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Course Criteria
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4.00 Credits
Lecture-3 hours; project-3 hours. Prerequisite:course 160, 161. Introduction to random process models of modulated signals and noise, and analysis of receiver performance. Analog and digitally modulated signals. Signal-to-noise ratio, probability of error, matched filters. Intersymbol interference, pulse shaping and equalization. Carrier and clock synchronization.-II. (II.) Abdel-Ghaffar, Ding, Ford, Levy
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 180A; course 70 or Computer Science Engineering 50. Introduction to basic aspects of computer architecture, including computer performance measurement, instruction set design, computer arithmetic, pipelined/non-pipelined implementation, and memory hierarchies (cache and virtual memory). Presents a simplified Reduced Instruction Set Computer using logic design methods from the prerequisite course. Not open for credit to students who have taken course 171.-I. (I.)
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 170. Organization and design of parallel processors including shared-memory multiprocessors, cache coherence, memory consistency, snooping protocols, synchronization, scalable multiprocessors, message passing protocols, distributed shared memory and interconnection networks.- III. (III.)
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4.00 Credits
Lecture-2 hours; laboratory-6 hours. Prerequisite:course 170 or Computer Science Engineering 154B, course 180A; course 180B recommended. Microprocessor architecture and its software conventions. I/O interface design with emphasis on devices such as transceivers, A-D/D-A converters and timers. System design using polling, interrupts, and DMA as I/ O techniques. Programming in both assembly and high-level languages.-I, II. (I, II.)
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:Computer Science Engineering 60; Mathematics 135A or Statistics 131A, or Statistics 120 or Statistics 32. Overview of local and wide-area computer networks. IS0 seven-layer model. Physical aspects of data transmission. Data-link layer protocols. Network architectures. Routing. TCP/IP protocol suite. Local area networks. Medium access protocols. Network performance analysis. Only two units of credit for students who have taken course 157. (Same course as Computer Science Engineering 152A.)-I, II, III. (I, II, III.)
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4.00 Credits
Lecture-3 hours; discussion-1 hour. Prerequisite:course 173A or Computer Science and Engineering 152A. Advanced topics and design projects in communication networks. Example topics include wireless networks, multimedia networking, network design and management, traffic analysis and modeling, network simulations and performance analysis. Offered in alternate years. (Same course as Computer Science and Engineering 152C.)-(II.)
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5.00 Credits
Laboratory-9 hours; discussion-1 hour; project? hour. Prerequisite: course 170 or Computer Science Engineering 154A; Computer Science Engineering 110. Program analysis and transformation techniques for increasing program performance and reducing code size. Fundamental optimizations including instruction scheduling, register allocation, code motion, common subexpression elimination, dead code elimination, strength reduction and branch alignment.-III. (III.)
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5.00 Credits
Lecture-3 hours; laboratory-6 hours. Prerequisite:Physics 9C. Introduction to digital system design including combinational logic design, sequential and asynchronous circuits, computer arithmetic, memory systems and algorithmic state machine design; computer aided design (CAD) methodologies and tools.-I, II, III. (I, II, III.)
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5.00 Credits
Lecture-3 hours; laboratory-6 hours. Prerequisite:course 110A; 180A. Computer-aided design of digital systems with emphasis on hardware description languages (VHDL), logic synthesis, and field-programmable gate arrays (FPGA). May cover advanced topics in digital system design such as static timing analysis, pipelining, memory system design, testing digital circuits.-I, II, III. (I, II, III.)
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5.00 Credits
Lecture-3 hours; laboratory-4 hours. Prerequisite:courses 170 and 180B. Computer aided testing and design verification techniques for digital systems; physical fault testing; simulation-based design verification; formal verification; timing analysis.-II. (II.)
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