School of Computer Science
(Faculty of Science)
5302 Herzberg Bldg.
613-520-4333
http://scs.carleton.ca
This section presents the requirements for programs in:
- Computer Science - B.C.S. Honours
- Computer Science - Algorithms Stream B.C.S. Honours
- Computer Science - Management and Business Systems Stream B.C.S. Honours
- Computer Science - Software Engineering Stream B.C.S. Honours
- Computer Science - Network Computing Stream B.C.S. Honours
- Computer Science - Computer and Internet Security Stream B.C.S. Honours
- Computer Science - Mobile Computing Stream B.C.S. Honours
- Computer Science - Computer Game Development Stream B.C.S. Honours
- Computer Science - Robotics Stream B.C.S. Honours
- Computer Science - Biomedical Computing Stream B.C.S. Honours
- Computer Science - Psychology Stream B.C.S. Honours
- Computer Science - B.C.S. Major
- Computer Science and Mathematics - B.Math. Combined Honours
- Concentration in Computing Theory and Numerical Methods
- Concentration in Statistics and Computing
- Minor in Computer Science
The Co-operative Education Option is available in Computer Science. See the Co-operative Education section of this Calendar for details.
Graduation Requirements
In addition to the requirements listed below, students must satisfy the University regulations common to all undergraduate students (see the Academic Regulations of the University section of this Calendar).
Students should consult with the School when planning their program and selecting courses.
Course Categories
The following categories of courses are used in defining the program requirements in Computer Science.
Computer Science (COMP)
In addition to the courses with subject code COMP, the following courses offered by the Sprott School of Business, the Faculty of Engineering and Design, and the Faculty of Arts and Social Sciences are relevant to the B.C.S. program and the Combined Honours programs. These courses are counted as Computer Science credits in B.C.S., Minor in Computer Science and Combined Honours program requirements:
BUSI 2400 [0.5] | Foundations of Information Systems | |
BUSI 4400 [0.5] | IS Strategy, Management and Acquisition | |
BUSI 4402 [0.5] | Information Systems Practicum | |
BUSI 4406 [0.5] | Business Analytics | |
SYSC 3303 [0.5] | Real-Time Concurrent Systems | |
SYSC 4005 [0.5] | Discrete Simulation/Modeling | |
SYSC 4106 [0.5] | Software Product Management | |
SYSC 4507 [0.5] | Computer Systems Architecture |
Approved Arts or Social Sciences or Science or Business
All courses offered by the Faculty of Arts and Social Sciences, the Faculty of Public Affairs, and the Sprott School of Business. In Science, only courses in BIOL, BIOC, CHEM, ENSC, ERTH, FOOD, ISCI, NSCI, PHYS, TSES. This excludes all courses in COMP, MATH, and STAT. Also excluded are courses in the Prohibited Courses category.
Natural Science Electives
This category is defined with the B.Math. programs. See the Mathematics Program section of this Calendar for details.
Prohibited Courses
The following courses cannot be used for credit in the B.C.S., the Computer Science Minor, or any Combined Computer Science program:
BUSI 1402 [0.5] | Introduction to Business Information and Communication Technologies | |
BUSI 2402 [0.5] | Business Applications Development | |
COMP 1001 [0.5] | Introduction to Computers for the Arts and Social Sciences | |
COMP 1004 [0.5] | Introduction to Computers for the Sciences | |
MATH 1009 [0.5] | Calculus: with Applications to Business | |
MATH 1119 [0.5] | Linear Algebra: with Applications to Business | |
ECON 1401/MATH 1401 [0.5] | Elementary Mathematics for Economics I | |
ECON 1402/MATH 1402 [0.5] | Elementary Mathematics for Economics II | |
and all courses in BIT, IMD and NET. |
Program Requirements
Bachelor of Computer Science Honours
Bachelor of Computer Science Honours Streams
B.C.S. Honours students may either register in the B.C.S. Honours degree below, or in one of the B.C.S. Honours streams that follow.
