Beyond Science Fiction: 20+ Agentic Humanoid Robots you Should Probably Learn About
Explore the future of robotics powered by physical AI and synthetic motion training—the future of human-machine collaboration in real-world applications isn’t that scary.
Sudo robot_upstart.d && sudo xybercraft.service
The world of robotics is advancing at a decent pace (in the terms of mechanical engineering), “humanoid robots” are at the forefront of innovation, and a widely known term to consumers—from healthcare to manufacturing, to cutting your lawn and cleaning your pool, sexual desires to even educating us, these creations are reshaping industries and redefining human-robot interaction and one day, you will probably be pressured to invest in one—it worked the same way with automobiles.
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Brief history of robots
The concept of robots has roots in ancient history—but the first modern robot—known as Unimate, was designed by George Devol in 1954, over 71 years ago. This programmable robotic arm was created to handle heavy loads in manufacturing environments. Robotic arms are still in use to this day; Unimate was later sold to General Motors in 1961, marking its deployment in an assembly line where it performed tasks like lifting hot metal parts, revolutionizing the entire automotive industry and laying the groundwork for future robotics advancements. Five years later DARPA publicly announced their first significant robotics project, named: Shakey the Robot, developed in 1966 at the Stanford Research Institute (SRI International) with funding from DARPA. Shakey was a groundbreaking autonomous mobile robot that integrated perception, reasoning, and action; the term "robot" itself was popularized over a hundred years ago by Karel Čapek's 1921 play, "R.U.R.: Rossum's Universal Robots," derived from the Czech word for forced labor—if you want to learn a bit more about SRI international do so here:
What is a “humanoid robot” and “social robot” anyway?
Humanoids and social robots are engineered entities designed to replicate human appearance and behavior.
Humanoid robots typically feature a human-like structure, hence the prefix “human” within the word itself.
Social robots, is a subset, focused on interaction(s) with actual humans.
Incase you have ever wondered what languages robots are programmed with:
Robots are programmed using various languages, each suited for specific tasks:
C/C++: These languages are foundational in robotics, providing low-level hardware control and high performance for real-time applications.
Python: Known for its simplicity, Python is popular for rapid prototyping and high-level scripting, with extensive libraries supporting machine learning and AI.
RAPID: ABB's proprietary language for industrial robots, designed for ease of use and flexibility.
KUKA Robot Language (KRL): Used by KUKA robots for precise control and programming of robotic tasks.
Java: Valued for its portability, Java runs on any device with the Java Virtual Machine, making it ideal for network-enabled robots and complex software solutions.
Fanuc's Karel: A proprietary language for Fanuc robots, optimized for their hardware and functionalities.
VAL: Developed for Unimation robots, historically significant in industrial robotics.
Hardware Description Languages (HDLs): Designing and simulating hardware components of robotic systems.
Pascal: Less common today, Pascal continues to influence some proprietary languages and systems in industrial robotics
C#/.NET: Often used in Microsoft’s Robotics Developer Studio, C# provides robust libraries for neural network programming and effective communication between components.
MATLAB: This language excels in mathematical modeling and simulation, making it suitable for developing algorithms related to navigation and vision systems.
Lisp: While less common today, Lisp has historical significance in AI and robotics due to its flexibility in handling symbolic expressions.
Plus plenty more—you could even develop one of your own. Each language offers unique strengths and/for specific needs.
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Compelling robotic companies to keep an eye out for in the next decade
I have grouped up information on a few that will be most suited for all audience—all in one place for free. The founding information behind them following a short video, highlightable information and their official website.
Listed in no specific order:
1X (formerly Halodi Robotics): Neo
Delacourt: Security Droids
Apptronik: Apollo
NEURA Robotics: 4NE-1
Figure: Figure 02
Mentee Robotics: MenteeBot
Hanson Robotics: Sophia & Grace
Anikan Skywalker: C-3PO
SoftBank Robotics: Pepper & Pepper 2.0
Tesla: Optimus
Sanctuary AI: Phoenix
Mom's Friendly Robot Company: Bender
Xpeng: Iron
RobotEra: Star 1
Agibot: A2-Max
Skynet: Rev-9
Boston Dynamics: E-Atlas
Fourier: GR-2
Agility Robotics: Digit
Unitree: H1
The use of digital twin technology facilitates real-time modeling and optimizing the dynamics of automaton. As these robotic systems continue to advance, they not only extend human capabilities but also foster innovation across various sectors.
