AGR 201; CSR 342; ECE 302; ILS 595; MA 13900; MA 15300; MA 15800; MA 16010; MA 16020; PHYS 241; Organizations & Units. Average scores of successful applicants are: 3.25 or equivalent (A=4.0; Average GPA of admitted students is 3.6). James S. Lehnert Purdue Graduate School Student Resources: Did You Know? Zubin Jacob Contact the ECE Graduate Office MSEE Building, Room 140 501 Northwestern Avenue West Lafayette, IN 47907-2035 Fax: (765) 494-3393 Current students should contact Elisheba Van Winkle Senior Graduate Program Assistant vanwinke@purdue.edu Phone: (765) 496-6162 Prospective students should contact Deb Bowman https://engineering.purdue.edu/ECE/Academics/Graduates. Timothy Rogers Samuel P. Midkiff Felix Xiaozhu Lin In addition to the rich Purdue wellness programs already available to you, Purdue ECE has partnered with TaskHuman, a mobile app that helps you achieve your personal wellness goals! Computer Engineering is a specialization within electrical and computer engineering offering an in-depth education in both hardware and software aspects of modern computer systems. Many of our courses are the same courses that are offered at the Purdue West Lafayette campus. Mithuna S. Thottethodi Pen-Min Lin Virtual, Purdue Prof. Andrew M. Weiner wins Opticas Charles Hard Townes Medal, Purdue postdoc Demid Sychev selected for Quantum Science Centers Postdoctoral Research Award, Prof. Carla Zoltowski receives IEEE Computer Society Mary Kenneth Keller Computer Science and Engineering Undergraduate Teaching Award, Purdue Engineering to play key role in two new SRC JUMP 2.0 centers, Prof. Murat Kocaoglu receives NSF CAREER Award, PhD students win Best Paper Award at IEEE MEMS 2023, Prof. Philip E. Par receives NSF CAREER Award, Purdue ECEs online MSECE ranks 1st in the nation. Mireille Boutin Arif Ghafoor A 3.0 or better major GPA is recommended for undergraduate students taking 500 level courses. Shreyas Sundaram ECE 66100 - Computer Vision This course deals with how an autonomous or a semi-autonomous system can be endowed with visual perception. Need accessibility help? Javascript is currently not supported, or is disabled by this browser. Post Must include at least three (3) Advanced-Level Laboratory courses. dbowman1@purdue.edu Kevin J. Webb Meets the George R. Wodicka Other courses, as approved by the ECE Curriculum Committee, may also be selected. Chee Mun Ong This plan of study is only available for combined degree students. To these ends, all B.S. James A. Cooper Email webmaster-ece@ecn.purdue.edu to report a problem, Communications, Networking, Signal & Image Processing, Bioengineering, Microelectronics and Nanotechnology, Fields and Optics, Microelectronics and Nanotechnology, Fields and Optics, Communications, Networking, Signal & Image Processing, VLSI and Circuit Design, Microelectronics and Nanotechnology, Computer Engineering, VLSI and Circuit Design, Communications, Networking, Signal & Image Processing, Computer Engineering, Global Engineering Programs and Partnerships, Elmore Family School of Electrical and Computer Engineering, Outstanding Electrical & Computer Engineers, ECE 50616 - Physics and Manufacturing of Solar Cells, ECE 50632 - Introduction to Quantum Transport, ECE 50633 - Boltzmann Law: Physics to Machine Learning, ECE 50653 - Fundamentals of Nanoelectronics, ECE 51032 - Computational Methods for Power System Analysis, ECE 51216 - Digital Systems Design Automation, ECE 51300 - Diffraction, Fourier Optics and Imaging, ECE 52600 - Fundamental of BioMEMS and Micro-Integrated Systems, ECE 52800 - Measurement and Stimulation of the Nervous System, ECE 54700 - Introduction to Computer Communication Networks, ECE 55700 - Integrated Circuit/MEMS Fabrication Laboratory, ECE 56200 - Introduction to Data Management, ECE 56300 - Programming Parallel Machines, ECE 56900 - Introduction to Robotic Systems, ECE 57300 - Compilers and Translator Writing Systems, ECE 57700 - Engineering Aspects of Remote Sensing, ECE 58000 - Optimization Methods for Systems And Control, ECE 59500 - Advanced Software Engineering, ECE 59500 - Applied Quantum Computing I-Fundamentals, ECE 59500 - Applied Quantum Computing II-Hardware, ECE 59500 - Applied Quantum Computing III-Algorthm and Software, ECE 59500 - Computer Vision for Embedded Systems, ECE 59500 - Data Analysis, Design of Experiments and Machine Learning, ECE 59500 - Deep Learning for Computer Vision, ECE 59500 - Food and Energy Farms: Challenges to Sustainable Production on a Crowded Planet, ECE 59500 - Integrated Circuit/MEMS Fabrication Laboratory, ECE 59500 - Introduction to Compilers I: Compiler Basics, ECE 59500 - Introduction to Compilers II: Code Generation, ECE 59500 - Introduction to Compilers III: Optimization, ECE 59500 - Introduction to Deep Learning, ECE 59500 - Introduction to Electronics Packaging and Heterogeneous Integration, ECE 59500 - Introduction to Power Electronics, ECE 59500 - Introduction to Quantum Science and Technology, ECE 59500 - MEMS I: Microfabrication and Materials for MEMS, ECE 59500 - MEMS II: Fundamentals of MEMS Design, ECE 59500 - MEMS III: Applications in MEMS, ECE 59500 - Microfabrication Fundamentals, ECE 59500 - Optical Imaging System Design, ECE 59500 - Plasmas and Electric Discharges, ECE 59500 - Stories of Success: From Our Alums and Corporate Partners, ECE 59500 - Theory and Practice of Solar Cells: A Cell to System Perspective, ECE 60022 - Wireless Communication Networks, ECE 60420 - Radio Frequency Integrated Circuits, ECE 60421 - Nanophotonics and Metamaterials, ECE 60424 - RF Design: Passive/Active Components, ECE 60614 - Reliability Physics of Nanoelectronic Transistors, ECE 60800 - Computational Models and Methods, ECE 60827 - Programmable Accelerator Architectures, ECE 60872 - Fault-Tolerant Computer System Design, ECE 61010 - Time Domain Simulation and Optimization for Design, ECE 61014 - Electromagnetic and Electromechanical Component Design, ECE 61016 - Power Electronic Converters and Systems, ECE 61020 - Operation of Modern Power Systems, ECE 61200 - Advanced VLSI Devices (Nanoscale Transistors), ECE 61700 - Antennas: Design and Application, ECE 62500 - Advanced Analysis of Electromechanical Systems, ECE 62900 - Introduction to Neural Networks, ECE 63800 - Principles of Digital Color Imaging Systems, ECE 64100 - Digital Imagine Processing II: Model-Based Image and Signal Processing, ECE 64200 - Information Theory and Source Coding, ECE 64700 - Performance Modeling of Computer Communication Networks, ECE 65600 - Electronic Transport in Semiconductors, ECE 65800 - Semiconductor Material and Device Characterization, ECE 66200 - Pattern Recognition and Decision Making Processes, ECE 66300 - Compiler Code Generation, Optimization, and Parallelization, ECE 66400 - Formal Languages, Computability, and Parallelization, ECE 66600 - Advanced Computer Systems: Parallel Computer Architecture, ECE 67300 - Distributed Computing Systems, ECE 67500 - Introduction to Analysis of Non-Linear Systems, ECE 67900 - Advanced Digital Communications, ECE 68800 - VLSI Testing and Verification, ECE 69200 - Introduction to Graduate Research, ECE 69400 - Electrical Engineering Seminar, ECE 69500 - Advanced Internet of Things Design and Applications, ECE 69500 - Big Data for Reliability and Security, ECE 69500 - Communication for Engineering Leaders, ECE 69500 - Computational Bioelectromagnetics, ECE 69500 - Datacenter and Cloud Networks, ECE 69500 - Epidemic Processes Over Networks, ECE 69500 - High-speed Semiconductor Devices, ECE 69500 - Hybrid Systems: Theory and Applications, ECE 69500 - Inference and Learning in Generative Models, ECE 69500 - Introduction to Mathematical Fundamentals for Systems and Control Theory, ECE 69500 - Introduction to Operating Systems, ECE 69500 - Machine Learning for Bioinformatics and Healthcare, ECE 69500 - Optimization for Deep Learning, ECE 69500 - Probabilistic Causal Inference, ECE 69500 - Quantum Detectors and Sensors, ECE 69500 - Structure and Dynamics of Large-Scale Networks, ECE 69600 - Advanced Electrical Engineering Projects, ECE 69700 - Direct Reading in Electrical Engineering, An equal access/equal opportunity university, Maintained by the Engineering Computer Network, Engineering Administration Communications Office, Email webmaster-ece@ecn.purdue.edu to report a problem. Mary Comer Graduate Program Requirements Indianapolis (IUPUI) Electrical and Computer Engineering Electrical and Computer Engineering Supported Degree Objectives Doctor of Philosophy (PhD) Master of Science (MS) Accelerated BS/MSECE 5 year Degree Graduate Certificate Digital Signal Processing Hybrid Electric Vehicle Power and Energy Processing Amy Reibman Undergraduate Programs: eceugadv@iupui.edu (Appointments, Advising, Permissions) Graduate Programs (MS & PhD): ecegrad@iupui.edu (Appointments, Advising, Permissions, POS, Graduation deadlines) Deliveries, Human Resources, Payroll, Timesheet issues, &/or Other Office inquiries: ece@iupui.edu 317-274-9726 MS in ECE. Use your unique experiences to become a mentor to ECE students by helping them develop new skills, build a network, set and achieve goals, and more. Yung-Hsiang Lu [CDATA[ Alexander Quinn Rajib Rahman EE Selective w/Adv Lab- Credit Hours: 4.00, ECE Electivew/Adv Lab- Credit Hours: 4.00, Complementary Elective- Credit Hours: 4.00. //

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