Computer Engineering, Bachelor of Science
VCU
Associate of Science in Engineering or Associate of Arts and Sciences in Engineering
Completing the associate degree will waive VCU's general education requirements.
Computer engineers are responsible for developing the powerful computer systems that have become a part of our everyday life. Applications for computer engineering span the spectrum from high-performance, general-purpose computing systems such as desktop workstations used in all facets of business, to small microprocessors embedded in larger systems and functioning as controllers. These latter applications, known as embedded systems, can be found in control systems for trains, aircraft and automobiles; medical equipment; telecommunications systems; and consumer electronics and appliances. This explosive growth of computer systems in use in almost every new appliance or vehicle has resulted in a strong demand for engineers trained in the development of these systems, and all indications are that this trend will continue for the foreseeable future.
Computer engineers (or computer hardware engineers) research, design, develop, test, and oversee the manufacture and installation of computer hardware, including computer chips, circuit boards, computer systems, and related equipment such as keyboards, routers, and printers.
This field should not be confused with computer software engineers, who design and develop the software systems that control computers. The work of computer hardware engineers is similar to that of electrical engineers in that they may design and test circuits and other electronic components; however, computer hardware engineers do that work only as it relates to computers and computer-related equipment. They work on the design, planning, development, testing, and even the supervision of manufacturing of computer hardware -- including everything from chips to device controllers. They also focus on computer networks for the transmission of data and multimedia. The work of a computer engineer is grounded in the hardware -- from circuits to architecture -- but also focuses on operating systems and software. Computer engineers must understand logic design, microprocessor system design, computer architecture, computer interfacing, and continually focus on system requirements and design.
- Computer engineer
- Computer network architects
- Computer systems engineer
- Controls engineer
- Hardware design engineer
- Mechatronics engineer
- Microsystems engineer
- Network engineer
- Product engineer
- Test engineer
- College Professor
- Lead Research Scientist
- Research & Development Engineer
- Senior Embedded Software Engineer
- System Architect
Telephone: (804) 827-1349
Email: transferinfo@vcu.edu
VCCS Transfer Planning Checklist
Telephone: (804) 828-1222 or (800) 841-3638
Email: ugrad@vcu.edu
Apply Here.
- Completion of associate degree (A.S. in Engineering)
- Minimum GPA of 3.0
- All courses must be completed with a grade of "C" or better
- Earn a minimum grade of "B" in all your math, science and engineering classes
- MATH 307
- 5+ additional science courses
- 3.0+ cumulative GPA to declare
Computer Engineering, Bachelor of Science
Virginia Community College System (AA&S or AS in Engineering)
MAXIMIZE COURSE AND DEGREE PLANNING | GET CONNECTED WITH YOUR COMMUNITY | DEVELOP CULTURAL AGILITY | EXPLORE CAREERS AND DEVELOP ESSENTIAL SKILLS | PREPARING FOR LIFE AFTER COLLEGE | ||
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Explore | Year 1 |
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Experience | Year 2 |
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MAXIMIZE COURSE AND DEGREE PLANNING
- Schedule an appointment with your community college advisor to map out your associate degree course plan.
- Complete your english and start your math requirements in your first year.
- Be prepared for academic challenges and utilize tutoring resources to get ahead.
- Explore community college financial aid resources and submit the FAFSA on time.
- Enroll in the SDV student success course.
GET CONNECTED WITH YOUR COMMUNITY
- Explore the VCU Electrical and Computer engineering department website.
- Learn about the transfer admission process for VCU.
- Review admission information for engineering transfer students.
- Get involved with student clubs and organizations at your community college.
- Volunteer for community service projects.
- Register to vote.
DEVELOP CULTURAL AGILITY
- Attend diversity-focused events on your community college campus and in your community (e.g., international festival).
- Make friends with people with diverse perspectives and join a cultural or identity-related student organization.
- Identify a mentor in a diversity organization.
EXPLORE CAREERS AND DEVELOP ESSENTIAL SKILLS
- Create LinkedIn profile.
- Complete career assessments through the Virginia Education Wizard.
- Browse information about occupations and job titles associated with computer engineering.
- Assess your preparation for a career by completing a Gap Analysis.
PREPARING FOR LIFE AFTER COLLEGE
- Create a weekly and monthly budget.
- Prepare for a career after college by creating a brand for yourself.
- Develop personal and career goals and create SMART steps for 2-3 "dream jobs."
- Practice independent living skills such as money and time management, self-care, and personal responsibility.
MAXIMIZE COURSE AND DEGREE PLANNING
- Meet with your community college advisor to finalize plans to complete your associate degree.
- Be prepared for academic challenges. Use tutoring resources to get ahead.
- Be prepared: Once you enroll at VCU, your VCU GPA will be determined by your grades at VCU.
- Submit a transfer advising request to the VCU Transfer Center.
- Research scholarship opportunities and explore your eligibility for the Two-Year College Transfer Grant.
- Explore the accelerated BS to MS in Computer Engineering program.
GET CONNECTED WITH YOUR COMMUNITY
- Apply to VCU.
- Visit the VCU campus and attend a transfer admission session.
- Research housing options for next year.
- Attend a talk or other event sponsored by the VCU Electrical and Computer Engineering department, or meeting with VCU students to make professional and personal connections.
DEVELOP CULTURAL AGILITY
- Consider learning a foreign language to open doors to international organizations and future study.
- Learn about short-term, semester and year-long study abroad options.
- Check out the VCU Office of Multicultural Student Affairs (OMSA) and follow @vcuomsa.