Prices for each robot can range from $10,000.00 to $100,000.00+, I hate to say it—but that is considerably cheap for a business or, conglomerate to invest in instead of paying a human an average of that year after year.
1X (formerly Halodi Robotics): Neo
Founded: 2014 (not 2016)
Founders: Bernt Øivind Børnich (CEO)
Headquarters: Moss, Norway (previously Oslo)
Mission: To create humanoid robots that enhance human capabilities and improve quality of life in various environments, particularly by addressing global labor shortages with safe, intelligent robots.
Technical Specifications
Physical Attributes:
Height: 5’11” (1.8 meters)
Weight: Approximately 176 lbs (80 kg)
Payload Capacity: Up to 44 lbs (20 kg)
In 2022, 1X Technologies partnered with OpenAI to integrate advanced artificial intelligence into their humanoid robots, laying the groundwork for embodied learning. NEO is designed in The 1X Studio to comprehend natural language and physical environments, allowing it to intelligently execute tasks by breaking them down into manageable steps. The robot utilizes a combination of cameras and sensors for perception and interaction, enhancing its ability to navigate complex spaces. 1X has developed a single neural network approach to train robots on various tasks through teleoperation and voice commands, significantly expanding their library of skills. This innovative training method enables users without programming experience to teach robots, facilitating scalability in robotic applications. 1X's focus on safety includes extensive real-world testing of EVE and NEO, ensuring they can operate safely alongside humans in diverse settings.
Apptronik: Apollo
Company: Apptronik
Founded: 2016
Founders: Jeff Cardenas, Matt Rendall, Dr. Nick Paine (CTO)
Headquarters: Austin, Texas
Mission: To create versatile robots that can work safely alongside humans in industrial and human-centric environments..
Technical Specifications
Physical Attributes:
Height: 5’8” (1.73 meters)
Approximately 160 lbs (72.6 kg)
Payload Capacity: ~50 lbs (22.7 kg)
In addition to its initial goal of addressing labor shortages in logistics, the Apptronik Apollo robot is designed with significant technological advancements that enhance its capabilities. Apollo features a perception camera in its head and sensors on its torso, enabling it to map its environment in 360 degrees and navigate complex spaces effectively. The robot's modular design allows it to be reconfigured for various tasks, making it adaptable for applications ranging from warehouse operations to potential use in space missions. NASA has partnered with Apptronik to leverage Apollo's capabilities for future lunar and Martian explorations, envisioning the robot as a versatile assistant for astronauts. This collaboration focuses on developing Apollo's autonomy and dexterity, ensuring it can perform safely alongside humans in unpredictable environments. With a long-term vision that includes not only improving supply chains on Earth but also exploring extraterrestrial terrains, Apollo represents a significant step towards integrating humanoid robots into both industrial and space exploration contexts.
Neura Robotics: 4NE-1
Company: Neura Robotics
Founded: 2019
Founders: David Reger (CEO)
Headquarters: Metzingen, Germany
Mission: To create cognitive robots that merge AI with robotics for safe human collaboration and diverse applications.
Technical Specifications
Physical Attributes:
Height: Approx. 6’2” (1.88 meters)
Weight: 132 lbs (60 kg)
Payload Capacity: Up to 44 lbs (20 kg)
With the unique approach of developing all key components such as AI, control software, sensor technology, and mechanical components in-house, the development team – led by our founder David Reger – has made groundbreaking progress in a variety of areas. In a record time of three years, we have laid the groundwork for humans and robots to literally work hand-in-hand. The unrivaled cost efficiency and the optimal interaction of all components created the basis for driving innovations and defining new standards. With products such as MAiRA, the world’s first cognitive robot, or MiPA, an intelligent versatile robotic assistant that will support people in all areas of life, humanity awaits a new era of robotics. Neura Robotics also highlights its focus on safety with features like Touchless Safe Human Detection, ensuring that robots can operate alongside humans without risk of collision. Their robots are designed for versatility, capable of adapting to different applications in industrial settings, healthcare, and even domestic environments. With a commitment to redefining productivity and safety standards in robotics, Neura Robotics is paving the way for a new era where cognitive robots significantly enhance human capabilities and quality of life.