Computer Science
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 0.5 credit in COMP at the 2000-level or above | 0.5 | |
3. 1.5 credits in COMP at the 4000-level | 1.5 | |
B. Credits Not Included in the Major CGPA (11.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business | 5.0 | |
7. 4.0 credits in free electives. | 4.0 | |
Total Credits | 20.0 |
Computer Science
Algorithms Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (10.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 1.5 credits in: | 1.5 | |
COMP 3801 [0.5] | Algorithms for Modern Data Sets | |
COMP 3803 [0.5] | Introduction to Theory of Computation | |
COMP 4804 [0.5] | Design and Analysis of Algorithms II | |
3. 0.5 credit from: | 0.5 | |
COMP 3802 [0.5] | Computational Geometry | |
COMP 4001 [0.5] | Distributed Computing | |
4. 1.0 credit in COMP at the 4000-level or above | 1.0 | |
B. Credits Not Included in the Major CGPA (10.0 credits) | ||
5. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
6. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
7. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
8. 3.0 credits in free electives | 3.0 | |
Total Credits | 20.0 |
Computer Science
Management and Business Systems Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 0.5 credit in COMP at the 2000-level or above | 0.5 | |
3. 1.5 credits in COMP at the 4000-level | 1.5 | |
B. Credits Not Included in the Major CGPA (11.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 1.0 credit from: | 1.0 | |
BUSI 1003 and 0.5 credit in 2000-level BUSI, or | ||
Principles of Financial Accounting and Management Accounting | ||
7. 2.0 credits in: | 2.0 | |
BUSI 2101 [0.5] | Introduction to Organizational Behaviour | |
BUSI 2301 [0.5] | Introduction to Operations Management | |
BUSI 2503 [0.5] | Basic Finance for Non-Business Majors | |
BUSI 3402 [0.5] | Systems Analysis and Design | |
8. 1.0 credit in: | 1.0 | |
ECON 1000 [1.0] | Introduction to Economics | |
9. 1.5 credit in BUSI at the 3000-level or above | 1.5 | |
10. 3.5 credits in free electives. | 3.5 | |
Total Credits | 20.0 |
Computer Science
Software Engineering Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.5 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 0.5 credit from: | 0.5 | |
COMP 3008 [0.5] | Human-Computer Interaction | |
COMP 4104 [0.5] | Principles and Practice of Distributed Programming | |
3. 1.5 credits in: | 1.5 | |
SYSC 3303 [0.5] | Real-Time Concurrent Systems | |
COMP 4004 [0.5] | Software Quality Assurance | |
SYSC 4106 [0.5] | Software Product Management | |
4. 0.5 credit in COMP at the 4000-level | 0.5 | |
B. Credits Not Included in the Major CGPA (10.5 credits) | ||
5. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
6. 0.5 credit from: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
7. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
8. 3.5 credits in free electives. | 3.5 | |
Total Credits | 20.0 |
Computer Science
Network Computing Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 0.5 credit in: | 0.5 | |
COMP 3203 [0.5] | Principles of Computer Networks | |
3. 1.5 credit from: | 1.5 | |
COMP 4000 [0.5] | Distributed Operating Systems | |
COMP 4001 [0.5] | Distributed Computing | |
COMP 4009 [0.5] | Programming for Clusters and Multi-Core Processors | |
COMP 4104 [0.5] | Principles and Practice of Distributed Programming | |
COMP 4108 [0.5] | Computer Systems Security | |
COMP 4203 [0.5] | Wireless Networks and Security | |
COMP 4804 [0.5] | Design and Analysis of Algorithms II | |
B. Credits Not Included in the Major CGPA (11.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
7. 4.0 credits in free electives. | 4.0 | |
Total Credits | 20.0 |
Computer Science
Computer and Internet Security Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.5 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 2.0 credits in: | 2.0 | |
COMP 3008 [0.5] | Human-Computer Interaction | |
COMP 3203 [0.5] | Principles of Computer Networks | |
COMP 4108 [0.5] | Computer Systems Security | |
COMP 4109 [0.5] | Applied Cryptography | |
3. 0.5 credit in COMP at the 4000-level | 0.5 | |
B. Credits Not Included in the Major CGPA (10.5 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
7. 3.5 credits in free electives | 3.5 | |
Total Credits | 20.0 |
Computer Science
Mobile Computing Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (10.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 2.0 credits in: | 2.0 | |
COMP 1601 [0.5] | Introduction to Mobile Application Development | |
COMP 2601 [0.5] | Mobile Applications | |
COMP 3601 [0.5] | Social Networking | |
COMP 4601 [0.5] | Mobile Multimedia | |
3. 1.0 credit in COMP at the 4000-level | 1.0 | |
B. Credits Not Included in the Major CGPA (10.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
7. 3.0 credits in free electives. | 3.0 | |
Total Credits | 20.0 |
Computer Science
Computer Game Development Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (10.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 2.0 credits in: | 2.0 | |
COMP 1501 [0.5] | Introduction to Computer Game Design | |
