BSc (Hons) Computing Unicaf - University of Suffolk
This degree will provide you with the knowledge and skills required to become a computing professional. The degree offers a unique opportunity for you to develop a wide range of computing skills including, but not limited to, cyber security, data science, artificial intelligence, web development, networking and software engineering. The degrees flexible curriculum allows you to adapt your learning towards your own career aspirations and interests within the field of computing.
The entry requirements for admission are:
- 3 UK A Levels (BBC) or BTEC Extended Diploma (DMM) or international equivalent qualification, or a recognized Foundation Programme at the appropriate level
- GCSE Maths Grade 'C' and above or international equivalent
- English Proficiency: IELTS (Academic) 6.0 overall (minimum 5.5 in all components), or GCSE English grade 'C' and above, or international equivalent qualification, or Unicaf English Placement Test (EPT) overall 6.0 (minimum 5.5 in all components)
- Personal Statement (minimum 500 words)
- Up to date CV
- 1 reference (academic or professional) stated on CV including referee’s full name, contact details, and relationship to the applicant
- Valid, national photo ID
- Provide students with a thorough grounding in the practical and theoretical fundamentals that underpin the discipline of computing.
- Enable students to demonstrate problem-solving and evaluation skills in the design, development and testing of technological solutions to solve well-specified problems.
- Develop students understanding and application of concepts, principles and practices in the context of well-defined computing scenarios, showing judgment in the selection of appropriate tools and techniques.
- Develop students command over the management of computing projects consistent with industry best practices and methodologies.
- Develop students’ ability to effectively communicate their work to diverse audiences through both written and oral formats.
- Help students develop the interpersonal qualities and professional attributes required by employers including reliability, integrity, ethical approach, dependability, teamwork and reflection.
- Enable students to become effective independent learners by taking responsibility for their learning and professional development.
Foundation Courses Name Code Induction Module UOS-IND-B-100Year 1 Name Code Computing Fundamentals UOS-1001-COM Operating Systems UOS-1005-COM Introduction to Networking UOS-1003-COM Introduction to Programming UOS-1004-COM Introduction to Web Design UOS-1002-COM Introduction to AI and Data Science UOS-1006-COMYear 2 Name Code Software Design, Development and Engineering UOS-2002-COM Relational Databases UOS-2003-COM Data Structures, Algorithms and Advanced Programming UOS-2004-COM Advanced Web Design UOS-2005-COM Security for Computer Networks UOS-2006-COM Computing Research Skills, Professional Practice and Ethics UOS-2001-COMYear 3 Name Code AI and Data Science Applications UOS-3001-COM Distributed Systems UOS-3003-COM Mobile Application Development UOS-3002-COM Cyber Forensics and Intrusion Management UOS-3004-COM Project and Dissertation UOS-3005-COM
The following statements define what students graduating from the BSc (Hons) Computing course will have been judged to have demonstrated in order to achieve the award. These statements, known as learning outcomes, have been formally approved as aligned with the generic qualification descriptor for level 6 awards as set out by the UK Quality Assurance Agency (QAA) .
Knowledge and understanding
- Expressed and employed detailed knowledge and systematic understanding of essential facts, concepts, principles and theories, both established and emergent, relating to specialisms in computing
- Expressed and employed knowledge and understanding of information security issues in relation to the design, development and the use of information systems
- Understood, described, and commented upon the literature and cutting-edge research in computing, and appreciated the associated uncertainties, ambiguities, and limits to knowledge at the forefront of the discipline.
- Applied methods and techniques learned in computing and specialist topics to consolidate, extend, and apply knowledge and understanding to extended realistic and real-world projects
- Applied detailed knowledge, systematic understanding, and mastered techniques to initiate and execute their final-year project and multiple minor projects in different topic areas
- Critically evaluated arguments, concepts, requirements, constraints and data to make rational judgements on appropriate algorithms, designs, methods, and configurations leading to the necessary analysis, design, implementation, and/or testing of solution or identification of a class of solutions to significant problems
- Presented ideas, information, analyses, designs, implementations, tests and results relating to computing, critically, comprehensibly and succinctly to both specialist and non-specialist audiences
- Deployed appropriate established and/or cutting-edge theory, practices and tools for the successful design, development, deployment and maintenance of computer-based systems
- Recognised the legal, social, ethical and professional issues involved in the exploitation of computer technology and be guided by the adoption of appropriate professional, ethical and legal practices
- Researched, designed, implemented, tested, utilised and documented solutions to address specific problems, using their knowledge, understanding and technical skills in computing
- Developed an understanding of a specialist subject or problem area in computing to a level where they can effectively evaluate it, analyse possible solutions, design an appropriate solution and bring that solution to a successful conclusion in a defined time-frame, showing by doing so their capabilities and readiness for lifelong learning and professional training
- Evidenced the qualities and transferable skills necessary for graduate level employment requiring the exercising of initiative, personal responsibility, and decision making, through working individually and in groups on mini-projects, extended case studies and scenarios, and their major project
- Identified appropriate practices considering equality, diversity, and inclusion (EDI) as well as any economic, social, and environmental impact