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Module Process Engineer Jobs in Pflugerville, TX

Intel

Module Development Engineer

Austin, TX

Performs process technology feasibility studies through theoretical simulations and/or practical engineering methods. Remains updated on relevant industrial process and material manufacturing ...

INTEL

Module Development Engineer

Austin, TX

Performs process technology feasibility studies through theoretical simulations and/or practical engineering methods. Remains updated on relevant industrial process and material manufacturing ...

Micron

Sr. Engineer, Business Analyst

Austin, TX · On-site

... processes, methodologies and systems to drive UAT planning, testing, and execution for Engineering deployments (covering scope of Assembly, Test, Modules, SSDs, SIG Equipment, CPG and others)

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All JobsModule Process Engineer JobsModule Process Engineer Jobs in Pflugerville, TX

Module Process Engineer information

See Pflugerville, TX salary details

$46.6K

$86.6K

$134K

How much do module process engineer jobs pay per year?

As of Jun 9, 2026, the average yearly pay for module process engineer in Pflugerville, TX is $86,556.00, according to ZipRecruiter salary data. Most workers in this role earn between $70,100.00 and $96,900.00 per year, depending on experience, location, and employer.

What is the difference between Module Process Engineer vs Process Engineer?

AspectModule Process EngineerProcess Engineer
CredentialsBachelor's in Chemical, Mechanical, or Industrial Engineering; often certifications in process improvementBachelor's in Engineering or related field; similar certifications in process optimization
Work EnvironmentManufacturing plants, semiconductor, or electronics industries focusing on module assemblyVarious industries including manufacturing, chemical, or energy sectors
Employer & Industry UsageElectronics, semiconductor, and specialized manufacturing companiesBroad industry use across manufacturing, chemical, and industrial sectors

The Module Process Engineer specializes in optimizing processes for specific modules or components within manufacturing, especially in electronics or semiconductor industries. In contrast, the Process Engineer has a broader role across various processes and industries. Both roles require similar technical skills and certifications but differ in focus and application.

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

To thrive as a Module Process Engineer, you need a strong background in chemical engineering, materials science, or a related field, often backed by a relevant bachelor's or master’s degree. Familiarity with process simulation software, statistical process control tools, and experience with semiconductor manufacturing equipment are typically required. Strong analytical thinking, problem-solving abilities, and effective communication skills help you collaborate with cross-functional teams and drive process improvements. These competencies are crucial for optimizing production efficiency, ensuring product quality, and maintaining competitiveness in advanced manufacturing environments.

What is a Module Process Engineer?

A Module Process Engineer is a specialist who designs, develops, and optimizes the manufacturing processes for specific modules or components in industries like semiconductors, electronics, or solar panels. They work to improve process efficiency, yield, and quality while ensuring that production meets technical and safety standards. Module Process Engineers often collaborate with cross-functional teams to troubleshoot issues, implement new technologies, and support scale-up efforts from prototype to mass production.

What engineer can make 500,000 a year?

A highly experienced senior or specialized engineer, such as a petroleum engineer, aerospace engineer, or certain software engineers in leadership roles, can potentially earn $500,000 annually. Achieving this level often requires advanced skills, extensive experience, leadership responsibilities, and working in high-paying industries or companies.

What are some common challenges faced by Module Process Engineers in semiconductor manufacturing, and how can they be addressed?

Module Process Engineers often encounter challenges such as maintaining process stability, minimizing defects, and meeting tight production schedules in a fast-paced semiconductor environment. These issues require strong analytical skills to quickly identify root causes and implement effective solutions, often while collaborating with cross-functional teams like equipment engineers and quality assurance. Staying updated with the latest process technologies and continuously improving process parameters are key to overcoming these challenges. Effective communication and adaptability are also essential, as priorities can shift rapidly based on production demands.
What are popular job titles related to Module Process Engineer jobs in Pflugerville, TX? For Module Process Engineer jobs in Pflugerville, TX, the most frequently searched job titles are:
What job categories do people searching Module Process Engineer jobs in Pflugerville, TX look for? The top searched job categories for Module Process Engineer jobs in Pflugerville, TX are:
What cities near Pflugerville, TX are hiring for Module Process Engineer jobs? Cities near Pflugerville, TX with the most Module Process Engineer job openings:
Module Process Engineer jobs near you
Photomask Yield Engineer

Photomask Yield Engineer

Toppan Photomasks, Inc.

Round Rock, TX

Full-time

Posted 12 days ago

Job description

We are seeking a datadriven Photomask Yield Engineer to own endtoend yield analytics and drive continuous improvement across all photomask manufacturing processes. You will generate and maintain yield pareto reports, identify systemic yield detractors, lead rootcause investigations, and partner with crossfunctional teams to deliver measurable improvements in yield, cost, quality, and cycle time.

Yield Analytics & Reporting

  • Build and maintain daily/weekly/monthly yield paretos across all photomask process steps (write, develop, etch, clean, inspection/repair, pellicle attach).
  • Analyze top yield detractors, emerging trends, excursion patterns, and process/tool correlations.
  • Create dashboards and automated reports (e.g., Python + SQL + Power BI/Tableau/JMP) to communicate yield performance and progress to leadership and shopfloor teams.

Continuous Improvement & Problem Solving

  • Lead structured root cause analysis (8D, DMAIC, Ishikawa/Fishbone, 5 Whys), implement containment, corrective, and preventive actions.
  • Use SPC, DOE, and regression/ANOVA to validate changes and quantify impact.
  • Drive crossfunctional yield projects with Process, Metrology, Inspection, Equipment, and QA to reduce defectivity, variation, rework, and scrap.
  • Partner on NPI/technology transfers to ensure robust yield ramp and stable production windows.

Process & Tool Ownership (Yield Focus)

  • Monitor and improve yield for critical modules: ebeam/laser write, develop, etch, cleans, inspection/repair (e.g., KLA, Lasertec/AIMS), registration, CD, pellicle attach.
  • Collaborate on tool health, PM optimization, and recipe/process window tuning to minimize excursions and drift.
  • Strengthen data integrity: traceability, lot histories, defect classification, test structures, and failure coding consistency.

Basic Qualifications

  • Bachelor's degree in Electrical Engineering, Materials Science, Chemical Engineering, Mechanical Engineering, Physics, or related field.
  • 3+ years relevant experience in photomask, semiconductor, or advanced manufacturing (strong academic/coop background considered for entrylevel).
  • Proficiency with data/analytics tools: Python or R, SQL, JMP/Minitab; strong Excel.
  • Handson experience with SPC, DOE, and rootcause/problemsolving methodologies.
  • Ability to interpret metrology/inspection data (CD, registration, defect maps, tool monitors).

Preferred Qualifications

  • Direct experience in photomask manufacturing (write, develop, etch, clean, pellicle, inspection/repair) and defect classification systems.
  • Familiarity with AIMSactinic, KLA/Lasertec, CDSEM, registration tools, and yieldrelevant test patterns/OPC.
  • Knowledge of phaseshift masks, MoSi/Cr stacks, pellicles, and mask shop data flows.
  • Experience automating yield reporting with Python + SQL and visualization (Excel, Power BI/Tableau).
  • Lean/Six Sigma certification (Green/Black Belt) or equivalent handson experience in CI projects.
  • Demonstrated success driving crossfunctional yield improvements in highmix or highvolume environments.
  • Familiarity with Photomask Failure Analysis methods to identify defect root cause.

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