M.Eng. in Computer Engineering

Program Overview

The M.Eng. in Computer Engineering is a 30-credit degree program, typically completed by full-time students within 1.5 to 2 years. The curriculum is structured to provide comprehensive knowledge, requiring one mathematical foundation course (3 credits), four core courses (12 credits), three concentration courses (9 credits) within a chosen specialization, and two elective courses (6 credits). This flexible structure allows students to tailor their studies towards specific areas of interest. Stevens also offers a dual M.Eng.-MBA option for those seeking to blend deep technical expertise with strong business management skills. The program is available both on-campus and fully online through StevensOnline, providing significant flexibility for diverse student needs. Stevens reports impressive career outcomes for its Computer Engineering graduates, with 94% employed within three months of graduation and an average compensation of $78,313 for the Class of 2023.

STEM-designated: Yes, the Stevens Institute of Technology M.Eng. in Computer Engineering program is unequivocally STEM-designated. This is a significant advantage, particularly for international students. The STEM designation makes them eligible for a 24-month extension of their Optional Practical Training (OPT) in the United States, allowing for a total of up to three years of valuable post-graduation work experience. This designation clearly reflects the program's rigorous quantitative, technical, and analytical focus, which is highly valued by employers in the computer hardware, software, networking, and cybersecurity sectors.

Curriculum: The 30-credit curriculum provides a deep dive into core computer engineering principles while allowing for specialized study. The mathematical foundation course ensures students possess the necessary quantitative background. Core courses typically include: Digital and Computer Systems Architecture, Real-Time and Embedded Systems, Applied Data Structures and Algorithms, and Introduction to VLSI Design. Students then choose from various concentrations, which include Artificial Intelligence, Embedded Systems, Networks and Security, and Software and Data Engineering. Elective courses further deepen specialization, covering topics like Foundations of Cryptography, Internet of Things, Applied Machine Learning, and various engineering programming courses (e.g., Python, Java, C++). The curriculum emphasizes hands-on project work, fostering the development of strong technical and problem-solving skills for real-world applications.

Research Focus: The M.Eng. in Computer Engineering program at Stevens has a strong research focus, integrated within the Department of Electrical and Computer Engineering's Center for Innovative Computing and Networked Systems (iCNS) and the interdisciplinary Stevens Institute for Artificial Intelligence (SIAI). Research spans cutting-edge areas such as computer hardware and software systems, power grid systems, and applied artificial intelligence. Specific research interests include advanced topics in embedded systems, networks and security, software and data engineering, digital system design, and image processing. Faculty members are actively engaged in advancing science and technology in computing and networked systems, with ongoing research into AI, machine learning, computer vision, and cybersecurity. While the M.Eng. is primarily a professional degree, students benefit from exposure to this cutting-edge research through their coursework and the opportunity for an optional Master's Thesis or project work.

Industry Engagement: Stevens Institute of Technology places a very high priority on industry engagement for its Computer Engineering program. Its strategic location, just 15 minutes from downtown Manhattan, provides unparalleled access to a vast network of leading technology firms, financial institutions, defense contractors, and major tech companies that actively recruit Stevens graduates. The curriculum is continuously updated to integrate rapidly evolving technologies, including generative AI, and to meet the latest industry demands for computer engineering professionals. Faculty members often have extensive industry experience, bringing invaluable real-world insights and connections into the classroom. Stevens' strong alumni network and robust Career Center facilitate extensive networking opportunities, internships, and co-op experiences, ensuring graduates are well-prepared for immediate contributions in various roles. Graduates have been hired by top companies such as AT&T, Comcast, Facebook, Goldman Sachs, Google, and Microsoft.

Global Perspective: Stevens Institute of Technology fosters a strong global perspective within its M.Eng. in Computer Engineering program. This is cultivated through its diverse international student body, which enriches classroom discussions with varied insights into international hardware design standards, global networking protocols, and cross-cultural approaches to cybersecurity and software development. The inherent nature of computer engineering, with its global supply chains for components, international standards for communication, and worldwide impact of software and hardware innovations, ensures that graduates are prepared for an interconnected professional landscape. The program emphasizes skills that are globally recognized and highly transferable, equipping graduates to contribute to international technological collaborations and address complex global challenges in computing.