Advanced Diploma in Computer Programming and Analysis

at George Brown College - Casa Loma Campus Canada

The International Fashion Management program is a one-year graduate certificate program* designed for the student or industry professional with a serious interest in the international apparel business.

The program provides you with the skills essential to succeed in the global apparel market. As new communication technologies make the world a smaller place, more possibilities for the fashion industry emerge on an international scale, along with many related career opportunities.

You are exposed to world trade through the study of economic, legal and cultural factors that affect international trade policies. Specifically, the focus of study is on the understanding of business practices, global marketing, logistics and supply chain management as they relate to the fashion industry worldwide. The program content combines analytical and management skills, along with knowledge of world culture and understanding of the global economy, to enable success in the international apparel industry.

Program Learning Outcomes
The graduate has reliably demonstrated the ability to:

• Manage processes relating to the international movement of apparel goods according to supply chain and logistics principles.
• Identify the knowledge of international trade and licensing agreements required to perform import, export and source functions in an apparel business operation.
• Analyze global economics and geopolitics to inform selection of international apparel business partners.
• Research and create a global marketing plan to support international apparel business strategies.
• Develop culturally appropriate strategies and techniques to communicate successfully in a global apparel business environment.
• Select current business practices, research methods, analytic techniques and tools required to conduct apparel business operations in a global context.
• Practise business ethically by applying principles of environmental, economic and social sustainability to domestic and international apparel operations.

The Fashion Techniques and Design program prepares graduates for careers in garment manufacturing design rooms. This is a women's wear program that simulates, as closely as possible, the industry's standards, practices and facilities. You will use industrial machines and learn the essentials of technical illustration, pattern making, pattern grading and clothing construction. Additional core subjects include textiles, technical specifications and history of costume. Program electives allow you to select specific related subject areas, such as fashion show development, portfolio development, draping, lingerie, men's pattern drafting, leather apparel, knitwear and bridal and evening wear. Computer skills in Adobe Illustrator, pattern drafting and pattern grading are included as core and elective courses and are continually upgraded to meet industry needs. This program covers introductory methods to more advanced concepts in the second year.

An annual fashion show and portfolio event highlights successful student projects. Students have the opportunity to network with industry, participate in numerous competitions, work on applied research projects, volunteer and attend industry events.

Note: This program requires extensive sewing; manual dexterity and good vision are assets. Both sewing experience and access to a sewing machine outside of the campus facilities are expected.

At the School of Fashion and Jewellery, the learning environment is as diverse as our students and there are many extracurricular activities to take advantage of.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Draft and grade flat patterns for mass garment production.
  • Select and use production methods and techniques that best suit the fabric, pattern and design of the garments.
  • Select garment materials that are compatible with the overall apparel design and meet the user's needs.
  • Operate industrial sewing, pressing, grading and other technical equipment safely to professional standards.
  • Apply technical and computing skills to fashion design and production.
  • Research and analyze factors, trends, stylistic features, and art principles that influence current fashions.
  • Prepare visual and portfolio materials, product specifications, and cost analysis for a product, project and/or market.
  • Design, prototype and produce original patterns and garments using mass production industrial methods and equipment.

The Gemmology program teaches you to analyze and classify a wide variety of gem materials, both natural and artificially created. The program focuses on analyzing chemical and physical characteristics of gem and gem-like materials, and identifying different gems. The gem materials are classified into categories according to their desirable characteristics, which eventually determine the value of the gems. To accomplish the identification and classification, you use a number of specially designed instruments, such as microscopes, spectroscopes, refractometers and polariscopes, on real gem materials.

Visual acuity and accurate colour rendition are essential traits for success in Gemmology.

Refractive Index liquid (RI liquid), which contains diiodomethane, is a commonly used chemical in Gemmology practice. If you are pregnant, have certain medical conditions or are sensitive to RI liquid, please consult with your physician for advice before you attend this program, as you will be exposed to RI liquid in Gemmology lab work.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Identify a large number of gemstones and gem materials and distinguish them from synthetics and imitations.
  • Use, maintain and handle gemmological instruments and testing equipment competently and safely.
  • Grade gemstones for quality based on their cut, colour and other physical characteristics, chemical composition and possible place of origin.
  • Grade diamonds based on their cut, clarity, colour and carat weight.
  • Apply the basic skills of jewellery appraisal to assess market value.
  • Contextualize jewellery according to historical and stylistic qualities to assess provenance, materials and method of production.
  • Conduct ethical and secure business practices consistent with jewellery business standards.

