M.A. in Anthropology
The University of Tulsa, a respected private research institution in the United States,...
M.S.E. in Computer Engineering
Tulsa, Oklahoma
INTAKE: Jan & Aug
Program Overview
The University of Tulsa's Master of Science in Engineering (M.S.E.) in Computer Engineering is a specialized graduate program designed to provide students with a comprehensive understanding of both the hardware and software aspects that underpin modern computer systems. This program equips students for advanced careers by delving into core areas such as computer architecture, embedded systems, software development, and hardware design. It emphasizes developing innovative solutions to complex technological challenges through rigorous coursework, incorporating both fundamental principles and emerging topics. Students also have opportunities for research and collaboration with faculty on cutting-edge projects, fostering specialization in areas like digital systems, network security, and high-performance computing. The curriculum is structured to offer a well-rounded education, balancing theoretical foundations with practical application to meet the evolving needs of the computer engineering sector.
STEM Designated: Yes, the M.S.E. in Computer Engineering program at the University of Tulsa is STEM-designated. This is a significant advantage for international students, as it often allows for an extended Optional Practical Training (OPT) period in the United States after graduation, providing more valuable opportunities for professional work experience in their field.
Curriculum: The M.S.E. in Computer Engineering curriculum typically involves advanced coursework that integrates electrical engineering principles with computer science concepts. While specific course lists can vary, the program generally covers topics such as computer circuitry, parallel computing, software system design, information theory, and digital image processing. Students are expected to engage deeply with the underlying principles that drive modern computer systems, with opportunities to specialize in areas like VLSI design, computer hardware techniques, and microprocessors in digital design. The program balances theoretical foundations with practical application, ensuring graduates are equipped with both the knowledge and technical skills to tackle complex engineering problems.
Research Focus: The Department of Electrical and Computer Engineering at the University of Tulsa is actively engaged in diverse research areas, which significantly enhances the M.S.E. program. Faculty and students collaborate on projects that explore topics such as intelligent systems, renewable energy, robotics, embedded systems, VLSI design, power engineering, and optical sensors and processing. The department aims to advance research and academic strengths in areas including the Internet-of-Things (IoT), cyber-physical systems, autonomous systems, cybersecurity, and RF/optical communication. This robust research environment provides students with opportunities to contribute to cutting-edge advancements and gain hands-on experience in state-of-the-art laboratories.
Industry Engagement: The University of Tulsa's M.S.E. in Computer Engineering program is highly focused on preparing graduates for successful careers in the technology industry. The program boasts an impressive track record of success, with a reported 100% employment rate for its graduates at prestigious companies and institutions such as Microsoft, Google, the U.S. Air Force, and the CIA. The curriculum emphasizes practical application and the development of technical skills highly valued by employers. Students are encouraged to engage in hands-on experiences with artificial intelligence, machine learning, statistical signal analysis, and more, ensuring they are well-equipped to transform electrical and computer engineering concepts into innovative solutions for modern problems in industries such as energy, communications, robotics, and autonomous systems.
Global Perspective: The M.S.E. in Computer Engineering at the University of Tulsa inherently fosters a global perspective by addressing the universal nature of computer engineering principles and their widespread impact on the global technological landscape. The program's focus on areas like intelligent systems, embedded systems, and cybersecurity addresses challenges and opportunities that transcend national borders. The university's commitment to attracting a diverse international student body further enriches the learning environment, exposing students to various cultural perspectives on technological challenges and solutions. This comprehensive training prepares graduates to collaborate effectively in international teams and contribute to advancements in a globally interconnected world.
Location
Tulsa, Oklahoma
Score
IELTS 6.5
Tuition Fee
USD 27858
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 80 or higher.
- PTE: Overall score of 56 or higher.
- DET (Duolingo English Test): Minimum score of 105.
The University of Tulsa (TU) in the United States offers a variety of scholarship opportunities to support international students in their academic journey. Attracting talented students from around the world, TU provides both merit-based and need-based scholarships to help reduce the financial burden of higher education.
Merit-Based Scholarships: International students admitted to TU are automatically considered for merit-based scholarships based on their academic achievements, standardized test scores, and overall application strength. These scholarships can significantly offset tuition costs, with awards ranging from partial tuition waivers to full scholarships. The university looks for outstanding academic records, leadership qualities, and extracurricular involvement when awarding these scholarships.
International Student Scholarships: TU offers specific scholarships aimed at international students, including renewable awards that encourage academic excellence throughout the duration of the degree program. Some scholarships are designated for particular fields of study or for students demonstrating strong community involvement.
Graduate Assistantships and Fellowships: Graduate international students may apply for assistantships and fellowships that provide tuition remission and stipends in exchange for teaching or research responsibilities. These positions not only offer financial support but also valuable professional experience within the university environment.
An M.S.E. in Computer Engineering from the University of Tulsa provides graduates with an advanced and integrated understanding of both the hardware and software aspects of computer systems. This STEM-designated program offers rigorous coursework and opportunities for cutting-edge research in areas such as intelligent systems, embedded systems, cybersecurity, and VLSI design. The University of Tulsa boasts a remarkable 100% employment rate for its Computer Engineering graduates, with alumni successfully securing positions at prestigious companies and institutions including Microsoft, Google, the U.S. Air Force, and the CIA. This strong track record highlights the program's effectiveness in preparing students for high-demand roles in the technology sector.
Computer Hardware Engineer: Design, develop, and test computer hardware components such as circuit boards, processors, memory devices, routers, and microcontrollers. They work at the interface of electrical engineering and computer science to create physical computing systems.
Embedded Systems Engineer: Develop and program specialized computer systems that are integrated into larger devices, often with real-time constraints. This includes systems for consumer electronics, automotive controls, medical devices, and industrial automation.
VLSI Design Engineer: Focus on the design, verification, and testing of Very Large Scale Integration (VLSI) circuits, which are the complex integrated circuits (chips) that power modern electronic devices. This role involves working with microprocessors, digital signal processors, and specialized hardware.
Firmware Engineer: Bridge the gap between hardware and software by developing and implementing the low-level software (firmware) that controls specific hardware components within a device. They ensure that hardware and software communicate effectively.
Cybersecurity Engineer (Hardware/Embedded Security focus): Specialize in protecting computer hardware, embedded systems, and their underlying architecture from cyber threats. This can involve designing secure hardware, developing secure boot processes, and analyzing hardware vulnerabilities.
Robotics Engineer: Design, build, program, and test robotic systems. Computer engineers contribute to the electrical design, control systems, and software development that enable robots to perform autonomous or semi-autonomous tasks.
Network Hardware Engineer/Architect: Design and implement the physical and logical infrastructure of computer networks, focusing on the hardware components, protocols, and security aspects that enable data communication.
Systems Engineer: Take a holistic view of complex systems, coordinating the design, development, and integration of both hardware and software components. They ensure that all parts of a system work together effectively to meet overall requirements.
Research Scientist (Computer Engineering): Conduct cutting-edge research in areas such as new computer architectures, parallel computing, advanced digital systems, or novel embedded applications within academic institutions, corporate R&D labs, or government research facilities.
Test Engineer (Hardware/Software Integration): Develop and execute test plans to ensure that computer hardware and software systems meet design specifications and performance requirements. They identify and troubleshoot defects, ensuring product reliability and functionality.
