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Course Criteria
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5.00 Credits
Introduction to computer architecture, algorithms, hardware design for various computer subsystems, CPU control unit design, hardwired and microprogrammed control, memory organization, cache design, virtual memory, I/O organization, and I/O hardware design.
Prerequisite:
either E E 271 or E E 371; CSE 143
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5.00 Credits
Concepts of multi-level machines and computer systems organization. Utilizing microprocessors, digital computer studied at assembly- and highlanguage levels with emphasis on concepts of central processor architecture, memory organization, input/output and interrupts. Assembly language programming concepts applied to solution of various problems including I/O programming.
Prerequisite:
either E E 271 or E E 371; CSE 143
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4.00 Credits
Design of linear integrated circuits applying modern MOS and BJT integrated circuit technologies: singlestage amplifiers; current-mirror DC bias and active load circuits; stability and frequency compensation of single-stage and two-stage operational amplifiers; output stages; current and voltage reference circuits. 0 in E E 332.
Prerequisite:
1
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5.00 Credits
Sechen Comprehensive view of digital integrated circuit design. Topics to be covered include the design of inverters, static logic circuits, switch logic, and synchronous logic. Students design, simulate, and layout a complete digital IC using modern computer-aided design tools.
Prerequisite:
either E E 271 or E E 371; E E 331; CSE 143
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5.00 Credits
Sechen Provides a fairly deep understanding of how IC-based memory and datapath blocks are designed using static and dynamic CMOS technologies. Gives students extensive experience with industrystandard computer-aided design tools, including Cadence (Virtuoso, DRC, LVS) and Avanti (Hspice). Credit not allowed for both E E 477 and E E 525.
Prerequisite:
E E 476
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5.00 Credits
Design of digital computer subsystems and systems, using SSI, MSI, and LSI digital components. Combinational logic, sequential logic, memory hardware designs, I/O hardware and interface design, system design steps, highspeed digital circuit design, noise reduction techniques, and hardware description language. One four-hour each week and design project. 0 in E E 331; 1.0 in E E 472.
Prerequisite:
1
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4.00 Credits
Analysis and design of transmission lines and matching circuits. Lossy transmission lines. Mode structures in metallic and die ric waveguides. Microwave resonators and magnetic devices. Smith chart and matching techniques. 0 in E E 361.
Prerequisite:
1
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4.00 Credits
Design of microwave circuits using S-parameter techniques. Measurement techniques, CAD of microwave systems. Includes design, fabrication, and evaluation of a microwave amplifier. 0 in E E 332; 1.0 in E E 361.
Prerequisite:
1
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4.00 Credits
Fundamentals of semiconductor theory: carrier diffusion and drift; concept of direct and indirect energy materials, effective mass of mobile carriers; device physics: homo- and heterojunctions, operating principles of bipolar, junction, and MOS field-effect transistors.
Prerequisite:
E E 332; E E 361
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4.00 Credits
Introduction to optical and solid-state chemical and physical sensors. Topics include transduction mechanisms, design parameters, fabrication methods and applications.
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