Change the world. Love your job.

As a Controls Systems Engineering intern, you'll help architect and develop control systems that enable TI's supply chain operations to set stable, competitive lead times while preserving optimal semiconductor manufacturing. You'll gain hands-on experience with system architecture, control theory, modeling, simulation, and data analytics to drive efficient manufacturing processes. And, you'll have the opportunity to work in exciting areas like digital twin modeling, discrete event simulation, machine learning optimization, automated control systems, supply chain logistics, and semiconductor manufacturing process control.

Some of your responsibilities will include, but will not be limited to:

• Assisting in the design of control systems and algorithms for high-mix semiconductor manufacturing and supply chain logistics

• Supporting discrete event simulation platforms and contributing to system performance modeling

• Participating in the application of statistical modeling and optimization techniques to improve system stability

• Helping translate requirements into architecture diagrams, configuration logic, and data models

• Contributing to systems-of-systems interoperability through verification planning and testing

• Assisting in the development and maintenance of control software with automated testing

• Supporting debugging of hardware-software interactions using instrumentation and data logging

• Contributing to the automation of recurring engineering tasks to improve efficiency

• Participating in digital twin modeling and real-time data synchronization projects

• Learning about advanced control algorithms and predictive control capabilities

Put your talent to work with us as a Controls Systems Engineering Intern!

Texas Instruments will not sponsor job applicants for visas or work authorization for this position.

Minimum requirements:

• Currently pursuing an undergraduate or graduate degree in Electrical/Computer Engineering, Computer Science, Mathematics, Operations Research, Industrial/Systems Engineering, Data Science, or related field

• Cumulative 3.0/4.0 GPA or higher

Preferred qualifications:

• Coursework or project experience with control systems, signal processing, or system dynamics

• Programming experience with Python, C++, Java, or similar object-oriented languages

• Exposure to statistical modeling, optimization techniques, or simulation tools through coursework or projects

• Basic understanding of mathematical concepts including linear algebra, calculus, and probability

• Experience with data analysis tools or frameworks (NumPy, Pandas, MATLAB, or similar)

• Familiarity with control theory concepts such as closed-loop control, PID control, or feedback systems

• Exposure to simulation platforms or modeling tools through academic projects

• Experience with data serialization formats (JSON, YAML, XML) or configuration management

• Knowledge of machine learning concepts or AI/ML applications in engineering

• Understanding of semiconductor manufacturing processes or supply chain concepts

• Ability to establish strong relationships with key stakeholders critical to success, both internally and externally

• Strong verbal and written communication skills

• Ability to quickly ramp on new systems and processes

• Demonstrated strong interpersonal, analytical and problem-solving skills

• Ability to work in teams and collaborate effectively with people in different functions

• Ability to take the initiative and drive for results

• Strong time management skills that enable on-time project delivery

• Efficiency instinct to automate recurring tasks and improve processes