1

Computer Engineer Jobs in Bridgeport, CT (NOW HIRING)

Senior Firmware Engineer

New Haven, CT

$120K - $158K/yr

Education Bachelor's degree in Electrical Engineering, Computer Engineering, Computer Science, Robotics, Mechatronics, or a related technical discipline required. Advanced degrees are a plus.

next page

Showing results 1-20

Computer Engineer information

See Bridgeport, CT salary details

$49.3K

$123.6K

$139.8K

How much do computer engineer jobs pay per year?

As of Jul 6, 2026, the average yearly pay for computer engineer in Bridgeport, CT is $123,553.00, according to ZipRecruiter salary data. Most workers in this role earn between $113,400.00 and $133,700.00 per year, depending on experience, location, and employer.

What engineers make $300,000 a year?

Senior computer engineers, especially those in specialized fields like software architecture, machine learning, or cybersecurity, can earn $300,000 or more annually, often with extensive experience, advanced skills, and sometimes in leadership roles or high-demand industries. Compensation varies based on location, company size, and individual expertise, with some professionals also earning through stock options or bonuses.

What are the key skills and qualifications needed to thrive as a Computer Engineer, and why are they important?

To thrive as a Computer Engineer, you need a strong background in computer science, mathematics, and hardware/software design, typically supported by a bachelor’s degree in computer engineering or a related field. Familiarity with programming languages (such as C/C++ or Python), circuit design tools, and industry certifications like CompTIA or Cisco are highly valuable. Problem-solving, teamwork, and effective communication are essential soft skills that set top performers apart. These abilities ensure that computer engineers can design, implement, and optimize systems that meet technical requirements and business goals.

Are computer engineers highly paid?

Computer engineers typically earn above-average salaries compared to many other professions, especially with experience, specialized skills, and certifications in areas like hardware design, software development, or network systems. Salary levels can vary based on industry, location, and level of expertise, but overall, the profession is considered well-compensated.

What is the difference between Computer Engineer vs Software Developer?

AspectComputer EngineerSoftware Developer
Required CredentialsBachelor's in Computer Engineering or related field; certifications like Cisco, CompTIABachelor's in Computer Science or Software Engineering; certifications like Microsoft, AWS
Work EnvironmentDesigning hardware, embedded systems, and software integration in labs or officesWriting, testing, and maintaining software applications in offices or remote setups
Employer & Industry UsageTech companies, manufacturing, telecommunications, embedded systemsIT firms, software companies, startups, enterprise software development

Computer Engineers focus on both hardware and software systems, often working on embedded systems and hardware integration. Software Developers primarily create and maintain software applications. While their roles overlap in programming, Computer Engineers have a broader scope including hardware design, whereas Software Developers specialize in software solutions.

What jobs does a Computer Engineer do?

A Computer Engineer designs, develops, and tests computer hardware and software systems. They work on creating integrated circuits, embedded systems, and computer networks, often using programming languages and engineering principles. Their work may involve troubleshooting, system optimization, and collaborating with software developers and other engineers.

What engineer makes $500,000 a year?

Senior computer engineers, especially those in specialized fields like software architecture, machine learning, or cybersecurity, can earn $500,000 or more annually, often through a combination of high base salary, bonuses, and stock options. Such compensation typically requires extensive experience, advanced skills, and work at large tech companies or startups with significant funding.

What Is a Computer Engineer?

A computer engineer designs, researches, tests, and develops computer equipment and software such as circuit boards, chips, routers, and application programs. Computer engineers analyze complex equipment and systems to understand the best way to improve it. They create new types of information technology devices and use logic and reasoning to hone in on goals, test assumptions, and identify the strengths and weaknesses of alternative solutions to problems. Engineers often work in teams and have to be able to communicate with other types of engineers, including non-technical team members. Computer engineers make sure that components fit together properly and function according to the latest software developments.

What are computer engineers?

Computer engineers are professionals who design, develop, test, and maintain computer hardware and software systems. They work at the intersection of electrical engineering and computer science, focusing on how computer systems function and how they can be improved. Their roles can involve creating microprocessors, designing circuit boards, developing embedded systems, and optimizing software for hardware performance. Computer engineers play a crucial role in advancing technology across industries, from consumer electronics to aerospace and healthcare.

