks of AWS, Microsoft Azure, and Google Cloud. The Reflection AI contract, valued at $150 million per month, exemplifies the enterprise-focused model, with total payments potentially reaching $6.3 billion through 2029. This contract highlights the growing demand for AI compute resources, particularly from AI-native startups and labs. Looking ahead, the focus will remain on securing additional enterprise contracts as Starmind expands its offerings. No consumer-facing products or subscriptions have been announced, and the current strategy is to cater to businesses with substantial AI workloads. No further timeline was disclosed at the time of publication.

Japan's Leading Robot Manufacturers Collaborate with Nvidia on AI-Enabled Hardware

Japan's Leading Robot Manufacturers Collaborate with Nvidia on AI-Enabled Hardware

Nvidia Corp. has announced an expanded collaboration with four prominent Japanese industrial automation companies to enhance robot development. This partnership aims to support Jensen Huang's initiative to advance AI-enabled hardware in the robotics sector. The collaboration is significant as it underscores the growing importance of integrating AI capabilities into robotics, which can lead to more efficient and intelligent automation solutions. By leveraging Nvidia's expertise in AI, these Japanese companies are positioning themselves to remain competitive in the rapidly evolving industrial landscape. Looking ahead, it will be crucial to monitor the outcomes of this collaboration and how it influences the development of AI-driven robotic technologies. No further timeline was disclosed at the time of publication.

NVIDIA's CEO Jensen Huang Announces Expansion of Physical AI Collaboration in Japan

NVIDIA's CEO Jensen Huang Announces Expansion of Physical AI Collaboration in Japan

On July 16, NVIDIA CEO Jensen Huang announced an expansion of collaboration with Japanese companies in the field of 'physical AI' during an event in Tokyo. This initiative marks a strategic move to integrate NVIDIA's technology into Japan's manufacturing sector, particularly through a partnership with Toyota to develop AI models for the Woven City traffic control system. The collaboration with Toyota is central to NVIDIA's strategy, as the company will provide GPUs and development tools to Toyota's subsidiary, Woven by Toyota. This partnership aims to embed NVIDIA's technology into the city's digital twin platform, Omniverse, enhancing factory production and driving manufacturing robots with the Isaac platform. Additionally, Huang revealed plans to deepen cooperation with major Japanese industrial automation firms, including Fujitsu, Fanuc, Yaskawa Electric, and Kawasaki Heavy Industries, as part of the Cosmos Coalition. This initiative aims to strengthen Japan's position in the global AI robotics market, with a government goal of achieving a 30% market share by 2040. No further timeline was disclosed at the time of publication.

Physical AI Robotics Industrial Automation AI Technology
NVIDIA Open Sources Embodied Intelligence Toolchain to Enhance Robotics Development

NVIDIA Open Sources Embodied Intelligence Toolchain to Enhance Robotics Development

On July 6, NVIDIA integrated three key components into Hugging Face's open-source robotics library, LeRobot: the GR00T N1.7 model, Isaac Teleop framework, and the upcoming Cosmos 3. This collaboration connects NVIDIA's 3 million robot developers with Hugging Face's 16 million AI builders, facilitating access to pre-trained models and data. This initiative is significant as it shifts NVIDIA's focus from merely creating models to building an ecosystem that addresses data bottlenecks in embodied intelligence development. The Isaac Teleop framework standardizes data collection, allowing for easier sharing and reuse within the community, which is crucial for advancing robotics. Looking ahead, the integration of GR00T N1.7 and Isaac Teleop into the LeRobot workflow marks a pivotal moment for robotics developers. No further timeline was disclosed at the time of publication.

Robotics Open Source AI Development Data Collection Machine Learning
NVIDIA's Cosmos Ecosystem: A Paradigm Shift in Physical AI and Robotics

NVIDIA's Cosmos Ecosystem: A Paradigm Shift in Physical AI and Robotics

NVIDIA has unveiled its latest innovation, Cosmos 3, which represents a major leap forward in physical AI technology. This new system redefines computational infrastructure's role in the fields of robotics and autonomous driving. By utilizing a hybrid Transformer architecture, Cosmos 3 enhances capabilities in world modeling and action generation, effectively tackling issues related to data gaps and simulation accuracy. This advancement positions NVIDIA as a pivotal force in shaping the future of robotics, underscoring its commitment to driving innovation in this rapidly evolving sector.

