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Semiconductor Device Jobs (NOW HIRING)

Teach assigned undergraduate courses in semiconductor technology, including but not limited to semiconductor device fundamentals, fabrication processes, cleanroom operations, and semiconductor ...

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Semiconductor Device information

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How much do semiconductor device jobs pay per hour?

As of Jul 17, 2026, the average hourly pay for semiconductor device in the United States is $24.44, according to ZipRecruiter salary data. Most workers in this role earn between $22.84 and $25.96 per hour, depending on experience, location, and employer.

What is the difference between Semiconductor Device vs Semiconductor Process Engineer?

AspectSemiconductor DeviceSemiconductor Process Engineer
Required CredentialsTypically an Electrical or Electronics Engineering degreeUsually an Electrical, Materials, or Chemical Engineering degree
Work EnvironmentDesign labs, testing facilities, R&D departmentsManufacturing plants, process development labs
Industry UsageDesigning and testing individual semiconductor componentsDeveloping and optimizing fabrication processes

Semiconductor Devices focus on designing and testing individual components like transistors, while Semiconductor Process Engineers work on developing manufacturing processes to produce these devices efficiently and reliably.

What are semiconductor devices?

Semiconductor devices are electronic components that exploit the electrical properties of semiconductor materials, such as silicon or gallium arsenide, to control the flow of current in electronic circuits. Common examples include diodes, transistors, and integrated circuits, which are fundamental building blocks in modern electronics. These devices are essential for the operation of computers, smartphones, solar cells, and many other technologies. Their ability to switch, amplify, and modulate electronic signals makes them crucial for both digital and analog applications.

What are the key skills and qualifications needed to thrive as a Semiconductor Device Engineer, and why are they important?

To thrive as a Semiconductor Device Engineer, you need a strong background in electrical engineering, solid-state physics, and semiconductor fabrication processes, typically supported by a relevant engineering degree. Familiarity with CAD tools, semiconductor simulation software (like TCAD), and cleanroom protocols is essential. Analytical thinking, problem-solving ability, and effective teamwork are crucial soft skills for excelling in this role. These competencies are vital to ensure the accurate design, development, and manufacturing of reliable semiconductor devices in a highly technical and collaborative environment.

What are some common challenges faced by professionals working in semiconductor device roles?

Professionals in semiconductor device roles often encounter challenges such as keeping up with rapid technological advancements, managing tight production timelines, and ensuring high levels of device reliability and performance. Balancing cost-effectiveness with innovation can also be demanding, as is troubleshooting complex fabrication or testing issues. Close collaboration with cross-functional teams—including design, process engineering, and quality assurance—is essential to overcome these hurdles and ensure successful product development.
More about Semiconductor Device jobs
Infographic showing various Semiconductor Device job openings in the United States as of July 2026, with employment types broken down into 75% Full Time, 18% Part Time, and 7% Contract. Highlights an 92% Physical, 2% Hybrid, and 6% Remote job distribution, with an average salary of $50,833 per year, or $24.4 per hour.
DRAM Device & Cell Technology Engineer

DRAM Device & Cell Technology Engineer

Micron Technology

Boise, ID • On-site

Full-time

This job post has expired today. Applications are no longer accepted.


Micron Technology rating

8.7

Company rating: 8.7 out of 10

Based on 41 frontline employees who took The Breakroom Quiz

11th of 143 rated electronics manufacturers


Job description

As a DRAM Device & Cell Technology Engineer at Micron's Boise R&D site, you will play a central role in defining, developing, and optimizing next generation DRAM architectures, cell technologies, and access device technologies. You will collaborate closely with device engineers, process integration teams, process teams, modeling groups, design teams, and product engineering partners to push the limits of density, performance, reliability, and manufacturability for future DRAM nodes.
This position is highly technical and hands on, requiring deep knowledge of device physics and semiconductor processing. Strong experimental design skills, and the ability to translate data into device, design, integration, or process innovations is required.
Responsibilities Include:
  • DRAM Cell & Access Device Development: Define electrical targets for access devices, capacitors, and cell stack elements. Evaluate new cell structures, materials, and integration schemes to improve density, retention, disturb immunity, and sensing margins. Partner with modeling teams to validate device/cell behavior against TCAD and compact models.
  • Silicon Characterization & Data Analysis: Design and implement experiments on silicon: Perform in-depth electrical characterization: ION/IOFF distributions, Vt extraction, retention behavior, disturb mechanisms, leakage paths, and variation analysis. Extract insights from large data sets using statistical methods; propose actionable design or process improvements.
  • Array Operation & System-Level Understanding: Analyze array-level behaviors such as activation, sensing, disturb interactions, and read window margin. Work with circuit teams on WL/BL drivers, sense amplifier interactions, and operation sequence optimization.
  • Cross-Functional Integration & Collaboration: Work with internal groups and manufacturing sites to ensure robustness and scalability of developed solutions. Support technology transfer from R&D to high-volume manufacturing.
  • Technology Roadmap Contribution: Participate in defining DRAM scaling paths (3D DRAM, new device concepts, capacitor innovations, new materials). Benchmark internal versus industry device/cell capabilities and propose strategy adjustments.

Minimum Qualifications:
  • M.S. or Ph.D. in Electrical Engineering, Materials Science, Applied Physics, or related field.
  • Strong understanding of semiconductor device physics (MOSFETs, access devices, capacitors).
  • Experience with electrical characterization, device testing, and data analysis.
  • Familiarity with DRAM operation fundamentals (activation, sensing, disturb mechanisms).
  • Proficiency with scripting and data analysis tools (Python, MATLAB, JMP, etc.).

Preferred Qualifications:
  • Ability to communicate experimental results clearly and drive cross-team alignment.
  • Hands-on experience with DRAM or NAND device development.
  • TCAD simulation experience (Synopsys Sentaurus, Silvaco).
  • Experience with semiconductor device fabrication or advanced BEOL integration.
  • Knowledge of reliability mechanisms and device variation analysis.

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