About the job
Be part of a team that pushes boundaries, developing custom silicon solutions that power the future of our company's direct-to-consumer products. You'll contribute to the innovation behind products loved by millions worldwide. Your expertise will shape the next generation of hardware experiences, delivering unparalleled performance, efficiency, and integration.
As a System on a Chip (SoC) Power Engineer in our company Cloud, you will be part of the server chip design team. You will work on Power related flows across the chip development end to end. You will have the opportunity to impact the company Cloud Infrastructure, combine the latest innovations in algorithms and integrate circuits to create CPU SoC solutions for our company Cloud. You will partner with hardware, software, and data center controls teams to provide silicon and technology roadmaps.
The ML, Systems, & Cloud AI (MSCA) organization at our company designs, implements, and manages the hardware, software, machine learning, and systems infrastructure for all our company services (Search, YouTube, etc.) and our company Cloud. Our end users are our companyrs, Cloud customers and the billions of people who use our company services around the world.
We prioritize security, efficiency, and reliability across everything we do – from developing our latest TPUs to running a global network, while driving towards shaping the future of hyperscale computing. Our global impact spans software and hardware, including our company Clouds Vertex AI, the leading AI platform for bringing Gemini models to enterprise customers.
Responsibilities
Develop methodology of SoC roll up of power reduction, projection, configuration, test plan and tools.
Work intact with Architecture, Frontend and Backend teams driving power reduction features (both logic and circuit).
Manage power delivery and packaging teams with simulations and scenario definitions.
Work intact with Architecture and DV to define power scenarios and tests, debug, and integrate into the flow.
Track whether power goals are met throughout execution.
Be part of a team that pushes boundaries, developing custom silicon solutions that power the future of our company's direct-to-consumer products. You'll contribute to the innovation behind products loved by millions worldwide. Your expertise will shape the next generation of hardware experiences, delivering unparalleled performance, efficiency, and integration.
As a System on a Chip (SoC) Power Engineer in our company Cloud, you will be part of the server chip design team. You will work on Power related flows across the chip development end to end. You will have the opportunity to impact the company Cloud Infrastructure, combine the latest innovations in algorithms and integrate circuits to create CPU SoC solutions for our company Cloud. You will partner with hardware, software, and data center controls teams to provide silicon and technology roadmaps.
The ML, Systems, & Cloud AI (MSCA) organization at our company designs, implements, and manages the hardware, software, machine learning, and systems infrastructure for all our company services (Search, YouTube, etc.) and our company Cloud. Our end users are our companyrs, Cloud customers and the billions of people who use our company services around the world.
We prioritize security, efficiency, and reliability across everything we do – from developing our latest TPUs to running a global network, while driving towards shaping the future of hyperscale computing. Our global impact spans software and hardware, including our company Clouds Vertex AI, the leading AI platform for bringing Gemini models to enterprise customers.
Responsibilities
Develop methodology of SoC roll up of power reduction, projection, configuration, test plan and tools.
Work intact with Architecture, Frontend and Backend teams driving power reduction features (both logic and circuit).
Manage power delivery and packaging teams with simulations and scenario definitions.
Work intact with Architecture and DV to define power scenarios and tests, debug, and integrate into the flow.
Track whether power goals are met throughout execution.
Requirements:
Minimum qualifications:
Bachelor's degree in Computer Science, Electrical Engineering, or a related technical field, or equivalent practical experience.
8 years of experience with power modeling, power delivery, and power distribution network/design.
Experience in power estimation and optimization flows and tools.
Experience with Vector based Physical Design Power Tools (e.g. PTPX Prime power).
Preferred qualifications:
Experience with power optimization techniques (multi Vth/power/voltage domain design, clock gating, power gating, DVFS/AVS, etc.) and power management.
Experience with scripting languages (i.e., Python, Perl, TCL or Bash).
Knowledge of the impact of software and architectural design decisions on power and thermal behavior of the system (thermal mitigation and scheduling, cross-layer policy design).
Knowledge of system software components (i.e., Linux, drivers, runtime performance analysis, etc.).
Minimum qualifications:
Bachelor's degree in Computer Science, Electrical Engineering, or a related technical field, or equivalent practical experience.
8 years of experience with power modeling, power delivery, and power distribution network/design.
Experience in power estimation and optimization flows and tools.
Experience with Vector based Physical Design Power Tools (e.g. PTPX Prime power).
Preferred qualifications:
Experience with power optimization techniques (multi Vth/power/voltage domain design, clock gating, power gating, DVFS/AVS, etc.) and power management.
Experience with scripting languages (i.e., Python, Perl, TCL or Bash).
Knowledge of the impact of software and architectural design decisions on power and thermal behavior of the system (thermal mitigation and scheduling, cross-layer policy design).
Knowledge of system software components (i.e., Linux, drivers, runtime performance analysis, etc.).
This position is open to all candidates.