Physical AI Robotics Simulation NVIDIA Machine Learning
Japan Allocates $2.4 Billion for 27,500 NVIDIA Rubin Chips to Establish National Robotics Initiative

Japan Allocates $2.4 Billion for 27,500 NVIDIA Rubin Chips to Establish National Robotics Initiative

On July 16, the Japanese government announced a plan to purchase 27,500 next-generation Rubin architecture AI chips from NVIDIA, totaling approximately $2.4 billion. This initiative aims to build a national AI data center and develop domestic robotics foundational models, marking one of the largest national GPU procurements globally. The project is coordinated by Noetra Corp., a policy-driven AI company set to launch in January 2026, with participation from major Japanese firms like Sony, SoftBank, NEC, and Honda. The Rubin chips will be deployed in a large data center in Sakai City, Osaka, with operations expected to begin in June 2028. Noetra aims to release its first general AI model by March 2027, followed by specialized AI models for robotics applications. Japan's investment reflects its response to ongoing demographic challenges and labor shortages. NVIDIA's CEO emphasized the potential for automation and AI to revitalize the economy. The Japanese government has set a goal to capture over 30% of the global robotics market by 2040, with the Rubin order being part of a broader strategy to reduce reliance on foreign technology and enhance national security.

AI Chips Robotics National AI Strategy Data Centers
Japan Allocates $2.4 Billion for AI Development with NVIDIA Chip Acquisition

Japan Allocates $2.4 Billion for AI Development with NVIDIA Chip Acquisition

On July 16, Japan's Ministry of Economy, Trade and Industry announced a significant investment of 387.3 billion yen (approximately $2.4 billion) to support the AI company Noetra. This funding will be used to procure around 27,500 NVIDIA Rubin GPUs for the establishment of a national AI data center, marking one of the largest single-country chip procurements globally. This initiative is crucial as Japan aims to address its declining population and severe labor shortages. The government has set a clear target to capture over 30% of the global 60 trillion yen robotics market by 2040. Noetra, which was established in January 2026 and includes major companies like Sony, SoftBank, NEC, and Honda, aims to develop advanced multimodal AI models capable of understanding Japanese language and recognizing various forms of media. Looking ahead, Noetra plans to release its first general-purpose AI model by March 2027, followed by continuous iterations and specialized models for robotics applications. The deployment of the Rubin chips in a large data center in Sakai, Osaka, is scheduled for June 2028, positioning Japan to lead in the next era of AI and robotics integration.

AI Technology Robotics NVIDIA Chips Data Centers
Robotics Sector Shines as A-Shares Open Lower with Over 3100 Stocks Declining

Robotics Sector Shines as A-Shares Open Lower with Over 3100 Stocks Declining

On July 17, A-shares opened lower with the Shanghai Composite Index down by 0.44% and over 3100 stocks declining. Despite the market drop, the robotics sector emerged as a bright spot, particularly during the ongoing 2026 World Artificial Intelligence Conference (WAIC) in Shanghai, where 60 full-sized humanoid robots are performing public service tasks. This development is significant as it highlights the growing commercialization of humanoid robots, which are transitioning from mere exhibits to active participants in public service roles. According to Guolian Minsheng Securities, the humanoid robot industry is entering a phase characterized by accelerated large-scale manufacturing, continuous expansion of application scenarios, and upgrades in embodied intelligence. Looking ahead, the focus will be on whether the robotics sector can maintain its momentum amidst a generally declining market. The WAIC is expected to further stimulate interest in robotics, while NVIDIA's collaboration with major Japanese industrial automation firms to advance physical AI could also influence market dynamics. No further timeline was disclosed at the time of publication.

Robotics AI Industrial Automation Humanoid Robots
NVIDIA and Noetra Corp. Launch Japan's First National AI Infrastructure for Physical AI

NVIDIA and Noetra Corp. Launch Japan's First National AI Infrastructure for Physical AI

NVIDIA has partnered with Noetra Corp. to establish the NVIDIA Vera Rubin AI factory, featuring 13,750 NVIDIA Vera CPUs and 27,500 NVIDIA Rubin GPUs. This initiative, supported by Japan’s AI and industrial leaders, represents the world’s first national AI infrastructure dedicated to physical AI, enhancing the country’s capabilities across various sectors including manufacturing and healthcare. The establishment of this AI factory is significant as it aims to strengthen Japan's AI ecosystem and support the FRONTia Project, which focuses on developing multimodal foundation models for AI robotics and physical AI. The collaboration is expected to leverage Japan's manufacturing expertise and real-world industrial data to create reliable AI models that can address global social challenges. Looking ahead, the AI factory is designed to support the training of trillion-parameter-scale AI models, positioning Japan to capture over 30% of the global AI robotics market by 2040. As the factory expands, it will provide organizations with access to advanced AI environments, paving the way for innovations in intelligent manufacturing and robotics.

Walden Robotics Emerges with $300 Million Funding to Deploy General-Purpose Robots

Walden Robotics Emerges with $300 Million Funding to Deploy General-Purpose Robots

Walden Robotics has officially launched, securing $300 million in funding to develop and deploy general-purpose robots. This funding round, co-led by Toyota and Deviation Capital, values the company at $1.1 billion and includes participation from notable investors such as NVIDIA, Boeing, and Samsung Ventures. The significance of this launch lies in Walden Robotics' focus on creating full-stack Physical AI solutions that enable robots to learn and adapt while performing real-world tasks. This approach positions the company to meet the growing demand for versatile robotic solutions across various industries, enhancing operational efficiency and productivity. Looking ahead, industry observers should monitor Walden Robotics' progress in deploying its general-purpose robots and the potential impact on sectors that require automation. No further timeline was disclosed at the time of publication.