- Attend VCU cultural events, including the monthly Global Café, VCU Diversity Scholars in Research week, or VCU Electrical and Computer Engineering department-related events.
EXPLORE CAREERS AND DEVELOP ESSENTIAL SKILLS
- Find out about VCU REAL and learn about VCU's REAL graduation requirement.
- Attend Career & Internship Fairs throughout the year.
- Acquire career related experience (e.g., job, internship, organization involvement).
- If your GPA is 3.5 or higher, consider applying for the VCU Honors College.
PREPARING FOR LIFE AFTER COLLEGE
- Using LinkedIn, connect to at least 10 people. Check out the VCU alumni page in My Network.
- Conduct informational interviews or shadow someone in a field of career interest.
- Use the cost calculator to estimate your tuition/fees as an upperclassman at VCU.
- Explore the types of aid available at VCU.
- Consider who you would like to have serve as professional and academic references for future letters of recommendation.
Computer Engineering, Bachelor of Science
Virginia Community College System (AA&S or AS in Engineering)
Course | Title | Equivalent course | Credits | Requirements |
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SDV 100 or 101 | College Success Skills | UNIV 101 | 1 | Elective |
ENG 111 | College Composition I Note: students with credit for AP English Language and Composition will only receive credit for UNIV 111 at VCU and should take ENG 112 to fulfill the VCU composition requirement. | UNIV 111-112 | 3 | General education |
ENG 112 | College Composition II | UNIV 200 | 3 | General education |
MTH 263 | Calculus I (earn minimum grade of "B") | MATH 200 | 4 | Major (Ancillary) |
MTH 264 | Calculus II (earn minimum grade of "B") | MATH 201 | 4 | Major (Ancillary) |
MTH 288 or CSC 208 | Discrete Mathematics or Introduction to Discrete Structures (earn minimum grade of "B") | MATH 211 or CMSC 302 | 3 | Major (Ancillary) |
MTH 267 | Differential Equations (earn minimum grade of "B") | MATH 301 | 3 | Major (Ancillary) |
PHY 241 | University Physics I (earn minimum grade of "B") | PHYS 207 | 4 | Major (Ancillary) |
PHY 242 | University Physics II (earn minimum grade of "B") | PHYS 208 | 4 | Major (Ancillary) |
CHM 111 | General Chemistry I (earn minimum grade of "B") | CHEM/Z 101 | 4 | Major (Ancillary) |
EGR 121 + EGR 122 | Foundations of Engineering + Engineering Design (both must be completed to receive credit for VCU equivalents) (earn minimum grade of "B") | EGRE 101 | 5 | Major (Ancillary) |
EGR 125 | Introduction to Computer Programming for Engineers (programming language must be C++ to receive credit for VCU equivalent) | EGRE 245 | 3 | Major |
EGR 270 | Fundamentals of Computer Engineering (earn minimum grade of "B") | EGRE 254 | 4 | Major |
EGR 271 | Electric Circuits I (earn minimum grade of "B") | EGRE 206 | 4 | Major |
EGR 272 | Electric Circuits II (earn minimum grade of "B") | EGRE 207 | 4 | Major |
PHI 220 | Ethics | PHIL 201 | 3 | Major (Ancillary) |
ECO 202 | Principles of Microeconomics (substitute for the ECON 205 requirement) | ECON 210 | 3 | Major (Ancillary) |
Complete general education requirements for associate degree | VCU equivalents | 6 | General education | |
Community college credits transferred to VCU | 65 |
Course | Title | Credits | Requirements |
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CMSC 312 | Introduction to Operating Systems | 3 | Major |
EGRE 245 | Engineering Programming (if EGR 125 is not C++) | 0 to 4 | Major |
EGRE 246 | Advanced Engineering Programming | 3 | Major |
EGRE 306 | Introduction to Microelectronics | 4 | Major |
EGRE 335 | Signals and Systems | 4 | Major |
EGRE 337 | Statistical Information Processing | 3 | Major |
EGRE 347 | Applied Embedded Programming | 3 | Major |
EGRE 364 | Microcomputer Systems | 4 | Major |
EGRE 365 | Digital Systems | 4 | Major |
EGRE 426 | Computer Organization and Design | 3 | Major |
EGRE 428 | Introduction to Integrated Systems Design | 2 | Major |
EGRE 429 | Advanced Digital Systems Design | 2 | Major |
ENGR 395 | Professional Development | 1 | Major |
ENGR 402 + ENGR 403 | Senior Design Studio (Seminar) | 2 | Major |
Select one of the following sequences: EGRE 404 + EGRE 405 or EGRE 406 + EGRE 407 | 4 | Major | |
Technical electives | 16 | Major | |
SPCH 321 | Speech for Business and the Professions | 3 | Major (Ancillary) |
Open electives | 3 | Elective | |
REAL | The REAL requirement may be satisfied by successfully completing a 300-level (or higher) course that has received a REAL attribute of Level 2, 3 or 4 or through an approved “REAL” co-curricular experience that has received a REAL attribute of Level 3 or 4. See VCU advisor for options. | 0 | Major |
Credits completed at VCU | 65 | ||
Minimum credits required for bachelor's degree | 130 | ||
The accelerated B.S. and M.S. program allows qualified students to earn both the B.S. in Computer Engineering and M.S. in Engineering with a concentration in electrical and computer engineering in a minimum of five years by completing approved graduate courses during the senior year of their undergraduate program. Minimum qualifications for entrance to this accelerated program include completion of 97 undergraduate credits, including the prerequisite courses for the capstone project and a minimum of 11 courses from the major requirements; an overall minimum GPA of 3.0; and a minimum GPA of 3.2 in major course work. |