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Course Criteria
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3.00 Credits
An introduction to microprocessor systems. Topics include microprocessor organization, Assembly language programming, memory interfacing and timing, programmable peripheral interface, timer, interrupts and programmable interrupt controller, and serial data communication.
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1.00 Credits
Software and hardware used in VLSI design. Applications to N-MOS and CMOS.
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3.00 Credits
A first course in Data Communications, which introduces the problems, solutions, and limitations associated with interconnecting computers by communication networks (LAN or WAN). The seven layer ISO Open Systems Interconnect (OSI) reference model serves as framework for the course with major emphasis on layers one through four (physical, data link, network, and transportation.
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3.00 Credits
Provides student with an understanding of design and analysis processes required to implement a computer controlled real time industrial process. Selection of microcontroller, control concepts, sensors, drivers, software requirements, analog to digital conversion, digital to analog conversion, intelligent display interfacing, design applications and use of "Fuzzy Logic".
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3.00 Credits
MOS transistor, logic gate circuits and electrical characteristics. P-N junction and Schottky diodes. BJT, inverter and digital gate circuits. Regenerative circuits. Semiconductor memories. Design projects. Course based on charge-control and SPICE2 large signal MOSFET, diode and BJT models, and the related integrated circuit analysis.
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3.00 Credits
Design of a simple processor. Topics include performance metrics, data formats, instruction sets, design of arithmetic unit, datapath and control design, pipelined architecture, memory hierarchies including caches and virtual memory, I/O systems, and multiprocessor systems.
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3.00 Credits
Introduction to MOS devices and circuits (N-MOS, CMOS), MOS transistor theory. Integrated system processing technology and design rules (N-MOS and CMOS), circuit characterization and performance estimation, N-MOS and CMOS circuits and logic design. Interfacing. Introduction to VLSI design tools. Testability analysis. Microarchitecture of VLSI systems. Chip design projects.
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3.00 Credits
An introduction to digital systems design using a hardware description language. Topics include programmable counters, shift registers, design of synchronous and asynchronous sequential machines.
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3.00 Credits
System-on-chip (SoC) design methodology and IP (intellectual property) reuse, system modeling and analysis, hardware/software co-design, behavioral synthesis, embedded software, reconfigurable computing, design verification and test, and design space exploration.
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1.00 Credits
Laboratory exercises covering the material of EGE210 Circuit Analysis. Corequisite: EGE210.
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