Computer Systems Engineering
This program blends the core principles of engineering with strong training in software and hardware integration, equipping students with the tools needed to thrive in an increasingly digital and automated world. Computer Systems Engineering develops advanced technical skills, applied programming, smart device design, and the connection between physical and virtual systems. Graduates will be prepared to lead projects in technology, manufacturing, automation, data centers, and Industry 4.0-based sectors.
Why study Computer Systems Engineering?
15%
Projected job growth in computing and IT-related occupations between 2021 and 2031.
BLS
$110,140 USD
BLS
96.1%
UNIR.Mexico
What does a graduate in Industrial Systems Engineering do?
Students in this field gain a solid theoretical and practical foundation to integrate hardware and software components in real-world environments, using sensors, microcontrollers, automated mechanisms, and cloud-connected systems.
As a graduate, your mission will be to design, develop, and implement technological solutions that connect the physical and digital worlds—optimizing industrial processes, automating systems, and solving complex problems in real time.
At Arkansas State University Querétaro, we prepare you to face the challenges of Industry 4.0 through hands-on experience with real equipment and systems. Thanks to your comprehensive education, you’ll be ready to work anywhere in the world—whether in offices, industrial plants, data centers, or global tech companies.
Apply now. Start your journey in the world of Computer Systems Engineering and get ready to connect the present with the future through technology.
Live the University
Double Degree
Valid in México and the United States
Classes 100% in English
With a multicultural team of teachers
American University Model
The first US university in México
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Our Student Testimonials
Career Oportunities Where do Computer Systems Engineers work?
Aspire, Dream, Realize Some great engineers of the 21st century
Linus Torvalds
Grace Hopper
Steve Wozniak
Tim Berners-Lee
Inventor de la World Wide Web
Graduate Profile
Upon completion of the Computer Systems Engineering degree, the graduate of Arkansas State University Campus Querétaro will be able to:
- Apply the scientific method to identify and solve problems in computing, automation, and hardware-software connectivity.
- Develop programs, routines, and computer systems capable of controlling and optimizing processes through the integration of physical and digital components.
- Connect, program, and manage physical devices using specialized software, mastering the interaction of signals, sensors, microcontrollers, and data systems.
- Properly use technological tools, programming languages, and automation platforms to monitor and analyze computerized industrial environments.
- Master data analysis and advanced programming techniques to create scalable, efficient solutions.
- Communicate ideas, results, and innovations clearly and effectively, using a variety of technical and visual tools in academic, social, and professional settings.
- Design hypotheses and experiments to validate technological and scientific proposals, promoting research as a tool for continuous improvement.
Degree Plan
- Year Experience
- Concepts of Engineering
- Composition I
- Composition II
- Oral Communication
- Calculus I
- Calculus II
- Calculus III
- General Chemistry I Laboratory
- General Chemistry I
- University Physics I
- Social Science Elective
- Fine Arts Elective
- Humanities Elective
Engineering Core
- Software Applications for Engineers
- Applied Engineering Statistics
- Statics
- Engineering Economics
- Senior Seminar
- Numerical Methods for Engineers
- Senior Design I
- Senior Design II
Computer Systems Engineering Core
- Concepts of Programming
- Structured Programming
- OOP and Fundamental Data Structures
- Algorithms and Advanced Data Structures
- Operating Systems
- Web Application Development
- Software Engineering
- Computer Networks
- Database Systems
- Electrical Workshop
- Digital Electronics I Laboratory
- Digital Electronics I
- Electronics I Laboratory
- Electronics I
- Embedded Systems
- Electric Circuits I Laboratory
- Electric Circuits I
- Discrete Structures
- Differential Equations
- University Physics II
