A single destination for timely, editor-curated robotics news from around the world.
During a media briefing on July 15, Digua Robot's CEO, Wang Cong, stated that there are currently no industry standards for the computing power required for embodied intelligence chips. He emphasized the uncertainty surrounding chip performance, data standards, algorithms, and practical applications in the sector. Wang noted that Digua Robot is among the few companies already delivering products, having partnered with over 20 leading clients, including companies like Shizhi Navigation and UBTECH. Their Sun S600 chip is set to be deployed in various scenarios, including humanoid robots and industrial applications, with significant progress reported in the past six months. Looking ahead, Wang believes that the industry is not yet in a phase of intense competition, as many players have yet to produce viable products. He highlighted the importance of refining product quality and responding to customer needs, while also addressing the challenges of cost-effectiveness and system integration in deployment processes. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot Jul 17, 2026 Embodied Intelligence Chip Technology Robot Partnerships Industrial Automation
Researchers from the U.S. Department of Energy’s Brookhaven National Laboratory, Northeastern University, Google Quantum AI, and the University of Texas at Austin have introduced a new quantum computing algorithm called the quantum Hermite transform (QHT). This algorithm aims to broaden the scope of problems that future quantum computers can address, particularly in artificial intelligence and scientific simulations. The significance of the quantum Hermite transform lies in its potential to improve data processing and simulation capabilities of quantum computers. By introducing a new computational building block, the QHT could lead to more efficient quantum algorithms in various fields, including materials science and energy research. The findings were presented at the 58th Annual ACM Symposium on Theory of Computing in Salt Lake City. Looking ahead, the researchers emphasize that expanding the library of reusable quantum primitives like the QHT will facilitate the development of innovative quantum algorithms. This advancement could provide exponential speed advantages over classical methods, marking a pivotal step in the evolution of quantum computing applications. No further timeline was disclosed at the time of publication.
InterestingEngineering.com By Kaif Shaikh Jul 14, 2026 AI and Robotics
Researchers from Helmholtz-Zentrum Dresden-Rossendorf and the University of Messina have unveiled a groundbreaking application of magnetic soft robots in the fields of random number generation and reservoir computing. This innovative study, conducted recently, highlights how these robots utilize chaotic dynamics to convert their unpredictable movements into effective computational resources. The findings suggest significant potential for enhancing secure communication systems and developing low-cost computing solutions, particularly in resource-limited settings. By harnessing the inherent randomness of the robots' movements, the research opens new avenues for technological advancements in various applications.
leaderobot.com By Leaderobot Jun 03, 2026 Soft Robotics Magnetic Actuators Random Number Generation Reservoir Computing
At the 2026 Hannover Industrial Fair, humanoid robots demonstrated advanced capabilities powered by the BotPack B series computing backpack, marking a significant leap in robotics technology. This innovative computing solution allows the robots to operate independently of cloud services, providing high-performance processing directly on board. The development addresses critical challenges in the field, particularly concerning weight and power efficiency, enabling the robots to execute complex tasks seamlessly. The fair showcased how this technology could revolutionize various industries by enhancing the autonomy and functionality of robotic systems.
leaderobot.com By Leaderobot May 20, 2026 Humanoid Robots Robotics Technology AI Computing Edge Computing
Zerith Robotics has successfully raised over $100 million in funding, with the investment spearheaded by Runze Group, a prominent player in the computing power sector. This substantial financial backing is intended to harness advanced computing technologies to improve embodied intelligence in real-world commercial applications. The initiative represents a pivotal advancement in the pursuit of achieving true general intelligence, positioning Zerith Robotics at the forefront of innovation in the field.
leaderobot.com By Leaderobot Apr 08, 2026 Embodied Intelligence Robotics AI Computing Power Commercial Automation
Hitachi and Intel have announced a strategic partnership aimed at advancing technologies in physical AI, quantum computing, and digital infrastructure. This collaboration, which was revealed recently, seeks to leverage Hitachi’s strengths in information technology, operational technology, and industrial systems alongside Intel’s capabilities in semiconductor manufacturing and computing. The two companies intend to focus their efforts on developing innovative solutions for various sectors, including manufacturing, energy, and mobility. By combining their expertise, Hitachi and Intel aim to enhance industrial processes and drive technological progress across these critical industries.
AIInsider By Greg Bock Jun 08, 2026 AI AI Funding & Investment Robotics Foundry Hitachi Intel
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.
InterestingEngineering.com By Jijo Malayil Jul 14, 2026 AI and Robotics
In the midst of ongoing discussions regarding China's computing power dynamics, Shanghai Zhangjiang has established itself as a significant national center for silicon photonics. This development comes as over 20 companies have set up operations in the area, covering the entire value chain of the technology. The rise of Zhangjiang as a hub reflects the country's strategic focus on advancing its capabilities in this critical sector, which is essential for enhancing computing power and addressing potential shortages. The concentration of firms in Shanghai is indicative of a broader push to innovate and strengthen China's position in the global technology landscape.
