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Course Criteria
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1.00 Credits
Construction, analysis, and characterization of circuits with student-owned Lab-in-a-Box system. Experiments include: characterization of breadboard backplane wiring; component tolerances; Ohm's law; Kirchoff's laws; series and parallel resistors; voltage and current dividers; delta-wye configurations; mesh-current and node-voltage analysis; superposition and Thevenin equivalents; inverting and non-inverting amplifier circuits; series RC and RL circuits; discharging LEDs and integrator and differentiator circuits. Introductory design experiments include a simple voltmeter and a flashing traffic arrow. Must have a C- or better in ENGE 1104 or 1204. Pre: ENGE 1104 or ENGE 1204. Co: 2004, MATH 2214. (3L,1 Credits).
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3.00 Credits
Introduction to basic electronic devices including diodes and transistors and their operating principles. Analysis of electronic circuits operating under dc bias and switching conditions. Applications of devices in digital electronic circuits. Pre: 2004. Co: 2274. (3H,3 Credits).
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3.00 Credits
Pre: 2004. Co: 2274. (3H,3 Credits).
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1.00 Credits
Principles of operation of electrical and electronic test equipment and applications to measurement of circuit parameters. Transient and steady state response of RLC networks. Applications of laws and theories of circuits. Design, prototyping, and testing of electronic devices and circuits. I,II,IV. Pre: 2074. Co: 2204. (3L,1 Credits).
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3.00 Credits
Computer organization and architecture: instruction formats and construction; addressing modes; memory hierarchy (cache, main memory and secondary memory) operation and performance; simple pipelines; basic performance analysis; simple OS functions, particularly as they relate to hardware; virtual memory; computer I/O concepts, including interrupt and DMA mechanisms; intercomputer communication concepts. Must have C- or better in prerequisite 2504. Pre: 2504. (3H,3 Credits).
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3.00 Credits
An introduction to the design and operation of digital computers, including information representation, logic design, integrated circuits, register transfer description, basic computer organization and machine-level programming. The relationship between software and hardware is stressed. This course duplicates material in CS 2504 and may not be taken for credit towards graduation if CS 2504 is also taken. I,II,III. Pre: 1574. Co: MATH 2214. (3H,3 Credits).
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3.00 Credits
Fundamental concepts of operating systems, emphasizing a hands-on introduction to UNIX. User interfaces, UNIX shell commands, the UNIX file system, task management, common system utilities, the UNIX programming environment. Students gain experience with system installation and administration. Duplicates CS 2204. Must have C-or better in prerequisite 2574. Pre: 2574. (2H,2 Credits).
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3.00 Credits
Introduces a disciplined approach to problem-solving and emphasizes the utility of software engineering principles applied to programming practices. Also stressed are program design and implementation involving multiple modules, verification of program correctness, and abstract data types and objects such as strings, arrays, sets, linked lists, stacks, queues, and files. Pre: 1574 -A grade C- or better. Pre: 1574. (3H,3 Credits).
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3.00 Credits
Analysis techniques for signals and systems. Signal representation, including Fourier and LaPlace transforms. System definitions and properties, such as linearity, causality, time invariance, and stability. Use of convolution, transfer functions and frequency response to determine system response. Applications to circuit analysis. I,II. Pre: (2004 or 2004H), (MATH 2214 or MATH 2214H). (3H,3 Credits).
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3.00 Credits
Variable credit course.
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