COMP 2501 [0.5] | Computer Game Design and Development | |
COMP 3501 [0.5] | Foundations of Game Programming and Computer Graphics | |
COMP 4501 [0.5] | Advanced Computer Game Design and Development | |
3. 1.0 credit in COMP at the 4000-level | 1.0 | |
B. Credits Not Included in the Major CGPA (10.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
6. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
7. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
8. 3.0 credits in free electives | 3.0 | |
Total Credits | 20.0 |
Computer Science
Robotics Stream
B.C.S. Honours (20.0 credits)
A. Credits included in the Major CGPA (10.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 2.0 credits in: | 2.0 | |
COMP 1807 [0.5] | Introduction to Robotics | |
COMP 2807 [0.5] | Fundamentals of Mobile Robot Programming | |
COMP 3802 [0.5] | Computational Geometry | |
COMP 4106 [0.5] | Artificial Intelligence | |
3. 1.0 credit in COMP at the 4000-level | 1.0 | |
B. Credits not included in the Major CGPA (10.0 credits) | ||
4. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
7. 3.0 credits in free electives | 3.0 | |
Total Credits | 20.0 |
Computer Science
Biomedical Computing Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 1.0 credit in: | 1.0 | |
COMP 3308 [0.5] | Bioinformatics | |
COMP 4804 [0.5] | Design and Analysis of Algorithms II | |
3. 0.5 credit in COMP at the 4000-level | 0.5 | |
4. 0.5 credit from: | 0.5 | |
COMP 4300 [0.5] | Computational Molecular Biology | |
COMP 4308 [0.5] | Computational Systems Biology | |
B. Credits not included in the Major CGPA (11.0 credits) | ||
5. 1.5 credits from: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
6. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
7. 0.5 credit in COMP or MATH electives at the 2000-level or above | 0.5 | |
8. 2.0 credits in: | 2.0 | |
BIOL 1103 [0.5] | Foundations of Biology I | |
BIOL 1104 [0.5] | Foundations of Biology II | |
BIOL 2104 [0.5] | Introductory Genetics | |
BIOL 2600 [0.5] | Introduction to Ecology | |
9. 0.5 credit from: | 0.5 | |
BIOL 3104 [0.5] | Molecular Genetics | |
BIOL 3609 [0.5] | Evolutionary Concepts | |
10. 2.0 credits in: | 2.0 | |
CHEM 1001 [0.5] | General Chemistry I | |
CHEM 1002 [0.5] | General Chemistry II | |
CHEM 2203 [0.5] | Organic Chemistry I | |
CHEM 2204 [0.5] | Organic Chemistry II | |
11. 1.0 credit in: | 1.0 | |
BIOC 2200 [0.5] | Cellular Biochemistry | |
BIOC 3101 [0.5] | General Biochemistry I | |
12. 3.0 credits in free electives | 3.0 | |
Total Credits | 20.0 |
Computer Science
Psychology Stream
B.C.S. Honours (20.0 credits)
A. Credits Included in the Major CGPA (9.0 credits) | ||
1. 7.0 credits in: | 7.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 4905 [0.5] | Honours Project | |
2. 0.5 credit in: | 0.5 | |
COMP 3008 [0.5] | Human-Computer Interaction | |
3. 1.5 credits in COMP at the 4000-level | 1.5 | |
B. Credits Not Included in the Major CGPA (11.0 credits) | ||
4. 1.5 credits in: | 1.5 | |
Elementary Calculus I and Linear Algebra for Engineering or Science | ||
& MATH at the 2000-level or above | ||
or | ||
Calculus and Introductory Analysis I and Linear Algebra for Engineering or Science | ||
or | ||
Elementary Calculus I and Algebra I | ||
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 1.0 credit in: | 1.0 | |
PSYC 1001 [0.5] | Introduction to Psychology I | |
PSYC 1002 [0.5] | Introduction to Psychology II | |
7. 2.0 credits in: | 2.0 | |
PSYC 2001 [0.5] | Introduction to Research Methods in Psychology | |
PSYC 2100 [0.5] | Introduction to Social Psychology | |
PSYC 2700 [0.5] | Introduction to Cognitive Psychology | |
PSYC 2800 [0.5] | Introduction to Human Factors | |
8. 1.0 credit in PSYC at the 3000-level or above | 1.0 | |
9. 0.5 credit from: | 0.5 | |
PSYC 3102 [0.5] | Cognitive Processes in Social Psychology | |
PSYC 3105 [0.5] | Organizational Psychology | |
PSYC 3702 [0.5] | Perception | |
10. 1.0 credit in: | 1.0 | |
PSYC 4800 [0.5] | Aspects of Product Design Methodology | |
0.5 credit PSYC at the 4000 level | ||
13. 3.5 credits in free electives. | 3.5 | |
Total Credits | 20.0 |
Computer Science
B.C.S. Major (20.0 credits)
A. Credits Included in the Major CGPA (7.5 credits) | ||
1. 6.0 credits in: | 6.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 1805 [0.5] | Discrete Structures I | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3007 [0.5] | Programming Paradigms | |
2. 1.0 credit in COMP at the 3000-level or above | 1.0 | |
3. 0.5 credit in COMP at the 4000-level | 0.5 | |
B. Credits Not Included in the Major CGPA (12.5 credits) | ||
4. 1.0 credit in: | 1.0 | |
MATH 1007 [0.5] | Elementary Calculus I | |
MATH 1104 [0.5] | Linear Algebra for Engineering or Science | |
5. 0.5 credit in: | 0.5 | |
STAT 2507 [0.5] | Introduction to Statistical Modeling I | |
6. 5.0 credits in Approved Arts or Social Sciences or Science or Business Electives | 5.0 | |
7. 6.0 credits in free electives. | 6.0 | |
Total Credits | 20.0 |
Computer Science and Mathematics
B.Math. Combined Honours (20.0 credits)
Students must register in one of the two concentrations below, each of which adds 5.0 credits to the Major CGPA.
