Computer engineering salary with masters
If you are looking for a career in computer engineering, there are many options available to you. You can work as a computer hardware engineer and create the hardware for computers, or you can work in software development and design the software that runs on computers. In either case, you will need to have a bachelor’s degree in computer engineering from an accredited university. The average annual salary for this field is $80,000 per year.
However, if you want to increase your salary potential with additional education, then consider earning a master’s degree in computer science or electrical engineering. If you earn a master’s degree in these fields, then your average salary will increase by $12,000 per year over those who only hold bachelor’s degrees.
Computer Engineering Salary With Masters
Computer engineering (CoE or CpE) is a branch of electrical engineering that integrates several fields of computer science and electronic engineering required to develop computer hardware and software.[1] Computer engineers usually have training in electronic engineering, software design, and hardware-software integration instead of only software engineering or electronic engineering. Computer engineers are involved in many hardware and software aspects of computing, from the design of individual microcontrollers, microprocessors, personal computers, and supercomputers, to circuit design. This field of engineering not only focuses on how computer systems themselves work but also how they integrate into the larger picture.[2] Robots are one of the applications of computer engineering.
Usual tasks involving computer engineers include writing software and firmware for embedded microcontrollers, designing VLSI chips, designing analog sensors, designing mixed signal circuit boards, and designing operating systems. Computer engineers are also suited for robotics research, which relies heavily on using digital systems to control and monitor electrical systems like motors, communications, and sensors.
In many institutions of higher learning, computer engineering students are allowed to choose areas of in-depth study in their junior and senior year because the full breadth of knowledge used in the design and application of computers is beyond the scope of an undergraduate degree. Other institutions may require engineering students to complete one or two years of general engineering before declaring computer engineering as their primary focus.[3][4][5][6]
This computer motherboard used in a personal computer is the result of computer engineering efforts.
Contents
- 1History
- 2Education
- 3Profession: Computer engineer
- 4Applications and practice
- 5Specialty areas
- 5.1Processor design
- 5.2Coding, cryptography, and information protection
- 5.3Communications and wireless networks
- 5.4Compilers and operating systems
- 5.5Computational science and engineering
- 5.6Computer networks, mobile computing, and distributed systems
- 5.7Computer systems: architecture, parallel processing, and dependability
- 5.8Computer vision and robotics
- 5.9Embedded systems
- 5.10Integrated circuits, VLSI design, testing and CAD
- 5.11Signal, image and speech processing
- 5.12Quantum computing
- 6See also
- 7References
- 8External links
History[edit]
The Difference Engine, the first mechanical computer.
ENIAC, the first electronic computer.
Computer engineering began in 1939 when John Vincent Atanasoff and Clifford Berry began developing the world’s first electronic digital computer through physics, mathematics, and electrical engineering. John Vincent Atanasoff was once a physics and mathematics teacher for Iowa State University and Clifford Berry a former graduate under electrical engineering and physics. Together, they created the Atanasoff-Berry computer, also known as the ABC which took 5 years to complete.[7] While the original ABC was dismantled and discarded in the 1940s a tribute was made to the late inventors, a replica of the ABC was made in 1997 where it took a team of researchers and engineers four years and $350,000 to build.[8]
The modern personal computer emerged in the 1970s, after several breakthroughs in semiconductor technology. These include the first working transistor by William Shockley, John Bardeen and Walter Brattain at Bell Labs in 1947,[9] planar process by Jean Hoerni,[10][11] the monolithic integrated circuit chip by Robert Noyce at Fairchild Semiconductor in 1959,[12] the metal-oxide-semiconductor field-effect transistor (MOSFET, or MOS transistor) by Mohamed Atalla and Dawon Kahng at Bell Labs in 1959,[13][14][15] and the single-chip microprocessor (Intel 4004) by Federico Faggin, Marcian Hoff, Masatoshi Shima and Stanley Mazor at Intel in 1971.[16]
History of computer engineering education[edit]
The first computer engineering degree program in the United States was established in 1971 at Case Western Reserve University in Cleveland, Ohio.[17] As of 2015, there were 250 ABET-accredited computer engineering programs in the U.S.[18] In Europe, accreditation of computer engineering schools is done by a variety of agencies part of the EQANIE network. Due to increasing job requirements for engineers who can concurrently design hardware, software, firmware, and manage all forms of computer systems used in industry, some tertiary institutions around the world offer a bachelor’s degree generally called computer engineering. Both computer engineering and electronic engineering programs include analog and digital circuit design in their curriculum. As with most engineering disciplines, having a sound knowledge of mathematics and science is necessary for computer engineers.
Education[edit]
Computer engineering is referred to as computer science and engineering at some universities. Most entry-level computer engineering jobs require at least a bachelor’s degree in computer engineering (or computer science and engineering). Typically one must learn an array of mathematics such as calculus, algebra and trigonometry and some computer science classes.[citation needed] Degrees in electronic or electric engineering also suffice due to the similarity of the two fields. Because hardware engineers commonly work with computer software systems, a strong background in computer programming is necessary. According to BLS, “a computer engineering major is similar to electrical engineering but with some computer science courses added to the curriculum”.[19] Some large firms or specialized jobs require a master’s degree.
It is also important for computer engineers to keep up with rapid advances in technology. Therefore, many continue learning throughout their careers. This can be helpful, especially when it comes to learning new skills or improving existing ones. For example, as the relative cost of fixing a bug increases the further along it is in the software development cycle, there can be greater cost savings attributed to developing and testing for quality code as soon as possible in the process, and particularly before release.[20]
Profession: Computer engineer[edit]
A person with a profession in computer engineering is called a computer engineer.
| Title | Prefix | Suffix | Requirements |
|---|---|---|---|
| Computer engineer | Engr. | CpE | Passed a degree in computer engineeringInstitution: Educational Institution (such as College, University) |
| Certified computer engineer | Engr. | CCpE | Passed a certification exam in computer engineeringInstitution: Private institution (such as computer engineering organizations and private companies) |
| Registered computer engineer | Engr. | RCpE | Passed a licensure exam in computer engineeringInstitution: Public Institution (such as Country’s Regulatory Board) |
| Professional computer engineer | Engr. | PCpE | Passed a professional exam in computer engineering, or work experienceInstitution: Public or Private Institution |