Today, few organizations make any significant plans without thoroughly understanding the Information Technology (IT) implications. IT professionals are a vital part of decision-making business teams. George Brown College answers this need with its three-year (six-semester) Computer Programmer Analyst program. The broad education in programming and IT analysis that it offers can provide you with a stable platform for career growth in the rapidly expanding and ever-changing world of information technology.

During the first two years of the program, you will develop the skills and techniques required for software application development and testing. The industry tells us they are looking for Computer Programmer Analysts with “the total package.” So the third year includes advanced technical skills in areas such as systems analysis and design techniques – and continues to develop communications, teamwork and other client service skills such as needs assessment, sales, and presentation methods.

George Brown offers other distinct advantages:

• Students are involved in project-based and experiential learning.
• In the third year, students are exposed to the fast-growing game development sector.
• Students are also exposed to mobile application development using the latest mobile devices.

*If you enrol in January, you must complete semester 2 in the summer, May to August, in the same year.

Note: In this rapidly changing industry, program improvements are being made on an ongoing basis, which may result in course changes. Changes are made in consultation with our Program Advisory Committee, which is composed of academic staff and industry representatives from small, medium-sized and large corporations.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Identify, analyze, design, develop, implement, verify and document the requirements for a computing environment.
  • Diagnose, troubleshoot, document and monitor technical problems using appropriate methodologies and tools.
  • Analyze, design, implement and maintain secure computing environments.
  • Analyze, develop and maintain robust computing system solutions through validation testing and industry best practices.
  • Communicate and collaborate with team members and stakeholders to ensure effective working relationships.
  • Select and apply strategies for personal and professional development to enhance work performance.
  • Apply project management principles and tools when responding to requirements and monitoring projects within a computing environment.
  • Adhere to ethical, social media, legal, regulatory and economic requirements and/or principles in the development and management of the computing solutions and systems.
  • Investigate emerging trends to respond to technical challenges.
  • Gather, analyze and define software system specifications based on functional and non-functional requirements.
  • Design, develop, document, implement, maintain and test software systems by using industry standard software development methodologies based on defined specifications and existing technologies/frameworks.
  • Select and apply object-oriented and other design concepts and principles, as well as business requirements, to the software development process.
  • Gather requirements and model, design, implement, optimize, and maintain data storage solutions.
  • Integrate network communications into software solutions by adhering to protocol standards.

Electromechanical Engineering Technology – Power and Control is designed to provide students with both theoretical and practical experience, enabling them to work in a wide variety of electrical engineering areas including power and control systems, utilities, industrial automation and robotics, instrumentation and process control. The curriculum incorporates theory, applications, practical experience and safety practices from power systems, utilities, manufacturing, control system, automation and computer industries, along with concepts from the sciences and humanities to ensure the graduate is equipped with technical knowledge, skills and practice.

This program is designed to teach you new construction and building renovation skills from both an applied perspective and a management perspective, including carpentry techniques and new materials applications while providing a solid understanding of the renovation-related trades.

Hands-on training takes place in fully equipped labs where students practice current techniques related to renovations and new home construction, using sustainable design principles. The third year of the program focuses on project management skills required to work in a supervisory role. You will also have an introductory exposure to the business skills that can be adapted to starting and running a renovation, custom home building or general contracting business.

Practical applications include:

• Residential construction and renovations
• Millwork
• Demolition
• Framing
• Finishes
• Drywall installation and finishing
• Site management
• Cabinetry
• Stair construction
• Building code
• Basic electrical, HVAC, and plumbing systems.

Business skills include:

• Business management
• Marketing
• Client relations
• Project management
• Site management
• Scheduling
• Controlling, estimating and bookkeeping
• Budgeting and financial management
• Inspections

You will also learn how to use and apply computer software and technology currently used in the construction industry, including spreadsheets, computer-aided design, estimating, project management and presentation tools.

Note: When you enrol in the program in January, you are required to complete semester 2 in the summer (May to August) of the same year in order to continue into semester 3 in the fall.

This program is unique in Ontario.

Your Field Education Options
This program requires the successful completion of two semesters of field placement. George Brown works with employers and industry partners to identify potential work experience opportunities. Students are also strongly encouraged to pursue self-directed industry work experience opportunities they believe would provide the learning experiences they value and meet the learning outcomes of the program. This valuable work experience can in turn be added to your resume.

