Computer Engineering - Northwestern University

Computer Engineering from Northwestern University is a Campus Bachelor Computer Engineering degree that prepares you for a Engineering career. The Computer Engineering (CE) program teaches the design of complex digital systems, from transistors to software systems. It deals with digital circuit and system design, computer architecture, robotics, microprocessors, software systems, and embedded systems. The interrelationships between and appropriate roles of hardware and software are emphasized. Our Computer Engineering curriculum involves courses in digital logic, electronic circuits, computer architecture, robotics, VLSI design, VLSI CAD, software development, operating systems, microprocessor-based systems, and parallel computing. Students who are interested in pursuing a curriculum in computing that emphasizes understanding of computer hardware and the hardware/software interface should sign up for a B.S., M.S. or Ph.D. degree in Computer Engineering in the EECS Department. Computer engineers have broad professional employment opportunities including design and management responsibilities, working with microchips and computers , applicationspecific hardware-software systems, computer-aided design (CAD) tools for digital systems, aerospace systems, defense systems, and networked systems. Our Computer Engineering curriculum has strong lab-based learning emphasis and culminates in three design-projects-based courses. Interested undergraduates can get involved earlier in significant project or research work. Our teaching laboratories have recently been upgraded with the latest computer workstations, computer-controlled instruments and new experiments in newly renovated labs. The Computer Engineering curriculum allows students to focus on a particular area of specialization. The areas include High-Performance Computing VLSI and Computer Aided Design Embedded Systems Software The Computer Engineering program involves the design and engineering of computers including hardware and software design. It is a carefully chosen synthesis of computer engineering, computer science, and electrical engineering courses to train students how do design complex digital systems, from transistors to software. Computer engineering is a broad area involving many possible areas of specialization. These include Computer Architecture, VLSI Systems, Computer-Aided Design, Software Design, Robotics, Computer Vision, and Embedded Systems. Based on the mission statement, the Computer Engineering Undergraduate Curriculum Committee, involving both the faculty and undergraduate students, formalized a series of Educational Objectives which all students should satisfy. Students should: a) have a firm foundation in the basic mathematics underlying computer system design, including calculus, linear algebra, probability and discrete mathematics. b) be able to design and conduct experiments as well as analyze and interpret data. c) have an understanding of the functioning of digital devices within a computer . d) be exposed to the software that drives computers. e) have an understanding of computers as a whole, i.e., of computer subsystems and the integration of these systems in a functioning computer . f) have an understanding of how computers can be applied to solve problems in a unified hardware/software view. g) have a sufficient foundation in electronic circuits and physical electronics to understand the basics of how the underlying computer hardware works. h) have the interpersonal and other skills and general engineering knowledge necessary to function in a multi-disciplinary team. i) be able to identify, formulate, and solve computer engineering problems. j) have an understanding of professional and ethical responsibility. k) have facility in both written and verbal communication on both technical and non-technical levels. l) have the broad general education necessary to understand the impact of engineering solutions in a global social context. m) have recognition of the need for and an ability to engage in life-long learning. n) have knowledge of contemporary issues. o) be able to use fundamental tools of Computer Engineering including computer simulation, design and analysis of software, and laboratory tools. View more details on Northwestern University . Ask your questions and apply online for this program or find other related Computer Engineering courses.