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Course Criteria
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5.00 Credits
(3-6-5) Hardware and assembly level software needed to interface a microprocessor to I/O ports, memory and interrupt sources. Topics include bus controller design, timing analysis, programmed I/O and interrupts. Extensive lab provides experience with system design, test and debugging using the 80386DX microprocessor. Prerequisites: CST 204 and CST 231, with grade "C" or better, or instructor consent.
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4.00 Credits
(3-3-4) An overview of Data Base Management Systems including requirements analysis methodology for data base design, conceptual DB design methodology including formulation of entityrelationship models, review of query language characteristics, and a comparison of commonly available DBMS. Prerequisite: CST 211 with grade "C" or better.
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4.00 Credits
(3-3-4) In this second and third terms of a three-term sequence, students will work in teams to gather requirements, model, analyze, develop and integrate an n-tiered architecture software product. Students will learn about project management, software development lifecycle tools and processes, and quality assurance processes. Prerequisite: CST 316. Pre- or corequisites: CST 238, CST 324.
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3.00 Credits
(2-3-3) Advanced algorithms and techniques are presented, including: 3-D modeling and rendering, perspective projection, hidden line/surface removal, curve/surface modeling and various lighting models. The OpenGL library will be used extensively. Prerequisite: CST 238, MATH 341 or instructor consent.
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5.00 Credits
(3-6-5) Extension of concepts covered in CST 321 including additional peripheral devices to expand the microprocessor's capabilities and to create a complete system. Introduces additional I/O techniques including Interrupt driven I/O and DMA. Extensive lab provides continued experience with system design, test and debugging techniques. Prerequisite: CST 321 or instructor consent.
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1.00 Credits
(1-0-1) Description of senior project; time management techniques; task assignment; development of indepth senior project proposal and preparation of formal senior project. Includes use of PC-based planning. Corequisites: Hardware: CST 373; Software: CST 336.
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4.00 Credits
(3-3-4) Application of opto-couplers, peripheral drivers, A-D converters, and operational amplifiers to microprocessor/ microcontroller based applications. Survey of transducer theory and available devices. An embedded system is used as a development platform in laboratory experiments. Prerequisites: CST 204, CST 262, EET 237, or instructor consent.
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4.00 Credits
(3-3-4) In this second and third terms of a three-term sequence, students will work in teams to gather requirements, model, analyze, develop and integrate an n-tiered architecture software product. Students will learn about project management, software development lifecycle tools and processes, and quality assurance processes. Prerequisite: CST 316. Pre- or corequisites: CST 238, CST 324.
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4.00 Credits
(3-3-4) Architectural elements of embedded systems - microprocessor, memory, I/O ports, interrupt controller, buffers; interface protocol and timing; external interfaces; external busses including USB, PCI and Ethernet. I/O methods. Configuration, programming, testing and debugging of embedded systems. Embedded system expansion. Includes lab. Prerequisite: CST 204 with grade "C" or better.
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3.00 Credits
(3-0-3) Modeling and simulation of discrete and continuous systems. Discrete time and discrete event simulation models will be discussed and developed. Formal model development and model evaluation will be discussed. Prerequisites: CST 126, CST 211, MATH 465.
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