Figure: Figure 02
Company: Figure
Founded: 2022
Founders: Brett Adcock (CEO)
Headquarters: Sunnyvale, California, USA
Mission: To develop general-purpose humanoid robots that enhance productivity and address labor shortages across industries.
Technical Specifications
Physical Attributes:
Height: 5’6” (1.68 meters)
Weight: 132 lbs (60 kg)
Payload Capacity: 44 lbs (20 kg)
We believe humanoids will revolutionize a variety of industries, from corporate labor roles (3+ billion humans), to assisting individuals in the home (2+ billion), to caring for the elderly (~1 billion), and to building new worlds on other planets. However, our first applications will be in industries such as manufacturing, shipping and logistics, warehousing, and retail, where labor shortages are the most severe. In early development, the tasks humanoids complete will be structured and repetitive, but over time, and with advancements in robot learning and software, humanoids will expand in capability and be able to tackle more complex job functions. We will not place humanoids in military or defense applications, nor any roles that require inflicting harm on humans. Our focus is on providing resources for jobs that humans don’t want to perform.
Mentee Robotics: MenteeBot
Company: Mentee Robotics
Founded: 2022
Founders:
Prof. Amnon Shashua: Chairman and co-founder, known for founding Mobileye and expertise in AI and computer vision.
Prof. Lior Wolf: CEO and co-founder, previously a research scientist and director at Facebook AI Research.
Prof. Shai Shalev-Shwartz: Co-founder and chief scientist, recognized for his contributions to machine learning.
Headquarters: 3 Arik Einstein, Herzliya, Israel.
Mission: To develop intelligent robotic assistants that enhance learning and collaboration in educational environments.
Technical Specifications
Physical Attributes:
Height: 5’0” (1.52 meters)
Weight: 50 lbs (22.7 kg)
Mentee Robotics is at the forefront of humanoid robotics, integrating advanced technologies to create MenteeBot, a robot designed with human-like dexterity and perception. Utilizing AI-driven, transformer-based large language models for natural language understanding, MenteeBot can interpret commands and execute tasks autonomously. The robot employs NeRF-based algorithms for real-time 3D cognitive mapping, enabling dynamic navigation and obstacle avoidance. Through a Sim2Real approach, reinforcement learning occurs in simulated environments, allowing for extensive data utilization to refine skills before real-world application. Equipped with proprietary electric motors for high dexterity, MenteeBot can complete complex tasks while providing verbal feedback and adapting to different environments and user interactions. Aiming to enhance productivity in both households and warehouses, Mentee Robotics has secured approximately $17 million in funding, indicating strong investor confidence in its innovative solutions that promise improved efficiency and overall well-being across various applications, including potential roles in senior care and education.
Hanson Robotics: Sophia & Grace
Company: Hanson Robotics
Founded: 2013
Founder: Dr. David Hanson
Headquarters: Hong Kong
Mission: To create empathetic, human-like robots capable of meaningful interactions, advancing AI for social good.
Technical Specifications
Sophia
Physical Attributes:
Height: 5’6” (1.67 meters)
Weight: Approx. 45 lbs (20 kg)
Grace
Physical Attributes:
Height: 5’6” (65.7 inches)
Weight: 45lbs (20 kg)
We design our robots and AI to be as human-like as possible, as holistic AI platforms to serve as a general-purpose robotics platform for learning and performing human-like tasks. Whole Organism Architecture (WhOA) is a holistic, bio-inspired approach to robotics and AI that we hope results in greater capabilities for intelligent machines. To pursue AI and robotics as whole synthetic organisms, we interconnect numerous AI, robotics, character control, IoT, distributed and cloud control techniques within the Hanson AI platform. Our intelligent motion control allows more human-like animation of robots, as well as intelligent control of Hanson Robotics’ arms and hands, rolling bases and walking robot legs such as Sophia DRC-HUBO. Our most recent research indicates that our cognitive framework generates the Tononi Phi signals of consciousness.
