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Course Criteria
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4.00 Credits
Description: Prerequisites: EGCP 281 and EGEE 303. Computer system, central processing unit (CPU)organization and design, instruction set and addressing modes, microprogrammed control unit design, cache memory, internal memory, virtual memory, input/output interfacing, parallel processors, superscalar processors (2 hours lecture, 4 hours laboratory). Units: 4
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3.00 Credits
Description: (Same as EGCP 401/EGEE 401) Units: 3
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4.00 Credits
Description: Prerequisites: EGCP 281 and EGEE 303. High speed CMOS, biCMOS, CPLDs, FPGAs, A/D, D/A, transducers and optics; integration of these devices into complete systems. (2 hours lecture, 4 hours laboratory) Units: 4
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4.00 Credits
Description: Prerequisites: EGEE 323, EGCP 381 and 441, and Comp Sc 351. Techniques of interfacing based on speed, timings, synchronization, noise, cross-talk, hazards, and race conditions. Interfacing specifications of the processor data, address, and control buses. (2 hours lecture, 4 hours laboratory) Units: 4
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3.00 Credits
Description: Prerequisites: Junior/Senior standing in computer engineering and consent of the instructor. Exploration of topics of contemporary interest from the perspective of current research and development in computer engineering. Lectures by guest professionals. Units: 3
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1.00 Credits
Description: Corequisite: EGCP 450. First course in the two-course senior design sequence. Students in teams will do a hardware/software project, from conception through implementation and testing, under an instructor's supervision. Teams first explore technology issues related to the projects and then prepare complete design proposals. (1 hour lecture) Units: 1
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2.00 Credits
Description: Prerequisite: EGCP 450 and 470. Second course in the two-course senior design course in which students in teams of two or more will do a hardware/software project under the supervision of the instructor. The development of design skill, based upon previous and current courses and laboratory experience, is emphasized. (4 hours laboratory) Units: 2
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3.00 Credits
Description: Prerequisites: Physics 226; Math 250A; corequisite: Computer Science 120. Units; Ohm's and Kirchhoff's laws; mesh and nodal analysis, superposition; Thevenin and Norton theorems; RL and RC transients; phasors and steady state sinusoidal analysis; response as a function of frequency; current, voltage, and power relationships; polyphase circuits. (203=CAN ENGR 12; 203+203L=CAN ENGR 6)Units: 3
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1.00 Credits
Description: Prerequisite or corequisite: EGEE 203. Simple resistive RL and RC circuits, electrical measurement techniques, verification of basic circuit laws through hard-wired breadboarding and CAD circuit simulation. (3 hours laboratory) (203+203L=CAN ENGR 6) Units: 1
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3.00 Credits
Description: Corequisite: Math 250B. Formulating, solving, verifying and reporting engineering problems such as control, signal processing, and communication systems and engineering, math, and physics problems such as engineering/scientific computations and operations research using the MATLAB/SIMULINK program. (3 hours laboratory) Units: 3
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