Model-Based Systems Chief Architect

About The Position

Requirements

• Bachelor's degree in Engineering from an accredited institution.
• Minimum 15 years of Systems Engineering or Systems Architecture experience with cyber-physical or power-centric systems
• Master's degree or specialization in Systems Engineering, Power Systems, Controls, Cyber‑Physical Systems from an accredited institution
• Systems engineering certifications (INCOSE ASEP/CSEP/ESEP).
• Experience in converter‑dominated architectures, datacenter power systems, or multi‑domain modeling and analysis.
• Experience with modern MBSE toolchains for linking requirements, architectures, and system‑analysis workflows.
• Experience working in integrated programs spanning hardware, software, firmware, protection, modeling, and system validation.
• Experience in requirements engineering, functional architecture, system decomposition, and MBSE workflows (SysML, System Composer, etc.).
• Experience contributing to DFSS‑aligned workflows including QFD, CTQ flow‑down, and system‑level risk management.

Responsibilities

• Lead SoS requirement definition and decomposition for DC datacenter architectures, spanning electrical, thermal, mechanical, control, and operational domains.
• Translate customer VOC into structured engineering requirements, functional behaviors, constraints, and use cases.
• Maintain rigorous requirement traceability across architecture elements, system analyses, and verification artifacts.
• Ensure appropriate requirement allocation across subsystem teams (power electronics, software, FW, controls, mechanical, thermal, protection)
• Define scalable, modular, and reusable architectures for DC datacenter systems using SysML or equivalent system‑level modeling languages.
• Lead MBSE workflows including functional architecture, behavioral modeling, interfaces, state‑based behavior, and system interactions across multi-domain architectures.
• Maintain a consistent digital thread linking requirements → architecture → system models → verification assets.
• Coordinate with Model‑Based Engineering (ES‑A) and system modeling teams to ensure alignment between architecture definitions and analysis models.
• Serve as the primary systems‑engineering authority for DC datacenter architecture across Applications, Product Engineering, Power Systems Modeling, and MBE teams.
• Lead alignment across engineering functions to ensure that architecture, requirements, and analysis activities remain synchronized.
• Mentor teams on systems engineering fundamentals, MBSE practices, requirements engineering, and architectural thinking.
• Support QFD development, CTQ identification, and requirement mapping — ensuring these link properly into system requirements and architecture.
• Participate in system‑level FMEA, hazard analysis, and risk‑reduction activities.