PanDaily.com By [email protected] (Pandaily) Jul 09, 2026 Technology
Starmind has announced that its satellite technology can save approximately 880 billion liters of cooling water annually at full scale. This figure is equivalent to the annual household water use of around 6.5 million Americans. The technology operates by utilizing a closed-loop liquid cooling system that eliminates the need for water during its operational life, contrasting sharply with traditional ground data centers that consume vast amounts of water for cooling. The significance of this achievement lies in the growing water consumption crisis faced by data centers, particularly as AI expansion drives demand. In 2025, U.S. data centers consumed nearly one trillion liters of water, highlighting the urgent need for sustainable solutions. Starmind's approach not only addresses direct water usage but also avoids indirect water consumption associated with electricity generation, marking a substantial shift in how computing can be conducted in a resource-efficient manner. Looking ahead, Starmind's deployment strategy includes a projected buildout of 100 GW of orbital compute per year, which could displace an additional 735 billion liters of ground water demand annually. The first tranche of 10,000 satellites is already operational, offsetting approximately 8.8 billion liters of water per year. No further timeline was disclosed at the time of publication.
optimusk.blog By OptimusK Blog Jul 08, 2026
On January 30, 2026, SpaceX filed with the FCC to launch up to 1 million AI compute satellites, positioning orbital data centers as a solution to the increasing demand for AI computing power. Ground data centers are facing significant challenges, with energy consumption projected to reach approximately 1,050 TWh in 2026, making them the fifth-largest electricity consumer globally. The demand for new data center capacity is outpacing the growth of power generation infrastructure, leading to a critical bottleneck in the grid system. The significance of this initiative lies in the structural constraints faced by ground data centers, including power delivery limitations, high water consumption, and local opposition to new projects. The Uptime Institute's 2026 outlook identifies power as the primary constraint on data center growth, with capacity clearing prices in the PJM grid skyrocketing to $329.17/MW, driven by data center expansion. Additionally, cooling requirements are becoming increasingly unsustainable, with facilities consuming vast amounts of water, further complicating their operational viability. Looking ahead, SpaceX's orbital AI compute initiative aims to circumvent these challenges by leveraging the advantages of space, such as continuous solar power and minimal local opposition. The first AI prototypes are expected to launch in early 2027, with operational deployments planned for 2028. No further timeline was disclosed at the time of publication.
optimusk.blog By OptimusK Blog Jul 08, 2026
Chip Bridge Semiconductor is making significant strides in the development of advanced computing technology aimed at enhancing robotic intelligence. The company is focused on creating a new generation of chips designed to serve as the foundational brain for robots, enabling them to process information and respond to their environments more effectively. This initiative comes at a time when the demand for embodied intelligent computing is rapidly increasing, driven by advancements in artificial intelligence and automation. Located in Silicon Valley, Chip Bridge Semiconductor is leveraging cutting-edge research and development to innovate in this competitive field. The company aims to address the growing need for robots that can operate autonomously in various settings, from manufacturing to healthcare. By integrating sophisticated algorithms with powerful semiconductor technology, Chip Bridge is positioning itself as a leader in the robotics sector. The motivation behind this initiative is to create robots that not only perform tasks but also learn and adapt to new challenges, thereby improving efficiency and productivity across industries. Through strategic partnerships and investments in research, Chip Bridge Semiconductor is working to refine its chip designs and enhance their capabilities, ensuring that they meet the evolving needs of the market. As the landscape of robotics continues to evolve, Chip Bridge Semiconductor’s efforts could play a crucial role in shaping the future of intelligent machines, making them more capable and versatile in their applications.
leaderobot.com By Leaderobot Jun 28, 2026 Robotics Automation AI
Dell has unveiled a cutting-edge high-density AI and supercomputing server, aimed at enhancing computational capabilities for enterprises and research institutions. This launch took place on October 10, 2023, at the company's annual technology conference in Austin, Texas. The new server is engineered to address the growing demand for advanced processing power in fields such as artificial intelligence, machine learning, and data analytics. The motivation behind this development stems from the increasing need for efficient and powerful computing solutions that can manage complex workloads and large datasets. Dell's latest offering is designed to optimize performance while minimizing energy consumption, aligning with the industry's push towards sustainability. The server incorporates innovative technologies, including advanced cooling systems and modular designs, allowing for scalability and flexibility in various operational environments. By providing organizations with the tools necessary to accelerate their AI initiatives, Dell aims to solidify its position as a leader in the supercomputing market. This strategic move not only responds to current technological trends but also anticipates future demands in high-performance computing.
InterestingEngineering.com By Atharva Gosavi Jun 23, 2026 AI and Robotics
NVIDIA has announced that its GPUs equipped with Confidential Computing technology are now being utilized for confidential inference in Apple’s Private Cloud Compute (PCC). This development marks a significant expansion of Apple’s cloud capabilities, extending beyond its own data centers to include Google Cloud. The announcement was made during Apple’s annual Worldwide Developers Conference (WWDC), where the company showcased its latest advancements and innovations aimed at enhancing data security and privacy for users. This collaboration with NVIDIA is expected to bolster Apple’s commitment to maintaining user confidentiality while leveraging cloud resources effectively.
