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Behind every technology
is a human story.

Technology is evolving faster than ever, reshaping how we communicate and connect. In a world changing, innovation is no longer just about what, but how we build it. So that every product we create tells the story of the people behind it.

The Reason
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Slide 1

We don’t see robots as replacements.

We see them as partners.

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We build humanoid robots for a world shaped by human motion, tools, and workflows translating machine intelligence into real-world action.

Our Why
Build for the human world
We design technology to integrate seamlessly into our world, allowing it to be part of our everyday life.
Instead of task specific systems, humanoids can adapt across many.
We aim to build technology that is more human, more empathetic — with the goal to positively impact the world.
Aerial view of sandbars and shallow turquoise ocean water with white sand formations.
Humanoids are built for existing environments, no need for dedicated infrastructure.
Curved, layered sandstone rock formations with smooth textures and warm lighting.
ADAPTABILITY
INTERACTION
INTERACTION
VERSATILTY
Slide 1

Built for human spaces

Built for everyday living

Built for those who build

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We build humanoid robots through full-stack integration of mechanics, electronics, software, and AI, creating systems designed for safety, adaptability, and scalable real-world deployments.


Our How
[ 01 ]

Full Stack

From motors to sensors, every part of our technology stack is developed by us.

By integrating everything into one architecture, we can iterate at system level and optimize for performance, efficiency, and reliability.

[ 02 ]

In House

Every component is manufactured in-house. 



This end-to-end ownership of the whole production journey enables a seamless and faster product ramp-up and experience.

[ 03 ]

Passive Safety

In complex systems, safety cannot rely on software alone. We believe robots should remain safe even in uncontrolled conditions. This principle is built into the architecture from the ground up.

[ 04 ]

Scalabilty

Scalability has been a core design principle from the start. Only systems built for volume can create lasting impact—manufactured and deployed efficiently, without structural complexity or cost inflation.

Designed for everyday interaction with technology driven by innovation

Slide 1
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Our core technolgies carefully balanced and combined into one functional system.

Our Disciplines

HARDWARE

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SOFTWARE

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MECHANICS

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DESIGN

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HARDWARE

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SOFTWARE

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MECHANICS

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DESIGN

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Hardware
Software
Mechanics
Design

Our hardware builds the foundation for physical intelligence.

It establishes the structural and electrical backbone required to operate the system reliably. Powerful enough to run state-of-the-art artificial intelligence models directly on board.

Perception Unit
Power Management
Compute
Network
Servo Drive
Perception Unit
Our perception unit combines the full visual sensor suite into a single fully integrated system. Open interfaces, SDKs and APIs ensure a quick integration into any platform.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
Perception Unit
Power Management
Compute
Network
Servo Drive
Power Management
Our power management module ensures safe and reliable power delivery and distribution across all electrical components.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
Perception Unit
Power Management
Compute
Network
Servo Drive
Compute
Our compute module leverages the newest semi conductor technology to deliver maximum inference, performance to state-of-the-art AI models.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
Perception Unit
Power Management
Compute
Network
Servo Drive
Network
High-bandwidth redundant network orchestration for sensor and actor with security and priority handling, specially designed for humanoid robots.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
Perception Unit
Power Management
Compute
Network
Servo Drive
Servo Drive
Ultra-compact energy-dense servo drive with high control bandwidth and rich telemetry.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.

Specification sheets for hardware boards and integration details

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[ download specs ]
Hardware
Software
Mechanics
Design

Software that enables and understands.

Connects perception, decision-making, and control turning intelligence into reliable physical behavior.

Our Software

(01) User Interaction

The interaction with a robot should be simple, clear and intuitive, that’s why we use light, motion, voice and text to make robot control feel natural and easy.

(02) World Model

A world model helps the robot to simulate reality and predict what might happen next.
Our world model uses internet-scale video data together with the task description to understand the current scene the robot sees. This enables to generalize across novel objects and motions without requiring large scale robot specific pertaining.

(03) Real-Time Control

We teach the robot how to walk, navigate, and move through complex environments. Every motion is guided by adaptive software that learns from experience.
Hardware
Software
Mechanics
Design

Mechanics engineered to enable precise motion.

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Actuators are the robot’s muscles, they generate the controlled motion needed to move and interact with the world.
Our Actuators
Our actuator combines a powerful BLDC motor with a precision gearbox and our high-bandwidth servo drive.
Tech Specs
(01)
High-Resolution RGB Imaging
Optimized for teleoperation with sharp, color-accurate visual feedback.
(02)
360° Solid-State Depth Sensing
Full-surround spatial awareness with robust indoor and mixed-environment performance.
(03)
Long-Range Detection (up to 100 m)
Reliable distance sensing for navigation, mapping, and early obstacle prediction.
(04)
Eye-Safe by IEC Standards
Designed for compliant and safe depth sensing in human environments.
Motion is inspired by biology. Our technology moves naturally, with purpose, guided by principles drawn from living systems.

Download the full specification sheet for technical details.
[ download DATA sheets ]

Our technology is built as a modular ecosystem.

Leverage our state-of-the-art robotic components in your own systems, enabling tailored solutions and seamless integration.
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Hardware
Software
Mechanics
Design

Design defined by clarity and neutrality

Our design language focuses on lightness, balanced proportions, and a restrained visual presence. Soft and neutral forms reduce visual dominance and support intuitive interaction in shared human environments.

Textiles & Surfaces
3D-knitted textiles create a seamless outer layer with a soft, refined appearance and tactile feel. They allow complex geometries, reduce visible seams, and support a more human-centered design language.
Detailed Precision
Every element is deliberate—down to the smallest labels. From materials to markings, each detail reinforces a cohesive and intentional design language aligned with our brand.
Advanced Materials
Material science is fundamental to creating a human look and feel, balancing tactile comfort, durability, and surface performance across complex geometries and real-world use cases.
Light as Language
Integrated LEDs respond instantly to interaction, motion, and system states. Light becomes a subtle communication layer, signaling intent, feedback, and awareness without any words.

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