Semiconductor Processing Technicians

High Risk
Low High

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Occupation snapshot

What does this snowflake show?
The Snowflake is a visual summary of the five badges: Automation Risk (calculated), Risk (polled), Growth, Wages and Volume. It gives you an instant snapshot of an occupations profile. The colour of the Snowflake relates to its size. The better the occupation scores in relation to others, the larger and greener the Snowflake becomes.
JOB SCORE
3.9/10
What's this?
Job Score (higher is better):

We rate jobs using four factors. These are:

- Chance of being automated
- Job growth
- Wages
- Volume of available positions

These are some key things to think about when job hunting.

Risk & user votes

Calculated automation risk

68% (High Risk)

High Risk (61-80%): This occupation shows a significant risk of end-to-end replacement by automation. Many core parts of the role may be structured, repeatable, software-driven, or physically predictable enough for AI, machines, or robotic systems to take over. If you work in this area, it may be worth exploring safer related careers or moving towards more human-centred responsibilities.

More information on what this score is, and how it is calculated is available here.

Human strengths important in this job

These are human abilities and work contexts that are important in this occupation. They may help explain why parts of the role are harder to replace end-to-end, but they are not the only inputs into the automation score.

Assisting and caring for others

Quite important
Why this matters
Provide hands-on help, emotional support, or personal care to people—work that depends on empathy, trust, and responding to individual needs in the moment.
Jobs that also use this strength

Decision-making and problem solving

Quite important
Why this matters
Analyze information, weigh tradeoffs, and choose the best solution—especially when situations are ambiguous, high-stakes, or have real-world consequences.
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Coordinating others’ work

Quite important
Why this matters
Bringing people together, assigning tasks, and keeping a group aligned so work gets done.
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Education and training expertise

Quite important
Why this matters
Designing and delivering instruction—adapting lessons to different learners and measuring whether training actually works.
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What users think

Based on 25 votes

62% chance of full automation within the next two decades

Our visitors have voted that it's probable this occupation will be automated. This assessment is further supported by the calculated automation risk level, which estimates 68% chance of automation.

What do you think the risk of automation is?

What is the likelihood that Semiconductor Processing Technicians will be replaced by robots or artificial intelligence within the next 20 years?

View sentiment trend

Pay & outlook

Wages

Low paid relative to other professions

In 2024, the median annual wage for Semiconductor Processing Technicians was $51,180 ($25 per hour).

The median annual wage for Semiconductor Processing Technicians was 3.4% higher than the national median annual wage, which stood at $49,500.

View wage trend

Wages over time

* Data from the Bureau of Labor Statistics

Growth

Very fast growth relative to other professions

The number of 'Semiconductor Processing Technicians' job openings is expected to rise 10.9% by 2034

View employment trend

Total employment, and estimated job openings

* Data from the Bureau of Labor Statistics for the period between 2023 and 2033
Updated projections are due 09-2025.

Volume

Lower range of job opportunities compared to other professions

As of 2024 there were 32,150 people employed as 'Semiconductor Processing Technicians' within the United States.

This represents around < 0.001% of the employed workforce across the country

Put another way, around 1 in 4 thousand people are employed as 'Semiconductor Processing Technicians'.

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What people are saying (1)

Anonymous (Highly likely)
03 Oct 2024 16:33
I work in the semiconductor industry. Many fabrication facilities have already moved to fully autonomous movement of wafers between process tools. Most of these jobs will eventually be limited to low production volume and research environments.
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Job description

Perform any or all of the following functions in the manufacture of electronic semiconductors: load semiconductor material into furnace; saw formed ingots into segments; load individual segment into crystal growing chamber and monitor controls; locate crystal axis in ingot using x-ray equipment and saw ingots into wafers; and clean, polish, and load wafers into series of special purpose furnaces, chemical baths, and equipment used to form circuitry and change conductive properties.

O*NET-SOC code: 51-9141.00