NvidiaNews By NVIDIA Jun 09, 2026
Shenzhen Hetao College, in partnership with Harbin Institute of Technology (Shenzhen), the Shenzhen Big Data Research Institute, and Huawei, has announced a significant advancement in domestic artificial intelligence computing. The collaborative effort culminated in the successful completion of a full-stack AI computing platform, marking a pivotal moment for the region's technological landscape. This achievement, revealed on October 15, 2023, in Shenzhen, aims to enhance the capabilities of AI applications across various industries. The initiative is driven by the growing demand for advanced computing solutions and the need to bolster China's position in the global AI arena. By integrating expertise from academia and industry, the consortium has developed a robust system designed to support complex AI tasks, thereby fostering innovation and economic growth in the region.
PanDaily.com By [email protected] (Pandaily) Jun 08, 2026 AI
Researchers have developed an innovative room-temperature quantum device that utilizes twisted light to entangle photons and electrons, marking a significant advancement in quantum technology. This breakthrough addresses one of the major challenges in the field, potentially leading to the creation of smaller and more affordable quantum systems. The implications of this technology are vast, with potential applications in secure communications, artificial intelligence, and future computing platforms. This development represents a crucial step forward in making quantum technology more accessible and practical for various industries.
ScienceDaily.com May 30, 2026
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.
leaderobot.com By Leaderobot May 20, 2026 Robotics Automation AI
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.
PanDaily.com By [email protected] (Pandaily) May 18, 2026 News
XYZ Embodied AI has launched the BotPack B Series, a cutting-edge edge computing backpack designed to enhance the capabilities of robots by allowing them to run artificial intelligence models locally. This innovation significantly reduces latency, enabling more efficient processing and quicker response times for robotic applications. The introduction of the BotPack B Series marks a notable advancement in robotics technology, aimed at improving performance in various fields such as manufacturing, logistics, and service industries. By equipping robots with this portable computing solution, XYZ Embodied AI seeks to address the growing demand for real-time data processing and decision-making in autonomous systems. The product is expected to be available in the market shortly, promising to transform how robots operate in dynamic environments.
PanDaily.com By [email protected] (Pandaily) Apr 24, 2026 News
NVIDIA has unveiled its latest accelerated computing platforms, marking a significant advancement in space innovation. This announcement, made today, highlights the integration of AI computing capabilities into orbital data centers (ODCs), enhancing geospatial intelligence and facilitating autonomous operations in space. The company's efforts aim to revolutionize how data is processed and utilized in the space sector, leveraging advanced technology to improve efficiency and effectiveness in various space-related applications. By harnessing the power of AI, NVIDIA is poised to transform the landscape of space exploration and operations, paving the way for new possibilities in the industry.
NvidiaNews By NVIDIA Mar 16, 2026
Artificial intelligence (AI) is increasingly reshaping various industries and enhancing everyday life by improving efficiency and decision-making processes. However, the rapid advancements in AI technology are leading to a significant rise in the demand for computational processing power. This surge is driven by the need for more sophisticated algorithms and larger datasets, which are essential for training AI models effectively. As organizations across sectors seek to leverage AI for competitive advantage, the challenge of meeting this growing computational demand becomes critical. Industry experts emphasize the importance of developing more efficient computing solutions to support the ongoing evolution of AI, ensuring that its benefits can be fully realized while addressing the environmental and economic implications of increased energy consumption.
teradyne.com By Teradyne Feb 10, 2026
JAKA, a leader in collaborative robotic solutions, emphasizes the importance of control system architecture in industrial automation, particularly the choice between cloud-based and edge computing. This decision significantly influences a system's capabilities, response times, and reliability. The company highlights that there is no one-size-fits-all solution; rather, the optimal setup depends on the specific demands of each task. The key distinction between the two computing paradigms lies in data processing locations. Cloud computing centralizes data in remote servers, providing analytical power and scalability for tasks like predictive maintenance and fleet management. In contrast, edge computing processes data locally, reducing latency crucial for real-time operations, especially in safety-sensitive environments where collaborative robots operate alongside humans. JAKA advocates for a hybrid approach that combines both paradigms. Their collaborative robots utilize edge computing for real-time motion control and immediate sensor responses, ensuring high precision and safety. Simultaneously, these robots can stream operational data to the cloud for broader analysis, allowing for continuous improvement without compromising immediate performance. The choice between cloud and edge computing should be based on application specifics. Tasks requiring ultra-low latency favor edge computing, while cloud resources excel in complex data aggregation and non-time-critical processes. JAKA's systems, like the Zu series, are designed for easy integration into either architecture, enabling manufacturers to tailor their setups for optimal performance. Ultimately, JAKA aims to create resilient and intelligent robotic systems that balance real-time autonomy with long-term intelligence, addressing the evolving needs of modern manufacturing.
jaka.com By JAKA Feb 05, 2026
Researchers at Virginia Tech are advancing the field of soft robotics, which utilizes flexible, muscle-like materials to create machines capable of bending and stretching in ways that surpass traditional rigid robots. This innovative technology enables applications such as harvesting ripe tomatoes and navigating complex search-and-rescue environments. However, the inherent flexibility of these robots presents significant challenges in control and precision. The team at Virginia Tech is focused on addressing these control difficulties to enhance the functionality and reliability of soft robotics, aiming to unlock their full potential in various practical applications.