NVIDIA Launches Jetson Thor Modules to Enhance Robotics and Edge AI Applications

NVIDIA Launches Jetson Thor Modules to Enhance Robotics and Edge AI Applications

NVIDIA has unveiled the T3000 and T2000 modules based on the Thor architecture, designed to meet the growing demand for compact AI supercomputers in robotics and edge AI. These modules enable mass-market deployment of advanced humanoid and robotic systems, with notable adoption from leading companies such as Amazon Robotics and Boston Dynamics. The introduction of the Jetson T3000 and T2000 modules is significant as they provide high-performance AI compute capabilities in a smaller form factor, achieving up to 865 FP4 teraflops for the T3000. This advancement allows developers to optimize their systems while reducing costs, particularly in light of rising memory prices. The T2000 serves as an entry point for a wider range of edge AI applications, further expanding NVIDIA's scalable edge AI platform. Looking ahead, the new Jetson modules are expected to facilitate faster deployment and lower system costs across various industries. Companies like UBTech and Agile Robots have already reported substantial memory savings, indicating a trend towards more efficient development processes in robotics. No further timeline was disclosed at the time of publication.

NVIDIA and SEGA Showcase Full-Stack AI and Robotics Innovations in Japan

NVIDIA and SEGA Showcase Full-Stack AI and Robotics Innovations in Japan

NVIDIA and its partners in Japan are demonstrating advancements in AI and robotics, highlighting the country's role as a global technology hub. The collaboration with SEGA marks over 30 years of partnership, bringing the new VIRTUA FIGHTER CROSSROADS to NVIDIA's RTX Spark superchip, enhancing gaming experiences on Windows PCs. This collaboration is significant as it showcases how NVIDIA's technologies are integrated into gaming, emphasizing the evolution of graphics and AI capabilities. The RTX Spark superchip aims to provide gamers with innovative experiences while maintaining the legacy of SEGA's iconic franchises, illustrating the synergy between AI and gaming. Looking ahead, the NVIDIA RTX Spark ecosystem is expected to expand further, offering new opportunities for gamers and developers alike. No further timeline was disclosed at the time of publication.

Booster Robotics Launches Booster T2 Humanoid Robot with NVIDIA Thor Computing Power

Booster Robotics Launches Booster T2 Humanoid Robot with NVIDIA Thor Computing Power

Booster Robotics has introduced the Booster T2, a humanoid robot platform aimed at real-world applications and embodied AI research. The T2 Pro version utilizes NVIDIA’s Thor chip, delivering up to 2,070 TFLOPS for real-time perception and control. The robot is designed for tasks requiring mobility and manipulation, showcasing advanced capabilities such as walking, dynamic balance, and athletic movements. The significance of the Booster T2 lies in its integration of cutting-edge technology and open development. With features like whole-body coordination and onboard AI computing, it supports a wide range of applications in robotics. The introduction of Booster Studio, an open software platform, further enhances its utility by allowing developers to simulate and deploy AI models effectively. Looking ahead, the Booster T2 is positioned to advance research in embodied AI and robotics. Its robust design, including 31 degrees of freedom and multiple hardware configurations, makes it suitable for various manipulation tasks. No further timeline was disclosed at the time of publication.

AI and Robotics
SpaceX Unveils AI1 Satellite Specs for Starmind Constellation with Key Thermal Challenges

SpaceX Unveils AI1 Satellite Specs for Starmind Constellation with Key Thermal Challenges

SpaceX has introduced the AI1 satellite, the inaugural component of its Starmind constellation, which stands 20 meters tall and has a wingspan of 70 meters. This orbital compute node is designed to deliver computing power equivalent to one NVIDIA GB300 server rack, utilizing a unique cooling system with deployable liquid radiators. The satellite's specifications were revealed during a presentation on June 8, 2026, ahead of SpaceX's IPO. The significance of the AI1 satellite lies in its role as a compute platform rather than a traditional satellite, focusing on running AI inference workloads. The satellite's cooling system, which is critical for its operation in the vacuum of space, is designed to reject heat through infrared radiation. However, independent engineers have raised concerns about the feasibility of the thermal and mass claims made by SpaceX, suggesting that the cooling requirements may exceed practical limits. Looking ahead, SpaceX plans to launch two AI1 prototypes in early 2027, with full-scale production expected to commence later that year at its Gigasat facility in Bastrop, Texas. The ongoing debate regarding the satellite's thermal management capabilities will be crucial to monitor as the project progresses, with no further timeline disclosed at the time of publication.