In addition to more formal on-the-job work experience, George Brown College endeavours to provide additional learning opportunities with real-world challenges and clients. Find out more about field education at our Industry Liaison Office.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Develop and use strategies for ongoing professional development to remain current with industry changes, enhance work performance and explore career opportunities.
  • Comply with and monitor health and safety practices and procedures in accordance with current legislation and regulations.
  • Prepare quotes and monitor that work is completed in compliance with the rights and conditions of contractual obligations, the Ontario and/or National Building Codes, applicable laws, bylaws, standards and ethical practices in the building construction and renovation field.
  • Promote and maintain sustainability practices in the implementation of building construction and renovation projects.
  • Facilitate collaboration and interaction among a range of tradespersons and project stakeholders to support timely completion of building construction and renovation projects.
  • Review and interpret project plans and produce technical sketches and documents to support building construction and renovation projects.
  • Use technologies to obtain, analyze, organize and communicate building construction and renovation information.
  • Analyze and solve technical problems related to the design and implementation of building construction and renovation projects by applying the principles of advanced technical mathematics, building design and building science.
  • Select, maintain and safely use hand tools, and portable and stationary power tools, when performing layout, cutting, fitting and assembly operations.
  • Complete building and renovation stages, from site layout and footings to the application of interior and exterior finishes, in accordance with blueprint specifications and conservation principles.
  • Evaluate the methods employed and the use of equipment and materials involved in the completion of building construction and renovation projects.
  • Schedule, coordinate and monitor the progression of building construction and renovation projects by applying principles and strategies of project management.
  • Design and implement business strategies to develop home building, renovation and re-development enterprises.
  • Apply leadership, supervision and interpersonal skills to manage building construction and renovation projects.

Looking to transition careers or fill in the gaps to gain advanced blockchain development skills?

This unique Blockchain Development program at George Brown College in Toronto focuses on designing and implementing decentralized applications by leveraging blockchain technology. The three-semester program is designed to also thoroughly cover full stack development to give potential students all the tools they need to succeed in this emerging and exciting field.

This program has been developed with the support of blockchain industry professionals and is taught in a full-time executive format of approximately 20 hours per week of study over a 26-week time period. Co-op and work integrated learning opportunities are available during the third semester of the program. It is the first certificate in blockchain offered by a Canadian college.

The skills you’ll learn include:

• Smart contracts
• Design patterns for blockchain
• Distributed applications (dApps)
• Full stack development
• Blockchain architecture, security practices, laws and regulations, and more

Your Field Education Options
During the third semester of the program, students may choose whether to apply for a Co-op position or take a Work Integrated Learning course which includes an industry-sponsored project.

To be eligible for co-op, a student must complete all Semester 1 and Semester 2 courses. As well, an overall GPA of 3.0 must be achieved.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Communicate essential concepts related to blockchain technology and its industry applications.
  • Implement best security practices for blockchain solutions.
  • Design cryptoeconomic models to solve business problems.
  • Design the architecture of decentralized applications and systems.
  • Develop decentralized applications leveraging blockchain technology.
  • Explain the legal implications, regulations, and industry standards that are relevant to blockchain technology.
  • Apply IT project management principles and best practices.
  • Contribute to the field and blockchain community through various open source projects, partnerships, and community involvement.

A solid grounding in engineering sciences and practical hands-on experience in mechanical shops and computer assisted design laboratories provide the combination of applied and theoretical knowledge that employers expect in today’s integrated work environments.

In the third year of the program, teams plan and craft their own creations that require the application of all of the knowledge accumulated throughout the program. Once built, projects such as medical devices, entertainment equipment, solar-powered products and automotive accessories are often put on display and form an important part of the student assessment. More importantly, graduates learn to work in teams while solidifying their mechanical engineering knowledge and skills.

Note: If you enrol in the program in January, you must complete semester 2 in the summer (May to August) of the same year.

Your Field Education Options
Field study in the form of applied research is provided to all students.

Some students will also have the opportunity to complete a Co-op term. Co-op participants will be selected based on their academic performance, including a minimum GPA of 3.0 and an interview component.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Communicate clearly and concisely in written, graphic and oral form using appropriate formal and informal vocabulary and formats.
  • Display appropriate responsible attitudes.
  • Carry out established design procedures, making use of handbooks, catalogues, specifications, and codes. He/she should be able to recognize problems and apply established engineering practice to arrive at practical solutions.
  • Prepare and interpret detail drawings, assembly drawings and compile technical specifications.
  • Inspect, conduct tests, and compare and compile data in accordance with standard formats and procedures.
  • Assist in the planning, operation, control, and improvement of manufacturing and production processes.
  • Participate in the installation and maintenance of equipment and systems.

Building Renovation Technician is a two-year program designed to prepare you for employment in the renovation and construction field, with sustainable design principles being key.

You will learn new construction and building renovation skills, carpentry techniques and new materials applications while gaining a solid understanding of the renovation-related trades. Hands-on training takes place in fully equipped labs where students practice framing and finishing techniques using sustainable design principles.