A. Credits Included in the Major CGPA (16.0 credits) | ||
1. 4.5 credits in: | 4.5 | |
MATH 1002 [1.0] | Calculus and Introductory Analysis I | |
MATH 1102 [1.0] | Algebra I | |
MATH 1800 [0.5] | Introduction to Mathematical Reasoning | |
MATH 2000 [1.0] | Calculus and Introductory Analysis II (Honours) | |
MATH 2100 [1.0] | Algebra II (Honours) | |
2. 6.0 credits in: | 6.0 | |
COMP 1405 [0.5] | Introduction to Computer Science I | |
COMP 1406 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
COMP 2406 [0.5] | Fundamentals of Web Applications | |
COMP 2804 [0.5] | Discrete Structures II | |
COMP 3000 [0.5] | Operating Systems | |
COMP 3004 [0.5] | Object-Oriented Software Engineering | |
COMP 3005 [0.5] | Database Management Systems | |
COMP 3804 [0.5] | Design and Analysis of Algorithms I | |
COMP 3805 [0.5] | Discrete Structures and Applications (Honours) | |
3. 0.5 credit in: | 0.5 | |
MATH 4905 [0.5] | Honours Project (Honours) | |
COMP 4905 [0.5] | Honours Project | |
4-7. Concentration (see below) | 5.0 | |
B. Credits Not Included in the Major CGPA (4.0 credits) | ||
8. 4.0 credits not in MATH, STAT, or COMP consisting of: | 4.0 | |
a. 1.0 credit in Natural Science electives | ||
b. 2.0 credits in Approved Arts or Social Sciences or Business | ||
c. 1.0 credit at the 2000-level or higher in Natural Science electives or in Approved Arts and Social Sciences | ||
Total Credits | 20.0 |
Concentration in Computing Theory and Numerical Methods (5.0 credits)
4. 3.0 credits from: | 3.0 | |
MATH 2454 [0.5] | Ordinary Differential Equations (Honours) | |
STAT 2559 [0.5] | Basics of Statistical Modeling (Honours) | |
STAT 2655 [0.5] | Introduction to Probability with Applications (Honours) | |
MATH 3801 [0.5] | Linear Programming | |
MATH 3806 [0.5] | Numerical Analysis (Honours) | |
COMP 4804 [0.5] | Design and Analysis of Algorithms II | |
5. 0.5 credit from: | 0.5 | |
MATH 3001 [0.5] | Real Analysis I (Honours) | |
MATH 3002 [0.5] | Real Analysis II (Honours) | |
MATH 3003 [0.5] | Advanced Differential Calculus (Honours) | |
MATH 3057 [0.5] | Functions of a Complex Variable (Honours) | |
MATH 3008 [0.5] | Ordinary Differential Equations (Honours) | |
6. 1.0 credit from: | 1.0 | |
MATH 4801 [0.5] | Topics in Combinatorics (Honours) | |
MATH 4802 [0.5] | Introduction to Mathematical Logic (Honours) | |
MATH 4803 [0.5] | Computable Functions (Honours) | |
MATH 4805 [0.5] | Theory of Automata (Honours) | |
MATH 4806 [0.5] | Numerical Linear Algebra (Honours) | |
MATH 4808 [0.5] | Graph Theory and Algorithms (Honours) | |
7. 0.5 credit in COMP at the 3000-level or above | 0.5 | |
Total Credits | 5.0 |
Concentration in Statistics and Computing (5.0 credits)
4. 3.0 credits in: | 3.0 | |
MATH 2454 [0.5] | Ordinary Differential Equations (Honours) | |
MATH 3806 [0.5] | Numerical Analysis (Honours) | |
STAT 2559 [0.5] | Basics of Statistical Modeling (Honours) | |
STAT 2655 [0.5] | Introduction to Probability with Applications (Honours) | |
STAT 3558 [0.5] | Elements of Probability Theory (Honours) | |
STAT 3559 [0.5] | Mathematical Statistics (Honours) | |
5. 0.5 credit from: | 0.5 | |
STAT 3506 [0.5] | Stochastic Processes and Applications (Honours) | |
STAT 3553 [0.5] | Regression Modeling (Honours) | |
6. 1.0 credit in STAT at the 4000-level | 1.0 | |
7. 0.5 credit in COMP at the 4000-level | 0.5 | |
Total Credits | 5.0 |
Minor in Computer Science (4.0 credits)
Requirements | ||
1. 2.5 credits in: | 2.5 | |
COMP 1005 [0.5] | Introduction to Computer Science I | |
COMP 1006 [0.5] | Introduction to Computer Science II | |
COMP 2401 [0.5] | Introduction to Systems Programming | |
COMP 2402 [0.5] | Abstract Data Types and Algorithms | |
COMP 2404 [0.5] | Introduction to Software Engineering | |
2. 1.0 credit from: | 1.0 | |
COMP 1805 [0.5] | Discrete Structures I (and/or COMP at the 2000-level or above) | |
3. 0.5 credit in COMP at the 3000-level or above | 0.5 | |
4. Course equivalencies and transfer credits can be used for at most 2.0 credits of the minor; the remaining 2.0 credits must be courses listed in the COMP section of this Calendar | ||
5. The remaining requirements of the major discipline(s) and degree must be satisfied. | ||
Total Credits | 4.0 |
Computer Science (COMP) Courses
School of Computer Science
Faculty of Science
Note: some of the following Computer Science courses are cross-listed from other parts of the Calendar. In every such case, only one course is actually offered and the two numbers are alternate identifiers for this single course. Students in the B.C.S. program should register in such a course under the Computer Science (COMP) number.
