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Ottawa-Carleton Institute for Electrical and Computer Engineering
Carleton University
Minto Centre, Room 3091
1125 Colonel By Drive
Ottawa, ON, Canada K1S 5B6
Telephone: (613) 520-5659
Fax: (613) 520-5682
Email: cate_palmer@carleton.ca
Web site: www.ociece.ca
The Institute
Director of the Institute: Roshdy H.M. Hafez
The Institute was established in 1983. By combining the programs and resources of the Departments of Electronics, Systems and Computer Engineering at Carleton University and the School of Information Technology and Engineering (SITE) at the University of Ottawa, OCIECE has become one of the largest electrical and computer engineering graduate studies/research groups in Canada. Programs leading to master's and Ph.D. degrees are available through the Institute in a wide range of fields of electrical and computer engineering.
Members of the Institute
The home department of each member is indicated by (DOE) for the Department of Electronics, Carleton University; (SCE) for the Department of Systems and Computer Engineering, Carleton University; (SITE) for the School of Information Technology and Engineering, University of Ottawa.
- A. Aboulnasr, Digital signal processing, applications in communications (SITE)
- R. Achar, Computer-aided engineering, simulation and optimization (DOE)
- C. Adams, Cryptography, network security, computer security, access control, privacy (SITE)
- A. Adler, Medical image processing, electrical impedance tomography, physiological monitoring, biometrics (SITE)
- N.U. Ahmed, Systems theory, optimal control, filtering and identification with applications to spacecraft, optical networks and artificial hearts (SITE)
- V. Aitken, Distributed processes, process control (SCE)
- S.A. Ajila, Software maintenance, software process (SCE)
- J. Albert, Photonic components (DOE)
- D. Amyot, Scenario-based software engineering, user requirements notation (URN), feature interactions in emerging applications (SITE)
- H. Anis, Photonics, engineering management (SITE)
- A. Banihashemi, Digital and wireless communications, coding and information theory (SCE)
- C. Barrière, Natural language processing, knowledge representation, knowledge acquisition from text (SITE)
- P. Berini, Electromagnetics, numerical modeling, guided-wave optics, optoelectronics, optical communications, microwaves, non-linear microwave circuits (SITE)
- G. von Bochmann, Communication protocols, software engineering, formal specifications, verification and validation, distributed applications and systems management, multimedia, high-speed networks, real-time systems (SITE)
- M. Bolic, Signal processing, Bayesian statistical signal processing (SITE)
- M. Bouchard, Signal processing, adaptive filtering, neural networks, speech processing, broadband access networks (SITE)
- L. Briand, Software reliability and certification (SCE)
- A. Chan, Biomedical engineering, biological signals, signal processing, pattern recognition, (SCE)
- C. Charalambous, Theory and applications o f stochastic processes, wireless communication networks, information theory, data fusion in computer networks, robust control, mathematical finance, large deviations (SITE)
- J.W. Chinneck, Computer modeling, operations research, applied optimization (SCE)
- J. Chouinard (SITE)
- D.C. Coll, Telecommunications and computers, image processing (SCE)
- A. Cuhadar, High-performance computing/algorithms (SCE)
- C. D'Amours, Digital communications, modulation and doding techniques (SITE)
- F. Danilo-Lemoine, Telecommunications and statistical signal processing (SCE)
- R.M. Dansereau, Digital signal and image processing (SCE)
- S.R. Das, Digital circuits, fault-tolerant computing (SITE)
- E. Dubois, Digital signal processing, multidimensional signal processing, data compression, source coding, image/video processing and coding (SITE)
- A. El Saddik, Multimedia communications, collaborative environments, human-machine interfaces (SITE)
- M.S. El-Tanany, Mobile and portable communications, digital signal processing, synchronization (SCE)
