As of June 2026, Microsystems Engineers has an AI-exposure score of 56/100 (Elevated exposure) on the AI-Safe Careers index, blending O*NET tasks, the Anthropic Economic Index, the Penn/OpenAI study, and BLS data. This is an estimate of task exposure, not a prediction of job loss.

AI Exposure Score for

Microsystems Engineers

56/100
Elevated exposure
LowModerateElevatedHighVery High

More exposed than 50% of the roles we track. Median pay ~US$122,930. About 9,300 projected openings a year (BLS 2024–34 — growth plus replacement).

Pay & demand figures are US medians (BLS, in USD) — your local figures will differ. Your exposure score applies broadly.

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How you compare to similar Architecture & Engineering roles

Microsystems Engineers (you)
56
Aerospace Engineering and Operations Technologists and Technicians
56
Electronics Engineers, Except Computer
56
Agricultural Engineers
57
Fire-Prevention and Protection Engineers
55
Human Factors Engineers and Ergonomists
57
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Your tasks, by AI exposure

Automatable

No automatable tasks identified for this role — its real, individually-assessed tasks consistently read as augmentable (95%).

Augmentable
  • Develop or file intellectual property and patent disclosure or application documents related to microelectromechanical systems (MEMS) devices, products, or systems.
  • Validate fabrication processes for microelectromechanical systems (MEMS), using statistical process control implementation, virtual process simulations, data mining, or life testing.
  • Plan or schedule engineering research or development projects involving microelectromechanical systems (MEMS) technology.
  • Conduct acceptance tests, vendor-qualification protocols, surveys, audits, corrective-action reviews, or performance monitoring of incoming materials or components to ensure conformance to specifications.
  • Create or maintain formal engineering documents, such as schematics, bills of materials, components or materials specifications, or packaging requirements.
  • Demonstrate miniaturized systems that contain components, such as microsensors, microactuators, or integrated electronic circuits, fabricated on silicon or silicon carbide wafers.
  • Develop formal documentation for microelectromechanical systems (MEMS) devices, including quality assurance guidance, quality control protocols, process control checklists, data collection, or reporting.
  • Develop or validate specialized materials characterization procedures, such as thermal withstand, fatigue, notch sensitivity, abrasion, or hardness tests.
  • Conduct analyses addressing issues such as failure, reliability, or yield improvement.
  • Evaluate materials, fabrication methods, joining methods, surface treatments, or packaging to ensure acceptable processing, performance, cost, sustainability, or availability.
  • Create schematics and physical layouts of integrated microelectromechanical systems (MEMS) components or packaged assemblies consistent with process, functional, or package constraints.
  • Devise microelectromechanical systems (MEMS) production methods, such as integrated circuit fabrication, lithographic electroform modeling, or micromachining.
  • Manage new product introduction projects to ensure effective deployment of microelectromechanical systems (MEMS) devices or applications.
  • Conduct or oversee the conduct of prototype development or microfabrication activities to ensure compliance to specifications and promote effective production processes.
  • Conduct harsh environmental testing, accelerated aging, device characterization, or field trials to validate devices, using inspection tools, testing protocols, peripheral instrumentation, or modeling and simulation software.
  • Conduct experimental or virtual studies to investigate characteristics and processing principles of potential microelectromechanical systems (MEMS) technology.
  • Refine final microelectromechanical systems (MEMS) design to optimize design for target dimensions, physical tolerances, or processing constraints.
  • Communicate operating characteristics or performance experience to other engineers or designers for training or new product development purposes.
  • Propose product designs involving microelectromechanical systems (MEMS) technology, considering market data or customer requirements.
Durable
  • Investigate characteristics such as cost, performance, or process capability of potential microelectromechanical systems (MEMS) device designs, using simulation or modeling software.

Safer adjacent roles

Electronics Engineers, Except Computer
80% skills overlap · Elevated exposure · ~US$130,220
56
Photonics Engineers
72% skills overlap · Elevated exposure · ~US$122,930
61
Mechatronics Engineers
64% skills overlap · Elevated exposure · ~US$122,930
61
Nanosystems Engineers
56% skills overlap · Elevated exposure · ~US$122,930
60
Materials Scientists
48% skills overlap · Elevated exposure · ~US$117,790
56
Radio Frequency Identification Device Specialists
40% skills overlap · Elevated exposure · ~US$130,220
61
Robotics Engineers
40% skills overlap · Elevated exposure · ~US$122,930
62
Electrical Engineer
40% skills overlap · Moderate exposure · ~US$106,000
48

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Important: This is an estimate of AI exposure, not a prediction that your job will disappear. It is designed to help you understand how your role may change and improve your career resilience.