Introduction to Computers for the Arts and Social Sciences
This course is intended to give students in the arts and social sciences a working knowledge of computers and their applications; computer fundamentals; use of computing facilities; introduction to graphical user interfaces; a sampling of software packages applied to problems in the arts and social sciences.
Lectures three hours a week.
Introduction to Computers for the Sciences
Working knowledge of computers and their applications with particular reference to problems in Science. Computer fundamentals and the use of application packages such as spreadsheets, databases and symbolic Mathematics programs. A basic familiarity with computers is assumed.
Lectures three hours a week.
Introduction to Computer Science I
A first course in programming, emphasizing problem solving and computational thinking. Topics include pseudocode, variables, conditionals, iteration, arrays, objects, functions, sorting, searching, and simulation.
Lectures three hours a week, tutorial one and a half hours a week.
Introduction to Computer Science II
A second course in programming emphasizing problem solving and computational thinking in an object-oriented language. Topics include abstraction, mutable data structures, methods, inheritance, polymorphism, recursion, program efficiency, testing and debugging.
Prerequisite(s): one of COMP 1005, COMP 1405, SYSC 1005, ECOR 1606.
Lectures three hours a week, tutorial one and a half hours a week.
Introduction to Computer Science I
A first course in programming for B.C.S. students emphasizing problem solving and computational thinking. Topics include pseudocode, variables, conditionals, iteration, arrays, objects, functions, sorting, searching, and simulation.
Prerequisite(s): restricted to students registered in the B.C.S. program, combined Honours in Computer Science and Mathematics, Honours Computer Mathematics, and Honours Computer Statistics.
Lectures three hours a week, tutorial one and a half hours a week.
Introduction to Computer Science II
A second course in programming for BCS students, emphasizing problem solving and computational thinking in an object-oriented language. Topics include abstraction, mutable data structures, methods, inheritance, polymorphism, recursion, program efficiency, testing and debugging.
Prerequisite(s): one of COMP 1405, COMP 1005, ECOR 1606, SYSC 1005. Restricted to students registered in the B.C.S. program, combined Honours in Computer Science and Mathematics, Honours Computer Mathematics, and Honours Computer Statistics.
Lectures three hours a week, tutorial one and a half hours a week.
Introduction to Computer Game Design
Introduction to computer game programming interfaces. Topics may include: game balance and level design; storytelling and narrative; basic game architecture; sprite-based games and isometric games; representation of scenes; user interaction; architecture of game consoles; development tools for game consoles; interaction with game peripherals.
Introduction to Mobile Application Development
Introduction to developing mobile applications using the Mac OS X platform. Topics include: the Objective-C programming language; development tools; framework API's; and the Quartz graphic system. Extensive practical experience with development for Apple mobile devices such as the iPhone.
Discrete Structures I
Introduction to discrete mathematics and discrete structures. Topics include: propositional logic, predicate calculus, set theory, complexity of algorithms, mathematical reasoning and proof techniques, recurrences, induction, finite automata and graph theory. Material is illustrated through examples from computing.
Precludes additional credit for MATH 1800.
Prerequisite(s): one Grade 12 university preparation mathematics course.
Lectures three hours a week, tutorial one hour a week.
Introduction to Robotics
An introduction to the field of mobile robots and their applications from a computer science perspective. The course will discuss common robot programming architectures and strategies. Students will build various robot configurations and experiment with a variety of sensors using behavior-based programming.
Introduction to Systems Programming
Introduction to system-level programming with fundamental OS concepts, procedures, primitive data types, user-defined types. Topics may include process management, memory management, process coordination and synchronization, inter-process communication, file systems, networking, pointers, heap and stack memory management, and system/library calls.
Prerequisite(s): one of COMP 1406, COMP 1006 or SYSC 2004, with a minimum grade of C-.
Lectures three hours a week, tutorial one and a half hours a week.