- B. Esfandiari, Software engineering (SCE)
- D.D. Falconer, Digital communications, signal processing, mobile and portable digital communications (SCE)
- F. Famili (SITE-Adjunct)
- M. Filiol, Mixed signal SOC design for mobile radio applications (DOE)
- N. Fong, VLSI (DOE)
- R.G. Franks, Performance modeling of distributed software, Internet routing, operating system design and implementation (SCE)
- M. Frize, Biomedical instrumentation, Clinical engineering, infrared imaging, decision-support systems in medicine, ethics in engineering and human experimentation (SITE and SCE)
- E. Gad, Design automation of VLSI circuits, Model-order reduction, krylov subspace techniques, nonlinear circuit simulation (SITE)
- P.A. Galko, Digital communications, optical communications (SITE)
- R. Gauthier, Photonics, laser trapping, MEMs (DOE)
- N.D. Georganas, Multimedia communications, computer communications (SITE)
- D.T. Gibbons, Digital and biomedical electronics, computer engineering (SITE)
- C. Giguere, Development and application of mathematical models of the auditory system, sound signals in hearing aids, auditory localization (SITE)
- R.A. Goubran, Audio signal processing, digital systems design, adaptive systems (SCE)
- V. Groza, Computer engineering, real-time embedded systems, distributed applications and virtual instrumentation (SITE)
- W. Gueajeb, Intelligent mechatronics, machine intelligence and automation, robotics (SITE)
- P. Gunupudi, Algorithms for design automation of VLSI circuits (DOE)
- R. Habash, Electromagnetic health risk and human safety risk (SITE)
- R.H.M. Hafez, Wireless communications, Neural Networks (SCE)
- T. Hall, Optica l communication systems, optoelectronic packet switches, photonic technology & optical physics, models of internet topology, dynamics of the Internet (SITE)
- R. Harrison, Microwaves and non-linear processes (DOE)
- C. Huang, High-speed multimedia networks (SCE)
- J. Huang, ATM traffic management (SCE - Adjunct)
- D. Inkpen , Computational linguistics and artificial intelligence (SITE)
- D. I.-A. Ionescu, Computers, Artificial Intelligence, image processing, discrete event and real-time systems (SITE)
- N. Japkowicz, Artificial Intelligence, machine learning, neural networks, natural language processing (SITE)
- P. Jay, Communications technology(SITE - Adjunct)
- A. Karmouch, Multimedia communications, multimedia real-time distributed information systems and databases (SITE)
- J.P. Knight, Logic design, computer-aided IC design, VLSI Testing (DOE - Adjunct)
- T. Kunz, Parallel and distributed systems (SCE)
- T.A. Kwasniewski, Digital and analog signal processing, microprocessors (DOE)
- Y. Labiche, Software engineering, testing and object-oriented techniques (SCE)
- R. Laganière, Computer vision, image processing (SITE)
- I. Lambadaris, Computer networks (SCE)
- J. Lang, measurement-based modeling in the area of visual computing (SITE)
- W. Lee, Face recognition, human-co mputer interaction, VR in health care, music analysis (SITE)
- T. Lethbridge, Human-computer interaction, user interfaces, software engineering tools and work practices, software reverse engineering, knowledge representation (SITE)
- R. Liscano, Spontaneous communications (SITE)
- P. Liu, Interactive networked systems, robotics, intelligent systems, sensor networks (SCE)
- S. Loyka, Wireless communications, RF and microwave systems, smart antennas (SITE)
- C.H. Lung, Software engineering, network traffic engineering (SCE)
- L. MacEachern, VLSI, analog IC Design (DOE)
- S.A. Mahmoud, Distributed databases, radio packet switching, communication network protocols (SCE)
- S. Majumdar, Parallel and distributed systems, operating systems, performance evaluation (SCE)
- D. Makrakis, Computer networks: architectures, protocols, management, broadband Applications (SITE)
- Y. Mao, Graphical models and statistical inference, communications, bioinformatics (SITE)
- I. Marsland, Mobile and portable radio systems (SCE)
- R. Mason, VLSI, Analog IC Design (DOE)
