ASML is one of the world’s leading manufacturers of chip-making equipment.
Our vision is to enable affordable microelectronics that improve the quality of life.
To achieve this, our mission is to invent, develop, manufacture and service advanced technology for high-tech lithography, metrology and software solutions for the semiconductor industry.
ASML's guiding principle is continuing Moore's Law towards ever smaller, cheaper, more powerful and energy-efficient semiconductors. This results in increasingly powerful and capable electronics that enable the world to progress within a multitude of fields, including healthcare, technology, communications, energy, mobility, and entertainment.
ASML - Yieldstar Physical and Electromagnetic Model Design Engin Job Description
Within D&E Applications, the group YieldStar Algorithms and Physical Modeling covers the development of physical, optical and mathematical models and methods required to infer physical model parameters from optical scatterometry data. Relevant new metrics and algorithms, as well as new measurement functions, with optimum performance characteristics using the raw acquisitions are identified, designed and implemented. In this, the availability and development of fast and accurate (non-)periodic Maxwell solvers is essential.
Job Description
- In-depth understanding and development of (non-)periodic Maxwell solvers, ASML-user support, and Maxwell solver speed and new functionality development of Maxwell solvers.
- Communicate crystal clearly on the mathematical principles, algorithm solutions and optical models, to the stakeholders, without omitting the essentials. Drive the Applied Mathematics (algorithm) competency.
- Propose and develop new or improved metrics and algorithms, driving customers' metrology solutions.
- Design and realize proof-of-concept subsystems on the edge of system specifications, costs and project planning, thereby contributing directly to the solutions and products used by B2B customers world-wide.
- Review technical analyses from the team, and structure team contributions keeping the overview.
- Consolidate technical-team identity in communication with other departments.
- Interfacing with the Research and on-product applications groups, while developing the best metrology solutions and a well-founded vision on semiconductor metrology.
- Contribute to technical product roadmaps and generate intellectual property protecting ASML products.
- Working as a team with similar-minded people, benefitting from each other's specific competences.
- Keywords: periodic and non-periodic Maxwell solvers, scientific computing, optimization techniques, inverse problems, sampling and interpolation, physical calibration.
ASML - Yieldstar Physical and Electromagnetic Model Design Engin Job Requirements
- PhD. in Electromagnetism (Applied Mathematics, Physics, or Electrical Engineering)
Experience- Established experience in Maxwell Solver development and algorithm design
Personal skills- Excellence in applied mathematics, and affinity with data analysis and code development
- Proven ability in Fortran, Matlab/C++/C#
- Drive creative solutions -within the bigger picture- with the product and customer in mind
- Ability to explain complex physical models and algorithms in a crisp way, without omitting the essentials
- Decisive and self-initiating in an ambiguous environment
- Ability to influence without power
- Team worker
- Pragmatic approach and pro-active attitude, with result focus and a ‘can do' spirit
ASML - Yieldstar Physical and Electromagnetic Model Design Engin Application Information
Please apply using the apply button below and remember, you found this opportunity on www.Qreer.com
ASML - Yieldstar Physical and Electromagnetic Model Design Engin Summary
Education Backgrounds: |
Electrical Engineering Micro / Nano Technology Physics |
Specialties: |
Algorithms Electromagnetics Modeling Research (R&D)
|
Education Level: |
Postgraduate (Masters) Doctorate (PH.D)
|
Experience: |
0 - 2 years 2 - 5 years 5 - 10 Years
|
Languages spoken: |
English |
Job Location: |
Veldhoven, Netherlands |
Keywords: |
periodic and non-periodic Maxwell solvers, scientific computing, optimization techniques, inverse problems, sampling and interpolation, physical calibration. |
Apply