Abstract Data Types and Algorithms
Introduction to the design and implementation of abstract data types and to complexity analysis of data structures. Topics include: stacks, queues, lists, trees and graphs. Special attention is given to abstraction, interface specification and hierarchical design using an object-oriented programming language.
Prerequisite(s): one of COMP 1406, COMP 1006, SYSC 2004, with a minimum grade of C-.
Lectures three hours a week.
Introduction to Software Engineering
Introduction to object-oriented software development, with emphasis on design and implementation of medium-sized programs. Topics include abstraction, modularity, encapsulation, reusability, and design patterns.
Prerequisite(s): one of COMP 2401, SYSC 2006.
Lectures three hours a week, tutorial one and a half hours a week.
Fundamentals of Web Applications
An introduction to Internet application development that emphasizes the computer science fundamentals of the technologies underlying web applications. Topics include: scripting and functional languages, language-based virtual machines, database query languages, remote procedure calls over the Internet, and performance and security concerns in modern distributed applications.
Prerequisite(s): one of COMP 2401, SYSC 2006.
Lectures three hours a week and tutorial one and a half hours a week.
Computer Game Design and Development
Topics may include: user interaction in multiplayer games, representation of animated scenes, tools for game character development, special effects, sound programming, game AI, motion planning and control, collision detection and physics, digital rights management.
Lectures three hours a week, tutorial one and a half hours a week.
Mobile Applications
Development of applications for mobile environments taking advantage of gesture-based input and using location and presence services. Topics include introduction to low-level network services and mobile platforms, description of architectural patterns, principles of mobile development and interaction styles for network service usage.
Discrete Structures II
A second course in discrete mathematics and discrete structures. Topics include: counting, sequences and sums, discrete probability, basic statistics, recurrence relations, randomized algorithms. Material is illustrated through examples from computing.
Fundamentals of Mobile Robot Programming
A continuation of COMP 1807, this course will focus on data uncertainty and various timing issues inherent to the field of mobile robot programming. Topics may include position estimation, forward/inverse kinematics, navigation, data-logging, mapping and robot-computer interaction through wireless communication.
Operating Systems
Operating system implementation course stressing fundamental issues in design and how they relate to modern computer architectures. Assignments involve the modification and extension of a multitasking operating system.
Prerequisite(s): one of COMP 2402, SYSC 2100, and one of COMP 2401, SYSC 2006.
Lectures three hours a week.
Compiler Construction
The structure, organization and design of the phases of a compiler are considered: lexical translators, syntactical translators, scope handlers, type checkers, code generators and optimizers. Components of a compiler will be implemented.
Object-Oriented Software Engineering
Theory and development software systems. This course will discuss computer ethics. Possible topics include: software development processes, requirement specification, class and scenario modeling, state modeling, UML, design patterns, traceability. Students are to complete a team project using a CASE tool.
Prerequisite(s): one of COMP 2404, SYSC 3010.
Lectures three hours a week.
Database Management Systems
Introduces students to concepts of database management systems, database design and file structures. Topics include: entity-relationship modeling and object oriented database design, data models (relational, network and object oriented), the relational algebra, SQL, normalization theory, physical data organization, object oriented databases and OQL.
Prerequisite(s): COMP 2402, or both of SYSC 2004 and SYSC 2100.
Lectures three hours a week.
Programming Paradigms
An introduction to alternative programming paradigms such as functional, constraint-based, concurrent, and logic programming.
Human-Computer Interaction
Fundamentals of the underlying theories, design principles, development and evaluation practices of human-computer interaction (HCI). Topics may include: theories of interaction, user interface frameworks, desktop, web, mobile, and immersive applications, usability inspection and testing methods, and qualitative and quantitative approaches to HCI research.
Lectures three hours a week.
Computer Graphics
An overview of computer graphics covering rendering, modeling, and animation. Topics include geometric primitives and modeling; image formation algorithms such as ray tracing and the Z-buffer; lighting, shading, and texture; and introduction to physics-based animation and character animation.
Principles of Computer Networks
This is an introductory course to the field of Network Computing. Topics include: Protocol Architectures and Internetworking, Types of Networks, Communication Protocols, End-System and Network Traffic Management, Structure of Routing and Congestion Control.
Prerequisite(s): one of COMP 2402, SYSC 2100, and one of COMP 2401, SYSC 2006.
Lectures three hours a week.
Bioinformatics
This practical interdisciplinary course will provide a broad overview of bioinformatics in which computer science and mathematics are applied to solve problems in molecular biology. Topics include gene prediction, sequence alignment, phylogeny, molecular interactions, macromolecular structure prediction and biological databases.
Precludes additional credit for BIOC 4006.
Prerequisite(s): BIOC 2200 or BIOL 2200, or permission of the Biochemistry Institute.
Lecture 1.5 hours a week, computer workshop three hours a week.