- A. Matrawy, Computer networks architecture and protocol design (SCE)
- S. Matwin, Artificial Intelligence, knowledge-based systems, machine learning, software reuse (SITE)
- D. McNamara, Antennas, electromagnetics, numerical modeling, microwaves (SITE)
- A. Miri, Coding theory, information theory, cryptography (SITE)
- H.T. Mouftah, Computer communications (SITE - Adjunct)
- L. Moura, Combinatorial algorithms (SITE)
- M.S. Nakhla, Computer-aided engineering, simulation and optimization (DOE)
- A. Nayak, Fault-tolerant computing and distributed systems (SITE)
- B. Pagurek, Network fault management, Artifical Intelligence, diagnosis (SCE)
- P. Payeur, 3-D modeling for robotics, computer vision, autonomous systems (SITE)
- T. Pearce, Real-time systems, embedded systems, software engineering (SCE)
- D.C. Petriu, Performance evaluation, software engineering, database systems (SCE)
- E.M. Petriu, Robotics, sensing and perception, neural networks (SITE)
- L. Peyton, Software Engineering, e-commerce, and business process automation (SITE)
- C. Plett, Analog I.C. design (DOE)
- J. Rogers, RFICs (DOE)
- S. Roux, Diffractive optics, optical vortices, photonics (SITE)
- L. Roy, Microwave electronics, integrated antennas, electromagnetic modeling (DOE)
- H.M. Schwartz, Robotics, controls (SCE)
- M. Shams, VLSI circuits and systems (DOE)
- S. Shirmohammadi, Multimedia communications and collaborative virtual reality and gaming (SITE)
- T.J. Smy, Semiconductor devices and transducers, IC technology (DOE)
- A. Steele, Nonlinear fibre optics, optical bistability and instabilities, chaos synchronization, fibre gratings, simulation of optical systems (DOE)
- I. S tojmenovic, Parallel algorithms, combinatory algorithms, evolutionary computing (SITE)
- B.A. Syrett, Microwave integrated circuits, optical interconnects (DOE)
- S. Szpakowicz, Research on the humanistic, social and technical aspects of negations of people, people-software and software systems (SITE)
- N. Tait, MEMS, Sensors, IC fabrication (DOE)
- J. Talim, Telecommunications services design and analysis (SCE)
- N.G. Tarr, Solid state devices, IC fabrication (DOE)
- M. Turcotte, Bioinformatics, algorithm design, applications of machine learning (SITE)
- I. Uzunov (SITE)
- G. Wainer, Discrete event simulation, modeling and simulation methodologies, parallel and distributed simulation, real-time systems (SCE)
- D.J. Walkey, Simulation and modeling of submicron MOS and bipolar VLSI devices (DOE)
- J.S. Wight, Radar, spread spectrum and navigation systems, microwave circuits, antennas, synchronizers, phase-locked circuits (DOE)
- C.M. Woodside, Software engineering and performance, distributed system modeling and design (SCE)
- M. Yagoub, Linear and non-linear microwave circuits, applied electromagnetics (SITE)
- O.W. Yang, Computer communications, broadband networks, performance evaluation, network interconnection, queuing theory (SITE)
- H. Yanikomeroglu, Wireless and mobile communications, spread spectrum systems (SCE)
- J. Yao, Optical communications, RF photonics, sensors, optical signal processing (SITE)
- T.Yeap, Neural networks, parallel computer architectures, VLSI, digital systems and control (SITE)
- A. Yongaçoglu, Digital communications coding and modulation, spread spectrum systems (SITE)
- Q.J. Zhang, CAD for VLSI, optimization (DOE)
- J. Zhao, Image and video processing, multimedia communications (SITE)
Master's Degree
Admission Requirements
The normal requirement for admission to a master's program is a bachelor's degree with at least high honours standing in electrical engineering or a related discipline.
Program Requirements
The requirements for course work are specified in terms of credits: one credit = one hour/week for one term. Subject to the approval of the departmental chair, a student may take up to half of the course credits in the program in other disciplines (e.g., Mathematics, Computer Science, Physics). Master's programs with a thesis earn the Master of Applied Science degree, while other master's programs earn the Master of Engineering degree.
