Diploma in Computer Science and Cloud Migration via Online Distance Learning

Enrolment date: 22 September 2017

Benefiting from over 30 years’ experience, Fitzwilliam Institute’s Online Diploma in Computer Science and Cloud Migration course features:

  • Comprehensive modules covering all aspects of both Computer Science and Cloud Migration: Computer Systems, Communication and Information, Microprocessor Systems, Operating Systems, Mathematics for Computing, Algorithms, Data Structure and Computability, Databases, CSS, JavaScript, Java Applications, Using Classes and Objects, Control Statements and Methods, Arrays, GUI Programming, Cloud Computing, Computer Security, Cloud Computing Architecture, Virtualisation, Cloud Computing Life Cycle, Developing a Cloud Strategy, and many more.
  • Interactive course expert support, advice and guidance from leading industry professionals. Always ready to help or answer any questions you might have throughout the course, all of our course experts are top industry professionals with many years of successful experience. Our Diploma in Computer Science and Cloud Migration contains the core and vital industry key skillset and, on completion, all of our students are industry-ready.
  • Real life Computer Science and Cloud Migration briefs. Fitzwilliam Institute’s Diploma in Computer Science and Cloud Computing offers practical and specific skills that can be applied in real world situations. You will gain exposure to invaluable toolkits and resources and prepare real life Computer Science and Cloud Migration briefs, which will enable you to improve your work portfolio.
  • Flexible online learning. Fitzwilliam Institute’s Diploma in Computer Science and Cloud Migration course can be completed in your own time, from the comfort of your own home, to suit your lifestyle. You will have full access to online resources and subject expert support for one calendar year. However, you can complete the course in as little as 4-6 months, by dedicating 6-8 hours of study per week.
  • Jobs, Networking and Volunteer Opportunities. Benefiting from over 30 years of industry experience, we are extremely well placed within the industry. Employers are always looking for Fitzwilliam Institute’s students and alumni. Fitzwilliam Institute’s website features a comprehensive jobs and volunteer opportunities section.

Computer Systems

Computer Architecture, Machine Language, Program Execution, Arithmetic/Logic Instructions, Communicating with Other Devices, Other Architectures, Network Fundamentals, the Internet, the World Wide Web, Internet Protocols, Security, The History of a Computing Hardware, The History of a Computing Software.

Communication and Information

Managing Information, Thinking Machines, the Turing Test, Aspects of AI, Knowledge Representation, Semantic Networks, Search Trees, Expert Systems, Networking, Types of Networks, Internet Connections, Packet Switching, Open systems and protocols, TCP/IP, High- Level Protocols, MIME types, Firewalls, Information Retrieval, Organisation.

Microprocessor Systems

CPU Scheduling, Memory Process and CPU management, Batch Processing, Multiprocessor Operating Systems, Computers and Electricity, Gates 94, Gate 96, XOR gate 96, NAND and NOR gates 97, Transistors, Combinational Circuits, Adders, Multiplexers, Circuits as Memory, Integrated Circuits, CPU Chips, Individual Computer Components, Stored-program Concept, von Neumann Architecture, The Fetch-Execute Cycle, RAM and ROM, Secondary Storage Devices, Touch Screens, Embedded Systems, Parallel Computing, Parallel Hardware.

Operating Systems

The History of Operating Systems, Operating System Architecture, Coordinating the Machine’s Activities, Handling Competition among Processes, Security Roles of an Operating system, Memory Management, Process Management, Capabilities of the Hardware, Single User OS – Network OS, Real-time Operating Systems, Embedded Systems, Management of Input and Output, Processes and Scheduling, Threads, Sychronisation, Semaphores, Monitors, Deadlock, Scheduling, Memory Management.

Mathematics for Computing

Numbers and Computing, Positional Notation, Binary, Octal, and Hexadecimal, Arithmetic in Other Bases, Power-of-2 Number Systems, Converting from Base 10 to other Bases. Binary Values and Computers.

Algorithms, Data Structures and Computability

The Definition of an Algorithm, The Role of Algorithms, The Science of Algorithms, The Concept of an Algorithm, Algorithm Representation, Unsolvable Problems, Analysing Algorithms, Algorithms with Simple Variables, Composite Variables, Algorithm Discovery, Iterative Structures Recursive Structures, Efficiency and Correctness.

Databases

Spreadsheets, Spreadsheet Formulas, Circular References, Spreadsheets Analysis, Database Management Systems, the Relational Model, Relationships, Structured Query Language, Database Design, E-Commerce, The Ubiquitous Database, Database types, Advantages of Using a Database, Modelling the Data Domain, Building a relational Database from the Data Model, Normalisation, SQL, DDL, DML, Storied Procedures, Triggers, Data Integrity, Transaction Isolation Levels, Accessing the Database Programmatically.

Introduction to Computers and the Internet

Organization, Machine Languages, Assembly Languages and High-Level Languages, History of the Internet and World Wide Web, World Wide Web Consortium (W3C), Web, Personal, Distributed and Client/Server Computing, Hardware Trends, Object Technology, JavaScript: Object-Based Scripting for the Web, Browser Portability, C, C++ and Java, BASIC, Visual Basic, Visual C++, C# and .NET, Software Technologies.

