The System Design Engineer plays a central role throughout the different phases of the product life cycle.  This position is part of a team responsible for developing and supporting next generation Scatterometry Critical Dimension (SCD) metrology systems as well as supporting and improving current systems. The candidate will play a key role in next generation product development, from technology evaluation and selection, specifications development, product validation, verification, transfer to manufacturing, and support of customer ramp. This responsibility includes planning and leading experiments and trade-off studies required to make major architecture decisions on complex systems. The candidate will be responsible for top level system specifications and flow down to sub-system and component level specifications, system error budgets, interface definition, calibrations, and diagnostics. The candidate must be effective at leading a team of engineers to achieve program goals.

The Design Engineer will maintain ownership of the product performance through the life cycle and be responsible for improvement projects and support of field and manufacturing issues. The engineer must be able to complete the initial diagnosis of any system issue, uncover root cause and devise solutions for complex problems. Must be able to support the detailed analysis and tradeoffs for the various solutions, develop plan of action, and effectively communicate plan to colleagues to execute. Must have the knowledge and experience to effectively work with experts in optics, electronics, mechanics, software, and algorithms as required to develop solutions and resolve issues. Some travel may be required to support product transition to manufacturing, beta support at customer sites, and for complex escalations that require onsite support.

Additional details regarding responsibilities:

Research, evaluate, and propose new product features in support of customer requirements.
Analyze data on critical components to determine impact on system performance and if performance meets specifications.
Develop and evaluate concepts and designs for the next generation systems and lead the architecture selection process.
Resolve inconsistencies between subsystems, conduct trade-off studies, identify high-risk areas, and develop risk mitigation strategies.
Own creation and execution of prototype test plans for complex subsystems. This will involve integration of subsystems, testing against design tolerances and marketing specifications, analyzing test data, and generation of reports.
Drive product or feature introduction. This includes preparation of first draft of system alignment, calibration and troubleshooting diagnostics for existing and new products, training of operations and field personnel, and solving technical issues that may impact production introduction.
Drive team to resolve system issues at customer site or in manufacturing. Work with engineers at locations around the globe to solve issues escalated to engineering: establish root cause, develop plan of action (POA), guide local teams in execution of POA, and document issues and solutions to improve design and/or procedures so that they may be implemented across the fleet in a standard manner.

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