Sr. Director, Data Center Strategic Design and Product

Oracle Oracle · Enterprise · United States

This role focuses on the strategic design and product development of Oracle's global AI and cloud infrastructure footprint, including facility architecture, controls systems, power infrastructure, and thermal management. It involves defining future-state designs, creating new standards, and developing technology roadmaps for high-density compute environments, advanced cooling, and next-generation power strategies. The leader will build and scale a new engineering function and a multidisciplinary team.

What you'd actually do

  1. Establish and lead a new OCI Data Center Design, Controls, and Power Innovation function focused on long-term infrastructure innovation and strategic technical direction.
  2. Own the end-to-end strategic design vision for OCI’s next-generation data centers supporting AI workloads.
  3. Lead evaluation, selection, qualification, and development of critical infrastructure technologies.
  4. Partner closely with capacity planning, site selection, construction, operations, networking, hardware engineering, security.
  5. Represent OCI externally with strategic partners, industry organizations, and technical forums.

Skills

Required

  • Hyperscale data center infrastructure design
  • Controls engineering
  • Power systems innovation
  • Facility architecture
  • Thermal management
  • Infrastructure product development
  • High-density compute environments
  • Liquid cooling systems
  • Intelligent controls and automation platforms
  • Power infrastructure strategies
  • Mechanical engineering
  • Electrical engineering
  • Systems design engineering
  • Organizational operating models
  • Governance frameworks
  • Design standards
  • Controls philosophies
  • Engineering processes
  • Scalable reference architectures
  • Energy efficiency
  • Grid integration technologies
  • Power conversion
  • Resiliency
  • Energy optimization systems
  • Modular and prefabricated infrastructure systems
  • Sustainable and low-carbon design approaches
  • Technology roadmaps
  • Product selection and qualification
  • Infrastructure management capabilities
  • Proof-of-concept initiatives
  • Autonomous operations
  • Capacity planning
  • Site selection
  • Construction
  • Operations
  • Networking
  • Hardware engineering
  • Security
  • Scalability
  • Operational reliability
  • Observability
  • Automation readiness
  • Global deployments
  • Operational consistency
  • Controls integration
  • Commissioning strategies
  • Lifecycle management practices
  • Global expansion initiatives
  • Regional infrastructure adaptation strategies
  • Capital planning
  • Infrastructure investment strategies
  • Industry trends monitoring
  • Emerging technologies
  • Engineering rigor
  • Operational excellence
  • Automation-first design thinking
  • Leadership experience building and scaling engineering organizations
  • AI/HPC infrastructure environments
  • Large-scale infrastructure innovation
  • Infrastructure economics
  • Executive stakeholder influence
  • Cross-functional alignment
  • Strategic thinking
  • Organizational leadership

Nice to have

  • Advanced degree
  • AI supercomputing or GPU-intensive environments
  • Next-generation energy systems
  • Machine learning-driven infrastructure optimization
  • Digital twin technologies
  • Global design and controls standards development
  • Industry-first infrastructure, power, and automation innovations

What the JD emphasized

  • future-state design strategy
  • AI and cloud infrastructure footprint
  • high-density compute environments
  • advanced liquid cooling systems
  • intelligent controls and automation platforms
  • next-generation power innovation strategies
  • hyperscale data center infrastructure
  • controls engineering
  • power systems innovation
  • build and scale new engineering functions
  • AI workloads
  • ultra-high-density deployments
  • future AI infrastructure demands
  • Liquid cooling technologies
  • Advanced power architecture and distribution strategies
  • Energy efficiency and grid integration technologies
  • Power conversion, resiliency, and energy optimization systems
  • Modular and prefabricated infrastructure systems
  • Sustainable and low-carbon design approaches
  • infrastructure and power innovation technology roadmaps
  • critical infrastructure technologies
  • integrated controls architectures
  • next-generation infrastructure, controls, and power technologies
  • proprietary or differentiated infrastructure management capabilities
  • emerging technologies
  • proof-of-concept initiatives
  • autonomous operations
  • operational reliability, resiliency, observability, and automation readiness
  • standardized controls integration
  • commissioning strategies
  • lifecycle management practices
  • capital planning and infrastructure investment strategies
  • technical innovation, operational efficiency, and lifecycle optimization
  • industry trends and emerging technologies
  • hyperscale infrastructure, controls systems, cooling, automation, power innovation, and energy management
  • culture of innovation, engineering rigor, operational excellence, and automation-first design thinking
  • hyperscale data center infrastructure
  • critical facilities engineering
  • controls engineering
  • power systems
  • cloud infrastructure design
  • leadership experience building and scaling high-performing engineering or infrastructure organizations
  • High-density compute infrastructure
  • Liquid cooling architectures
  • Advanced power infrastructure and energy systems
  • Critical power and thermal systems
  • AI/HPC infrastructure environments
  • large-scale infrastructure innovation initiatives
  • infrastructure economics
  • controls integration
  • scalability
  • reliability
  • observability
  • sustainability
  • energy strategy considerations
  • executive stakeholders
  • cross-functional alignment
  • strategic thinking
  • organizational leadership capabilities
  • AI supercomputing or GPU-intensive environments
  • next-generation energy systems
  • autonomous operations
  • machine learning-driven infrastructure optimization
  • digital twin technologies
  • global design and controls standards
  • industry-first infrastructure, power, and automation innovations
  • foundational leadership opportunity
  • future infrastructure strategy
  • next generation of cloud and AI infrastructure architecture
  • design principles and technologies
  • global expansion