Claude Meets Blackwell Ultra: Anthropic’s Models Now Run on NVIDIA GB300 in Azure

Claude Meets Blackwell Ultra: Anthropic’s Models Now Run on NVIDIA GB300 in Azure

Anthropic has announced the general availability of its Claude models, which are now hosted on Microsoft Azure and powered by NVIDIA's GB300 Blackwell Ultra GPUs. This development provides enterprises utilizing Azure with an advanced tool to create autonomous and specialized AI solutions. The integration of these models aims to enhance the capabilities of businesses in various domains, enabling them to leverage cutting-edge technology for improved operational efficiency and innovation. The launch reflects a growing trend in the AI sector, where companies are increasingly seeking robust platforms to support their AI initiatives.

Europe Unveils a Record 35 New NVIDIA AI Supercomputers

Europe Unveils a Record 35 New NVIDIA AI Supercomputers

NVIDIA has unveiled plans for a groundbreaking initiative involving the development of 35 AI high-performance computing (HPC) supercomputers across Europe. This ambitious project aims to provide advanced infrastructure to over 3 million researchers, enhancing the continent's capabilities in artificial intelligence and accelerated computing. The announcement was made during the ISC High Performance 2026 event, highlighting NVIDIA's commitment to advancing AI technology and supporting research initiatives. By investing in this state-of-the-art infrastructure, NVIDIA seeks to empower researchers with the tools necessary to drive innovation and scientific discovery in various fields.

"Computing power surpasses Nvidia, with costs only 1/10! BabyAlpha A3 debuts, consumer-grade AI intelligence reaches a turning point..."

"Computing power surpasses Nvidia, with costs only 1/10! BabyAlpha A3 debuts, consumer-grade AI intelligence reaches a turning point..."

In a significant advancement for consumer-grade artificial intelligence, the BabyAlpha A3 has been launched, boasting computing power that exceeds that of Nvidia while costing only a fraction—one-tenth—of the price. This development marks a pivotal moment in the AI industry, as it democratizes access to high-performance computing capabilities for consumers and smaller enterprises. The BabyAlpha A3 is expected to empower a broader range of applications, from personal use to small business operations, by making advanced AI technology more affordable and accessible. The introduction of this product highlights the ongoing competition in the tech sector, where companies are striving to innovate and reduce costs to capture a larger share of the market. As the demand for AI solutions continues to grow, the BabyAlpha A3 represents a notable shift towards more accessible and cost-effective AI tools for everyday users.

Robotics Automation AI
Chinese Startup Weilan Tech Unveils BabyAlpha A3: A Quadruped Robot That Outpaces Nvidia's Computing Throne

Chinese Startup Weilan Tech Unveils BabyAlpha A3: A Quadruped Robot That Outpaces Nvidia's Computing Throne

Weilan Tech has unveiled its latest innovation, the BabyAlpha A3, which boasts a cutting-edge 6-chip heterogeneous computing cluster and a high-resolution 66-megapixel vision system. This new technology promises to deliver ten times the computing efficiency compared to industry standards while significantly reducing costs, priced at just one-tenth of Nvidia's Jetson Thor. The launch, which highlights Weilan Tech's commitment to advancing computing capabilities in the tech sector, is set to reshape the landscape of artificial intelligence and machine vision applications.

News
NVIDIA Launches Nemotron 3 Nano Omni Model, Unifying Vision, Audio and Language for up to 9x More Efficient AI Agents

NVIDIA Launches Nemotron 3 Nano Omni Model, Unifying Vision, Audio and Language for up to 9x More Efficient AI Agents

NVIDIA has introduced the Nemotron 3 Nano Omni, an innovative open multimodal AI model designed to enhance the efficiency of AI agent systems. Announced today, this model integrates vision, speech, and language capabilities into a single framework, addressing the common issue of time and context loss that occurs when data is transferred between separate models. By streamlining these processes, the Nemotron 3 Nano Omni aims to improve the performance of AI applications across various domains. This advancement is particularly significant as it allows for more cohesive and contextually aware interactions, marking a notable step forward in the development of AI technologies.

New NVIDIA Nemotron 3 Super Delivers 5x Higher Throughput for Agentic AI

New NVIDIA Nemotron 3 Super Delivers 5x Higher Throughput for Agentic AI

NVIDIA has officially launched the Nemotron 3 Super, a groundbreaking AI model featuring 120 billion parameters, with 12 billion of those actively utilized. This innovative model is designed to support the deployment of complex agentic AI systems at scale, showcasing advanced reasoning capabilities that enhance efficiency. The release, which took place today, marks a significant advancement in AI technology, reflecting NVIDIA's commitment to pushing the boundaries of artificial intelligence and machine learning. The Nemotron 3 Super is now available for use, promising to transform how AI systems operate across various applications.

