RT & Kernel Engineer (human)
Indexed description
You will collaborate closely with the RT Communication Bus engineer, hardware, simulation, and safety / certification stakeholders to deliver platforms that are deterministic, maintainable, and suitable for a controlled product lifecycle.
- Real-time Linux platforms — both co-kernel and kernel-preemption approaches — including RT scheduling policy and interrupt-latency budgeting to meet the timing requirements of the control and estimation loops running on the platform (kHz-class whole-body control and high-rate state estimation).
- SOM board bring-up and the Yocto BSP for each robot platform hardware revision: boot flow, kernel configuration, device trees, and driver work at the C/C++ boundary, with hands-on debugging on real hardware.
- Yocto layers, recipes, and images for development, validation, and release; structured evaluations and migrations across multiple SoCs and board variants as hardware evolves.
- WCET analysis across RT loop configurations, and RT memory management practice (memory locking, huge pages, NUMA-aware allocation, priority inversion avoidance).
- Co-review of WCET budgets and cycle timing with the RT Communication Bus engineer at the OS / fieldbus boundary, ensuring scheduling, interrupt, and synchronisation assumptions hold under load.
- Safety integration at the kernel level (e.g. E-stop chain wiring, ISO 10218 safety PLC integration); design participation, documentation, and traceability for controlled change practices.
- Build, flash, and test automation; technical documentation kept current for the wider engineering organisation.
- Embedded Linux BSP engineering background with hands-on Yocto / OpenEmbedded experience on production hardware.
- Hands-on real-time Linux kernel patching and tuning experience, with practical scheduling-oriented reasoning (SCHED_FIFO/RR, priorities, affinity, interrupt path).
- Working knowledge of WCET analysis methodology and tooling (e.g. OTAWA, Chronos, or vendor equivalents).
- Solid C and C++ at the kernel/driver boundary; device tree authoring; practical scripting for engineering workflows.
- Experience on ARM SoCs with multi-cluster configurations (e.g. Cortex-A + Cortex-R), or comparable platforms.
- A collaborative working style: shared design, constructive code review, proactive communication, and reliable coordination across hardware, communications, and safety disciplines. Strong teamwork is essential for this role.
- Bachelor's degree in a relevant field, or equivalent practical experience.
- EtherCAT familiarity sufficient for OS / fieldbus-boundary co-review (WCET budgets and cycle timing).
- Exposure to functional safety engineering practices (ISO 26262, IEC 61508, or ISO 10218) — documentation, evidence, review cycles. Certification sign-off is not required for this role.
- Experience with PTP / IEEE 1588 hardware timestamping at the kernel network driver level.
- Background in robotics, motion control, or industrial automation with strict timing expectations.
- Interest in growing scope as the platform team expands.
- Become part of an agile company, actively shape topics and benefit from flat hierarchies in a highly motivated team
- Enjoy an attractive salary, flexible working hours and 30 days of vacation
- The freedom to contribute your own ideas and drive them forward
- Celebrate successes together with company events
- Take advantage of our corporate benefits program
- And even more fun with great colleagues
Create a free Caio profile to unlock more results and save your role and location preferences.
Unlock free search