|
|
|
|
|
|
|
|
|
|
Course Criteria
Add courses to your favorites to save, share, and find your best transfer school.
-
3.00 Credits
Credits: 3 Cross-Listed with SYST 632 The System Integration Problem: human, organizational, societal, cultural, and technological aspects. The role of architectures in systems integration. Integration in a System of Systems and a Federation of Systems. Measures of performance and effectiveness. Analysis of alternatives. Prerequisites SYST 631/ECE 678 Notes This course does not meet the requirements for the MS-SYST or MS-ELEN degrees. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Introduces NMOS, CMOS, and BiMOS integrated circuit technology and fabrication. Reviews MOS and BiCMOS inverter structures and operation, MOS and BiCMOS circuit design processes, MOS layers, stick diagrams, design rules, and layout. Covers subsystem design and layout illustration of design process through design of 4bit arithmetic processor and its parts, adder, multiplier, register, and memory cells; and aspects of system timing, test and testability. Reviews currently available VLSI CAS tools. Prerequisites ECE 586 or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Introduces VLSI design of application-specific integrated circuits (ASICs) from front-end to back-end using HDL and modern design automation software. Covers simulation, synthesis of digital circuits using standard cells, static timing analysis, formal verification, power analysis, test generation/fault simulation, and physical design including floor planning, placement, routing, and design rule checking. Addresses deep submicron CMOS scaling issues and other advanced topics. Prerequisites ECE 545, or permission of instructor.
-
3.00 Credits
Credits: 3 Broad introduction to basic concepts, techniques, and tools of modern VLSI testing. Fundamentals of defect modeling, fault simulation, design for testability, built-in self-test techniques, and failure analysis. Test economics, physical defects and fault modeling, automated test pattern generation, fault simulation, design for test, built-in self test, memory test, PLD test, mixed-signal test, Iddq test, boundary scan and related standards, test synthesis, diagnosis and failure analysis, automated test equipment, embedded core test. Prerequisites ECE 586
-
3.00 Credits
Credits: 3 Study of Metal Oxide Semiconductor (MOS)-based device theory, characteristics, models, and limitations. Topics include MOS capacitator, MOSFETs, CMOS, charge coupled devices, scaling, hot carrier effects, latchup, radiation effects, and isolation techniques. Prerequisites ECE 584 or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 In-depth study of various steps in silicon VLSI circuit processing. Includes thermal oxidation, diffusion, ion implantation, epitaxial growth, polysilicon, metal and insulator layer deposition, photolithography, and MOS processing integration. Involves hands-on laboratory projects and using process simulator SUPREM. Prerequisites ECE 584 or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Studies selected area in electrical and computer engineering under supervision of faculty member. Prerequisites Graduate standing, completion of at least two core courses, and permission of instructor. Notes Requires written report. May be taken no more than twice for graduate credit. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Advanced topics of current interest in electrical and computer engineering. Topics chosen so they do not duplicate other courses in department. Active participation encouraged in form of writing and presenting papers in research areas. Prerequisites Permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Cross-Listed with IT 843 Covers Eigenstructure assignment for multivariable systems, Smith-McMillan form, internal stability, modeling system uncertainty, performance specifications and principal gains, parametrization of controllers, loop shaping and loop transfer recovery, and H methodology. Prerequisites ECE 620 or permission of instructor. Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
-
3.00 Credits
Credits: 3 Cross-Listed with IT 846 Includes motivating examples; analysis techniques include basic fixed-point theory, implicit function theorem, and dependence of trajectories on initial data and parameters. Also covers computational simulation techniques; stability theory including Lyapunov's direct method; nonlinear control systems of input-output and absolute stability; strong positive real transfer functions; feedback linearization of nonlinear systems; nonlinear canonical forms; nonlinear decoupling; sliding control; and applications to adaptive control, neural networks, and robotics. Prerequisites ECE 521 Hours of Lecture or Seminar per week 3 Hours of Lab or Studio per week 0
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Privacy Statement
|
Terms of Use
|
Institutional Membership Information
|
About AcademyOne
Copyright 2006 - 2024 AcademyOne, Inc.
|
|
|