Foundations of Game Programming and Computer Graphics
Mathematical concepts of 3D engines. Topics may include: illumination and visibility determination; quaternions; homogeneous coordinates; transforms; ray tracing; bump mapping; portal systems; polygonal techniques; shadows; and linear and rotational physics.
Social Networking
Introduction to virtual communities, overlay networks and social networking. Topics include architectural principles for heterogeneous social networking platforms, trust and reputation as social concepts, agent-based computing, and extraction of trends and patterns from information exchanged between community members.
Algorithms for Modern Data Sets
Algorithm design techniques for modern data sets arising in, for example, data mining, web analytics, epidemic spreads, search engines and social networks. Topics may include streaming, memory hierarchy aware, game theoretic, parallel, distributed, cloud-based, and probabilistic algorithms.
Computational Geometry
An introduction to computational geometry focusing on applications to autonomous mobile robots. Topics may include planning, probabilistic roadmaps, search strategies, coverage algorithms, watchman routes, vision-based landmark identification and multi-robot applications.
Introduction to Theory of Computation
Theoretical aspects of computer science. Topics include: formal languages and automata theory, computability theory.
Prerequisite(s): COMP 1805 or MATH 1800.
Lectures three hours a week.
Design and Analysis of Algorithms I
An introduction to the design and analysis of algorithms. Topics include: divide-and-conquer, dynamic programming, linear programming, greedy algorithms, graph algorithms, NP-completeness.
Prerequisite(s): one of COMP 2402 or SYSC 2100, and either COMP 1805/MATH 1805, or both of MATH 2007 and MATH 2108 or equivalents.
Lectures three hours a week.
Discrete Structures and Applications (Honours)
Enumeration: inclusion and exclusion, recurrence relations, generating functions and applications. Graph theory: connectivity, planarity, Hamilton paths and Euler trails. Error-correcting codes. Designs and finite geometries. Symmetry and counting.
Precludes additional credit for MATH 3805 and MATH 3825.
Prerequisite(s): MATH 2100 or a grade of B or higher in MATH 2108 or MATH 3101.
Lectures three hours a week and one hour tutorial.
Numerical Analysis
Elementary discussion of error, polynomial interpolation, quadrature, linear systems of equations and matrix inversion, non-linear equations, difference equations and ordinary differential equations.
Prerequisite(s): i) MATH 1002, MATH 1005 or MATH 2007 (or MATH 2001 or MATH 2002); and ii) MATH 1102 or MATH 2107; and (iii) knowledge of a computer language.
Lectures three hours a week and one hour tutorial.
Mathematical Software
Incorporation of basic numerical methods into efficient, reliable software. The course includes examination of existing software systems, e.g. linear systems, non-linear systems, optimization, or differential equations.
Co-operative Work Term
Distributed Operating Systems
An advanced course emphasizing the principles of distributed operating systems including networking protocols, distributed file systems, remote IPC mechanisms, graphical user interfaces, load balancing, and process migration. Case studies include current "standards" as well as novel systems under development.
Lectures three hours a week.
Distributed Computing
Overview of distributed computing. Topics include: computational models, communication complexity, design and analysis of distributed algorithms and protocols, fault-tolerant protocols, synchronous computations. Applications may include: communication in data networks, control in distributed system (e.g., election, distributed mutual exclusion), manipulation of distributed data (e.g., ranking).
Real-Time 3D Game Engines
The design and implementation of game engines for real-time 3D games including topics such as camera control, environmental effects, articulated models, terrain, vegetation, collision detection, particles, emitters, triggers, portals, waypoints, mirrors, and shadows.
Transaction Processing Systems
Concepts and architectures of transaction processing systems and on-line transaction processing, with emphasis on data integration systems. Transaction properties and models, embedded-SQL, active rules, consistency maintenance, serializability, concurrency control, recovery, data integration systems and federated databases, introduction to transactions in web services and workflow systems.
Software Quality Assurance
Introduction to the theory and practice of Software Quality Assurance. Topics include: functional requirements analysis, system requirement analysis, verification and validation, traceability, white box testing, integration testing, object-oriented testing, tools, and management issues.
Programming for Clusters and Multi-Core Processors
Introduction to parallel architectures, programming languages and algorithms for processor clusters and multi-core processors. Distributed memory architectures, cluster computing, message passing parallel programming, multi-core processors, shared memory parallel programming, use of thread libraries, parallel performance analysis.
Lectures three hours a week.
Computer Vision
This course introduces the basic ideas and techniques of computer vision. The central theme is reconstructing 3D models from 2D images. Topics include: image formation, image feature extraction, camera models, camera calibration, structure from motion, stereo, recognition, augmented reality, image searching.
Principles and Practice of Distributed Programming
Advanced course on distributed programming in Java. Introduces students to standard design patterns for implementing components that solve common distributed programming challenges in Java. Topics covered include: threads, message passing, coordination, distributed object technology, web-based services, and collaborative applications.
Lectures three hours a week.