RoboticsAndAutomationNews.com By Sam Francis May 27, 2026 Computing Features Robotics Science agricultural robotics ai robotics
Researchers have made a significant breakthrough in artificial intelligence technology by discovering a new way to create electronic components that mimic the behavior of biological neurons and synapses. This development, which occurred in a laboratory in 2024, could drastically reduce the energy consumption associated with AI applications. Currently, AI systems rely on powerful GPUs housed in data centers, consuming up to 1,000 watts each, which is comparable to household appliances. In contrast, the human brain operates at a fraction of that energy efficiency. The team, led by researchers Mario Lanza and Sebastian Pazos, stumbled upon this innovation while experimenting with metal-oxide-semiconductor field-effect transistors (MOSFETs). They found that by manipulating the bulk terminal of a MOSFET, they could replicate neuron-like behavior, producing sharp current spikes similar to those of biological neurons. This discovery not only allows for the creation of artificial neurons but also enables the development of artificial synapses, leading to a new type of neurosynaptic random-access memory (NSRAM). The implications of this technology are vast, as it could lead to brain-inspired microchips that are more energy-efficient than current GPUs, particularly for smaller-scale AI tasks. The researchers are now focused on refining their models and conducting further simulations to optimize performance. If successful, this innovation could pave the way for a new generation of AI systems that are both powerful and environmentally sustainable.
IEEESpectrumAI By Mario Lanza Jun 29, 2026 Neuromorphic-computing Cmos Mosfet Synapse
China’s Longsys has achieved a significant milestone by stabilizing its monthly production capacity at one million micro solid-state drives. This accomplishment comes as the company aims to meet the growing demand for advanced storage solutions in various sectors, including consumer electronics and data centers. The ramp-up in production reflects Longsys' commitment to innovation and efficiency in manufacturing, positioning itself as a key player in the competitive tech landscape. The company has implemented streamlined processes and advanced technologies to enhance its output, ensuring that it can cater to both domestic and international markets effectively. This development marks a crucial step for Longsys as it seeks to expand its footprint in the global semiconductor industry.
InterestingEngineering.com By Aamir Khollam Jul 03, 2026 AI and Robotics
A Japanese semiconductor company has showcased its advanced edge AI platform during a recent demonstration for the U.S. Air Force. This event took place as part of ongoing efforts to enhance military technology and operational efficiency. The platform is designed to process data at the edge, enabling faster decision-making and improved performance in various defense applications. By leveraging cutting-edge artificial intelligence capabilities, the company aims to support the Air Force's mission to modernize its technological infrastructure. The demonstration highlights the growing collaboration between private tech firms and military organizations in the pursuit of innovative solutions to meet national security challenges.
InterestingEngineering.com By Neetika Walter Jun 30, 2026 Military
Microsoft is positioning itself for a transformative shift in technology, focusing on the development of advanced artificial intelligence systems. The tech giant announced its strategic initiatives during a recent event held in Redmond, Washington, where executives outlined plans to integrate AI capabilities across its product offerings. This move is driven by the increasing demand for smarter, more efficient tools that can enhance productivity and streamline workflows for businesses and consumers alike. By leveraging its existing cloud infrastructure and AI research, Microsoft aims to create innovative solutions that address evolving market needs. The company is investing heavily in research and development, collaborating with industry leaders and academic institutions to push the boundaries of what AI can achieve. As Microsoft embarks on this ambitious journey, it seeks to redefine user experiences and establish itself as a leader in the next generation of technology.
InterestingEngineering.com By Aamir Khollam Jun 02, 2026
KEENON Robotics has introduced the XMAN-L1, a new compact humanoid robot aimed at enhancing interactive service experiences. The unveiling took place recently, showcasing the robot's capabilities in various service-oriented environments. This innovative technology is designed to assist in tasks such as customer interaction and support, reflecting the company's commitment to advancing automation in service industries. By integrating advanced AI and robotics, KEENON aims to improve efficiency and customer satisfaction in sectors like hospitality and retail. The launch of the XMAN-L1 marks a significant step forward in the company's efforts to provide cutting-edge solutions that meet the evolving needs of businesses and consumers alike.
InterestingEngineering.com By Jijo Malayil May 28, 2026
Recent advancements in soft robotics, which utilize flexible, muscle-like materials, have revolutionized the field, allowing machines to perform tasks such as picking ripe tomatoes and navigating complex search-and-rescue environments. However, despite their impressive capabilities, these innovative robots face significant challenges in terms of control. The inherent flexibility that enables their fluid movements also complicates their operation, making it difficult for developers to achieve precise control. As researchers continue to explore the potential of soft robotics, the quest for improved control mechanisms remains a critical focus, highlighting the balance between versatility and functionality in this emerging technology.