What are common challenges computer engineers face when working on cross-functional teams?

Computer engineers often collaborate with software developers, hardware designers, and project managers, which can present challenges in aligning technical requirements and communication styles. Ensuring that everyone has a clear understanding of system limitations and integration points is crucial, as miscommunication can lead to project delays or rework. Staying adaptable and proactively clarifying expectations helps computer engineers navigate these collaborative environments successfully.
What are the most commonly searched types of Computer Engineer jobs in Bridgeport, CT? The most popular types of Computer Engineer jobs in Bridgeport, CT are:
What job categories do people searching Computer Engineer jobs in Bridgeport, CT look for? The top searched job categories for Computer Engineer jobs in Bridgeport, CT are:
What cities near Bridgeport, CT are hiring for Computer Engineer jobs? Cities near Bridgeport, CT with the most Computer Engineer job openings:
Infographic showing various Computer Engineer job openings in Bridgeport, CT as of June 2026, with employment types broken down into 84% Full Time, 14% Part Time, and 2% Contract. Highlights an 88% Physical, 4% Hybrid, and 8% Remote job distribution, with an average salary of $123,553 per year, or $59.4 per hour.

Computer Science & Engineering - Assistant Professor (Tenure-Track)

shu

Fairfield, CT

Other

Posted 10 days ago


Job description

Assistant Professor of Electrical Engineering 

Tenure-Track

 

To support the continued growth of its engineering programs, the School of Computing and Engineering, in the College of Arts & Sciences,  invites applications for a tenure-track Assistant Professor for the ABET-accredited B.S. in Electrical Engineering program at SHU. The successful candidate will be a dynamic and innovative educator-scholar committed to excellence in undergraduate teaching, student mentoring, and scholarly activity. The position emphasizes hands-on, project-based learning and active engagement with students, while contributing to curriculum development and continuous program improvement aligned with ABET accreditation standards. The anticipated start date for this position is January 2027 (Spring semester).

Primary responsibilities include:

  • Designing and teaching problem-based, hands-on undergraduate courses in electrical engineering, with an emphasis on robotics, embedded systems, and related areas
  • Teaching higher level Electrical Engineering courses such as Power Systems and Electromagnetics.
  • Conducting scholarly research appropriate for a teaching-focused institution
  • Supervising undergraduate student research and senior capstone design projects
  • Collaborating with industry partners and the SHU community on interdisciplinary projects
  • Advising Electrical Engineering majors
  • Supporting continuous program improvement and ABET accreditation activities

Minimum Qualifications:

  • Ph.D. in Electrical Engineering or a closely related discipline, completed by the start date of the appointment
  • Expertise in mechatronics, robotics, or closely related areas
  • Commitment to a highly interactive, student-centered learning environment
  • Openness to innovative and hands-on pedagogical approaches
  • Demonstrated potential for scholarly research and professional growth

Preferred Qualifications:

  • Experience working in a makerspace or laboratory-intensive teaching environment
  • Experience with active or project-based learning approaches
  • Experience applying machine learning techniques within engineering contexts
  • Evidence of an ongoing scholarly research agenda and publication activity
  • Experience developing or maintaining industry collaborations

To apply, please submit the following materials:

  • A cover letter describing your interest in the position and how your background aligns with the responsibilities and qualifications
  • A curriculum vitae
  • A statement of teaching philosophy
  • A statement describing past and future research interests
  • Contact information for three professional references

Review of applications will begin May 2, 2026 and will continue until the position is filled. The anticipated start date for the position is January 2027 (Spring semester). Applications will be reviewed on a rolling basis.

Questions about the position may be directed to Dr. Tolga Kaya, at kayat@sacredheart.edu

Sacred Heart University (SHU), located in Fairfield, Connecticut, houses its School of Computing and Engineering (SCE) within the College of Arts and Sciences. SCE offers two graduate programs (M.S. in Computer Science & Information Technology and M.S. in Cybersecurity), seven undergraduate Bachelor of Science programs—Computer Science, Information Technology, Game Design & Development, Cybersecurity, Computer Engineering, Electrical Engineering, and Mechanical Engineering—and several graduate certificate programs.