Computer Science & Computer Engineering Laboratories

Increasingly, computer engineers are involved in the design of computer-based systems to address highly specialized and specific application needs. Computer engineers work in most industries, including the computer, aerospace, telecommunications, power production, manufacturing, defense, and electronics industries. They design high-tech devices ranging from tiny microelectronic integrated-circuit chips, to powerful systems that utilize those chips and efficient telecommunication systems that interconnect those systems. Applications include consumer electronics and advanced microprocessors, peripheral equipment, systems for portable, desktop and client/server computing, and communications devices .

Possible Professional Designation

As a graduate, you’ll have the necessary skills and preparation to work at entry-level hardware and software positions within various industries such as aerospace and avionics, automotive, consumer electronics, Internet of Things, entertainment, and defense. Ability to apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice and solution to complex engineering problems. FCS&E then subsequently introduced the degree of Bachelor of Science in Computer Software Engineering in 2003. Jahangir Bashar, Dean FCSE and their team at FCSE have been working hard to get all required pieces into place to keep the program curriculum in line with PEC as well as keeping the standard of the program as high as possible. The Faculty of Computer Science and Engineering at GIK Institute has always strived for excellence in the field of computing and allied disciplines since its inception in 1993, and continues to pursue the latest trends in the computing industry.

Computer Networks, Mobile Computing, And Distributed Systems

Sometimes a degree in electronic engineering is accepted, 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".

The first computer engineering degree program in the United States was established in 1971 at Case Western Reserve University in Cleveland, Ohio. As of 2015, there were 250 ABET-accredited computer engineering programs in the U.S. 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.

Computer Engineering Thrusts

It also includes distributed computing environments , and embedded computer systems . A wide array of complex technological systems, such as power generation and distribution systems and modern processing and manufacturing plants, rely on computer systems developed and designed by computer engineers. Computer engineers use a combination of electrical engineering and computer science skills to develop technology, devices and design computer systems networks.

How To Become A Computer Hardware Engineer

Computer hardware engineers typically need a bachelor’s degree from an accredited program. Computer hardware engineers research, design, develop, and test computer systems and components. Electrical engineering involves the design of devices and systems that employ the flow of electrons to achieve useful purposes. It encompasses electrical power generation and distribution, robotics, wired and wireless communications, radar, optoelectronics, and many other technologies. As the computer manufacturing industry is still in its emerging phase in Pakistan, scope of computer engineers in Pakistan is not very good for their specific field.

For example, CE majors may take classes and labs in microelectronics, calculus-based physics, and digital signal processing, while CS majors will study scientific problem solving, data structures and algorithms, and database design. Both are required to complete courses in digital logic, computer ethics, and computer architecture, among other subjects of study. In Level IV you will focus primarily on computer systems, shaping you into a complete computer engineer. You will study advances topics in computer hardware design and architecture.

With cloud computing and VoIP services expanding at a rapid pace, additional job prospects are certain to follow. The engineering laboratory experience is another essential part of the computer engineering curriculum, either as an integral part of a course or as a separate stand-alone course. Such experiences should start very early in the curriculum, when students are often motivated by the "hands-on" nature of engineering. Computer engineering students should be provided many opportunities to observe, explore and manipulate characteristics and behaviors of actual devices, systems, and processes.

Many prospective students wonder, “Is computer science considered a type of engineering? ” While terms like “computer science” and “computer engineering” are sometimes used interchangeably, they are technically separate fields that focus on different aspects of computer technology. There is a high demand for graduates of this program in a range of high-tech industries.

People who pride themselves on being computer engineers are proficient in computer science, and they can also be involved in hardware or software development. There are a variety of available degrees for computer engineers, with access to many different IT areas. The successful miniaturization of silicon devices and their increased reliability as system building blocks has created an environment in which computers have replaced the more conventional electronic devices. These applications manifest themselves in the proliferation of mobile telephones, personal digital assistants, location-aware devices, digital cameras, and similar products. It also reveals itself in the myriad of applications involving embedded systems, namely those computing systems that appear in applications such as automobiles, large- scale electronic devices, and major appliances.

An ability to design solutions for complex engineering problems and design systems, components or processes that meet specified needs with appropriate consideration for public health and safety, cultural, societal, and environmental considerations. Capability of maintaining and improving their technical competence through advance degree programs in engineering and other professionally related fields. List of computer and engineering programs and find detailed information about course requirements, program objectives, and faculty. No matter which approach you take, you’re on the right track toward an exciting and rewarding career.