Program Purpose
The MS in Data Science at Wilmington University is a 30-credit interdisciplinary graduate program designed to equip students with the technical, analytical, and mathematical expertise needed to excel in a data-driven world. The program is offered as a general data science degree or with Business Analytics (36 credit) or Computational Biology (39 credit) concentrations. The general track allows students to tailor electives to their interests across multiple applied areas, while the Business Analytics Concentration adds advanced coursework in business problem-solving, forecasting, optimization and simulation. The Computational Biology Concentration adds advanced coursework in bioinformatics, advanced genomics, machine learning as applied to biology including protein folding, and computational approaches to solving an array of biological questions. The curriculum integrates applied statistics, computer science, and mathematics to provide a rigorous foundation in programming, data modeling, analytical reasoning, and applied analytics. Machine learning methods are embedded throughout the curriculum, giving students hands-on experience with modeling techniques commonly used in modern data science practice.
Durable and Technical Skills
Students develop practical skills in algorithms, data management, data mining, and visualization using industry-standard tools and cloud-based platforms. Courses will emphasize both the mathematical underpinnings of data science and their practical applications across diverse industries, ensuring that graduates can translate complex data into actionable insights.
To support individual and diverse goals, the program offers several electives in multiple applied areas, such as Business Analytics, Technology, Environmental Science, Computational Science, and Criminal Justice, allowing students to tailor electives to their professional interests. For the 30-credit no-concentration degree, these electives serve as suggested areas of application rather than formal concentrations, providing flexibility to explore diverse data contexts.
The program culminates in a capstone case study course or internship, where students integrate their learning by solving real-world problems. Working with authentic datasets, students will design and implement data-driven solutions, practicing the skills of problem framing, analysis, and communication expected of professional data scientists. This interdisciplinary structure reflects the University’s mission to integrate business and technology education while responding directly to employer demand for graduates who can apply data science in real organizational settings.
Program Competencies
Upon graduation, students are expected to have gained an advanced level of applicable knowledge in the following five program competencies:
- Communicate data science findings through professional written, visual, and/or oral formats tailored to technical and non-technical audiences.
- Lead and evaluate collaborative, data-driven projects by applying sound analytical judgment in diverse team environments.
- Analyze complex data problems using quantitative reasoning and analytical methodologies to frame questions, evaluate data, interpret results and produce evidence-based conclusions and recommendations.
- Design data-driven solutions by evaluating, selecting, and applying appropriate computational tools, technologies, and workflows to effectively solve complex data problems.
- Evaluate the ethical, legal, and societal implications of data practices when developing and applying data science methods and decision-making.
Data Science Requirements (30 credits)
All students in the MS in Data Science program will complete the following required courses (9 credits), core courses (15 credits), and elective courses (6 credits).
Students will also be required to take the following course as a pre-requisite to MBA 6300 if a comparable undergraduate calculus or statistics course has not been completed:
In addition, students in the Computational Biology concentration will be required to take the following courses prior to enrolling if comparable undergraduate biology courses have not been completed:
Required Courses
Choose one of the following two courses:
Required courses (9 credits)
Data Science Core Courses
Data Science Core courses (15 credits)
Elective Courses (6 credits)
Data Science electives (6 credits)
Students must choose two of following courses:
Business Electives
| MAC 6200 | Data Analytics for Accountants | 3 |
| MBA 7720 | Forecasting for Business Analytics | 3 |
| MBA 7725 | Optimization for Business Analytics | 3 |
| MBA 7730 | Simulation for Business Analytics | 3 |
Computational Science Electives
Criminal Justice Electives
Environmental Science Electives
Technology and Computer Science Electives
| CSC 7003 | Algorithms and Advanced Data Structures | 3 |
| CSC 7020 | Theory of Artificial Intelligence | 3 |
| CSC 7024 | Predictive Analytics: Data Mining | 3 |
| IST 7080 | Cloud Management | 3 |
Concentration in Business Analytics (36 credits)
All students in the MS in Data Science with a concentration in Business Analytics program will complete the following required courses (9 credits), core courses (15 credits), and concentration courses (12 credits).
Required Courses
Choose one of the following two courses:
Required courses (9 credits)
Business Analytics Concentration Courses
| CSC 7024 | Predictive Analytics: Data Mining | 3 |
| MBA 7720 | Forecasting for Business Analytics | 3 |
| MBA 7725 | Optimization for Business Analytics | 3 |
| MBA 7730 | Simulation for Business Analytics | 3 |
Business Analytics Concentration courses (12 credits)
Data Science Core Courses
Data Science Core courses (15 credits)
Concentration in Computational Biology (39 credits)
All students in the MS in Data Science with a concentration in Computational Biology program will complete the following required courses (9 credits), core courses (12 credits), and concentration courses (18 credits).
Data Science Core Courses
Data Science Core courses (12 credits)
Computational Biology Concentration Courses
Computational Biology Concentration courses (18 credits)
Required Courses
Choose one of the following two courses:
Required courses (9 credits)