Fujitsu Collaborates with Fanuc, Yaskawa, and Kawasaki to Enhance Physical AI with Nvidia

Fujitsu Collaborates with Fanuc, Yaskawa, and Kawasaki to Enhance Physical AI with Nvidia

Fujitsu has initiated a partnership with Japanese robotics firms Fanuc, Yaskawa Electric, and Kawasaki Heavy Industries to advance the development and deployment of physical AI in sectors such as manufacturing, logistics, and healthcare. This collaboration will leverage Nvidia's physical AI technologies to create a collaborative control platform that connects digital systems with robots and physical equipment. The initiative aims to accelerate the adoption of physical AI, addressing challenges like labor shortages and an aging workforce while enhancing global competitiveness. The platform will optimize production planning in manufacturing, automate material handling in logistics, and improve healthcare operations by automating the transport of medical supplies and assisting with patient interactions. Fujitsu plans to develop an open collaborative control platform that integrates AI, robotics, and data analysis technologies, ensuring interoperability and addressing cybersecurity concerns. No further timeline was disclosed at the time of publication.

Artificial Intelligence Industry News ai factory automation fanuc
Toyota and Nvidia Enhance Collaboration to Advance AI in Vehicles, Manufacturing, and Urban Infrastructure

Toyota and Nvidia Enhance Collaboration to Advance AI in Vehicles, Manufacturing, and Urban Infrastructure

Toyota and Nvidia have broadened their partnership to develop physical AI technologies that encompass next-generation vehicles, manufacturing, robotics, and urban infrastructure. This collaboration builds on a previous agreement, focusing on advanced driver-assistance systems using Nvidia's DRIVE AGX platform and DriveOS operating system. The significance of this partnership lies in its potential to revolutionize mobility and manufacturing. Rishi Dhall, Nvidia's vice president of automotive, emphasized that physical AI will enhance the intelligence of various machines, making vehicles more autonomous and urban environments safer and more responsive. Toyota aims to implement Level 2++ functionality in its future vehicles while leveraging Nvidia AI models for efficient software engineering. Additionally, Toyota is integrating AI into its manufacturing processes through factory simulations using Nvidia's Omniverse and Isaac Sim frameworks. The partnership also extends to urban mobility technologies via Woven by Toyota, which is developing models to analyze traffic conditions. No further timeline was disclosed at the time of publication.

Computing News advanced driver assistance systems ai automotive AI digital twins
FORT Robotics Enhances AI Safety with Nvidia Halos at Automate Conference

FORT Robotics Enhances AI Safety with Nvidia Halos at Automate Conference

FORT Robotics has joined the Nvidia Halos for Robotics ecosystem to enhance safety for autonomous robots. The company will showcase its agentic safety application, developed using the Nvidia Halos Outside-In Safety Blueprint, at the Automate conference in Chicago. This innovative solution utilizes external infrastructure sensors and visual AI agents to provide real-time, safety-certifiable functional safety, significantly improving operational efficiency in dynamic environments. The collaboration is significant as it addresses the limitations of traditional inside-out functional safety systems, which rely solely on onboard sensors. By integrating Nvidia's IGX Thor and Holoscan Sensor Bridge, FORT's solution allows robots to operate safely alongside human workers in high-efficiency modes. This adaptability is crucial for modern warehouses and factories, where environments are constantly changing, and safety frameworks must evolve to protect workers effectively. Looking ahead, FORT's integration with Nvidia Halos is expected to provide substantial value to customers in warehousing, manufacturing, and other automated sectors. The Outside-In Safety framework aims to prevent safety incidents in mixed human-robot environments, optimizing processes like inventory replenishment and product assembly. No further timeline was disclosed at the time of publication.

Artificial Intelligence Industry ai automation Autonomous robots fort robotics
MediaTek denies $73 billion acquisition by NVIDIA

MediaTek denies $73 billion acquisition by NVIDIA

MediaTek has officially refuted rumors regarding a potential acquisition by NVIDIA for $73 billion, which surfaced following the announcement of their co-developed GB10 super chip. The collaboration between the two companies, focused on CPU and GPU design and advanced packaging technologies, has sparked speculation in the market. Despite the close working relationship, MediaTek emphasized that any acquisition would encounter significant international regulatory challenges.

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NVIDIA's Vera Rubin Enhances Intelligence per Dollar for Continuous Agentic AI Post-Training

NVIDIA's Vera Rubin Enhances Intelligence per Dollar for Continuous Agentic AI Post-Training

NVIDIA's Vera Rubin is redefining post-training workloads for agentic AI, emphasizing continuous adaptation and refinement. Unlike traditional models, agentic AI requires ongoing adjustments as environments and tools evolve, making post-training a critical, never-ending process. This shift necessitates a new compute pattern, focusing on maximizing intelligence per dollar through efficient forward and backward passes in the learning cycle. The significance of this development lies in its potential to enhance the efficiency of AI models. By optimizing cost per token during inference, NVIDIA aims to improve the overall intelligence per dollar, ensuring that models remain valuable as they adapt to changing conditions. This continuous learning approach allows models to not only respond to prompts but also to plan and recover from challenges in real-time, thereby increasing their operational effectiveness. Looking ahead, the integration of NVIDIA's NeMo libraries will facilitate the transition from bespoke research to scalable infrastructure for post-training. As the demand for agentic AI grows, the focus will be on how effectively these models can adapt and learn in dynamic environments, ultimately determining their value in practical applications. No further timeline was disclosed at the time of publication.