Master's Degree by Thesis
- Eighteen course credits plus thesis
Master's Degree by Course Work
- Twenty-seven course credits plus a project (nominally six credits)
Cooperative Master's Degree by Thesis
- Eighteen course credits plus a thesis
Cooperative Master's Degree by Course Work
- Twenty-four course credits plus two projects (each conducted in one work term)
Participation in the cooperative master's program is subject to acceptance by a suitable sponsoring organization.
Doctor of Philosophy
Admission Requirements
The normal requirement for admission into the Ph.D. program is a master's degree with thesis in electrical engineering or a related discipline.
Program Requirements
The requirements for course work are specified in terms of credits: one credit = one hour/week for one term. Subject to the approval of the advisory committee, a student may take up to half of the course credits in the program in other disciplines (e.g., Mathematics, Computer Science, Physics).
- A minimum of nine course credits
- A comprehensive examination involving written and oral examinations and a written thesis proposal, to take place before the end of the fourth term of registration
- A thesis which must be defended at an oral examination
Graduate Courses
In all programs, the student may choose graduate courses from either university with the approval of the adviser or advisory committee. Course descriptions may be found in the departmental section of the calendar. All courses are of one term duration. Only a selection of courses listed is given in a particular academic year. The following codes identify the department offering the course.
Carleton University
ELEC Department of Electronics
SYSC Department of Systems and Computer Engineering
University of Ottawa
EACJ Department of Electrical Engineering
The CSI designation refers to the Department of Computer Science at the University of Ottawa. The ELG designation refers to the Department of Electrical Engineering at the University of Ottawa.
Course List by Research Area
Computer and Software Engineering
| SCE |
SYSC 5003 (ELG 6103) |
Discrete Stochastic Models |
| SCE |
SYSC 5005 (ELG 6105) |
Optimization Theory and Methods |
| SCE |
SYSC 5006 (ELG 6106) |
Design of Real-Time and Distributed Systems |
| SCE |
SYSC 5101 (ELG 6111) |
Design of High Performance Software |
| SCE |
SYSC 5102 (ELG 6112) |
Performance Measurement and Modeling of Distributed Applications |
| SCE |
SYSC 5103 (ELG 6113) |
Software Agents |
| SCE |
SYSC 5104 (ELG 6114) |
Methodologies for Discrete-Event Modeling and Simulation |
| SCE |
SYSC 5105 (ELG 6115) |
Software Quality Engineering and Management |
| SCE |
SYSC 5108 (ELG 6118) |
Topics in Information Systems |
| SCE |
SYSC 5301 (ELG 6131) |
Advanced Topics in Biomedical Engineering |
| SCE |
SYSC 5305 (ELG 6135) |
Representations, Methods and Tools for Concurrent Systems |
| SCE |
SYSC 5508 (ELG 6158) |
Digital Systems Architecture |
| SCE |
SYSC 5701 (CSI 5117) |
Operating System Methods for Real-Time Applications |
| SCE |
