• The computer engineering technology degree is designed to meet the industry’s ever-increasing need for computer engineers with an in-depth knowledge of hardware and software design.
  • Students will gain a solid foundation of engineering principles through intensive classroom and laboratory experiences. Examples of the types of applications utilizing embedded systems include medical diagnostic equipment, digital cameras, missile guidance systems, anti-lock brakes, scanners, copiers, autonomous vehicles, network routers, and smartphones. The embedded systems designer must be proficient in hardware design, programming, and problem-solving.
  • The major enables graduates to design embedded systems for applications such as medical diagnostic equipment, digital cameras, missile guidance systems, anti-lock brakes, scanners, copiers, autonomous vehicles, network routers, and smartphones.
  • The embedded systems designer must be proficient in hardware design, programming, and problem-solving. The major is designed to meet the industry’s ever-increasing need for engineers with an in-depth knowledge of hardware and software design.
  • The curriculum bridges the gap between hardware and software by providing a solid foundation in each and integrating them with intensive classroom and laboratory experiences.
  • From a software perspective, students gain experience in cutting-edge development with programming languages currently used in the industry.
  • Students learn industry standards for application software development, the process for creating development application code, and master state-of-the-art problem-solving techniques. Students utilize embedded "C" real-time operating systems programming in numerous courses.
  • The hardware focus of the curriculum is on digital systems design and development. From low-level gate design to high-end microprocessors students gain an architectural understanding of computer systems.