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Course Criteria
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3.00 Credits
Jung Han. mw1-2.15 QRSc (36) A survey of the enabling components and devices that constitute modern optical communications systems. Focus on the physics and principles of each functional unit, its current technological status, important design issues relevant to the overall performance, and future directions. Prerequisites: eeng 320a and aphy 322b, or permission of instructor.
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3.00 Credits
bG /aphy418bG,Heterojunction Devices
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3.00 Credits
Richard Lethin. th 1.30-3.20 QR (26) Chip design; integrated devices, circuits, and digital subsystems needed for design and implementation of silicon logic chips. cmos fabrication overview, complementary logic circuits, design methodology, computer-aided design techniques, timing, and area estimation. Exploration of recent and future chip technologies. A course project is the design, through layout, of a digital cmos subsystem chip; selected projects are fabricated for students. Prerequisite: familiarity with computer programming and with circuits at the level of introductory physics.
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3.00 Credits
EugenioCulurciello. mw 10.30-11.20;lab htba QR (0) Analysis of the design of integrated sensors, using modern fabrication technologies and recent circuit topologies. Creation of a framework for sensor design that attains performance as close as possible to the fundamental limits of transduction and processing. Particular attention to mapping algorithms and topologies into circuits that can match the physical level of the quantities to be sensed. Students develop sensory systems for biomedical application and for sensor networks.
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3.00 Credits
Systems and Control
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3.00 Credits
A. Stephen Morse. For description see under Applied Mathematics.
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3.00 Credits
A. Stephen Morse. mw1-2.15, 1 htba QR (36) Introduction to finite-dimensional, continuous, and discrete-time linear dynamical systems. Exploration of the basic properties and mathematical structure of the linear systems used for modeling dynamical processes in robotics, signal and image processing, economics, statistics, environmental and biomedical engineering, and control theory. Prerequisite: math 222a or b or permission of instructor.
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3.00 Credits
Edmund Yeh. tth1-2.15 QR (26) Introduction to the fundamental theory underlying modern digital communication. Quantitative measures of information and data compression: the Huffman and Lempel-Ziv algorithms, scalar and vector quantization. Representations of signal waveforms: sampling, orthonormal expansions, waveforms as vectors in signal space. Transmission of signals through noisy channels; pulse amplitude and quadrature amplitude modulation, orthogonal signaling, signal design, noise processes, optimal detection, and error probability analysis. Applications to practical systems such as cd players, telephone modems, and wireless networks. Prerequisites: knowledge of signals and systems at the level of eeng 310b; knowledge of basic probability at the level of stat 241a ( may be taken concurrently).
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3.00 Credits
Richard Lethin. th 1.30-3.20 QR (26) Introduction to the development of computer architectures specialized for cognitive processing, including both offline "thinking machines" and embedded devices. The history of machines, from early conceptions in defense systems to contemporary initiatives. Instruction sets, memory systems, parallel processing,analog architectures, probabilistic architectures. Application and algorithm characteristics. Prerequisites: eeng 201b, 325b, and cpsc 112a or b.
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3.00 Credits
Staff. For description see under Statistics.
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