Computer Science

In the computer science program you’ll study computer systems and software. You'll take courses in: 

• computer science
• software engineering
• mathematics
• technical writing

Potential careers

What can you do with a computer science degree? Here are a few jobs that relate to the program:

• software developer
• security analyst
• systems administrator
• systems auditor
• data administration
• technical writer   
• operations manager
• web technician
• strategic analyst
• researcher
• networks architect or engineer
• intelligence developer
• systems designer
• web developer
• programmer
• systems architect
• full-stack developer
• mobile application designer or developer
• artificial intelligence and machine learning scientist
• research and development (R&D) scientist
• software quality assurance manager
• data scientist
• user interface designer
• database administrator
• database designer
• database analyst
• cloud computing engineer
• information security analyst

Some of these roles may require post-graduate studies or training. 

Find a career that fits you

• Explore your career options at an appointment with a career educator.
• Attend career development workshops as you search for work.
• Take part in the Career Clarity program to generate career ideas and plan your next steps.

Experience & connections

Opportunities in the computer science program

• With the Co-op Program you can alternate study with paid work. 

Opportunities outside your program

• With a work study position you can develop skills during your study term.
• Volunteering is a great way to give back to your community while you build skills.

Networks you can connect to

Here are a few professional associations related to computer science:

• Association of Information Technology Professionals 
• Institute of Electrical and Electronics Engineers        
• Canadian Association of Computer Science 
• Association of Consulting Engineering Companies of Canada 

Hands-on learning opportunities

These courses in the computer science program offer extensive hands-on learning.

Co-op 

Co-op work terms
Alternate academic study with paid work terms to gain workplace experience

Course-based

CSC 167 - Game Strategy, Interaction and Design
Gain experience with game development

CSC 305 - Introduction to Computer Graphics
Complete hands-on graphics projects

CSC 355 - Digital Logic and Computer Organization
Use ASIC and field-programmable devices and learn digital logic design

CSC 360 - Operating Systems
Gain technical operating system skills

CSC 361 - Computer Communications and Networks
Gain technical network programming skills

CSC 375 - Introduction to Systems Analysis
Develop system analysis skills

CSC 446 - Operations Research: Simulation
Experience system simulations

CSC 463 - Wireless and Mobile Networks
CSC  466 - Overlay and Peer-to-Peer Networking
CSC  467 - Switching, Network Traffic and Quality of Service
Use advanced techniques and tools to analyze computer networks

CSC 471 - Fundamentals of Computer Rendering
CSC 472 - Fundamentals of Computer Modelling
CSC 473 - Fundamentals of Computer Animation
Use advanced techniques for 2D and 3D computer graphics and image processing

CSC 475 - Music Retrieval Techniques                          
Use advanced techniques and tools to analyze audio and music

Creative or physical practice 

CSC 225 - Algorithms and Data Structures I 
Apply concepts and programming skills

CSC 226 - Algorithms and Data Structures II              
Apply advanced concepts and programming skills

Creative or design project      

CSC 103 - Introductory Programming and Software Development
Build and deploy a software application

CSC 230 - Introduction to Computer Architecture   
Do a software project on a specified hardware

CSC 460 - Design and Analysis of Real-time Systems           
Design, use and test a real-time executive and application software

Lab      

CSC 100 - Elementary Computing     
Learn web page development and use of multimedia tools

CSC 105 - Computers and Information Processing 
Gain experience with Office Suite

CSC 110 - Fundamentals of Programming I
Explore program design using hands-on tools            

CSC 111 - Fundamentals of Programming with Engineering Applications   
Experiment with alternative solutions through real-world engineering

CSC 130 - World Wide Web and Mobile Applications 
Create web applications and gain skills in multimedia programming

CSC 167 - Game Strategy, Interaction and Design   
Explore game development

CSC 205 - 2D Computer Graphics and Image Processing 
Gain experience with graphics software

CSC 361 - Computer Communications and Networks
Learn network debugging and protocol testing

Research project         

CSC 499 - Honours Seminar and Project    
Prepare a written report and present a seminar describing your work

These courses are not always offered as described.

What you'll learn

Every student at UVic builds skills all employers look for. At UVic Co-op & Career we call these  "competencies". This is what you’ll learn in the computer science program.

Networks, hardware and communications

• understand layered network architecture
• use different digital communication networks to send data
• work with LANs and WANs
• use different network protocols at different layers
• protect networks from unauthorized access using the appropriate policies 
• identify mobile communications techniques and issues affecting multimedia quality of service
• use different types of buses, interrupts, families of processors and instruction sets

Software development, practice and theory

• work within the different software development lifecycle stages
• take business, product and process requirements into consideration
• use different software development methodologies
• use process improvement models, such as ISO 9000
• solve software development problems using formal methods
• consider software evolution issues during development

Computer hardware and systems

• use the necessary tools to improve system performance
• understand the transfer of information from one system component to another
• compare the performance of similar systems using common metrics
• identify the optimal system for a given problem
• work with different CPU architectures
• use different operating systems
• use different memory management methods

Computer information processing and algorithms

• understand computer science theory
• design automated software test tools
• manipulate information
• create solutions from user specifications and known system constraints
• improve performance using coding best practices
• understand the practical limits of a system for problem solving

What's next?

To explore more visit the computer science site. For degree planning contact your adviser for help.