Practical applications include:

• Residential construction and renovations
• Millwork
• Demolition
• Framing
• Finishes
• Drywall installation and finishing
• Site management
• Cabinetry
• Stair construction
• Building code
• Basics in electrical, HVAC, and plumbing systems
• Estimating

Note: When you enrol in the program in January, you are required to complete semester 2 in the summer (May to August) of the same year in order to continue into semester 3 in the fall.

Your Field Education Options
This program offers two field placement opportunities in semester 3 and semester 4. George Brown works with employers and industry partners to identify potential work experience opportunities. Students are also strongly encouraged to pursue self-directed industry work experience opportunities they believe would provide the learning experiences they value and meet the learning outcomes of the program. This valuable work experience can in turn be added to your resume.

In addition to more formal on-the-job work experience, George Brown College endeavours to provide additional learning opportunities with real-world challenges and clients. Find out more about field education at our Industry Liaison office.

Program Learning Outcomes

• The graduate has reliably demonstrated the ability to:
  • Develop and use strategies for ongoing professional development to remain current with industry changes, enhance work performance and explore career opportunities.
  • Comply with health and safety practices and procedures in accordance with current legislation and regulations.
  • Assist in the preparation of material estimations and quotes and complete all work in compliance with the rights and conditions of contractual obligations, the Ontario and/or National Building Codes, applicable laws, bylaws, standards and ethical practices in the construction, renovation and conservation building fields.
  • Incorporate sustainability practices in the implementation of building construction, renovation and conservation projects in accordance with sustainable building guidelines.
  • Communicate and collaborate with diverse clients, supervisors, coworkers and tradespersons to complete projects on time and to maintain effective working relationships.
  • Interpret project plans and produce technical sketches and documents to support building construction and renovation projects.
  • Select and use technologies to obtain, organize and communicate building construction and renovation information.
  • Solve problems related to the implementation of building construction and renovation projects by applying the principles of basic technical mathematics, building design and building science.
  • Select, maintain and safely use hand tools, and portable and stationary power tools, when performing layout, cutting, fitting and assembly operations.
  • Complete building and renovation stages, from site layout and footings to the application of interior and exterior finishes, in accordance with blueprint specifications and conservation principles.
  • Select a range of materials and equipment for their appropriate application to building construction and renovation projects.
  • Schedule and assist in monitoring the progression of building construction and renovation projects by applying basic principles and strategies of project management.
  • Apply basic business principles and strategies to the operation of building construction and/or renovation enterprise.

As the Information Technology (IT) sector continues to grow in Toronto and our industry partners report skills shortages, George Brown College is helping to meet employer demand by educating IT professionals who understand all aspects of computer systems. Our two-year Computer Systems Technician program provides students with a broad and in-depth technical base, through courses in the high-demand areas of system support, network administration and web technologies. The curriculum prepares graduates with the strong administration, troubleshooting and design skills they need for careers in IT.

As the Information Technology (IT) sector continues to grow in Toronto and our industry partners report skills shortages, George Brown College is helping to meet employer demand by educating IT professionals who understand all aspects of computer systems. Our two-year Computer Systems Technician program provides students with a broad and in-depth technical base, through courses in the high-demand areas of system support, network administration and web technologies. The curriculum prepares graduates with the strong administration, troubleshooting and design skills they need for careers in IT.

George Brown continues to invest in up-to-date networking, wireless and security lab equipment to help students develop hands-on installation, configuration and troubleshooting skills. Students use the NetLab platform, which enables them with 24/7 remote access to Cisco Systems physical equipment. This investment, along with our hands-on teaching environment, was recognized by Cisco when the college was designated an Area Support Centre and Instructor Training Centre.

Graduates of the Computer Systems Technician program are prepared to write several industry certification exams that are in demand by employers.

Program Learning Outcomes
The graduate has reliably demonstrated the ability to:

• Identify, analyze, develop, implement, verify and document the requirements for a computing environment.
• Contribute to the diagnostics, troubleshooting, documenting and monitoring of technical problems using appropriate methodologies and tools.
• Implement and maintain secure computing environments.
• Implement robust computing system solutions through validation testing that aligns with industry best practices.
• Communicate and collaborate with team members and stakeholders to ensure effective working relationships.
• Select and apply strategies for personal and professional development to enhance work performance.
• Adhere to ethical, legal and regulatory requirements and/or principles in the development and management of computing solutions and systems.
• Assist with the implementation of computer systems.
• Install, configure, troubleshoot, maintain, upgrade and decommission computing system infrastructures.
• Automate routine tasks using scripting tools and programming languages.
• Provide technical support for computing system infrastructures that aligns with industry best practice.
• Implement the basic concept, principles, and scope of DevOps.
• Apply task automation using configuration management and the Cloud.
• Automate network administrative tasks across distributed clients.