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Course Criteria
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4.00 Credits
Topics in this course include client/server computing, threads, Java applets, Java sockets, Java RMI, Java servlets, Java Server Pages, Java Database Connectivity, Enterprise Java Beans, Hypertext Markup Language, eXtensible Markup Language, Web Services, programming networked applications in Java.
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4.00 Credits
Introduction to VHDL basic elements. VHDL simulation concepts. VHDL concurrent statements with examples and applications. VHDL subprograms, packages, libraries and design units. Writing vhdl for synthesis. Writing VHDL for finite state machines. Design case study.
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4.00 Credits
Introduction to computer-aided simulation and synthesis tools for VLSI. VLSI system design flow, role of cad tools, layout synthesis, circuit simulation, logic simulation, logic synthesis, behavior synthesis and test synthesis.
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4.00 Credits
Discrete signals and systems, convolution, Z-transforms, discrete fourier transforms, digital filters.
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3.00 Credits
Boolean algebra, logic of propositions, minterm and maxterm expansions, Karnaugh maps, Quine-McCluskey method, melti-level circuits, combinational circuit design and simulation, multiplexers, decoders, programmable logic devices.
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3.00 Credits
Basic memory and processor organization, instruction set architecture, assembly language programming, number systems, arithmetic, data transfer and control flow instuctions, procedures, memory management, program execution.
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4.00 Credits
Introduction to multimedia and applications, including WWW, image/video databases and video streaming. Covers media content analysis, media data organization and indexing (image/video databases), and media data distribution and interaction (video-on-demand and interactive TV).
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4.00 Credits
Electrons as particles and waves, Schrodinger's equation and illustrative solutions. Tunnelling. Atomic structure, the exclusion principle and the periodic table. Bonds. Free electrons in metals, periodic potentials and energy bands.
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4.00 Credits
Crystal lattices and the structure of solids, with emphasis on semiconductors. Lattice vibrations. Electronic states and energy bands. Electrical and thermal conduction. Dielectric and optical properties. Semiconductor devices: diffusion, P-N junctions and diode behavior.
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4.00 Credits
Optical transitions in solids. Direct and indirect gap semiconductors. Luminescence. Excitons and photons. Fundamentals of optoelectronic devices: semiconductor lasers, Led's photoconductors, solar cells, photo diodes, modulators. Photoemission. Integrated circuits.
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