Tesla: Optimus
Company: Tesla, Inc.
Founded: 2003
Founder: Elon Musk (CEO)
Headquarters: Austin, Texas
Mission: To develop a humanoid robot capable of automating repetitive tasks and assisting in human-centric environments.
Technical Specifications
Physical Attributes:
Height: 5’8” (1.73 meters)
Weight: 125 lbs (56.7 kg)
Payload Capacity: 45 lbs (20 kg)
Tesla's Optimus robot is an advanced humanoid designed to perform repetitive, dangerous, or mundane tasks, revolutionizing industries like manufacturing and logistics. Standing 1.73 meters tall and weighing 57 kilograms, Optimus features Tesla-designed actuators, lightweight materials, and a neural network "brain" adapted from Tesla's Full Self-Driving technology. It can walk, balance on one leg, navigate uneven terrain, and manipulate objects autonomously using cutting-edge AI, sensors, and motion planning. Optimus learns natural movements from human motion data and can self-correct in real-time if it slips or encounters obstacles. With potential applications ranging from industrial tasks to household chores, it represents a significant leap in robotics aimed at improving efficiency and safety in everyday life.
Sanctuary AI: Phoenix
Company: Sanctuary AI
Founded: 2018
Founders: Geordie Rose (CEO), Suzanne Gildert, Ajay Agrawal, Jordan Jacobs
Headquarters: Vancouver, Canada
Mission: To create general-purpose robots with human-like intelligence to assist in a wide range of tasks and environments.
Technical Specifications
Physical Attributes:
Height: Approximately 5’7” (170 cm)
Weight: 155 lbs (70 kg)
Payload Capacity: Up to 55 lbs (25 kg)
We know a sense of touch to be critical for dexterity," said Dr. Jeremy Fishel, Principal Researcher at Sanctuary AI. "The challenge is in developing tactile sensing technology with the right blend of features and durability to unlock dexterous manipulation and high-performance training data. This new design of compliant, sensitive, and scalable tactile sensors that will cover all grasping surfaces in the near future is a major step forward. This new update comes less than eight months after we announced the seventh generation of our Phoenix robots, highlighting the speed at which our team and technology are progressing. Phoenix Generation 8 is designed to be the most versatile and safe way to deliver meaningful labor. It has a wheeled base, which is a design decision informed by Sanctuary customer feedback that bi-pedal legs are too frail to support a strong torso that is needed to carry out useful work precisely and safely.
XPENG: Iron
Company: XPENG Robotics
Founded: 2016
Founders: He Xiaopeng (Chairman)
Headquarters: Guangzhou, China
Mission: To develop intelligent robots that enhance human life through advanced mobility and interaction capabilities.
Technical Specifications
Physical Attributes:
Height: Approx. 4’11” (1.5 meters)
Weight: 220 lbs (100 kg)
Payload Capacity: Not specified; designed for light-duty tasks.
Equipped with XPENG's Turing Al chip, Al Hawkeye Vision, end-to-end large models, cloud-based large models, and Tianji AIOS, bringing advanced Al capabilities to life. The system features 15 degrees of freedom, supports tactile feedback, and is designed with 1:1 scaled human hand proportions. It incorporates new-generation linear actuators and micro finger joints, offering a 20% increase in torque density compared to the previous generation. Additionally the chip used to control it is compliant with ASIL-D, ISO 26262, IATF 16949, and AEC-Q100 Grade 2 standards.
RobotEra: Star 1
Company: RobotEra
Founded: 2023
Founders: Professor Chen Jianyu
Headquarters: Tsinghua Science Park Entrepreneurship Building, Haidian District, Beijing
Mission: To develop humanoid robots that seamlessly integrate into human-centric environments for industrial, service, and exploratory applications.
Technical specifications
Physical Attributes
Height: 5.6 feet (approximately 1.7 meters)
Weight: 143 pounds (approximately 65 kg)
The STAR1 includes self-developed 7-DOF high-precision bionic mechanical arms, as well as 12 fully active DOF high-performance dexterous hands (XHAND1), reinforcement learning, imitation learning, and end-to-end large model research. Additionally, the robot is equipped with various peripherals, including fingertip array tactile sensors, depth vision cameras, microphone arrays, and facial interaction screens. Combined with comprehensive software and remote operating systems, STAR1 ensures convenient and efficient training, as well as highly autonomous operation. RobotEra has also achieved many highlights like Top 20 Artificial Intelligence Startups of the Year.