SYSC 5703 (ELG 6173) |
Integrated Database Systems |
| SCE |
SYSC 5704 (ELG 6174) |
Elements of Computer Systems |
| SCE |
SYSC 5706 (ELG 6176) |
Analytical Performance Models of Computer Systems |
| SCE |
SYSC 5708 (ELG 6178) |
Development of Real-Time and Distributed Software with Reusable Components |
| SCE |
SYSC 5709 (ELG 6179) |
Advanced Topics in Software Engineering |
| SCE |
SYSC 5806 (ELG 6186) |
Object Oriented Design of Real-Time and Distributed Systems |
| SCE |
SYSC 5807 (ELG 6187) |
Advanced Topics in Computers Systems |
| SITE |
EACJ 5102 (ELG 5197) |
Introduction to Embedded Systems |
| SITE |
EACJ 5104 (ELG 5199) |
Design of Multimedia Distributed Database Systems |
| SITE |
EACJ 5203 (ELG 5191) |
Design of Distributed System Software |
| SITE |
EACJ 5204 (ELG 5124) |
Virtual Environments |
| SITE |
EACJ 5205 (ELG 5125) |
Quality of Service Management for Multi-media Applications |
| SITE |
EACJ 5703 (ELG 5194) |
Design and Testing of Reliable Digital Systems |
| SITE |
EACJ 5705 (ELG 5195) |
Digital Logic Design: Principles and Practices |
| SITE |
EACJ 5807 (ELG 7186) |
Topics in Computers I |
| SITE |
EACJ 5807 (ELG 7187) |
Topics in Computers II |
| SITE |
EACJ 5900 (ELG 7573) |
Sujets choisis sur les ordinateurs |
Systems and Machine Intelligence
| SCE |
SYSC 5001 (ELG 6101) |
Simulation and Modeling |
| SCE |
SYSC 5004 (ELG 6104) |
Mathematical Programming for Engineering Applications |
| SCE |
SYSC/COMP 5007
(ELG 6107) |
Expert Systems
|
| SCE |
SYSC 5401 (ELG 6141) |
Adaptive and Learning Systems |
| SCE |
SYSC 5402 (ELG 6142) |
Advanced Dynamics with Applications to Robotics |
| SCE |
SYSC 5502 (ELG 6152) |
Advanced Linear Systems |
| SITE |
EACJ 5100 (ELG 5163) |
Machine Vision |
Digital and Optical Communications
| DOE |
ELEC 5605 (ELG 6365) |
Optical Fibre Communications |
| DOE |
ELEC 5606 (ELG 6366) |
Phase-Locked Loops and Receiver Synchronizers |
| SCE |
SYSC 5200 (ELG 6120) |
Algebraic Coding Theory |
| SCE |
SYSC 5403 (ELG 6143) |
Network Access Techniques |
| SCE |
SYSC 5503 (ELG 6153) |
Stochastic Processes |
| SCE |
SYSC 5504 (ELG 6154) |
Principles of Digital Communication |
| SCE |
SYSC 5506 (ELG 5170) |
Information Theory |
| SCE |
SYSC 5605 (ELG 6165) |
Advanced Digital Communication |
| SCE |
SYSC 5606 (ELG 6166) |
Introduction to Mobile Communications |
| SCE |
SYSC 5607 (ELG 6167) |
Source Coding and Data Compression |
| SCE |
SYSC 5608 (ELG 6168) |
Wireless Communications Systems Engineering |
| SCE |
SYSC 5609 (ELG 6169) |
Digital Television |
| SCE |
SYSC 5700 (ELG 6170) |
Spread Spectrum Systems |
| SCE |
SYSC 5802 (ELG 6182) |
Introduction to Information and Systems Science |
| SCE |
SYSC 5804 (ELG 6184) |
Advanced Topics in Communications Systems |
| SITE |
EACJ 5002 (ELG 5380) |
Advanced Channel Coding |
| SITE |
EACJ 5003 (ELG 5106) |
Fourier Optics |
| SITE |
EACJ 5105 (ELG 5373) |
Data Encryption |
| SITE |
EACJ 5106 (ELG 5113) |
Stochastic Systems |
| SITE |
EACJ 5109 (ELG 5119) |
Stochastic Processes |
| SITE |
EACJ 5201 (ELG 5103) |
