Develop end-to-end pre-silicon and post-silicon validation methodologies, processes, and workflows for system-level silicon security and safety circuit characterization, including voltage, clock, power and fault monitors/detection etc.
Drive the translation of new circuit features into clear productization requirements, dependencies, validation scope, and signoff criteria for silicon characterization test plans and productization methodologies.
Define validation strategies for analog, digital, and mixed-signal circuits, as well as new silicon features, with a strong focus on bring-up readiness and scalable execution.
Design and develop tools to automate characterization, data collection, test execution, and result analysis to improve efficiency, quality, and coverage.
Enable left-shift validation for next-generation product features by bringing up new flows, tests, and PVT solutions in pre-silicon on prior-generation platforms, in close collaboration with cross-functional teams.
Work closely with system architects, chip and board designers, software and firmware engineers, HW/SW application engineers, process and reliability specialists, ATE engineers, product managers, sales, and operations teams to resolve blockers, align validation targets, and drive milestone readiness.
Continuously explore and apply innovative approaches, including AI-driven methodologies, to solve complex design challenges and improve validation quality, efficiency, and scalability.
Contribute to technical documentation and knowledge-sharing efforts that promote best practices and broader adoption of AI-enabled methodologies.
BS or MS in Electrical Engineering, Computer Engineering, or equivalent experience.
5+ years of experience in a related hardware engineering role, with strong exposure to silicon security and safety architecture, as well as analog, digital, and mixed-signal circuit integration.
Deep understanding of GPU/SoC system-level architecture.
Proven ability to collaborate and communicate effectively across cross-functional teams.
Hands-on experience with hardware-software interactions for initialization, fault handling, and debug, including but not limited to safety and security monitor circuits, reset and fault-handling architecture, fuse and register programming flows, post-silicon validation, and production test / ATE correlation.
Exposure to analog and digital design, circuit analysis, BIOS, drivers, and software applications.
Strong silicon lab experience, including silicon bring-up, frequency and power characterization, correlation, automation scripting, and use of lab equipment such as oscilloscopes, probes, and DAQ tools.
Excellent problem-solving, post-silicon debug, collaboration, and interpersonal skills.
Familiarity with Perl, C/C++, tool and script development, and Windows/Linux environments is a plus.
Experience applying AI to semiconductor co-design and validation problems, with the ability to ramp quickly in new technical domains.
Knowledge of AI-assisted workflows for accelerating automation, data analysis, root-cause investigation, and documentation.
Our team is at the forefront of innovation in silicon solutions, contributing to the development of groundbreaking technologies. We offer a dynamic work environment where your contributions will directly impact the company's success. Join us to advance your career in a role where you can truly make a difference. With competitive salaries and a generous benefits package, we are widely considered to be one of the technology world’s most desirable employers. We have some of the most forward-thinking and hardworking people in the world working for us, and due to unprecedented growth, our exclusive engineering teams are rapidly growing. If you're a creative and autonomous engineer with a real passion for technology, we want to hear from you!
