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Computer Engineering / Bachelor of Science
Computer Engineering / Bachelor of Science
Total Credit Hours: 133
Major Credit Hours: 90
Computer Engineering is the marriage of Computer Science and Electrical Engineering. It focuses on computing in all forms, from microprocessors to embedded computing devices to laptop and desktop systems to supercomputers. As such, it concerns the electrical engineering considerations of how microprocessors function, are designed, and are optimized; how data is communicated among electronic components; how integrated systems of electronic components are designed and how they operate to process instructions expressed in software; and how software is written, compiled, and optimized for specific hardware platforms. Therefore, computer engineers are electrical engineers who specialize in software design, hardware design, or systems design that integrates both.
The topics Computer Engineers typically study include
- Microprocessor and microcontroller systems
- Assembly language
- Coding, cryptography, and information protection
- Distributed computing
- Computer vision and pattern recognition
- Computer graphics and multimedia applications
- Internet computing and wireless networks
- Computer architecture and embedded digital systems design
- Network security and privacy
- Real-Time Systems
- VLSI, VHDL, and ASICS design
- Computer internetworking and Network Protocols
- Embedded software for real-time microcontrollers
- Algorithms, compilers, and operating systems
- Human-computer interaction.
Several of these topics are also studied by computer scientists. The distinction between Computer Science and Computer Engineering could perhaps best be described by considering computing technology in terms of scale. Computer engineers operate often at the large and small ends of the computing spectrum, whereas computer scientists work in the middle. Computer engineers deal with the physics of semiconductor electronics so that they may design hardware at the integrated circuit level. They also work on the integration of hardware and software into optimized systems that perform specific tasks. Computer scientists write the software, design the databases, devise the algorithms, design the communications networks, and secure the data and devices that enable the integrated system to function. In reality, of course, this division of labor is a simplification, as computer engineers and computer scientists collaborate extensively. Because of this, computer scientists and computer engineers often qualify for the same career opportunities, with computer engineers having the edge in careers that focus more on hardware design, and computer scientists preferred for careers that focus more on software design. This program can be completed in 4 years.
Admission Requirements
Incoming first-year students must have a minimum ACT Math subscore of 25 or SAT Math subscore of 610 or be ready to enroll in Calculus 1 to be admitted to the Computer Engineering program. Transfer students and students who are changing majors must have a cumulative GPA of 3.0 and must be ready to enroll in Calculus 1. Prospective students wishing to be admitted to the program but who do not currently meet the requirements can be admitted under the Pre-Electrical and Computer Engineering Program. They can then apply for admission to the Computer Engineering program once transfer admission requirements are met by contacting ece@lewisu.edu.
Degree Requirements
Program: BS-CPEN-1
I. Engineering Foundation Courses (38)
| CHEM-11000 | General Chemistry 1 |
4 |
| CHEM-11100 | General Chemistry 1 Lab |
1 |
| MATH-20900 | Calculus 1 |
4 |
| MATH-21000 | Discrete Mathematics |
4 |
| MATH-22000 | Applied Probability and Statistics |
3 |
| MATH-23500 | Calculus 2 |
4 |
| MATH-25000 | Calculus 3 |
4 |
| MATH-30000 | Differential Equations |
3 |
| MATH-30500 | Linear Algebra |
3 |
| PHYS-21000 | General Physics 1 |
3 |
| PHYS-21100 | General Physics 1 Lab |
1 |
| PHYS-21500 | General Physics 2 |
3 |
| PHYS-21600 | General Physics 2 Lab |
1 |
II. Computer Engineering Core Courses (40)
| CPSC-21000 | Programming Fundamentals |
3 |
| CPSC-24500 | Object-Oriented Programming |
3 |
| CPSC-34000 | Algorithms and Data Structures |
3 |
| CPSC-35000 | Operating Systems |
3 |
| ECEN-10000 | Introduction to Electrical and Computer Engineering |
3 |
| ECEN-20000 | Engineering Design and Tools |
3 |
| ECEN-21000 | Logic Design |
3 |
| ECEN-22000 | Circuit Analysis I |
4 |
| ECEN-23000 | Signals and Systems |
3 |
| ECEN-25000 | Semiconductor Devices |
3 |
| ECEN-30000 | Computer Architecture 1 |
3 |
| ECEN-31000 | Computer Architecture 2 |
3 |
| ECEN-32000 | Hardware and Software Systems |
3 |
III. Choose 2 Computer Engineering Electives (6)
| CPSC-33000 | Database Systems |
3 |
| CPSC-35500 | Cloud Computing and Virtualization |
3 |
| CPSC-36000 | Programming Tools and Techniques |
3 |
| CPSC-41700 | Mobile Application Development |
3 |
| CPSC-42000 | Cybersecurity Essentials |
3 |
| CPSC-42100 | Advanced Cybersecurity |
3 |
| CPSC-44800 | Introduction to Malware Analysis and Reverse Engineering |
3 |
| CPSC-46000 | Programming Languages |
3 |
| CPSC-47000 | Artificial Intelligence |
3 |
| CPSC-48000 | Client-Server Computing |
3 |
| CPSC-48500 | Enterprise Networking, Security, and Automation |
3 |
| CPSC-49000 | Compiler Construction |
3 |
| DATA-47100 | Machine Learning |
3 |
| DATA-47200 | Introduction to Data Mining |
3 |
| ECEN-33000 | Digital Communications |
3 |
| ECEN-34000 | Introduction to VLSI Design |
3 |
| ECEN-45000 | Robotics |
3 |
| ECEN-49800 | Electrical and Computer Engineering Internship |
1-3 |
| MATH-36500 | Mathematical Modeling |
3 |
| PHYS-31000 | Electricity and Magnetism |
4 |
| PHYS-31100 | Analog and Digital Electronics |
4 |
| PHYS-44200 | Solid State Physics |
3 |
IV. Capstone (6)
| ECEN-40000 | Electrical and Computer Engineering Practice |
3 |
| ECEN-49600 | Electrical and Computer Engineering Senior Project |
3 |
V. Advanced Writing Requirement
The advanced writing requirement of the General Education curriculum is satisfied by successful completion of
| ECEN-49600 | Electrical and Computer Engineering Senior Project |
3 |
VI. Double Major in Computer Engineering and Computer Science
Students who wish to major in both Computer Engineering and Computer Science must take at least 12 credit hours of upper-division coursework not counted toward the other degree. In other words, a Computer Engineer who also wishes to major in Computer Science must take four 30000- or 40000-level Computer Science courses (12 credit hours) that count strictly toward their Computer Science degree. Conversely, a Computer Science major who wishes to major in Computer Engineering must take four 30000- or 40000-level Computer Engineering courses (12 credit hours) that count strictly toward the Computer Engineering degree. Because CPSC 30000 / ECEN 30000 have similar contents, these courses may not apply to a second major.