Optical Communications Systems |
| SITE |
EACJ 5206 (ELG 5126) |
Source Coding and Data Compression |
| SITE |
EACJ 5500 (ELG 5371) |
Digital Communications by Satellite |
| SITE |
EACJ 5501 (ELG 5170) |
Information Theory |
| SITE |
EACJ 5503 (ELG 5179) |
Detection and Estimation |
| SITE |
EACJ 5504 (ELG 5372) |
Error Control Coding |
| SITE |
EACJ 5506 (ELG 5375) |
Principles of Digital Communication |
| SITE |
EACJ 5605 (ELG 7177) |
Topics in Communications I |
| SITE |
EACJ 5606 (ELG 7178) |
Topics in Communications II |
| SITE |
EACJ 5702 (ELG 7572) |
Sujets choisis en télécommunications et en traitement de signaux |
| SITE |
EACJ 5704 (ELG 5180) |
Advanced Digital Communication |
Signal, Speech and Image Processing
| SCE |
SYSC 5300 (ELG 6130) |
Health Care Engineering |
| SCE |
SYSC 5302 (ELG 6320) |
Principles and Design of Advanced Biomedical Instrumentation |
|
| SCE |
SYSC 5600 (ELG 6160) |
Adaptive Signal Processing |
| SCE |
SYSC 5601 (ELG 6161) |
Neural Signal Processing |
| SCE |
SYSC 5602 (ELG 6162) |
Digital Signal Processing |
| SCE |
SYSC 5603 (ELG 6163) |
Digital Signal Processing: Microprocessors, Software and Applications |
| SCE |
SYSC 5604 (ELG 6164) |
Advanced Topics in Digital Signal Processing |
| SITE |
EACJ 5303 (ELG 5123) |
Health Care Engineering |
| SITE |
EACJ 5304 (ELG 5127) |
Medical Image Processing |
| SITE |
EACJ 5507 (ELG 5376) |
Digital Signal Processing |
| SITE |
EACJ 5508 (ELG 5776) |
Traitement numérique des signaux |
| SITE |
EACJ 5509 (ELG 5378) |
Image Processing and Image Communications |
| SITE |
EACJ 5600 (ELG 7172) |
Topics in Signal Processing I |
| SITE |
EACJ 5601 (ELG 7173) |
Topics in Signal Processing II |
| SITE |
EACJ 5603 (ELG 7179) |
Topics in Signal Processing III |
| SITE |
EACJ 5800 (ELG 5377) |
Adaptive Signal Processing |
Computer Communication Networks and Distributed Systems
| SCE |
SYSC 5109 (ELG 6119) |
Teletraffic Engineering |
| SCE |
SYSC 5201 (ELG 6121) |
Computer Communication |
| SCE |
SYSC 5207 (ELG 6127) |
Distributed Systems Engineering |
| SCE |
SYSC 5306 (ELG 6136) |
Mobile Computing Systems |
| SCE |
SYSC 5800 (ELG 6180) |
Network Computing |
| SCE |
SYSC 5801 (ELG 6181) |
Advanced Topics in Computer Communications |
| SCE |
SYSC 5808 (ELG 6188) |
Communications Network Management |
| SITE |
EACJ 5004 (ELG 5381) |
Photonics Networks |
| SITE |
EACJ 5009 (ELG 5383) |
Survivable Optical Networks |
| SITE |
EACJ 5107 (ELG 5121) |
Multimedia Communications |
| SITE |
EACJ 5200 (ELG 5120) |
Queuing Systems |
| SITE |
EACJ 5201 (ELG 5121) |
Multimedia Communications |
| SITE |
EACJ 5202 (ELG 5122) |
Modeling, Analysis and Performance Evaluation in Computer Communications |
| SITE |
EACJ 5607 (ELG 5374) |
Computer-Communication Networks |
Computer Aided Design for Electronic Circuits
| DOE |
ELEC 5503 (ELG 6353) |
Radio Frequency Integrated Circuit Design |
| DOE |
ELEC 5504 (ELG 6354) |
Analysis of High-Speed Electronic Packages and Interconnects |
| DOE |
ELEC 5506 (ELG 6356) |
Simulation and Optimization of Electronic Circuits |
| DOE |