Agibot: A2-Max
Company Name: Agibot
Founded: February 2023
Founder: Peng Zhihui
Headquarters: Shanghai, China
Mission: Create "unlimited productivity via intelligent machines" and advance AI-robot fusion innovation
Technical Specifications
Physical Attributes
Height: 175 cm (approximately 5'9")
Weight: 85 kg (187 lbs)
Battery Capacity: Not explicitly listed, but runtime is approximately 2 hours with support for battery swapping
The Agibot A2-Max is a state-of-the-art humanoid robot engineered for heavy-duty industrial applications, such as material handling and palletizing. Standing at 175 cm and weighing 85 kg, it boasts exceptional strength with dual arms capable of delivering up to 450 Nm of peak torque and legs providing 8800 N of thrust, enabling it to lift objects up to 40 kg. Its dexterous design includes 19 degrees of freedom in its hands for precision tasks, a walking speed of 1 m/s, and a runtime of 2 hours with battery-swapping support. Powered by Agibot's revolutionary EI Brain, the robot integrates multimodal AI, combining cloud-based and edge-based processing to perceive and react to text, audio, and visual data with human-like precision. This enables it to perform intricate tasks like threading a needle or navigating complex environments. Complementing this is WorkGPT, an AI-driven task optimization system that analyzes workflows in real-time, reorganizing operations and maximizing efficiency. Developed by Agibot, a Shanghai-based robotics company founded in February 2023 by Peng Zhihui, the A2-Max exemplifies Agibot’s mission to revolutionize industrial automation through embodied intelligence and advanced AI-robot fusion.
Boston Dynamics: E-Atlas
Company: Boston Dynamics (Subsidiary of Hyundai Motor Group)
Founded: 1992
Founders: Marc Raibert and colleagues (spin-off from Massachusetts Institute of Technology)
Headquarters: 78 Fourth Avenue, Waltham, Massachusetts, 02451, United States
Mission: To develop advanced mobile manipulation robots with remarkable mobility, dexterity, perception, and agility, pushing the boundaries of what robots can do across manufacturing, energy, construction, logistics, and government sectors
Technical Specifications
Physical Attributes
Height: 1.5 meters (4.9 feet)
Weight: 87 kilograms (192 pounds)
Battery Capacity: 3.7 kWh, providing approximately 1 hour of mixed-use operation
Boston Dynamics’ latest iteration of the electric Atlas robot marks a significant leap in humanoid robotics, transitioning from its earlier acrobatics to performing complex, real-world industrial tasks. Equipped with advanced machine learning vision models, proprioceptive sensors, and dexterous grippers, Atlas can autonomously detect, localize, and manipulate objects in dynamic environments while adapting to unexpected changes in real time. This evolution builds on Boston Dynamics’ decades of innovation, beginning with DARPA-funded projects like BigDog and early hydraulic versions of Atlas, now replaced by fully electric designs for greater efficiency and precision. Collaborations with organizations like the Toyota Research Institute (TRI) have further enhanced Atlas’s capabilities, integrating AI-driven Large Behavior Models (LBMs) that enable rapid skill acquisition without explicit programming. With these advancements, Atlas is poised to tackle unstructured environments such as warehouses and disaster zones, reflecting Boston Dynamics’ vision of creating humanoid robots that amplify human capabilities while addressing labor shortages and safety concerns.
Fourier: GR-2
Company: Fourier
Founded: 2015
Founders: Dr. Zhiwei Li and Dr. Xiang Li
Headquarters: Shanghai, China
Mission: To develop advanced humanoid and rehabilitation robots that combine dexterity, intelligence, and accessibility, enabling real-world applications in industries such as healthcare, research, and assistive robotics.
