Hybrid: This means the successful candidate is expected to report to their primary location (Warren, MI) three times per week, at minimum.
The Role:
At General Motors, we are committed to creating a world with zero crashes, zero emissions, and zero congestion. Our ADAS Compute hardware team is at the forefront of developing cutting-edge technologies like Super Cruise Hands-Free Automated Driving that enhance vehicle safety, performance, and autonomy.
As we move to in-sourcing hardware design we are building a hardware engineering team that will own the end-to-end design and development of our ADAS Compute hardware.
In this role, the Hardware Design Engineer – ADAS Compute be responsible for the technical design & development of the new ADAS Compute hardware platform for GM’s next generation vehicles. The role requires an experienced professional with a background in automotive ECU architecture, design, and analysis, and a proven ability of successfully launching ADAS Compute hardware into production.
What You’ll do:
- Design of ADAS Compute electrical hardware: from SoC/key component selection, schematic capture, worst case analysis, PCB layout, bring-up, debug, signal integrity and power integrity (SI/PI), design verification test (environmental and EMC), to manufacturing support and production launch
- Design and development of the ADAS Compute hardware platform (from concept design to launch) while meeting cost, timing, quality, and safety targets
- Collaborate with cross-functional teams, such as software, mechanical, and manufacturing, to ensure seamless integration of the electrical design of the ADAS Compute hardware
- Work closely with contract manufacturing partners to ensure successful product build, from prototype through to mass production, while maintaining quality, cost, and timing targets
- Electrical schematic design and PCB layout
- Support new IC design/development strategic to new ADAS Compute designs and architectures
- Perform/support detailed hardware analysis – worst case analysis, signal integrity, power integrity, etc.
- Execute bring-up of hardware design from power supplies, SoCs, MCUs, SerDes interfaces, network devices, etc.
- Lead design for manufacturing (DFM), design for assembly (DFA), and design for testing (DFT)
- Drive the validation and testing of hardware components and systems, ensuring high levels of reliability and performance
- Establish test plans and protocols to validate designs against requirements.
- Troubleshoot hardware issues, perform root cause analysis, and develop solutions to resolve design problems
- Support manufacturing partners in troubleshooting and resolving any production-related issues that arise during the manufacturing process
- Conduct design reviews and provide constructive feedback to ensure optimal solutions
- Lead/support DFMEA/PFMEA of ADAS Compute; ensure lessons learned and best practices are included
- Provide guidance and consultation to Design Release Engineers (DREs)
