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Refer to 3.1 Admissions.

See also 4.1 First Year Curriculum Requirements Common to All Programs.

1. Applied Mathematics 307 Differential Equations

2. Complementary Studies Course (one half-course equivalent)

3. Computer Engineering 339 Programming Fundamentals

4. Computer Engineering 369 Computer Organization

5. Electrical Engineering 327 Signals and Transforms

6. Electrical Engineering 341 Circuits I

7. Electrical Engineering 343 Circuits II

8. Electrical Engineering 353 Digital Circuits

9. Complementary Studies Course (one half-course equivalent)

10. Electrical Engineering 361 Electronic Devices and Materials

11. Physics 369 Acoustics, Optics and Radiation for Engineers

Computer Engineering Biomedical Engineering Specialization

1. Applied Mathematics 307 Differential Equations

2. Complementary Studies Course (one half-course equivalent)

3. Computer Engineering 339 Programming Fundamentals

4. Computer Engineering 369 Computer Organization

5. Electrical Engineering 327 Signals and Transforms

6. Biomedical Engineering 327 Electrical Circuits for Biomedical Engineers

7. Electrical Engineering 343 Circuits II

8. Electrical Engineering 353 Digital Circuits

9. Biomedical Engineering 319 Applied Statistics for the Experimental Sciences

10. Electrical Engineering 361 Electronic Devices and Materials

11. Physics 369 Acoustics, Optics and Radiation for Engineers

12. Biomedical Engineering 309 Anatomy and Physiology for Engineers

Block Course - Biomedical Engineering 103 Biomedical Engineers and Technology in Health Care Q(20 hours)

Note: Students who have credit for Engineering 319 before entering their third year must substitute Engineering 319 with a Complementary Studies half-course equivalent in their third year. Students who have credit for Computer Science 331 and Mathematics 271 but not Electrical Engineering 361 before entering their third year must take Electrical Engineering 361 and one additional complementary study in their third year. Students should refer to the Complementary Studies section in 3.3 to ensure they meet all School of Engineering Complementary Studies requirements.

1. Computer Science 331 Information Structures

2. Mathematics 271 Discrete Mathematics

3. Computer Engineering 511 Assembly Language Programming, Interfacing and Real-Time Systems

4. Computer Engineering 467 Digital Electronic Circuits

5. Electrical Engineering 469 Analog Electronic Circuits

6. Software Engineering for Engineers 409 Principles of Software Development

7. Electrical Engineering 441 Control Systems I

8. Electrical Engineering 453 Digital Systems Design

9. Electrical Engineering 471 Analog Communications

10. Electrical Engineering 419 Probability and Statistics for Electrical and Computer Engineers

11. Complementary Studies Course (one half-course equivalent)

Computer Engineering Biomedical Engineering Specialization

1. Computer Science 331 Information Structures

2. Mathematics 271 Discrete Mathematics

3. Computer Engineering 511 Assembly Language Programming, Interfacing and Real-Time Systems

4. Computer Engineering 467 Digital Electronic Circuits

5. Electrical Engineering 469 Analog Electronic Circuits

6. Software Engineering for Engineers 409 Principles of Software Development

7. Electrical Engineering 441 Control Systems I

8. Electrical Engineering 453 Digital Systems Design

9. Electrical Engineering 471 Analog Communications

10., 11. Complementary Studies Courses (two half-course equivalents)

12. Biomedical Engineering Core Elective

Note: Students who completed third year when Electrical Engineering 469 was not required must take one additional technical elective (6 in total). Students should refer to the Complementary Studies section in 3.3 to ensure they meet all School of Engineering Complementary Studies requirements.

1. Computer Engineering 501 Principles of Computer Architecture

2. Electrical Engineering 583 Fourth Year Computer/Electrical/Software Engineering Team Design Project, Part A

3. Electrical Engineering 589 Fourth Year Computer/Electrical/Software Engineering Team Design Project, Part B

4. Engineering 513 The Role and Responsibilities of the Professional Engineer in Society

5. Computer Science 441 Computer Communications

6. - 10. Technical Electives (five half-course equivalents)

11. Complementary Studies Course (one half-course equivalent)

12. Computer Science 457 Principles of Operating Systems

Block Course Electrical Engineering 107 Computer, Electrical and Software Engineering Fourth-Year Block Course Q(16 hours)

Computer Engineering Biomedical Engineering Specialization

1. Biomedical Engineering Technical Elective

2. Electrical Engineering 583 Fourth Year Computer/Electrical/Software Engineering Team Design Project, Part A

3. Electrical Engineering 589 Fourth Year Computer/Electrical/Software Engineering Team Design Project, Part B

4. Engineering 513 The Role and Responsibilities of the Professional Engineer in Society

5. Computer Engineering 501 Principles of Computer Architecture

6. Computer Science 441 Computer Communications

7. Biomedical Engineering Technical Elective

8. - 10. Biomedical Engineering 500 Biomedical Engineering Research Thesis (three half-course equivalents)

or

8. Biomedical Engineering 501 Biomedical Engineering Project (one half-course equivalent)

9., 10. Biomedical Engineering or Computer Engineering Technical Electives (two half-course equivalents)

11. Complementary Studies Course (one half-course equivalents)

12. Computer Science 457 Principles of Operating Systems

Block Course Electrical Engineering 107 Computer, Electrical and Software Engineering Fourth-Year Block Course Q(16 hours)

Select six half-course equivalents

Computer Science 411 Compiler Construction

Computer Science 453 Introduction to Computer Graphics

Computer Science 471 Data Base Management Systems

Computer Engineering 491 Real-Time Systems Design

Computer Engineering 501 Principles of Computer Architecture (Only for Computer Engineering students with Biomedical Specialization)

Computer Engineering 503 Digital Video Processing

Computer Engineering 505 Parallel Computer Architectures

Computer Engineering 507 Computer Aided Design of Integrated Circuits

Computer Engineering 517 Computer Arithmetic & Computational Complexity

Computer Engineering 515 Digital Signal Processors

Computer Engineering 519* Special Topics in Computer Engineering

Electrical Engineering 591 Individual Computer, Electrical, and Software Engineering Project, Electrical Engineering 599 Individual Computer, Electrical, and Software Engineering Project, Part II

Electrical Engineering 525 Neuro-Fuzzy and Soft Computing

Electrical Engineering 527 Design and Implementation of FPGA-Based DSP Systems

Electrical Engineering 529 Wireless Communications Systems

Electrical Engineering 541 Control Systems II

Electrical Engineering 563 Biomedical Signal Analysis

Electrical Engineering 567 CMOS VLSI Engineering

Electrical Engineering 571 Digital Communications

Electrical Engineering 573 Telecommunications and Computer Communications

Electrical Engineering 593 Digital Filters

Energy and Environment, Engineering 555 Energy and Environmental Systems Analysis

Software Engineering for Engineers 533 Performance Evaluation and Testing of Non-Functional Software Requirements

Software Engineering for Engineers 545 Introduction to Virtual Reality

*A maximum of three Computer Engineering 519 courses can be selected as technical electives.

Note: Selection of a course not on this list requires department approval. Elective courses are offered, in any calendar year, at the discretion of the department.

Note: Students may not take Computer Science 471 as a technical elective if they have already completed Software Engineering for Engineers 519.31 or Computer Engineering 519.31.