RoboForce builds AI-powered robotic labor systems that automate dull, dirty, and dangerous industrial tasks. The company develops autonomous robotic units in its TITAN family that combine robotics…
RoboForce builds AI-powered robotic labor systems that automate dull, dirty, and dangerous industrial tasks. The company develops autonomous robotic units in its TITAN family that combine robotics…
Product: TITAN family — industrial AI robots (Robo-Labor)
Recent funding: $10M seed (Jan 6, 2025)
Notable investors: Myron Scholes; Gary Rieschel; Carnegie Mellon University
Company Overview
Problem Domain
Industrial automation for hazardous, outdoor, and high-risk environments (utility-scale solar, mining, manufacturing, data centers, shipping).
Founded
2023
Industry
Robotics Engineering
Tech Stack
AI
perception
mobile manipulation
Funding Track Record
Seed- 2025-01-06
$10,000,000
Investors named include Myron Scholes, Gary Rieschel, and Carnegie Mellon University.
Investor Signal
“Myron Scholes; Gary Rieschel; Carnegie Mellon University”
Founders
What we do
Join the Team
Robotics Software Engineer
On-SiteMilpitas, CA, US
On-Site • Milpitas, CA, US
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Why RoboForce
RoboForce is an AI robotics company developing Physical AI–powered Robo-Labor for dull, dirty, and dangerous work. The company’s robots are engineered for demanding industrial environments, with a focus on real-world deployment and scalability.
We are seeking a Robotics Software Engineer to build the software that powers robot behavior in the real world. In this role, you will develop, integrate, and improve production-grade robotics capabilities across autonomy, systems, and developer infrastructure. You will work closely with cross-functional teams to turn promising prototypes into reliable software that runs on deployed robots operating in complex outdoor environments.
This is a hands-on engineering role for someone who enjoys writing production code, debugging challenging real-world problems, and seeing their work directly improve robot performance in the field.
Responsibilities
: Design, implement, and maintain production software for real-world robotic systems using C++ and Python, with a focus on performance, reliability, and maintainability.
Requirements
Bonus Qualifications
Outdoor Robotics Experience
: Background in autonomous driving, drones, mobile robotics, or other systems deployed in outdoor or unstructured environments.
Infrastructure Familiarity
: Experience with Docker, Kubernetes, CI/CD systems, or software release workflows for robotics platforms.
Developer Tooling
: Experience building tools for testing, simulation, telemetry, debugging, or log analysis.
Visualization & Diagnostics
: Experience with robotics visualization and diagnostics tools such as Foxglove, Grafana, RViz, or custom internal interfaces.
Benefits
Competitive stock options/equity programs.
Health, dental, and vision insurance, 401(k) plan.
Visa sponsorship and green card support for qualified candidates.
Lunches and dinners, a fully stocked kitchen, and regular team-building events.
Startup jobs. A lot of them.
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Robotics Software Development
System Integration
: Integrate and refine robotics capabilities across perception, planning, controls, teleoperation, and platform software to ensure robust behavior on physical robots.
Robustness & Reliability Engineering
: Improve software quality through testing, validation, fault handling, performance tuning, and edge-case analysis to make systems dependable in unstructured outdoor environments.
Debugging & Root Cause Analysis
: Investigate complex failures across software, sensors, networking, timing, and hardware interfaces, and drive issues to resolution through disciplined technical analysis.
Tooling & Infrastructure
: Build internal tools, scripts, and workflows that improve developer velocity, testing efficiency, observability, and release quality across the robotics software stack.
On-Robot Validation
: Work directly with hardware to validate new features, evaluate system behavior, and iterate quickly between development and real-world testing.
Education:
B.S. or M.S. in Robotics, Computer Science, Electrical Engineering, or equivalent practical experience.
Experience:
2+ years of professional experience in robotics, autonomous vehicles, drones, or complex embedded systems, with a demonstrated track record of deploying
physical hardware products
into the field.
Programming Proficiency:
Strong command of both C++ and Python, with the ability to read, debug, and write production-level C++ for core robot systems, alongside robust Python tooling.
Robotics Software Fundamentals
: Experience working with one or more core robotics domains such as perception, motion planning, controls, localization, state estimation, system integration, or robot behavior.
Linux Systems Expertise
: Strong comfort working in Linux development environments, including command-line tools, debugging workflows, scripting, and system-level troubleshooting.
Debugging Mindset
: Proven ability to diagnose and resolve problems that span software, hardware, sensors, and distributed system interactions.
Collaboration
: Requires 5 days/week in-office collaboration with the team.
Production Deployment Experience
: Experience taking robotics software from prototype to production and supporting reliability at fleet scale.