TechXplore:Robotics May 22, 2026 Robotics
An advanced robotic platform has been developed to execute real-time multi-axis motion control while simultaneously processing data from various sensors, including 2D and 3D vision cameras and LIDAR. This innovative technology, unveiled today, aims to enhance automation and precision in various applications. By integrating multiple data streams, the platform can effectively navigate and respond to its environment, showcasing significant advancements in robotics and sensor technology. The development is expected to have wide-ranging implications across industries, from manufacturing to autonomous vehicles, as it demonstrates the potential for improved efficiency and safety in complex tasks.
roboticstomorrow-Robotics May 19, 2026
An international team of researchers has unveiled a groundbreaking navigation strategy for drones, dubbed “Bee-Nav,” which draws inspiration from the foraging behavior of honeybees. This innovative approach was presented at a recent conference held in Zurich, Switzerland, where experts gathered to discuss advancements in drone technology. The motivation behind the development of Bee-Nav stems from the need for more efficient and reliable navigation systems in various applications, including agriculture, search and rescue operations, and environmental monitoring. By mimicking the way bees communicate and navigate through complex environments, the researchers have created a system that enhances drones' ability to traverse challenging terrains and locate targets with greater precision. The implementation of this strategy involves advanced algorithms that process environmental data, allowing drones to adapt their flight paths in real-time. This advancement could significantly improve the effectiveness of drone operations, paving the way for broader applications in both commercial and humanitarian efforts.
InterestingEngineering.com By Mrigakshi Dixit May 13, 2026
A recent study published in the Journal of Field Robotics highlights advancements in robotic technology aimed at enhancing agricultural efficiency. Researchers from various institutions conducted experiments over the past year, focusing on the integration of autonomous robots in crop monitoring and management. The study, carried out in multiple agricultural settings across the Midwest, demonstrates how these robots can significantly reduce labor costs and increase yield by providing real-time data on soil conditions and crop health. The motivation behind this research stems from the growing need for sustainable farming practices amid rising global food demands. By employing sophisticated sensors and machine learning algorithms, the robots are designed to analyze vast amounts of agricultural data, allowing farmers to make informed decisions quickly. The findings indicate that the use of these robotic systems can lead to a more precise application of resources, ultimately promoting environmental sustainability. As the agricultural sector faces challenges such as labor shortages and climate change, the implementation of robotic technology presents a viable solution to improve productivity and resilience in farming operations. The research team plans to continue refining these technologies, aiming for broader adoption in the industry.
JournalofFieldRobotics By Chandan Sheikder, Weimin Zhang, Xiaopeng Chen, Fangxing Li, Yichang Liu, Xiaohai He, Zhengqing Zuo, Xinyan Tan Apr 16, 2026 RESEARCH ARTICLE
In May 2026, the Journal of Field Robotics published a significant study exploring advancements in robotic technology. Researchers from various institutions collaborated to examine the latest innovations in field robotics, focusing on their applications in agriculture, search and rescue operations, and environmental monitoring. The study highlights how these robotic systems are designed to enhance efficiency and safety in challenging environments, addressing the growing demand for automation in various sectors. By employing cutting-edge artificial intelligence and machine learning techniques, the researchers demonstrated how robots can perform complex tasks with increased precision and reliability. This research aims to provide insights into the future of robotics, emphasizing the importance of continued development in this field to meet societal needs and improve operational capabilities.
JournalofFieldRobotics By Wenhao Sun, Sai Hou, Zixuan Wang, Bo Yu, Shaoshan Liu, Xu Yang, Shuai Liang, Yiming Gan, Yinhe Han Apr 08, 2026 RESEARCH ARTICLE
At CES 2026, Asus' gaming brand Republic of Gamers (ROG) announced a collaboration with Japanese game studio Kojima Productions to introduce a limited-edition version of its Flow Z13 2-in-1 gaming tablet. This partnership represents a unique intersection of gaming hardware and innovative game design, as the ROG Flow Z13-KJP is inspired by Kojima Productions’ Ludens concept. The collaboration aims to enhance the gaming experience by merging cutting-edge technology with the creative vision of one of the industry's most renowned developers.
TechNode.com By TechNode Feed Jan 06, 2026 News Feed CES 2026
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.
RoboticsAndAutomationNews.com By Sam Francis 1 hour ago Computing Industry Aetina automation Autonomous robots DeviceEdge AIE-KT
Nebius, a prominent AI cloud company, has launched the Physical AI Living Lab, a six-month initiative aimed at supporting robotics startups across Britain and Europe. This program provides participants with access to Nvidia’s advanced physical AI development tools alongside Nebius’s robust AI cloud infrastructure. The initiative addresses a significant challenge faced by early-stage robotics companies, which often lack the resources to create large-scale simulations, generate synthetic data, and utilize accelerated computing necessary for their development. By offering these essential tools and support, Nebius aims to foster innovation and growth within the robotics sector, ultimately enhancing the capabilities of emerging technologies in the field.
