Master of Science - Cybersecurity Engineering - Residential
Auburn, USA
DURATION
2 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Aug 2025
TUITION FEES
USD 949 / per credit
STUDY FORMAT
On-Campus
Introduction
Why this degree?
The non-thesis Master of Cybersecurity Engineering positions students to acquire the knowledge and skills necessary to protect our nation's systems against cyber attacks. The program will provide graduates with advanced knowledge in computer and network security, digital forensics, advanced operating systems, reverse engineering, and other areas of expertise.
What can you expect?
Once admitted into Auburn Engineering's graduate program, you will work with the graduate program officer to create a plan of study.
Auburn Engineering Online Graduate Programs ranked 17th by U.S. News and World Report (2022)!
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Ideal Students
Who is eligible?
- Those who hold a bachelor's degree in computer science, software engineering, or an equivalent technically deep, software-oriented discipline from an institution of recognized standing are eligible.
- Those who have earned a degree or have significant work experience in information technology, electrical engineering, or other related disciplines are also eligible.
- The GRE (or TOEFL for international students) is required if you apply to the on-campus Master's degree program in Cybersecurity Engineering (i.e., on-campus MS-CYBE).
- Three letters of recommendation are required.
Admissions
Curriculum
- Complete a minimum of 33 credit hours of graduate-level (6000/7000/8000) coursework such as the following:
- Foundational Courses (9 hours)
- COMP 7270 Advanced Algorithms 3 hours
- COMP 7300 Advanced Computer Architecture 3 hours
- COMP 7500 Advanced Operating Systems 3 hours
- COMP 7270 Advanced Algorithms 3 hours
- COMP 7300 Advanced Computer Architecture 3 hours
- COMP 7500 Advanced Operating Systems 3 hours
- Required Cybersecurity-Specific Courses (9 hours)
- COMP 6350 Digital Forensics 3 hours
- COMP 6370 Computer and Network Security 3 hours
- COMP 7370 Advanced Computer and Network Security 3 hours
- COMP 6350 Digital Forensics 3 hours
- COMP 6370 Computer and Network Security 3 hours
- COMP 7370 Advanced Computer and Network Security 3 hours
- Elective Cybersecurity-Specific Courses 9 hours
- MATH 6180 Cryptography 3 hours
- COMP 6520 Network and Operating System Administration 3 hours
- COMP 6700 Software Process 3 hours
- COMP 6720 Real-Time and Embedded Systems 3 hours
- COMP 7700 Software Architecture 3 hours
- COMP 7710 Software Environments 3 hours
- COMP 7720 Software Re-Engineering 3 hours
- MATH 6180 Cryptography 3 hours
- COMP 6520 Network and Operating System Administration 3 hours
- COMP 6700 Software Process 3 hours
- COMP 6720 Real-Time and Embedded Systems 3 hours
- COMP 7700 Software Architecture 3 hours
- COMP 7710 Software Environments 3 hours
- COMP 7720 Software Re-Engineering 3 hours
- Elective Courses 3 hours
- 6000/7000/8000-level course work relevant to cybersecurity and approved by the major professor
- 6000/7000/8000-level course work relevant to cybersecurity and approved by the major professor
- Required Project Course 3 hours
- COMP 7980 Capstone Engineering Project 3 hours
- COMP 7980 Capstone Engineering Project 3 hours
- Foundational Courses (9 hours)
- COMP 7270 Advanced Algorithms 3 hours
- COMP 7300 Advanced Computer Architecture 3 hours
- COMP 7500 Advanced Operating Systems 3 hours
- Required Cybersecurity-Specific Courses (9 hours)
- COMP 6350 Digital Forensics 3 hours
- COMP 6370 Computer and Network Security 3 hours
- COMP 7370 Advanced Computer and Network Security 3 hours
- Elective Cybersecurity-Specific Courses 9 hours
- MATH 6180 Cryptography 3 hours
- COMP 6520 Network and Operating System Administration 3 hours
- COMP 6700 Software Process 3 hours
- COMP 6720 Real-Time and Embedded Systems 3 hours
- COMP 7700 Software Architecture 3 hours
- COMP 7710 Software Environments 3 hours
- COMP 7720 Software Re-Engineering 3 hours
- Elective Courses 3 hours
- 6000/7000/8000-level course work relevant to cybersecurity and approved by the major professor
- Required Project Course 3 hours
- COMP 7980 Capstone Engineering Project 3 hours
Program Outcome
- Outcome 1: Students have an understanding of fundamental concepts of cybersecurity.
- Outcome 2: Students know prevalent cybersecurity threats, threat models (such as Man-in-the-Middle), and canonical defenses.
- Outcome 3: Students have the ability to identify, assess, and defend against cybersecurity threats; develop defendable and resilient network and software mechanisms; and detect and investigate cybersecurity breaches.
- Outcome 4: Students are versed in techniques for gathering and preserving digital forensic evidence relating to a cyber event.
- Outcome 5: Students possess knowledge of computer science (e.g. algorithms, operating systems, computer architectures, ethics), and have the ability to leverage this knowledge for a deeper contextualized understanding of cybersecurity.
- Outcome 6: Students communicate cybersecurity issues effectively.
- Outcome 7: Students have the ability to apply their cybersecurity capabilities in an integrated manner to address specific cybersecurity problems.
English Language Requirements
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Program Admission Requirements
Demonstrate your commitment and readiness to succeed in business school by taking the GMAT exam – the most widely used exam for admissions that measures your critical thinking and reasoning skills.
Download the GMAT mini quiz to get a flavour of the questions you’ll find in the exam.