Senior Datacenter Power Design and Modeling Engineer

The Senior Datacenter Power Design and Modeling Engineer leads cross-functional execution and modeling for data-center power-delivery programs. This role owns rack-level architecture definition and involvement, end to end power modeling and simulation for advanced Datacenter power and energy scheme, and power shelves, busbars, cable vendor management. You ensure the successful delivery of power-related engineering programs by modeling and simulation efforts, coordinating across power architects, power validation, firmware, mechanical teams, and suppliers management. What you’ll be doing: Lead end-to-end execution for data-center power architecture programs, including Power Shelf, BBU/CBU, busbars, and other rack-level power components. Drive end-to-end modeling and simulation to guide and optimize the design; drive fast and effective failure analysis with solid root cause and correlation actions. Own technical risk management, validation strategy, and cross-functional alignment across architecture, validation, mechanical, compliance, firmware, and suppliers. Translate power-architecture requirements into clear milestones, identifying engineering trade-offs across efficiency, reliability, thermal limits, and manufacturability. Manage PSU and rack-power vendors, support bring-up, close failure analysis cycles, and clearly communicate program status, risks, and escalations to leadership. What we need to see: Master’s (or higher) degree in Electrical Engineering related technical field or equivalent experience. 5+ years of experience, Power Electronics, or a related technical field. Familiarity with simulation and modeling tools such as SIMPLIS, PowerSI/DC, SPICE, PLECS, Q3D, and related tools Ability to drive highly technical programs from concept to production through modeling and simulation. Experience working with PSU/PSC or other power electric vendors Strong technical communication and documentation skills. Ways to stand out from the crowd: Experience working on high-density AI/GPU server platforms. Strong ability to use molding and simulation tools to solve complex power problem. Background in power electronics, PSU/DCDC design, or high-current power delivery simulation. Strong familiarity with data-center power infrastructure, deep knowledge of PSU control behavior. Ability to influence architecture decisions and drive long-term strategies for next-generation power system.