RoboticsAndAutomationNews.com By Sam Francis Jun 09, 2026 Artificial Intelligence Computing AI cloud computing AI infrastructure automation news nebius
PhD student Rachel Sava, winner of the Envisioning the Future of Computing Prize, explores transformative improvements and dystopian risks of neural technology.
MITNews By Amanda Diehl | MIT Schwarzman College of Computing Jul 06, 2026 Contests and academic competitions Awards, honors and fellowships Students Artificial intelligence Ethics Law
Nvidia has introduced the Nvidia Isaac GR00T Reference Humanoid Robot, an innovative open platform aimed at advancing research and development in physical artificial intelligence and general-purpose robotics. The announcement was made during the Nvidia GTC event in Taipei. This new platform integrates several cutting-edge technologies, including the Unitree H2 Plus humanoid robot, Sharpa Wave tactile five-finger hands, and the Nvidia Jetson Thor onboard computing system. The initiative is part of Nvidia's broader strategy to enhance capabilities in robotics, providing researchers and developers with a versatile tool to explore and innovate in the field of robotics and AI.
RoboticsAndAutomationNews.com By Sam Francis Jun 11, 2026 Computing Humanoids News automation news embodied ai humanoid robots
A significant advancement in embodied intelligence has emerged from a collaboration between Moore Threads and the Beijing Zhiyuan AI Research Institute. The two organizations have successfully trained the RoboBrain2.5 model, a development that highlights the growing capabilities of domestic computing power in this innovative sector. As traditional computing chips face challenges of obsolescence, this milestone represents a pivotal moment for the future of computing. The partnership aims to enhance the efficiency and effectiveness of AI applications, positioning itself at the forefront of technological evolution.
leaderobot.com By Leaderobot May 19, 2026 Embodied Intelligence AI Computing Chip Technology Simulation Data Robotics
In response to the increasing demands of data science, PNY Technologies has introduced the NVIDIA RTX PRO 6000 Blackwell Workstation Edition, a powerful solution designed to enhance the efficiency of data preparation, scaling, and processing for massive datasets. As traditional CPU-based systems struggle to keep pace with modern AI and analytics workflows, this workstation offers accelerated computing performance that seamlessly integrates into enterprise environments. The launch of the RTX PRO 6000 comes at a time when data scientists face significant challenges, including the complexity of data preparation and the rapid growth of data volumes, which often leads to suboptimal downsampling practices. With the demand for advanced AI hardware outstripping supply, PNY's workstation aims to fill this gap by providing real-time rendering, rapid prototyping, and collaboration capabilities. Equipped to support up to four NVIDIA RTX PRO 6000 GPUs, this workstation delivers data center-level performance directly to users' desktops, enabling them to handle extensive datasets and perform advanced visualizations efficiently. The system is optimized for AI workflows, leveraging NVIDIA's software stack to facilitate zero-code-change acceleration for Python-based tasks and support over 100 AI applications. By offloading compute tasks from data centers and minimizing reliance on cloud resources, organizations can enhance security and reduce costs. The RTX PRO 6000 Blackwell Workstation Edition is positioned as a transformative tool for data scientists, streamlining the entire data science pipeline from preparation to model deployment, and significantly boosting productivity and innovation in enterprise-ready AI development.
IEEESpectrumAI By PNY Technologies Mar 23, 2026 Artificial-intelligence Computing Data-science Gpu-acceleration Ai-workstations Nvidia
The World Artificial Intelligence Conference (WAIC) 2026, held from July 17 to 20 in Shanghai, showcased groundbreaking advancements in AI and robotics. With over 1,100 exhibitors and more than 3,000 products, the event highlighted ten key innovations, including the Shuguang 8000 AI supercomputer cluster and Ant Group's robotic pharmacy that completes a full workflow in just 90 seconds. These innovations are significant as they represent a leap in computational power and collaborative robotics, pushing the boundaries of what is possible in AI applications. The Shuguang 8000, a domestically produced AI supercomputer, supports a range of applications from scientific computing to AI inference, while the robotic pharmacy exemplifies the efficiency of integrating multiple robotic configurations. Looking ahead, the advancements presented at WAIC 2026 indicate a transformative decade for AI, robotics, and their impact on various sectors. The event's focus on high-performance computing and intelligent robotics sets the stage for future developments that could redefine work and daily life. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot Jul 15, 2026 Supercomputing Robotics AI Technology Smart Pharmacy Biotechnology
The Goodwood Festival of Speed has revealed the exhibitor lineup for its 2026 Future Lab exhibition, which will showcase innovations from companies and research organizations in fields such as robotics, artificial intelligence, quantum computing, healthcare, space exploration, and digital technologies. Scheduled to take place at the heart of the Festival of Speed, the Future Lab aims to draw over 90,000 visitors, highlighting the event's commitment to promoting cutting-edge advancements. This initiative underscores the festival's role as a platform for technological exploration and engagement within the automotive and broader tech communities.
