About the job
In this role, you’ll work to shape the future of AI/ML hardware acceleration. You will have an opportunity to drive cutting-edge TPU (Tensor Processing Unit) technology that powers Google's most demanding AI/ML applications. You’ll be part of a team that pushes boundaries, developing custom silicon solutions that power the future of Google's TPU. You'll contribute to the innovation behind products loved by millions worldwide, and leverage your design and verification expertise to verify complex digital designs, with a specific focus on TPU architecture and its integration within AI/ML-driven systems. In this role, you will work on custom silicon test chip hardware systems projects to craft solutions for current and future test chips.
Responsibilities
Gather system requirements, define architecture, execute hardware design, and perform product validation, while supporting test board design and development for custom silicon test chips.
Lead the bring up, validation, deployment, and sustainment of hardware solutions.
Drive system development from concept through delivery.
Lead debug and root cause analysis of systems.
Work cross-functionally with Silicon, Hardware, Software, Power, Mechanical, Thermal, Validation, Signal Integrity, Manufacturing, and external vendors.
Qualifications
Minimum
Bachelor’s degree in Electrical Engineering, Computer Engineering, Physics, a related field, or equivalent practical experience.
2 years of experience working in a hardware design technical environment.
Experience with test system development in support of silicon validation.
Experience with electronics principles, circuit design, board bringup and validation.
Preferred
Master's degree or PhD in Electrical Engineering, Computer Engineering, Physics, or a related field.
Experience with enterprise-class hardware systems design and data center engineering, server, storage, and networking products.
Experience with custom silicon bringup, validation, and characterization, including the development of automated test systems to drive silicon-to-system success.
Experience with Field-Programmable Gate Array/Complex Programmable Logic Device (FPGA/CPLD) design and interfacing with other disciplines, including software, signal integrity, thermal, and mechanical.
Experience in collecting and organizing details to reproduce results and explain the outcomes.
Experience solving system issues, technical innovation, and leading technical roadmaps.