Master of Science in Artificial Intelligence

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The USF Master of Science in Artificial Intelligence

In an era where AI reshapes industries from healthcare to finance, marketing, and education USF鈥檚 Master of Science in Artificial Intelligence stands at the forefront. Designed specifically for students without an undergraduate degree in computer science or computer engineering, the program equips graduates with the technical skills necessary to transition into AI-focused roles across various industries.

The program provides comprehensive training in foundational computer science and artificial intelligence concepts. Graduates master core AI technologies and the lessons are applied across real-world domains such as healthcare, education, finance, and marketing. 
 
The Master of Science in Artificial Intelligence is available in both in-person and online formats.  The GRE is not required.

What Students Learn

A dimly lit computer lab or operations room with a person seated at a workstation. In the foreground, a man is shown in profile, sitting upright and looking intently at a desktop monitor. He appears focused, with his hands positioned at the keyboard as if actively working. The monitor displays charts and data visualizations, including multicolored line graphs, suggesting analysis or monitoring tasks. Additional screens and workstations are visible in the background, with other people working in the same space. At the bottom of the image, a green banner contains text that reads: 鈥淢aster of Science in Artificial Intelligence.鈥 To the right of the banner is a logo and text: 鈥淯SF Bellini College of Artificial Intelligence, Cybersecurity and Computing,鈥 along with a stylized bull head logo. The overall scene emphasizes a professional, technology-focused environment associated with advanced study in artificial intelligence.

This 31-credit hour program can be completed in two years. It begins with three two-credit essentials courses and a Mathematics for AI course. 

 
After mastering the essentials, students move on to courses related to programming, algorithms, and ethical issues in AI.   
 
Students begin to choose their electives in the third semester, selecting both broadening and deepening electives. Broadening electives expand intellectual horizons, while deepening electives enhance expertise and allow students to gain advanced knowledge within a chosen field. 

Labs and Research

A close-up of a person typing on a laptop, viewed from the side in a dimly lit setting. Over the keyboard and screen is a semi-transparent digital interface with glowing elements, including charts, graphs, circular gauges, and data panels, suggesting advanced analytics or technical monitoring. At the bottom left of the image, there is an icon resembling a microchip or processor. Next to the icon, large text reads: 鈥淟abs & Research.鈥 The overall image emphasizes hands-on technical work, data analysis, and a research-focused environment enhanced by digital visualization

Students learn alongside researchers pioneering AI in vision, reasoning, bioinformatics, affective computing, and more.  Together, they had a substantial $47 million in related research expenditures over the past four years.鈥 Labs are clustered in the following groups: 

Research areas specific to this program include machine learning, neural networks, deep learning, natural language processing, computer vision, robotics and autonomous systems, knowledge representation and reasoning, ethics and policy in AI, AI tools and frameworks, AI in healthcare, finance, education, marketing, and other industries. 

USF-developed technology analyzes facial expressions to identify childhood PTSD

USF-developed technology analyzes facial expressions to identify childhood PTSD

Crying isn鈥檛 the only clue: USF researchers using AI to detect silent pain in newborns

Crying isn鈥檛 the only clue: USF researchers using AI to detect silent pain in newborns

Imaging the impossible: USF researcher pushing boundaries of what we can see

Imaging the impossible: USF researcher pushing boundaries of what we can see

USF using AI to help combat malaria

USF using AI to help combat malaria

Career Outlook 

The degree鈥檚 alignment with industry needs and USF鈥檚 expanding tech ecosystem makes it a powerful launchpad for an AI career. According to a recent report, 67% of mature organizations are creating new roles for generative AI and 87% of them have a dedicated AI team.  

Students earning USF鈥檚 MS in AI will be well-prepared for roles such as machine learning engineer or data scientist, or they might tackle , such as:

  • Prompt Engineers 鈥 create the right prompts to get useful answers from AI
  • Model Validators 鈥 make sure AI models are accurate and fair
  • Decision Engineers 鈥 help AI make smarter choices in real-world situations
  • AI Product Managers 鈥 turn AI into working product
  • AI Ethicists 鈥 check if the AI is safe, responsible, and aligned with values

According to the , employment of data scientists is projected to grow 36 percent from 2023 to 2033, much faster than the average for all occupations. For computer and information research scientists, a category that includes machine learning engineers, the is $140,910. Additionally, ndustry signals underscore the surging need for AI expertise. reports that there was a 25.2% year-over-year increase in AI-related job postings in early 2025, with median salaries hitting $156,998. That same report notes that one in four tech jobs postings in the U.S. in 2025 seek AI skills.