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The Minor in Computer Engineering

Course Requirements for the Minor: 25-26 units

The following courses, or their approved transfer equivalents, are required of all candidates for this minor.

3-4 units selected from:

SUBJ NUM Title Sustainable Units Semester Offered Course Flags
This course is not intended for engineering majors. An introduction to electrical and electronic technology: DC circuitry analysis, AC circuitry analysis, basic electronic components and logic circuits. Instruments used in the study of basic electronics are discussed, demonstrated, and used; emphasis on interpretation of schematic diagrams, breadboarding, familiarization with electronic components. 3 hours discussion. (002612)

Or the following group of courses may be selected:

SUBJ NUM Title Sustainable Units Semester Offered Course Flags
Prerequisites: MATH 121, PHYS 204B.
DC and sinusoidal circuit analysis, including resistive, capacitive, and inductive circuit elements and independent sources. Ideal transformer. Thevenin and Norton circuit theorems and superposition. Phasors, impedance, resonance, and AC power. Three-phase AC Circuit analysis. 3 hours discussion. (002519)
Corequisites: EECE 211.
Experiments to reinforce the principles taught in EECE 211. 2 hours activity. (002520)

4 courses required:

SUBJ NUM Title Sustainable Units Semester Offered Course Flags
Prerequisite: MATH 119 (or high school equivalent).
A first-semester programming course, providing an overview of computer systems and an introduction to problem solving and software design using procedural object-oriented programming languages. Coverage includes the software life cycle, as well as algorithms and their role in software design. Students are expected to design, implement, and test a number of programs. 3 hours lecture, 2 hours activity. (002281)
Definition and properties of switching algebra. Minimization of algebraic function. Use of Karnaugh maps for simplification. Design of combinational logic networks. Design of sequential logic devices including flip-flops, registers, and counters. Analysis and applications of digital devices. Analysis and design of synchronous and asynchronous sequential state machines, state table derivation and reduction. Use of such CAD tools for schematic capture and logic device simulations. 3 hours lecture, 2 hours activity. (002614)
Prerequisite: CSCI 111.
This course presents the concepts and techniques associated with developing low level Embedded Systems Applications, using both Assembly Language and C. Topics include microprocessor architecture concepts, instruction set architectures, Assembly Language programming, data representations, interrupt handling and execution modes, low level C programming, and the use of on-chip and external peripherals. 3 hours lecture. (021437)
Prerequisites: CSCI 217 or MATH 217 or EECE 144, EECE 237.
Study of computing architecture and how the structure of various hardware and software modules affects the ultimate performance of the total system. Topics include qualitative and quantitative analysis of bandwidths, response times, error detection and recovery, interrupts, and system throughput; distributed systems and coprocessors; vector and parallel architectures. 3 hours discussion. (002104)

8 units selected from:

A minimum of 8 units of upper-division EECE or CSCI courses, of which at least 3 units must be approved upper-division EECE units.

Catalog Cycle:18