Robot Platform Software Engineer
Apply NowAbout Us We're an early-stage AI startup building frontier products for global markets, headquartered in Seongnam. Small team, zero tolerance for mediocrity, moving fast.
How We Work Skill is the bare minimum. What sets us apart is what comes next. Product is our north star. Where we're going, what we build, how we define success — all of it flows from the product. Not tech for tech's sake. End-to-end systems that run on a real customer floor and move real business KPIs. That's why we exist. Technology is what makes the product possible. Making manufacturing and logistics fully autonomous is how we win. Engineering is the center of gravity — everything else exists to serve it. People are what make the technology and the business real. That's why people come first. The people we hire don't draw lines around their scope or their title. They find the work, close the gaps, and see it through. Ambiguity is room to operate, not a reason to stall. Problems get solved by people who just execute. Speed, speed, speed. We ship, we learn, we ship again — faster than feels comfortable.
About the Role We are seeking a Robot Platform Software Engineer to design and build the high-performance software framework our intelligent robot applications run on. You'll connect real-world robot data to model advancement, stand up synthetic data generation on simulation environments, and resolve the real-time and distributed computing challenges that come with running robots at scale.
• Design and structure of high-performance software frameworks and systems that form the basis of intelligent robot applications. • Development of automation systems for efficiently collecting and selecting real-world robot data and connecting it to a model advancement pipeline. • System verification and establishment of a synthetic data (Synthetic Data) generation pipeline using simulation environments such as NVIDIA Isaac Sim and Gazebo. • Resolving data processing bottlenecks, ensuring real-time capabilities (Real-time), and optimizing resources in a distributed computing environment.