Semiconductor Process Engineer

Engineer the chips that run the world.

Semiconductor Process Engineers develop and optimise the manufacturing processes behind the integrated circuits and advanced chips that power every electronic device on earth. Malaysia's National Semiconductor Strategy is making this one of the most strategically important engineering roles in the country.

  • National Priority Role Strategic Industry Role
  • High Compensation Premium Technical Career
  • Deep Technical Specialisation Advanced Engineering Focus
  • Real-World Impact Applied Engineering Impact

What does a Semiconductor Process Engineer do?

  • Develop Manufacturing Processes

    Design and refine the steps required to produce integrated circuits at the right quality and yield.

  • Optimise Yield

    Identify and reduce defects that prevent chips from meeting specifications.

  • Characterise Materials

    Analyse semiconductor materials and their properties to control process behaviour.

  • Troubleshoot Process Failures

    Diagnose manufacturing defects and implement corrective actions.

  • Support Technology Transitions

    Lead engineering work for new chip architectures and smaller process nodes.

Career Pathways

  1. Build Physics, Chemistry, and Engineering Foundations

    Develop the foundations needed to progress confidently into this career path.

  2. Develop Semiconductor Process Knowledge

    Strengthen specialist skills through tools, workflows, research, and applied projects.

  3. Work in Fabrication or Packaging Environments

    Apply engineering knowledge in practical environments where performance, quality, and reliability matter.

  4. Lead Process Development Projects

    Grow into roles that guide engineering teams, projects, standards, and delivery.

  5. Architect Next-Generation Semiconductor Processes

    Shape large-scale technical architecture, integration strategy, and implementation standards.

Areas You Can Specialise In

  • Front End of Line Processes

  • Back End of Line and Advanced Packaging

  • Yield Engineering

  • Failure Analysis

  • Process Integration

  • Compound Semiconductors

Where Our Graduates Work

Real Careers. Real Impact.

  • National Priority Malaysia controls approximately 13% of global semiconductor assembly and testing, and is moving into IC design and advanced packaging.
  • Talent Shortage Malaysia aims to develop 60,000 skilled semiconductor engineers by 2030, with current output at approximately 5,000 per year.
  • Future-Ready Advanced packaging and AI chip design are key growth areas, and Malaysia is positioning itself to lead both.

Ready to build your future as a Semiconductor Process Engineer?

Let our Future Advisors guide your journey.