Curriculum for entry from CEGEP can be found below.

First ( Fall ) Semester ( TOTAL = 15 cr )

• CIVE 281 Mechanics (3 cr, C- MATH 260 and MATH 261)
• COMP 202 Introduction to Computing I (3 cr)
• MATH 260 Intermediate Calculus (3 cr)
• MATH 261 Differential Equations (3 cr, C- MATH 260)
• MIME 310 Engineering Economy (3 cr)

Second ( Winter ) Semester ( TOTAL = 17 cr )

• COMP 250 Introduction to Computer Science (3 cr, P - COMP 202)
• ECSE 200 Fundamentals of EE (3 cr, C - MATH 261 or MATH 325)
• ECSE 221 Introduction to Computer Engineering (3 cr, C - COMP 202)
• EDEC 206 Communication in Engineering (3 cr)
• MATH 265 Advanced Calculus (3 cr, P- MATH 260)
• MIME 221 Engineering Professional Practice (2 cr)

Third ( Fall ) Semester (TOTAL = 17 cr )

• COMP 302 Programming Languages and Paradigms (3 cr, P - COMP 250)
• ECSE 210 Circuit Analysis (3 cr, P - ECSE 200)
• ECSE 291 Electrical Measurements Lab (2 cr, C - ECSE 210)
• ECSE 321 Introduction to Software Engineering (3 cr, P - COMP 202 or COMP 208)
• ECSE 322 Computer Engineering (3 cr, P - ECSE 200 and ECSE 221)
• MATH 270 Applied Linear Algebra (3 cr, P - MATH 261)

Fourth ( Winter ) Semester ( TOTAL = 17 cr )

• ECSE 303 Signals and Systems I (3 cr, P-ECSE 210, MATH 270/247; C-MATH 381/249)
• ECSE 323 Digital System Design (5 cr, P-ECSE 221, ECSE 291 and EDEC 206)
• ECSE 330 Introduction to Electronics (3 cr, P - ECSE 210)
• MATH 363 Discrete Mathematics(3 cr, P - MATH 265 and MATH 270)
• MATH 381 Complex Variables (3 cr, P- MATH 265)

Fifth ( Fall ) Semester ( TOTAL= 14 cr )

• ECSE 304 Signals and Systems II (3 cr, P - ECSE 303)
• ECSE 305 Probability and Random Sig. I (3 cr, P - ECSE 303)
• ECSE 334 Intro. to Microelectronics (5 cr, P - ECSE 291, ECSE 303, ECSE 330 and EDEC 206)
• ECSE 425 Computer Organization and Architecture (3 cr, P- ECSE 322 and ECSE 323)

Sixth ( Winter ) Semester ( TOTAL = 14 cr )

• ECSE 427 Operating Systems (3 cr, P - ECSE 322 or COMP 273)
• ECSE/COMP xxx Technical Complementary I (3 cr)
• ECSE/COMP xxx Technical Complementary II (3 cr)
• ECSE 4xx Lab Complementary I (2 cr)
• XXXX xxx General Complementary I (3 cr)

Seventh ( Fall ) Semester ( TOTAL = 14 cr )

• ECSE 353 Electromagnetic Fields and Waves(3 cr, P - MATH 265 and ECSE 210)
• ECSE 494 Project Laboratory (3 cr, P - EDEC 206 and 42 departmental credits)
• ECSE/COMP xxx Technical Complementary III (3 cr)
• ECSE 4xx Lab Complementary II (2 cr)
• XXXX xxx General Complementary II (3 cr)

NOTES

All courses are core courses except for technical, laboratory and general complementary courses. Core courses are shown in boldface above. All core courses must be passed with a grade "C" or better. Also, a grade of "C" is required for an ECSE xxx core course in order to proceed with its follow-on ECSE xxx course(s), and a grade of "C" is required for a MATH xxx course in order to proceed with its follow-on MATH xxx course(s). A grade of "D" is only acceptable for non-core courses.

Laboratory complementaries are normally taken in conjuction with a technical complementary. The courses ECSE 426, Microprocessor Systems, ECSE 431, Intro. to VLSI CAD and ECSE 435, Mixed Signal Test Techniques, can be taken as a technical complementary or a lab complementary.

Technical complementaries are selected from the list of 400-level courses offered by the Department of Electrical and Computer Engineering.

General complementary studies requirements consist of 3 credits from a special list which relate to the Impact of Technology on Society and 3 credits from a special list of Humanities and Social Sciences and, Administrative Studies and Law (see Section 3.4, Page 167 of the 2003-2004 鲍鱼直播 Calendar).

REVISED June 2003