Origin

10x offers AI-powered humanoid robots for real-world applications. The system combines AI, robotics, and perception to perform complex tasks in physical environments. It is a robotics platform aimed…

10xconstruction.ai

Origin

10xconstruction.ai

HQNew York City, US

Team Size80

Open Jobs28

Total Funding-

Latest FundraiseUnknown

Join the Team

Lead Engineer - Embedded Software and Controls

On-SiteBengaluru, IN

On-Site • Bengaluru, IN

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About Origin

Origin (previously 10xConstruction) is building general-purpose autonomous robots for US construction to tackle rising costs, safety risks, and labour shortages. Our modular, multi-trade platform combines purpose-built hardware with real-time site intelligence to navigate complex environments and execute tasks with precision. Trained in high-fidelity simulation and already deployed on live sites, our robots deliver 5x faster execution, 250%+ margin expansion, and significant cost savings. Join India’s most talent-dense robotics team consisting of individuals from IITs, Stanford, UCLA, etc.

About the role

As the Lead Embedded Software and Controls Engineer at Origin you will lead the design and implementation of the control algorithms and foundational embedded software that give our robots their precision, reliability, and autonomy. This is a founding team role, offering the unique opportunity to not only build a groundbreaking product but also to shape the culture and direction of a rapidly growing company.

Requirements

Key Responsibilities

Required Qualifications and Skills

Master's degree in Electrical Engineering, Robotics, Computer Science, or a related field.
8+ years of experience in the design and development of embedded control systems and compute platform layers for robotic or similar applications.
Strong understanding of real-time operating systems (RTOS), embedded Linux, and driver development.
Proficiency in embedded programming (C required, C++ optional) and firmware development.
Deep expertise in control theory, robotics (kinematics, dynamics), and embedded systems.
Experience with system monitoring and logging tools.
Experience with communication protocols (e.g., CAN, Ethernet) and sensor integration.

Preferred Experiences

Development Experience on NVIDIA Jetson Series SBCs for Robotics
Low-Level Kernel Development

Control System Architecture:

Lead the architecture and design of robust and reliable control systems for our mobile manipulator robots.

Develop and implement control algorithms (e.g., force control, tension control) for precise manipulation, navigation, and tool use, including robust teleoperation modes.

Ensure the real-time performance and reliability of all control loops.

Actuator & Sensor Integration:

Develop software for the control of motors, actuators, and other drive components.

Implement algorithms for sensor synchronization, data fusion, and calibration (e.g., IMU, Vision, Depth).

Develop kinematic models and implement control strategies for complex robotic arms.

Embedded Compute & Firmware:

Develop, optimize, and ensure the reliability of low-level firmware and drivers for real-time performance and efficient hardware interaction.

Take ownership of the embedded compute platform, including Linux modifications, robust driver development, and CPU/resource monitoring.

Build and maintain a comprehensive monitoring and logging infrastructure to ensure system health and facilitate rapid debugging.

Develop and maintain the Over-the-Air (OTA) update pipeline for seamless software deployment.

Rapid Prototyping & Testing:

Lead the prototyping and testing of control algorithms, both in simulation and on physical hardware.

Develop and implement automated testing procedures to streamline the development process.

Diagnose and resolve complex software, firmware, and controls-related issues.

Collaboration & Integration:

Work closely with the software team to integrate the electromechanical system on ROS2 and contribute to ROS2 driver development.

Collaborate with the hardware and mechanical teams to ensure seamless integration and system-wide performance.

Collaborate with other teams (e.g., perception) to ensure

Experience with ROS/ROS2 and teleoperation frameworks is highly desirable.