RoboticsAndAutomationNews.com By Sam Francis Jun 26, 2026 Events artificial intelligence automation embodied ai formula e Future Lab
Recent advancements in emotion AI technology are reshaping how machines interpret human feelings, particularly in professional settings. Companies like Meta and startups such as Hume AI are developing systems that analyze facial expressions, voice tones, and behaviors to gauge emotions during interactions like performance reviews. This technology, which has applications in employee well-being, recruitment, and customer service, aims to enhance communication by providing real-time feedback. Despite its rapid growth, current emotion AI systems often struggle to capture the complexity of human emotions, typically categorizing feelings into simplistic labels like "happy" or "sad." Researchers are now focusing on a new approach called human-context AI, which combines multiple inputs—such as facial dynamics and voice modulation—with situational context to better understand emotional nuances. This shift aims to close the gap between human emotional expression and machine interpretation. The origins of emotion AI trace back to the MIT Media Lab, where Rosalind Picard pioneered the concept of affective computing. Over the years, advancements in data collection and analysis have improved the accuracy of emotion detection. However, ethical concerns remain, particularly regarding privacy and the potential for misuse in workplaces and public spaces. As this technology evolves, it promises to enhance various applications, from professional development platforms to health care, by providing a deeper understanding of human emotions. Yet, experts caution against over-reliance on AI for critical decisions, emphasizing the importance of human insight in interpreting emotional signals.
IEEESpectrumAI By Marc Fernandez Jun 23, 2026 Emotions Affective-computing Facial-expressions Companion-robots Multimodal-ai Machine-learning
The United Kingdom and Japan have initiated a new partnership focused on frontier technologies, with the goal of enhancing collaboration in areas such as artificial intelligence, semiconductors, and quantum computing. This agreement, announced by UK Prime Minister Keir Starmer and Japanese Prime Minister Sanae Takaichi, reflects both nations' efforts to bolster economic resilience and decrease reliance on foreign technology ecosystems. The partnership underscores a shared commitment to innovation and strategic technological advancement, aiming to foster a robust cooperative framework that can address emerging challenges in the global tech landscape.
AIInsider By Greg Bock Jun 15, 2026 AI AI Funding & Investment Robotics Cybersecurity Defense Japan
Quantum computers are poised to tackle problems beyond the capabilities of today's most advanced supercomputers, but their operation relies heavily on classical computing infrastructure. As the industry prepares for the anticipated scale of quantum computing, major players like Nvidia, Q-CTRL, IBM Quantum, and Google Quantum AI are developing innovative classical hardware and software solutions to support these machines. In April, Nvidia unveiled AI-based software designed to enhance the classical tasks essential for quantum computing. Sydney-based Q-CTRL has created an automatic calibration algorithm that utilizes Nvidia’s system to streamline the calibration process, which is crucial for maintaining the reliability of qubits—quantum bits that are inherently unstable and require regular adjustments. Calibration involves a meticulous two-stage process that traditionally demands significant time and expertise, prompting a push for automation. Q-CTRL's intelligent software analyzes calibration data in real-time, allowing for dynamic adjustments to improve efficiency. Additionally, quantum error correction is a critical focus, as it enables the detection and compensation of errors in qubits, a process that must occur rapidly to maintain quantum states. While AI is gaining traction in simplifying hardware control, challenges such as latency and computational expense remain. Experts suggest that a hybrid approach combining traditional and AI methods may be necessary to optimize performance. As quantum technology evolves, the demand for robust classical support will grow, necessitating new strategies to manage the increasing complexity of quantum systems.
IEEESpectrumAI By Edd Gent Jun 03, 2026 Quantum-computers Quantum-error-correction Internal-calibration Nvidia Quantum-computing
New York University (NYU) has launched the NYU Quantum Institute (NYUQI) in Manhattan's West Village, positioning itself as a pivotal player in the rapidly evolving field of quantum technology. This initiative aims to harness the dense urban ecosystem surrounding the university, which is home to over 500 tech firms, banks, and hospitals, to accelerate advancements in quantum computing, sensing, and communications. The institute, led by Director Javad Shabani, seeks to break down traditional academic silos by fostering collaboration among physicists, engineers, and computer scientists. This integrated approach is designed to enhance the development of practical quantum solutions, which have been hindered by fragmentation in the field. NYUQI will operate from a newly renovated million-square-foot facility, complemented by a state-of-the-art Nanofabrication Cleanroom in Brooklyn, allowing for real-time testing and refinement of quantum technologies. Recently, New York Senators Charles Schumer and Kirsten Gillibrand secured $1 million in funding to introduce Thermal Laser Epitaxy technology at NYU, marking a significant advancement in the U.S. quantum research landscape. The institute also aims to address the skills gap in the quantum workforce by launching a Master of Science in Quantum Science & Technology program, preparing students to tackle complex challenges in this interdisciplinary field. By leveraging its urban location and fostering collaboration, NYUQI aims to transform theoretical quantum research into practical applications, ultimately contributing to advancements in finance, medicine, and security.
