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Course Criteria
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3.00 Credits
Logic gates, simplification of Boolean functions, design and testing of combinational and sequential circuits including code converters, multiplexers, adders, and synchronous counters. For non-electrical and non-computer engineering majors only. Corequisite: CpE 100. 1 credit.
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3.00 Credits
Sequential logic, synchronous and asynchronous circuits, hazards, PAL/PLA based implementation, computer-aided design of digital systems, introduction to computers. Prerequisites: CpE 100. 3 credits.
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3.00 Credits
Design and testing of combinational and sequential logic circuits. Includes synchronous and asynchronous circuits, races, cycles, hazards, timing considerations, and design with programmable logic devices (PLD). Corequisite: CpE 200. Prerequisites: CpE 100. 1 credit.
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3.00 Credits
Digital systems, hardware organization and design. Basic computer organization. Control unit implementation. Interface design. Corequisite: EE 320. Prerequisites: CpE 100 and CS 218. 3 credits.
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3.00 Credits
Digital logic laboratory. Implementation of combinational and sequential logic design. Introduction to large systems. Prerequisites: EE 320L and CpE 300. 1 credit.
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3.00 Credits
Advanced study of the microprocessor and its application to a broad range of engineering problems. Micro-controllers. Modern trends in both computer and non-computer systems. Processor design, architecture characteristics and performance, case studies. Prerequisites: CpE 300. 3 credits.
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3.00 Credits
Computer network architecture; the OSI Model; network protocols; local area networks; fiber optics communication; ISDN; elements of Queueing Theory, with emphasis on hardware design issues. Prerequisites: CpE 300, CS 370 and MATH 431. 3 credits. College of Engineering 155
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3.00 Credits
Includes network modeling, simulation, and analysis. It allows the students to choose network devices, such as switches, routers, and workstations, connect them together with various types of links, and create network traffic patterns. Network behavior studied by collecting and interpreting statistics under various settings. Prerequisite: CpE 400. 1 credit.
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3.00 Credits
Design of hardware and software for embedded systems. SBC/microcontroller architecture, A/D and D/A conversion, signal conditioning, interfacing, controlling electronic/ electromechanical systems. Assembly language, high-level language programming, efficient use of computational/physical resources, considerations for speed, robustness, debugging methods, use of simulators and inc-circuit emulators. Projectbased, requiring design/construction an embedded system. Prerequisite: CpE 301. 3 credits.
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3.00 Credits
Instruction level parallel processing. Processor performance evaluation and optimization. Scalar and superscalar pipelines. Instruction, register data and memory data flow techniques. Cache organization and performance analysis. Comparison of RISC, CISC and VLIW architecture. Survey of modern processors. Introduction to multithreading. Prerequisite: CpE 300. 3 credits.
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