Japan Plans Acquisition of 27,500 Nvidia Rubin Chips for Domestic AI Robotics Development

Japan Plans Acquisition of 27,500 Nvidia Rubin Chips for Domestic AI Robotics Development

Japan is set to purchase 27,500 next-generation Rubin chips from Nvidia Corp. to develop a foundational AI model tailored for robotics. This initiative aims to enhance Japan's capabilities in creating sovereign AI systems that can be integrated into various robotic applications. The acquisition of these chips is significant as it represents Japan's commitment to advancing its technological independence in the field of artificial intelligence. By building a homegrown AI model, Japan seeks to strengthen its position in the global robotics market and reduce reliance on foreign technologies. Looking ahead, the focus will be on how effectively Japan can leverage these Rubin chips to create a robust AI framework for robots. No further timeline was disclosed at the time of publication.

Fujitsu Leads Initiative to Integrate Nvidia Technology in Japanese Robotics and AI

Fujitsu Leads Initiative to Integrate Nvidia Technology in Japanese Robotics and AI

Fujitsu, a prominent Japanese communications company, is spearheading an initiative to integrate Nvidia's technology into artificial intelligence applications. This collaboration aims to merge Japan's advanced manufacturing capabilities in robotics with cutting-edge AI solutions. The significance of this initiative lies in its potential to enhance the efficiency and effectiveness of robotics in various sectors. By leveraging Nvidia's technology, Fujitsu seeks to position Japan at the forefront of the global AI and robotics landscape, showcasing the country's strengths in innovation and manufacturing. Looking ahead, industry stakeholders will be keen to observe the developments stemming from this collaboration. No further timeline was disclosed at the time of publication, but the integration of Nvidia's technology could lead to significant advancements in physical AI applications within Japan's robotics sector.

Robotics
Nvidia Collaborates with Toyota's Woven City to Advance Physical AI Technologies

Nvidia Collaborates with Toyota's Woven City to Advance Physical AI Technologies

Nvidia has announced a partnership with Toyota's Woven City, a smart city located in Shizuoka prefecture, Japan. This collaboration aims to enhance the implementation of artificial intelligence technologies in traffic management systems within the city. By providing foundational technologies, Nvidia seeks to accelerate the adoption of AI solutions in Japan. This partnership is significant as it aligns with Nvidia's strategy to expand its influence in the AI sector, particularly in Japan, where smart city initiatives are gaining momentum. Woven City serves as a testing ground for innovative technologies, making it an ideal location for Nvidia to showcase its capabilities in AI and traffic management. Looking ahead, the collaboration between Nvidia and Woven City may lead to further advancements in smart city technologies and AI applications. No further timeline was disclosed at the time of publication.

Japanese Enterprises and Startups Develop Industry-Specific AI Using NVIDIA Nemotron Models

Japanese Enterprises and Startups Develop Industry-Specific AI Using NVIDIA Nemotron Models

NVIDIA has announced that prominent Japanese enterprises, startups, and research institutions are leveraging NVIDIA Nemotron™ open models to create industry-specific AI applications. This initiative aims to accelerate the development of AI solutions tailored to Japan's unique language, industries, and workforce needs. The significance of this development lies in its potential to address Japan's aging population and workforce transition, which has heightened the demand for localized AI solutions. Jensen Huang, founder and CEO of NVIDIA, emphasized the importance of open models in enabling nations and organizations to control their AI infrastructure, thereby fostering innovation and productivity. Looking ahead, various Japanese developers are customizing NVIDIA Nemotron models for specialized applications, such as financial-document translation and telecom network operations. No further timeline was disclosed at the time of publication.

Kawasaki Heavy and Nvidia Collaborate on AI-Driven Shipyard in Japan

Kawasaki Heavy and Nvidia Collaborate on AI-Driven Shipyard in Japan

Kawasaki Heavy Industries and Nvidia have announced a partnership to create a cutting-edge shipyard in Japan that will utilize artificial intelligence. This initiative aims to enhance productivity and address labor shortages in the shipbuilding sector by leveraging Nvidia's digital twin technology. The collaboration is significant as it represents a strategic move by Kawasaki Heavy to modernize its operations and improve efficiency through advanced technology. By integrating AI and robotics, the shipyard is expected to streamline processes such as welding, which is critical in ship construction, thereby mitigating the impact of the ongoing labor crunch in the industry. Looking ahead, the development of autonomous robots capable of performing essential tasks at shipyards will be a key focus of this partnership. No further timeline was disclosed at the time of publication.

