Job Details:Job Description: The Role and Impact
This role is responsible for driving semiconductor technology development and manufacturing enablement for both high-volume manufacturing and next-generation technologies. The successful candidate will develop process integration and equipment solutions, conduct feasibility studies, and support the development of innovative device architectures and manufacturing technologies.
Working closely with internal engineering teams and external suppliers, this individual will lead process development efforts, optimize manufacturing capabilities, and contribute to technology roadmaps that enable future product requirements. This position requires regular onsite presence to support essential business and manufacturing activities.
Key Responsibilities
- Drive technology development and manufacturing enablement for current and future semiconductor technologies.
- Develop process integration and equipment solutions to meet device performance, quality, and manufacturability requirements.
- Lead the design and development of advanced manufacturing processes, including material selection, parameter optimization, metrology development, and system design.
- Perform process technology feasibility studies using engineering analysis, simulations, and experimental methods.
- Conduct pathfinding activities to support hardware and process development for emerging device architectures.
- Develop technology roadmaps that support future manufacturing and product requirements.
- Identify and implement process and equipment improvements to increase production efficiency, manufacturing capability, and overall output.
- Collaborate with equipment and material suppliers to develop and implement enabling technologies.
- Evaluate manufacturing trends, emerging technologies, and industry developments to identify opportunities for future process innovation.
- Partner with cross-functional teams to support technology transfer, process qualification, and manufacturing ramp activities.
Behavioral Skills
- Strong technical problem-solving and analytical skills.
- Ability to lead and influence cross-functional teams in a highly collaborative environment.
- Effective verbal, written, and presentation communication skills.
- Strong organizational skills with the ability to manage multiple priorities simultaneously.
- Demonstrated ability to drive results in fast-paced and technically complex environments.
- Ability to work independently while maintaining strong stakeholder alignment.
- Adaptability and willingness to learn new technologies, processes, and methodologies.
Qualifications:Minimum Qualifications:
- Master's degree in Materials Science and Engineering, Mechanical Engineering, Chemical Engineering, Electrical Engineering, Chemistry, Physics, or a related technical discipline
- 1+ years of experience utilizing Statistical Process Control (SPC) and/or Design of Experiments (DOE) methodologies.
Preferred Qualifications:
- 1+ years of experience in semiconductor technology development.
- 1+ years of experience delivering results for complex, time-sensitive technical projects.
- 1+ years of experience with semiconductor fabrication processes and manufacturing technologies.
- Previous experience working in a semiconductor foundry or high-volume semiconductor manufacturing environment.
Job Type:College Grad
Shift:Shift 1 (United States of America)
Primary Location: US, Oregon, Hillsboro
Additional Locations:
Annual Salary Range for jobs which could be performed in the US: $99,030.00-139,810.00 USD
The range displayed on this job posting reflects the minimum and maximum target compensation for the position across all US locations. Within the range, individual pay is determined by work location and additional factors, including job-related skills, experience, and relevant education or training. Your recruiter can share more about the specific compensation range for your preferred location during the hiring process.
Work Model for this Role
This role will require an on-site presence. * Job posting details (such as work model, location or time type) are subject to change.
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