Engineering and Computing Graduate Programs
The College of Engineering and Computing offers a wide variety of graduate programs. Graduate certificates provide advanced study comprising four or more graduate-level courses. Master’s degrees delve deeper, generally take from one to two years, with both thesis research and non-thesis options available. The Ph.D., the highest engineering and computing degree one can obtain, prepares graduates for positions of research leadership in academia or in many industrial and government research positions. All our graduate programs may be started while still pursuing an undergraduate degree through the Accelerated Bachelor’s/Graduate program.
Areas of Study
Select a graduate program to deepen the knowledge and skills you developed during your undergraduate study, or choose to develop expertise in a different area. In either case, a graduate degree in engineering or computing can help you stand out from the pack and be considered for the most competitive positions.
Match your interests to one of our areas of graduate study. Visit Graduate Resources for more detail.
The only aerospace engineering graduate program in South Carolina provides advanced study in aerospace structures, aerodynamics and mechanics of aerospace materials.
Develop and deploy AI systems that solve problems in a variety of fields and ensure that they are fair, trustworthy and ethical.
Develop deep technical skills at the interface between engineering and medical biology, focusing on quantitative methods that are not a primary focus of traditional medical or biological education.
Research and advance the production of chemicals and materials with new properties for the energy, medicine, electronics and other chemical engineering and processing sectors.
Work side by side with faculty in state-of-the art labs and research centers that are breaking ground to advance the infrastructure of our civilization.
Develop expertise in the application, design, development and testing of new computer hardware and its integration with software through curricula with breadth and depth and opportunities to perform disciplinary and interdisciplinary research.
Gain advanced computer science knowledge and master computing techniques through active involvement in department research initiatives and projects.
Learn how to analyze threats to information resources and networks and design safeguards like cryptography, identification and authentication, steganography and intrusion detection and prevention.
Contribute to the discovery and innovation processes of, and made possible by, electrical engineering.
Improve your management skills and learn leadership techniques to move forward in your engineering or computing career.
The Masters of Health Information Technology produces professionals and leaders with expertise in both information technology and health administration. A combination MHIT/Pharmacy degree is also available.
Work in trans-disciplinary teams and apply advanced informatics principles to solve complex problems.
Develop expertise and contribute to research at the frontiers of mechanical engineering such as advanced materials, multiscale manufacturing, mechanics and multiphysics and thermofluids.
Collaborate with faculty and other researchers to develop the skills to conceptualize, conduct and manage projects that advance the application of nuclear energy in the civilian and government sectors.
Prepare for a successful career in the rail industry and gain a competitive edge in the field.
This one-year program prepares STEM students to assess not only if a concept is technically viable but how it would impact the corporate bottom line.
Use the links below to start your application or learn more on our Graduate Admissions page.