NVIDIA Discusses Evaluating General-Purpose Robot Policies for Real-World Applications

NVIDIA Discusses Evaluating General-Purpose Robot Policies for Real-World Applications

NVIDIA has highlighted the challenges in evaluating general-purpose robot policies as their capabilities advance. The company emphasizes that while current robotics models can follow natural language instructions to manipulate various objects, rigorous evaluation remains a significant hurdle due to the limitations of existing benchmarks. Real-world testing is costly and slow, necessitating effective simulation methods for large-scale evaluations. The importance of this evaluation process lies in the need for robots to generalize their skills beyond memorized setups. NVIDIA points out that many benchmarks suffer from visual and task-domain overlap, which can lead to misleading performance metrics. As models achieve high scores on static task sets, it becomes increasingly difficult to differentiate their true capabilities, raising concerns about the meaningfulness of reported results. Looking ahead, NVIDIA's focus on improving simulation environments and task generation methods is crucial for advancing robotic evaluation. The company aims to address the diagnostic gaps in current benchmarks, which often fail to provide insights into the reasons behind a robot's performance. No further timeline was disclosed at the time of publication.

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NVIDIA and Hugging Face integrate AI model "GR00T 1.7" into open-source robot development platform "LeRobot."

NVIDIA and Hugging Face integrate AI model "GR00T 1.7" into open-source robot development platform "LeRobot."

NVIDIA and Hugging Face have announced the integration of their cutting-edge technologies aimed at enhancing humanoid robots. The collaboration will see the incorporation of NVIDIA's visual language action (VLA) model, known as NVIDIA Isaac GR00T 1.7, along with the remote operation framework, NVIDIA Isaac Teleop, into Hugging Face's open-source robot development library, LeRobot. This initiative is set to advance the capabilities of humanoid robots, enabling more sophisticated interactions and functionalities. The announcement highlights a significant step in the ongoing evolution of robotics, reflecting both companies' commitment to fostering innovation in the field.

SpaceX's Starmind Project: Supplier Strategy and Chip Manufacturing Plans for 2026

SpaceX's Starmind Project: Supplier Strategy and Chip Manufacturing Plans for 2026

SpaceX's Starmind project, aimed at deploying up to 1 million AI satellites, was filed with the FCC on January 30, 2026. The initiative is designed to minimize reliance on external suppliers, with CEO Elon Musk stating that current chip production capabilities only meet 2% of the projected needs. The first satellite, AI1, is set for prototype launches in early 2027, featuring a 70-meter wingspan and a modular payload system that allows for interchangeable chips from various suppliers. The significance of Starmind lies in its ambitious supply chain strategy, which seeks to transition from external hardware suppliers to a fully integrated Musk-owned facility by 2028. The Gigasat manufacturing site in Bastrop, Texas, is expected to be operational by the end of 2027, with plans for high-volume production of the D3 chip, specifically designed for space applications. This approach aims to consolidate chip manufacturing processes under the Terafab joint venture, which has an estimated initial investment of $55 billion. Looking ahead, the next milestone for Starmind is the launch of AI1 prototypes in early 2027, while the full-scale chip production at Terafab is projected to ramp up significantly thereafter. However, analysts express skepticism regarding the feasibility of achieving Musk's ambitious compute goals, which may require substantial investment and time to establish the necessary manufacturing capabilities.

NVIDIA's Halos for Robotics: A New Era for Industrial Robot Safety

NVIDIA's Halos for Robotics: A New Era for Industrial Robot Safety

Recent advancements in industrial robotics have marked a significant milestone in the integration of physical artificial intelligence. Over the past few years, the field has experienced unprecedented growth, with AI evolving beyond mere data analysis and text generation. Now, machines equipped with this technology can perceive their surroundings, make real-time decisions, and interact directly with their environment. This transformation is highlighted in a recent article discussing NVIDIA's Halos for Robotics, which emphasizes the new era of safety in industrial robots. The developments signal a shift in how robots operate, enhancing their capabilities and effectiveness in various industrial applications.

À la une IA Industrie Robotique automatisation industrielle. cobot industriel
NVIDIA Halos for Robotics: A New Era for Industrial Robot Safety

NVIDIA Halos for Robotics: A New Era for Industrial Robot Safety

Recent advancements in industrial robotics have marked a significant milestone in the integration of physical artificial intelligence. Over the past few years, the field has experienced unprecedented growth, evolving beyond mere data analysis and text generation. Now, AI technology is enabling machines to perceive their surroundings, make real-time decisions, and interact directly with their environment. This evolution is exemplified by NVIDIA's latest innovations, which are set to enhance the safety and functionality of industrial robots. As these developments unfold, the landscape of robotics is transforming, paving the way for smarter and more autonomous machines in various industries.