IEEESpectrumAI By Wiley Mar 27, 2026 Nyu-tandon Quantum-computing Quantum-internet Semiconductors Quantum-communications
Noetra, in collaboration with key partners including Sony, SoftBank, NEC, and Honda Motor, has launched extensive R&D for a multimodal foundation model aimed at enhancing AI-enabled robotics in Japan. This initiative is part of a broader effort to develop sovereign AI technologies within the country, supported by investments from 44 companies across various sectors, primarily manufacturing. The significance of this development lies in its potential to position Japan as a leader in physical AI. By creating a robust multimodal foundation model, Noetra aims to improve industrial competitiveness and address societal challenges through advanced AI capabilities, including natural language processing and multimodal data understanding. Looking ahead, Noetra plans to construct AI computing infrastructure with Nvidia's advanced GPUs, with operations expected to commence in June 2028. The phased development will culminate in a comprehensive omni-modal foundation model by fiscal 2028, ultimately striving for a “Real-world Native AI” by fiscal 2030, which will be capable of understanding physical properties in real-world applications.
RoboticsAndAutomationNews.com By Sam Francis Jul 17, 2026 Artificial Intelligence News Robot simulation ai agents AI infrastructure artificial intelligence
The World AI Conference (WAIC) in Shanghai is set to showcase China's ambition to compete in the AI sector, particularly in models, chips, and robotics. This event occurs against the backdrop of increasing technological rivalry with the US, which has imposed restrictions limiting China's access to advanced computing chips. China's government has prioritized technological self-reliance, accelerating the development of domestic alternatives in both hardware and software. Foreign ministry spokesman Lin Jian emphasized that China opposes ideological divisions and technological blockades, aiming to use WAIC to foster exchanges and consensus while promoting AI benefits to developing countries. This year's WAIC will serve as a critical indicator of China's progress in transforming AI model advancements into a comprehensive industrial ecosystem. Observers should pay attention to how China plans to influence global AI governance, safety standards, and international collaboration as AI technology increasingly integrates into the physical world.
SCMPTech By Wency Chen,Howard Liu Jul 17, 2026
Xiaopeng Motors has announced plans to launch its IRON humanoid robot globally by 2027, aiming to ramp up production to over 1,000 units per month by the end of this year. The robot will initially serve as a sales assistant in domestic stores, with expansion to international locations later in the year. This initiative is significant as Xiaopeng's President, He Xiaopeng, believes that the robotics business could surpass the automotive sector in the next 10 to 20 years. The IRON robot, which made its debut in November 2025, features advanced capabilities including 62 to 82 degrees of freedom and is powered by three Turing AI chips, achieving a total computing power of 2250 TOPS. Looking ahead, Xiaopeng's strategy focuses on leveraging the humanoid robot in controlled retail environments to gather interaction data and create immediate commercial value. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot Jul 16, 2026 Humanoid Robots Robotics AI Automation
Researchers from Korea have created an AI framework that allows a quadruped robot to autonomously adapt its motor skills while navigating challenging environments. This system enables real-time gait adjustments for traversing forests, climbing stairs, and overcoming obstacles using only onboard sensors and computing capabilities. The significance of this development lies in its potential applications for autonomous search-and-rescue and exploration missions. The Action Pretrained Transformer-based Reinforcement Learning (APT-RL) framework enhances agility by combining pretrained locomotion skills with adaptive decision-making, demonstrating the robot's ability to handle diverse obstacles effectively. Future observations will focus on the framework's deployment in real-world scenarios, as it has already shown impressive performance on KAIST’s quadruped robot, HOUND. The robot's ability to switch between different gaits based on terrain and speed, achieving speeds of up to 6 meters per second, highlights the effectiveness of the APT-RL approach in complex environments. No further timeline was disclosed at the time of publication.
InterestingEngineering.com By Jijo Malayil Jul 15, 2026 AI and Robotics
The WAIC 2026 is set to commence on July 17, featuring embodied intelligence and intelligent computing as its two main themes. Embodied intelligence has emerged as a focal point of the event, attracting significant attention from government, capital, industry, and the public. Over 200 companies are expected to showcase their innovations in this field. This year's exhibition marks a shift from demonstration effects to practical application capabilities, indicating a notable maturity in the industry chain. Attendees can expect to see an increase in complete machine categories, active large model solutions, and accelerated domestic component replacements. The H3 pavilion will highlight key exhibitors and trends, providing insights into the practical applications of embodied intelligence in various sectors. Notable companies such as Zhiyuan and UBTECH will present their latest humanoid robots and technologies, emphasizing production delivery capabilities over technical demonstrations. The event will also feature a demonstration of a robot factory and various innovative robotic solutions, showcasing the potential of embodied intelligence in real-world applications. No further timeline was disclosed at the time of publication.
leaderobot.com By Leaderobot Jul 15, 2026 Embodied Intelligence Humanoid Robots Robotics AI Industrial AutomationRSF defines a common language for robot service capability, lifecycle operations, certification pathways, and service-provider networks.