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Course Criteria
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3.00 Credits
Introduction to computer networks. Circuits, message, packet and cell switch-ing. WAN and LAN design issues. LAN standards. Network layer design issues. Routing and congestion control. Inter-networking ISDN, B-ISDN, and ATM. Transport layer design issues and protocols. Application layer design issues and protocols. Examples of protocol suites and networks. Prerequisite: Computer Engineering 471 or permission of instructor. 3 lecture hours; 3 semester hours
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3.00 Credits
Introduction to Local Area Networks (LANs). Classes of LANs. LAN design issues. LAN topologies. LAN transmission media. LAN protocols. Medium Access Control (MAC) and Logic Link Control (LLC). LAN standards. Network software. Network operating systems. LAN performance modeling and analysis. Internet-working: Bridges, Routers and Gateways. Reliability, availability, survivability and security. Prerequisites: Computer Science 102 and Computer Engineering 210, 471. 3 lecture hours; 3 semester hours
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3.00 Credits
This course covers the basic technologies in the field of wireless and mobile communications. The following topics are covered in the course: wireless transmission, media access control, satellite systems, broadcast systems, wireless LANS, wireless ATM, network layer protocols, transport protocols and support for mobility. Pre-requisites: Computer Engineering 471 or Computer Engineering 472 or permission of instructor. 3 lecture hours; 3 semester hours
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3.00 Credits
Internetworking basis. Bridging and Switching Fundamentals. Routing basic. Network management fundamentals. Network architecture. Security. Troubleshooting. Pre-requisites: Computer Engineering 471 or Computer Engineering 473 and permission of instructor. 3 lecture hours; 3 semester hours
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3.00 Credits
Structural development and methodology for large software systems. Planning requirements, design, test and validation. Advanced topics in software development. Prerequisites: Computer Science 102 and senior status. 3 semester hours
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3.00 Credits
Basic micro fabrication techniques, MEMS materials and their properties, MEMS device design and simulation, MEMS packaging and assembly, signal testing and MEMS reliability analysis. MEMS industrial applications in various areas will also be discussed. Students used ANSYS FEM software to design and simulate their behavior.
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3.00 Credits
Modeling, design and analysis of analog VLSI circuits. CMOS processing and layout, current mirrors, Opamp, comparators, S/H voltage references, switched-capacitor circuits, data converters, filters and PLLs. Students design analog VLSI layouts, extract the netlists and simulate the circuit behavior. Transistors sizing will also be discussed. EDA tools PSPICE, Mentors Graphics are used.
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3.00 Credits
Introduction to high level languages, data types, subprograms; arrays and records. Topdown programming. Algorithmic development and flow charting. 3 lecture hours; 3 semester hours
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1.00 Credits
This is an accompanying laboratory to the Computer Science 101 course. Students will do supervised work on assigned laboratory projects. In addition, some sessions may be used to cover new or review CS 101 lecture material as well as to administer CS 101 examinations. Co-requisite: Computer Science 101. 2 lecture hours; 1 semester hours
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3.00 Credits
Introduction to data structures. Top-down design and structured programming, debugging. String processing, stacks, queues, lists, linked lists, trees, hash tables. Searching and sorting. Prerequisite: Computer Science 101. 3 lecture hours; 3 semester hours
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