ELEC 5508 (ELG 6358) |
Computer Methods for Analysis and Design of VLSI Circuits |
| DOE |
ELEC 5803 (ELG 6383) |
Behavioural Synthesis of IC's |
Microwaves and Electromagnetics
| DOE |
ELEC 5404 (ELG 6344) |
Neural Networks for High-Speed/High-Frequency Circuit Design |
| DOE |
ELEC 5409 (ELG 6349) |
Microwave and Millimeterwave Integrated Circuits |
| DOE |
ELEC 5501 (ELG 6351) |
Passive Microwave Circuits |
| DOE |
ELEC 5602 (ELG 6362) |
Microwave Semiconductor Devices and Applications |
| DOE |
ELEC 5604 (ELG 6364) |
Radar Systems |
| DOE |
ELEC 5607 (ELG 6367) |
Antennas and Arrays |
| DOE |
ELEC 5608 (ELG 6368) |
Fourier Optics |
| DOE |
ELEC 5609 (ELG 6369) |
Nonlinear Microwave Devices and Effects |
| DOE |
ELEC 5702 (ELG 6372) |
Optical Electronics |
| DOE |
ELEC 5709 (ELG 6379) |
Advanced Topics in Electromagnetics |
| SITE |
EACJ 5305 (ELG 5108) |
Electromagnetic Compatibility and Interference |
| SITE |
EACJ 5308 (ELG 7500) |
Sujets choisis en électromagnetisme |
| SITE |
EACJ 5401 (ELG 5104) |
Electromagnetic Waves: Theory and Applications |
| SITE |
EACJ 5402 (ELG 5379) |
Numerical Methods in Electromagnetic Engineering |
| SITE |
EACJ 5403 (ELG 5504) |
Ondes électromagnetiques : théorie et applications |
| SITE |
EACJ 5404 (ELG 7100) |
Topics in Electromagnetics I |
| SITE |
EACJ 5405 (ELG 7101) |
Topics in Electromagnetics II |
| SITE |
EACJ 5406 (ELG 5779) |
Méthodes numériques en génie électromagnetique |
Solid State Devices and Integrated Circuit Fabrication
| DOE |
ELEC 5200 (ELG 6320) |
Advanced Topics in Integrated Circuits and Devices |
| DOE |
ELEC 5509 (ELG 6359) |
Integrated Circuit Technology |
| DOE |
ELEC 5703 (ELG 6373) |
Advanced Topics in Solid State Devices and IC Technology |
| DOE |
ELEC 5707 (ELG 6377) |
Microelectronic Sensors |
| DOE |
ELEC 5800 (ELG 6380) |
Theory of Semiconductor Devices |
| DOE |
ELEC 5802 (ELG 6382) |
Surface-Controlled Semiconductor Devices |
| SCE |
SYSC 5803 (ELG 6183) |
Logic Programming |
| SITE |
EACJ 5001 (ELG 5107) |
Semiconductor Optical Logic |
| SITE |
EACJ 5006 (ELG 7132) |
Topics in Electronics I |
| SITE |
EACJ 5007 (ELG 7133) |
Topics in Electronics II |
| SITE |
EACJ 5008 (ELG 7575) |
Sujets choisis en électronique |
| SITE |
EACJ 5208 |
Advanced Topics in Integrated Circuits and Devices |
VLSI
| DOE |
ELEC 5502 (ELG 6352) |
Analog Integrated Filters |
| DOE |
ELEC 5600 (ELG 6360) |
Digital Integrated Circuit Testing |
| DOE |
ELEC 5704 (ELG 6374) |
Advanced Topics in CAD |
| DOE |
ELEC 5705 (ELG 6375) |
Advanced Topics in VLSI |
| DOE |
ELEC 5706 (ELG 6376) |
Submicron CMOS and BiCMOS Ciruits for Sampled Data Applications |
| DOE |
ELEC 5708 (ELG 6378) |
ASICs in Telecommunications |
| DOE |
ELEC 5804 (ELG 6384) |
VLSI Design |
| DOE |
ELEC 5805 (ELG 6385) |
VLSI Design Project |
| DOE |
ELEC 5808 (ELG 6388) |
Signal Processing Electronics |
| DOE |
ELEC 5809 (ELG 6389) |
Nonlinear Electronic Circuits |
| SITE |
EACJ 5103 (ELG 5198) |
Parallel Processing with VLSI |
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