Elementary probability theory including random variables, p.d.f., c.d.f., generating functions, law of large numbers. Elementary stochastic process theory including covariance and power spectral density. Markov processes and applications. Prerequisite: E&C-Eng 364 or equivalent.

This course focuses on the study of signals and linear systems. It constitutes the basic theory behind a further study of communication theory and systems, control theory and systems, signal processing, microwave and radar systems, networking and almost all disciplines of electrical engineering.

Lab. Design and analysis of digital computer (sub)systems, including sequential controllers, asynchronous system interfacing, bus arbitration, static and dynamic memory design, and microprogrammed microprocessor design. Use of hardware description languages and programmable logic. Breadboarding and use of diagnostic equipment.

With discussions and lab. Use of nonlinear devices such as diodes, field effect transistors (FETs), and bipolar junction transistors (BJTs) in the design of simple analog and digital circuits. Design projects make use of PSPICE. Prerequisites: grades of C or better in E&C-ENG 212 and 221.

With discussions and lab. Use of nonlinear devices such as diodes, field effect transistors (FETs), and bipolar junction transistors (BJTs) in the design of simple analog and digital circuits. Design projects make use of PSPICE. Prerequisites: grades of C or better in E&C-ENG 212 and 221.

With discussions and lab. Use of nonlinear devices such as diodes, field effect transistors (FETs), and bipolar junction transistors (BJTs) in the design of simple analog and digital circuits. Design projects make use of PSPICE. Prerequisites: grades of C or better in E&C-ENG 212 and 221.

Lab. Design and analysis of digital computer (sub)systems, including sequential controllers, asynchronous system interfacing, bus arbitration, static and dynamic memory design, and microprogrammed microprocessor design. Use of hardware description languages and programmable logic. Breadboarding and use of diagnostic equipment.

Theoretical and practical foundations for engineering the production of contemporary and future software intensive systems. Advanced engineering problem solving concepts and skills enabled by means of state of the art modeling and testing tools. Provides the basis for the analysis and co-design of complex hardware and software systems.

Lab. Design and analysis of digital computer (sub)systems, including sequential controllers, asynchronous system interfacing, bus arbitration, static and dynamic memory design, and microprogrammed microprocessor design. Use of hardware description languages and programmable logic. Breadboarding and use of diagnostic equipment.

Lab. Design and analysis of digital computer (sub)systems, including sequential controllers, asynchronous system interfacing, bus arbitration, static and dynamic memory design, and microprogrammed microprocessor design. Use of hardware description languages and programmable logic. Breadboarding and use of diagnostic equipment.