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Course Criteria
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3.00 Credits
4 INQ EECE 316. Engineering analysis of consumer electronic equipment: radio receivers, audio and video tape recorders, and television. Other topics will be covered as time permits and student interest directs.
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3.00 Credits
4 FA EECE 315. Characteristics of passive and active components at high frequencies, reflections and standing waves, matching networks, scattering parameters, high-frequency measurement equipment and techniques, sample high-frequency design and construction projects, Smith charts.
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3.00 Credits
4 SP Either CSCI 320 or EECE 320. The application, design, and performance aspects of parallel processor structures, arithmetic pipelining and vector processing units; architectural classification; memory structures, multiprocessor systems; interconnection networks, multiprocessing control and scheduling; parallel algorithms.
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3.00 Credits
4 INQ Either CSCI 311 or EECE 344. Study of selected topics in the area of computer systems and computer architecture. Fault-tolerant systems, system reliability, and redundancy in hardware and software are usually included.
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3.00 Credits
3 FA CSCI 112. This course examines the requirements and design processes. Requirements topics include gathering, analysis, verification, and management. Design topics include static, functional, and dynamic views of software design, mapping designs to requirements, design patterns, and methodologies. The course also compares software design methodologies including data flow, data structure, and object-oriented analysis and design.
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3.00 Credits
4 SP CSCI 111; either EECE 221 or CSCI 221. Recommended: CSCI 112; either CSCI 320 or EECE 320. This course presents the concepts and techniques associated with designing, developing, and testing real-time and embedded systems. Topics include the nature and uses of real-time systems, architecture and design of real-time systems, embedded development and debugging environments, embedded programming techniques, real-time operating systems and real-time scheduling and algorithms. Special attention is given to the study of real-time process scheduling and performance, including mathematical analysis of scheduling algorithms.
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3.00 Credits
4 SP EECE 344. Advanced microprocessor design concepts and techniques. Timing considerations and calculations for reliable high-speed processor operating frequencies. Interrupts for real-time processing; interfacing microprocessors to Dynamic Random Access Memories. Designing DRAM controllers using state machine design procedures. Direct Memory Access Controllers (DMAs) and multi-master systems. Programmable Parallel Ports and Timers. Special purpose processors for digital signal processing, communications and multimedia applications.
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3.00 Credits
4 INQ EECE 144, EECE 315. Design of VLSI circuits. Emphasis is on design methodologies, including the use of CAE tools for schematic capture, chip layout, circuit simulation, and fault/timing analysis.
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3.00 Credits
3 SP PHYS 204A, PHYS 204B, PHYS 204C. Geometrical and physical optics, interference, diffraction, reflection, dispersion, resolution, polarization, fiber optics, laser optics, and holography.
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3.00 Credits
3 FA PHYS 204C. Recommended: EECE 450 or PHYS 450. The theory and mechanism of laser action, various types of lasers and their applications and future use. Laboratory involves measurements with lasers, fiber optics, data transmission, and holography.
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