À la une IA Industrie Robotique automatisation industrielle. cobot industriel
Kawasaki Heavy Industries opens Physical AI Center in San Jose, California, with a congratulatory message from NVIDIA's Jensen Huang.

Kawasaki Heavy Industries opens Physical AI Center in San Jose, California, with a congratulatory message from NVIDIA's Jensen Huang.

Kawasaki Heavy Industries, Ltd. announced the opening of its Kawasaki Physical AI Center, scheduled for June 15, 2026. To mark this occasion, the company released a video message from NVIDIA's CEO, Jensen Huang, on YouTube. The establishment of the center aims to enhance research and development in artificial intelligence and robotics, reflecting Kawasaki's commitment to innovation in these fields. The collaboration with NVIDIA underscores the importance of integrating advanced AI technologies into Kawasaki's operations, positioning the company at the forefront of technological advancements in the industry.

Teleexistence reveals humanoid's success in autonomous convenience store bagging using VLA and NVIDIA's "DreamZero."

Teleexistence reveals humanoid's success in autonomous convenience store bagging using VLA and NVIDIA's "DreamZero."

On June 10, 2026, Teleexistence showcased a demonstration of autonomous operations using humanoid robots as part of the "Physical AI Fellowship 2026," a collaborative initiative supported by AWS, NVIDIA, and MassRobotics. The event highlighted the integration of NVIDIA's World Model, "DreamZero," showcasing advancements in robotic technology and artificial intelligence. This demonstration aims to illustrate the potential of physical AI in enhancing robotic capabilities and fostering innovation in the field.

Microsoft and NVIDIA unveil next-gen PCs capable of 1 petaflop performance.

Microsoft and NVIDIA unveil next-gen PCs capable of 1 petaflop performance.

Microsoft and NVIDIA have unveiled a next-generation PC equipped with the NVIDIA RTX Spark, boasting an impressive AI performance of up to 1 petaflop. This announcement was made recently as part of their ongoing collaboration to enhance computing power. The new system features significant optimizations for Windows, aiming to expand the ecosystem of local AI agents, applications, and games. This development reflects both companies' commitment to advancing AI technology and improving user experiences across various platforms.

Microsoft unveils AI-focused mini PC "Surface RTX Spark Dev Box" featuring NVIDIA SoC.

Microsoft unveils AI-focused mini PC "Surface RTX Spark Dev Box" featuring NVIDIA SoC.

At the recent Build 2026 conference, Microsoft unveiled its new AI-focused desktop PC, the Surface RTX Spark Dev Box. This powerful machine is equipped with NVIDIA's RTX Spark technology, delivering an impressive computational performance of up to 1 petaflop and featuring 128GB of memory. These specifications enable local inference and training of models with over 120 billion parameters. Additionally, the device comes pre-installed with a variety of development tools, catering to the needs of developers working in artificial intelligence and machine learning.

NVIDIA unveils its first open humanoid reference design, "Isaac GR00T."

NVIDIA unveils its first open humanoid reference design, "Isaac GR00T."

NVIDIA has unveiled its first open-source humanoid robot reference design, named the NVIDIA Isaac GR00T Reference Humanoid Robot, aimed at advancing robotics research. This announcement was made recently, highlighting NVIDIA's commitment to fostering innovation in the field of robotics. The new design is expected to provide researchers and developers with a versatile platform to explore and develop robotic applications. By making the design open-source, NVIDIA aims to encourage collaboration and accelerate advancements in humanoid robotics, allowing a broader community to contribute to and benefit from this technology.

Microsoft announces "Surface Laptop Ultra" featuring NVIDIA's new RTX Spark chip for local execution of large AI models.

Microsoft announces "Surface Laptop Ultra" featuring NVIDIA's new RTX Spark chip for local execution of large AI models.

Microsoft has unveiled its latest high-performance laptop, the Surface Laptop Ultra, which features NVIDIA's new Arm processor, the RTX Spark. This innovative device is designed to deliver powerful AI computing capabilities, enabling users to run large AI models in local environments. The announcement highlights Microsoft's commitment to advancing technology that enhances productivity and performance for users seeking cutting-edge solutions.

Microsoft announces "Surface Laptop Ultra," designed with NVIDIA, enabling local execution of AI models.

Microsoft announces "Surface Laptop Ultra," designed with NVIDIA, enabling local execution of AI models.

Microsoft has unveiled its latest notebook, the Surface Laptop Ultra, marking a significant advancement in its product line. This new device is the first Surface model to feature the RTX Spark system-on-chip (SoC), which was co-designed with NVIDIA. The Surface Laptop Ultra boasts an impressive AI computing performance of 1 petaflop, allowing it to handle complex tasks efficiently. It is equipped with up to 128GB of unified memory, enabling the execution of models with 120 billion parameters locally. The highly anticipated laptop is set to be released in the fall of 2026, reflecting Microsoft's commitment to integrating cutting-edge technology into its devices to meet the growing demands of AI applications.

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