Technical Specifications
Physical Attributes
Height: 1.8 meters (approximately 5'11")
Weight: 47 kg (103.6 lbs)
Battery Capacity: 15 Ah (0.864 kWh) at 67.2 V
Fourier Intelligence's GR-2 humanoid robot showcases several compelling features and technologies that highlight the company's innovative approach to robotics. Standing at 175 cm and weighing 63 kg, the GR-2 is designed for versatility, equipped with 53 degrees of freedom that allow for complex movements and interactions. One of its standout features is its 12-degree-of-freedom hands, enhanced with six tactile sensors that enable real-time grip adjustments for delicate tasks. The robot can generate up to 380 Nm of torque, significantly improving its lifting capabilities compared to its predecessor, the GR-1.The GR-2 also incorporates an integrated cabling design that conceals wires for a sleek appearance and modular layout, reducing maintenance time and costs. Its detachable battery has doubled in capacity, extending operational time by an hour, making it suitable for longer tasks. Furthermore, Fourier Intelligence emphasizes accessibility in robotics through its Robotics as a Service (RaaS) model, allowing users to access robotic capabilities without significant upfront investments. This innovative approach aligns with their mission to enhance rehabilitation technology, as demonstrated by their award-winning ArmMotus™ EMU, which has set new benchmarks in intelligent rehabilitation devices. Overall, Fourier Intelligence is at the forefront of integrating advanced robotics into everyday applications, particularly in healthcare and rehabilitation settings.
Agility Robotics: Digit
Company: Agility Robotics, Inc.
Founded: 2015
Founders: Jonathan Hurst, Damion Shelton, and Mikhail Jones
Headquarters: Corvallis, Oregon, United States
Mission: To create advanced humanoid robots that can work alongside humans in real-world environments, enhancing productivity and safety in industries such as logistics, manufacturing, and healthcare.
Technical Specifications
Physical Attributes
Height: 175 cm (5 ft 9 in)
Weight: 65 kg (143 lbs)
Battery Capacity: 1.2 kWh (custom lithium-polymer battery pack)
Agility Robotics' Digit humanoid robot is designed for advanced logistics and warehousing applications, featuring a bipedal structure with "backward" legs that enhance agility in navigating tight spaces. Equipped with a comprehensive sensor suite, including LiDAR and stereo cameras, Digit autonomously operates in dynamic environments, performing tasks such as sorting, lifting, and transporting packages without constant human oversight. Its robust processing power, driven by dual Intel i7 processors and a Linux-based real-time operating system, enables complex control algorithms for balance and stability. Recognized as one of TIME's Best Inventions of 2024, Digit addresses labor shortages by safely executing physically demanding jobs while integrating future technologies like reinforcement learning and generative AI to continuously improve its capabilities. This combination of features positions Digit as a transformative solution in the robotics industry, particularly in enhancing operational efficiency within logistics.
Unitree: H1
Company: Unitree Robotics
Founded: May 2016
Founders: Xingxing Wang (CEO/CTO)
Headquarters: 88 Dongliu Rd, Binjiang District, Hangzhou, Zhejiang, China
Mission: To revolutionize the robotics industry through cutting-edge technology and innovation, creating advanced robotic solutions that enhance efficiency, productivity, and safety while integrating intelligent robots into everyday life.
Technical Specifications
Physical Attributes
Height: 173 cm (5'8")
Weight: 47 kg (103.6 lbs)
Battery Capacity: 2.2 kWh, providing approximately 1-1.5 hours of continuous operation
Unitree Robotics is at the forefront of advanced robotics technology, continuously innovating in the field of humanoid and quadrupedal robots. The company showcased its capabilities at CES 2025, demonstrating robots like the Go2 and H1, which can perform complex movements such as backflips and handstands, highlighting their agility and advanced control systems driven by deep reinforcement learning. Unitree has developed a hybrid motion system that combines the stability of legs with the speed of wheels, allowing robots like the B2-W to navigate rugged terrains efficiently. The company emphasizes intelligent interaction through features like the Intelligent Side-follow System (ISS), which enhances navigation and obstacle avoidance. With over 150 global patents, Unitree is committed to integrating robotics into everyday life, focusing on applications in logistics, healthcare, and education while promoting a future where robots actively collaborate with humans. Their innovations have garnered international attention, being featured in major events such as the Super Bowl and Winter Olympics.