Understanding Web 2.0

What Is Web?, Search, Content Networks, User-Generated Content, Blogging, Social Networking, Social Media, Tagging, Social Bookmarking, Software Development, Rich Internet Applications (RIAs), Web Services, Mashups, Widgets and Gadgets, Location-Based Services, XML, RSS, Atom, JSON and VoIP, Web Monetization Models, Web Business Models, Future of the Web, Where to Go for More Web, Information, Web Bibliography, Web Glossary.

Introduction to XHTML

Editing XHTML, First XHTML Example, W3C XHTML Validation Service, Headings, Linking, Images, Special Characters and Horizontal Rules, Lists, Tables, Forms, Internal Linking, meta Elements.

Cascading Style Sheets(CSS)

Inline Styles, Embedded Style Sheets, Conflicting Styles, Linking External Style Sheets, Positioning, Elements, Backgrounds, Element Dimensions, Box Model and Text Flow, Media Types, Building a CSS Drop-Down Menu,User Style Sheets, CSS 3.

Fundamentals of Programming and Program Design

Computer Operations, Machine Language, Assembly Language, Expressing Algorithms, Generations of Languages, Compilers and Interpreters, Virtual Machines, Procedural Programming, Object- Orientated Programming, Scripting Languages, Functional Languages, Language Design, Language Syntax and Semantics.

Software Engineering

The Software Engineering Discipline, The Software Life Cycle, Software Engineering Methodologies, Modularity, Tools of the Trade, Quality Assurance, Documentation, Software Ownership and Liability.

Computer Security 

Ethics Theories, Intellectual Property, Privacy, Encryption, Viruses, Worms and Trojan Horses, Hackers, Can Computers kill?, Information Security, Preventing unauthorised Access, Malicious Code, Antivirus Software, Security attacks, Passwords, CAPTCHA, Fingerprint Analysis, Cryptography, Security and Portable Devices, Wikileaks.

Introduction to Cloud Computing

History of Cloud Computing. How Cloud Computing started. The companies behind the creation of Cloud Computing. What is the cloud? Defining the characteristics of the cloud. Cloud Service models. Cloud Deployment Models. Community and Hybrid Clouds.

Cloud Computing Architecture

Introduction to Cloud Computing Architecture. Horizontal and Vertical Scaling. Architectural Layers of Cloud Environments. Design Patterns. Assessing Design Patterns

Virtualization

Introduction to Virtualization. History of Virtualization. Virtualization vs. Abstraction. Resource Virtualization. The need for Virtualization. Benefits of Virtualisation. Limitations of Virtualisation. Virtualization Concepts and Definitions. Traditional and Contemporary Virtualization. Virtualization Uses.

Cloud Computing Life Cycle

Computer Life Cycles. Cloud Life Cycle Differences. Implementing a Cloud Computing Life Cycle. Life Cycle Issues. Lifecycles and Security. Cloud service Lifecycle. Cloud Lifecycle Management. Adoption Lifecycle. Data Security Lifecycle. Systmes Development Lifecycle. Virtualization Lifecycle. Application Lifecycle.

Developing a Cloud Strategy

Strategic Analysis. Questioning Your Strategy. Maturity Models. Cloud Maturity Model. 6 Levels of Maturity. External Analysis. PEST. Porter's Five Forces. Porter's Diamond. Internal Analysis. Growth Share Matrix. Strategic Re-Alignment. SWOT Analysis.

 

METHODS OF TRAINING

Online Lecture Modules, Subject Expert Feedback Sessions after each Module, Practical Case Studies, End of Module Practical Activities etc.

SUBJECT EXPERTS

Full support is available from our Subject Experts by email at the end of each module and an ongoing basis during the course.

WHO SHOULD APPLY

Anyone working in the general Computer Science sector in a senior or support role which is likely to require Computing Skills and Cloud Migration.

On successful completion of this course you will receive a Diploma level qualification that is certified and awarded by the ICM (Institute of Commercial Management)

The Institute of Commercial Management was founded in 1979 and is one of the leading Professional Examination and Certification Bodies in the world today. Fitzwilliam Institute have developed and provided practical skills training courses in liaison with the Institute of Commercial Management qualifications and certifications framework for over 25 years. The Institute of Commercial Management certifications and continual professional development training awards are recognised throughout Europe, the USA, Canada, Australia, South Africa and Asia in a total of 140 countries, by leading industries, bodies and professions.

next start date: 22nd September 2017

Duration: You will have full access to online resources and subject expert support for one calendar year. However, you can complete the course in as little as 4 - 6 months, by dedicating 6-8 hours of study per week.

Course Fees: 995.00 EUR

To secure your place on the course the full fee is required. All fees must be paid in full before the course begins. Please note, the full course fees are inclusive of all course materials and certification costs.

Enrolment intake is strictly limited on this course. Early application is advised. Places are allocated on a first come first served basis.

Fitzwilliam Institute closes on Bank Holidays and for a number of days at Christmas and New Year. Fitzwilliam Institute reserves the right to postpone, cancel or alter courses without notice or to change any of the details in this brochure. Fees are not refundable unless the course is cancelled by Fitzwilliam Institute. Distance Learning courses are provided by Fitzwilliam Institute BGLS Ltd.

Year on year, we have the pleasure of training students from top Ireland and international companies. See where our most recent students come from and find out what they have to say.