Artificial Intelligence
Several areas in knowledge-based systems are covered, including recent approaches to machine learning and data mining, inference methods, knowledge-based and fuzzy systems, heuristic search, and natural language processing.
Lectures three hours a week.
Evolutionary Computation and Artificial Life
Study of algorithms based upon biological theories of evolution, applications to machine learning and optimization problems. Genetic Algorithms, Classifier Systems, and Genetic Programming in details. Recent work in the fields of Artificial Life (swarm intelligence, distributed agents, behavior-based AI) and of connectionism is also studied.
Computer Systems Security
Introduction to information security in computer and communications systems, including network, operating systems, web and software security; Passwords, authentication applications, privacy, data integrity, anonymity, secure email, IP security, security infrastructures, firewalls, viruses, intrusion detection, network attacks.
Prerequisite(s): one of COMP 3203 or SYSC 4602, and one of COMP 3000, SYSC 3001, SYSC 4001.
Lectures three hours a week.
Applied Cryptography
Practical aspects of cryptography. Pseudo random number generation, symmetric cryptography (stream and block ciphers), modes of operation, hash functions, message and entity authentication protocols, zero knowledge, pitfalls deploying public-key encryption and digital signatures, key distribution, secret-sharing.
Prerequisite(s): one of COMP 2402, SYSC 2100, and a MATH course at the 2000-level or above.
Lectures three hours a week.
Wireless Networks and Security
An introduction to wireless networks covering both networking issues and security aspects of modern wireless environments. Fundamentals of mobile LANs, ad hoc, sensor networks, secure routing, searching, clustering, multicasting, localization, mobile IP/TCP, confidentiality, key establishment, authentication, broadcasting, RFIDs, and rogue attacks.
Computational Molecular Biology
Fundamental mathematical and algorithmic concepts underlying molecular computational biology; physical and genetic mapping, sequence analysis (including alignment and probabilistic models), genomic rearrangements, phylogenetic inference, computational proteomics and systemic modeling of the whole cell.
Computational Systems Biology
Modeling and simulation of metabolic and regulatory networks towards understanding complex and highly dynamic cellular systems. Biotechnological applications include metabolic engineering, synthetic biology, and drug discovery.
Prerequisite(s): BIOC 3101 or permission of the Biochemistry Institute.
Lecture 1.5 hours per week, workshop 1.5 hours a week.
Advanced Computer Game Design and Development
Selected computer game topics including: networked games; online games; high performance computing for game development; high resolution scenes; massively multiplayer online games (MMOG); advanced character development; facial modeling and animation; the computer games marketplace and business models.
Mobile Multimedia
Introduction to the creation, delivery and playback of multimedia over high-speed wireless networks on mobile devices. Topics include human computer interaction, standards, interaction with networking aspects, security, video streaming, gaming, navigation and context aware services, and immersive communications in virtual environments.
Computable Functions
Recursive functions and computability, algorithms, Church's thesis, Turing machines, computational logic, NP-completeness.
Design and Analysis of Algorithms II
A second course on the design and analysis of algorithms. Topics include: advanced recurrence relations, algebraic complexity, advanced graph algorithms, amortized analysis, algorithms for NP-complete problems, randomized algorithms.
Theory of Automata
Finite automata and regular expressions, properties of regular sets, context-free grammars, pushdown automata, deterministic context-free languages. Turing machines, the Chomsky hierarchy. Undecidability, intractable problems.
Precludes additional credit for MATH 5605.
Prerequisite(s): COMP 3805 or MATH 3106 or MATH 3158 (or MATH 3100) or permission of the School.
Lectures three hours a week.
Numerical Linear Algebra
Study of matrix inversion techniques; techniques of finding eigenvalues and eigenvectors, solution of systems of linear equations; direct and indirect methods, their comparison and error analysis; applications in optimization and other areas.
Prerequisite(s): MATH 1102 or MATH 2107; and MATH 2000 or MATH 3009, or permission of the School.
Lectures three hours a week.
Advanced Topics in Computer Science
Selected topics in Computer Science offered by members of the School of Computer Science.
Lectures three hours a week.
Directed Studies
A course of independent study under the supervision of a member of the School of Computer Science, open only to students in the B.C.S. program. Students are required to obtain their supervisor's written approval prior to registration and are limited to two such courses in their programs.
Honours Project
Under the supervision of a faculty member, Honours students complete a major Computer Science project in fourth year. Permission to register is granted once an approved project proposal is submitted to the Department. See deadlines and details on the School web site.
Summer session: some of the courses listed in this Calendar are offered during the summer. Hours and scheduling for summer session courses will differ significantly from those reported in the fall/winter Calendar. To determine the scheduling and hours for summer session classes, consult the class schedule at central.carleton.ca
Not all courses listed are offered in a given year. For an up-to-date statement of course offerings for the current session and to determine the term of offering, consult the class schedule at central.carleton.ca