Yvonne Yihan Su
About
Yvonne Yihan works in the following industries: "Semiconductors", "Higher Education", and "Automotive". Yvonne Yihan is currently Staff Engineer at Tesla. In Yvonne Yihan's previous role as a Senior Data Scientist at Tesla, Yvonne Yihan worked in until Jun 2021. Prior to joining Tesla, Yvonne Yihan was a Battery manufacturing engineer at Tesla and held the position of Battery manufacturing engineer. Prior to that, Yvonne Yihan was a Reliability engineer at Intel Corporation, based in San Francisco Bay Area from Jan 2016 to Sep 2017. Yvonne Yihan started working as Graduate Research Assistant at Stanford University in Aug 2015. From Jan 2013 to Jan 2014, Yvonne Yihan was Technical Intern at Intel. Prior to that, Yvonne Yihan was a Technical Intern of Analysis and Simulation R&D Center at Asahi Kasei from Jul 2013 to Aug 2013.
If you’re looking for Yvonne Yihan Su's email address, you can find it on finalscout.com. Finalscout is a professional database with more than 500 million business professionals and 200 million company profiles.
Yvonne Yihan Su's current jobs
Yvonne Yihan Su's past jobs
Model and test quality and reliability spec of Xeon servers to meet performance, yield, quality, and reliability goals. Release manufacturing specs to factories and publish qualification reports to customers. Lead technical working group across product teams for specific physical mechanism studies. Collaborate with process development teams, factories, debug teams, other product development teams to define adequate product features for key product milestones. Design path-finding projects to model quality and reliability of products on advanced technology nodes. Work with architects to define architecture features for quality and reliability.
Micro and Nano Mechanics Group. Performed Molecular Dynamics simulation to study mechanical properties of semiconducting polymers for stretchable electronics application.
Researched and designed experiment to study a physical reliability failure mechanism.
Designed a new block-copolymer system with favorable morphology that enables competitive softness, tackiness, and mechanical strength for specific products.