Menlo Park, CA16 days ago
Hold comprehensive technical ownership for the power system engineering of next-generation, high-power compute platforms across the full product lifecycle Drive extensive system investigations into power and electrical stability across multiple generations of high-power rack systems in a data center setting Lead the production of critical safety and design deliverables, including protection and safety design and analysis for high-voltage Direct Current (HVDC) distribution systems Utilize electrical modeling and simulation tools to analyze rack and row level power distribution components such as busways, tap-off boxes, power distribution units, capacitors, and batteries Perform complex system-level modeling, including harmonic and impedance analysis across large-scale data center sites, to proactively mitigate design and deployment risks Lead advanced electrical troubleshooting efforts, such as root cause analysis for switching transients, ground fault issues, and component failures across live data center infrastructure Participate in studies regarding the impact of next-generation AI workload power characteristics on power quality and grid stability Provide subject matter expertise and technical guidance to cross-functional teams on HVDC distribution technology, hardware design optimization, and AC input protection systems Ability to travel to vendor/design partner locations and data center sites for verification/validation testing of electrical systems technologies and productsBS/MS in Electrical Engineering with focus on Power Systems Design, or a related technical field 10+ years of experience in electrical or power system engineering, including design, modeling, or validation testing for critical infrastructure Experience within hyperscale data centers, high-power hardware development, or similar critical infrastructure environments Expertise in advanced modeling (e.g., electromagnetic, AI and non-AI loads, etc.) techniques for complex data center hardware designs (e.g., high-power racks, high-current conductors, busbar systems, etc.). D. in Electrical Engineering, Power Systems, or a closely related field Expertise in HVDC electrical design, system modeling, and safety/transient studies for high-power IT racks Working knowledge of FERC/NERC interconnection requirements for large load interconnections Experience in designing data centers served with behind-the-meter (BTM) or islanded onsite generation with integrated inverter-based technologies such as battery energy storage systems (BESS), super-capacitors, and other technologies Demonstrated ability to be a proactive driver and owner of major, long-term power infrastructure architectural roadmaps for the organization Experience defining strategic vision and setting the technical strategy for future power infrastructuresMeta builds technologies that help people connect, find communities, and grow businesses.