The civility of robotics coming in tomorrows updates and highlights
Rudimentary mechanical devices of today is a testament to humanity’s relentless pursuit of innovation. The devices we use to read just this have been stepping stones for the evolution of them. We as humans are in a battle to create the best—which will eventually take 90% of jobs everywhere. What once existed only in the realm of science fiction has now become a reality—remarkable advancements in mobility, intelligence, and emotional interaction. These machines are no longer just tools but collaborators, they have been integrated into industries and even space exploration since the beginning. As we stand on the threshold of a new era, the future of roboticism and cybernetic marvels hold immense promise. Advances in artificial general intelligence, multimodal machine learning, and bioengineering are paving their own way for mechanization that not only mimics human behavior but also enhances it.
For the robots that use NVIDIA's Jetson Thor will they be any good?
Yea, we’re talking an advanced computing platform set to launch in early this year, specifically designed for humanoid robots. It is built on the NVIDIA Blackwell architecture, delivering 800 teraflops of AI performance, which is essential for running complex AI models like Project GR00T. The platform features a powerful CPU cluster, an integrated safety processor, and high-speed 100Gb Ethernet connectivity. Jetson Thor aims to enhance capabilities in tasks such as natural language processing and real-time object detection, positioning NVIDIA as a leader in the robotics industry for now.
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Does this mean huge advancements in the name of robotic systems or?
The Jetson AGX Thor, powered by the Blackwell architecture as mentioned above, is a high-performance SoC designed for robotics and edge AI. It delivers an 8X GPU boost and 2.6X CPU improvement over its predecessor, supports 128 GB of RAM, and offers 10X I/O bandwidth, making it ideal for autonomous systems. Its efficiency (70 TOPS at 25W) positions it as a leader in next-gen robotics, only catch is, is that its high-end specs may pose accessibility challenges for smaller developers budgets or needs.
Are you still with me? Complementing Thor—NVIDIA’s Cosmos platform, a suite of world foundation models (WFMs) designed to accelerate physical AI development. Cosmos enables the creation of physics-aware virtual environments for robotics and autonomous vehicles by processing massive datasets—20 million hours of data under 2 weeks. These models, ranging from 4 to 14 billion parameters, support synthetic data generation, video-to-world simulations, and reinforcement learning in virtual environments. Cosmos’ advanced tokenizers offer 8X compression efficiency and 12X faster processing speeds compared to current methods, reducing costs for training and inference.
NVIDIA GeForce 256, released in 1999
Has come a long way, together, Jetson AGX Thor and Cosmos establish NVIDIA as a leader in robotics and physical AI, enabling developers to build smarter autonomous systems while redefining performance benchmarks in the industry.
Cybernetic technologies are bridging the gap between humans and machines, offering solutions for physical disabilities and augmenting human capabilities—this future also brings challenges—ethical considerations surrounding autonomy, privacy, and the displacement of human labor must be addressed thoughtfully. Collaboration between governments, industries, and researchers will be crucial to ensure that robotics evolves responsibly and inclusively. Ultimately, the fusion of human ingenuity and robotic intelligence promises a world where technology amplifies human potential. From enabling safer workplaces to exploring distant planets and improving quality of life on Earth, humanoid robots and cyborgs are not just shaping the future—they are becoming an integral part of it.
The question is no longer if they will transform our world but how we will embrace this transformation to create a better tomorrow.
Related: How do robots work?
Summary
I love them all, I’m going to keep an eye on a few like Figure—they have deals with BMW and the creator is the founder of Archer Aviation. There’s so many kinds of robots—this list is small compared to the actual list I was going to publish, which would of catergoized robots like, Domgy and Eemoo which are basically pets to outdoor rugged machines like Clearpath Robotics: Husky UGV, Sexdolls from Realbotix, Galbot’s G1, to AZI and Ameca from Engineered Arts… So on and so on.
If you actually caught the Bender and the Rev-9 joke, bravo, you were paying attention lol. I could of easily made this listing with nearly a hundred robots and companies that I have watched develop over the past 20 years; some of these entities have 6+ publicly available robotic systems alone.
The evolution of competition will continue day by day closer to true anthropomorpic civility.
#Robots #Cyborgs #Humaniods @Substack
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