1083 Courses in Cardiff delivered Live Online

Duration 4 Days 24 CPD hours This course is intended for This is an introductory-level C++ programming course designed for developers with experience programming in C or other languages. Practical hands-on prior programming experience and knowledge is required. Overview This 'skills-centric' course is about 50% hands-on lab and 50% lecture, designed to train attendees in basic coding with C++, coupling the most current, effective techniques with the soundest industry practices. Our engaging instructors and mentors are highly experienced practitioners who bring years of current 'on-the-job' experience into every classroom. Working in a hands-on learning environment, guided by our expert team, attendees will learn: Writing procedural programs using C++ Using private, public and protected keywords to control access to class members Defining a class in C++ Writing constructors and destructors Writing classes with const and static class members Overloading operators Implementing polymorphic methods in programs Writing programs using file I/O and string streams Using manipulators and stream flags to format output Using the keyword template to write generic functions and classes Writing programs that use generic classes and functions Writing programs that use algorithms and containers of the Standard Library Apply object-oriented design techniques to real-world programming problems Using algorithms and containers of the Standard Library to manipulate string data Understand how C++ protects the programmer from implementation changes in other modules of an application Using try() blocks to trap exceptions Using catch() blocks to handle exceptions Defining exceptions and using throw to trigger them Introduction to C++ Programming / C++ Essentials is a skills-focused, hands-on C++ training course geared for experienced programmers who need to learn C++ coupled with sounds coding skills and best practices for OO development. Students will leave this course armed with the required skills to put foundation-level C++ programming skills right to work in a practical environment. The central concepts of C++ syntax and style are taught in the context of using object-oriented methods to achieve reusability, adaptability and reliability. Emphasis is placed on the features of C++ that support abstract data types, inheritance, and polymorphism. Students will learn to apply the process of data abstraction and class design. Practical aspects of C++ programming including efficiency, performance, testing, and reliability considerations are stressed throughout. Comprehensive hands on exercises are integrated throughout to reinforce learning and develop real competency Moving from C to C++ (Optional) New Compiler Directives Stream Console I/O Explicit Operators Standard Libraries Data Control Capabilities Handling Data New Declaration Features Initialization and Assignment Enumerated Types The bool Type Constant Storage Pointers to Constant Storage Constant Pointers References Constant Reference Arguments Volatile Data Global Data Functions Function Prototypes and Type Checking Default Function Data Types Function Overloading Problems with Function Overloading Name Resolution Promotions and Conversions Call by Value Reference Declarations Call-by-Reference and Reference Types References in Function Return Constant Argument Types Conversion of Parameters Using Default Initializers Providing Default Arguments Inline Functions Operator Overloading Advantages and Pitfalls of Overloading Member Operator Syntax and Examples Class Assignment Operators Class Equality Operators Non-Member Operator Overloading Member and Non-Member Operator Functions Operator Precedence This Pointer Overloading the Assignment Operator Overloading Caveats Creating and Using Objects Creating Automatic Objects Creating Dynamic Objects Calling Object Methods Constructors Initializing Member consts Initializer List Syntax Allocating Resources in Constructor Destructors Block and Function Scope File and Global Scope Class Scope Scope Resolution Operator :: Using Objects as Arguments Objects as Function Return Values Constant Methods Containment Relationships Dynamic Memory Management Advantages of Dynamic Memory Allocation Static, Automatic, and Heap Memory Free Store Allocation with new and delete Handling Memory Allocation Errors Controlling Object Creation Object Copying and Copy Constructor Automatic Copy Constructor Conversion Constructor Streaming I/O Streams and the iostream Library Built-in Stream Objects Stream Manipulators Stream Methods Input/Output Operators Character Input String Streams Formatted I/O File Stream I/O Overloading Stream Operators Persistent Objects Introduction to Object Concepts The Object Programming Paradigm Object-Orientated Programming Definitions Information Hiding and Encapsulation Separating Interface and Implementation Classes and Instances of Objects Overloaded Objects and Polymorphism Declaring and Defining Classes Components of a Class Class Structure Class Declaration Syntax Member Data Built-in Operations Constructors and Initialization Initialization vs. Assignment Class Type Members Member Functions and Member Accessibility Inline Member Functions Friend Functions Static Members Modifying Access with a Friend Class Templates Purpose of Template Classes Constants in Templates Templates and Inheritance Container Classes Use of Libraries Strings in C++ Character Strings The String Class Operators on Strings Member Functions of the String Class Inheritance Inheritance and Reuse Composition vs. Inheritance Inheritance: Centralized Code Inheritance: Maintenance and Revision Public, Private and Protected Members Redefining Behavior in Derived Classes Designing Extensible Software Systems Syntax for Public Inheritance Use of Common Pointers Constructors and Initialization Inherited Copy Constructors Destructors and Inheritance Public, Protected, Private Inheritance Exceptions Types of Exceptions Trapping and Handling Exceptions Triggering Exceptions Handling Memory Allocation Errors C++ Program Structure Organizing C++ Source Files Integrating C and C++ Projects Using C in C++ Reliability Considerations in C++ Projects Function Prototypes Strong Type Checking Constant Types C++ Access Control Techniques Polymorphism in C++ Definition of Polymorphism Calling Overridden Methods Upcasting Accessing Overridden Methods Virtual Methods and Dynamic Binding Virtual Destructors Abstract Base Classes and Pure Virtual Methods Multiple Inheritance Derivation from Multiple Base Classes Base Class Ambiguities Virtual Inheritance Virtual Base Classes Virtual Base Class Information The Standard Template Library STL Containers Parameters Used in Container Classes The Vector Class STL Algorithms Use of Libraries

The aim of this programme is to help attendees create better quality technical documents in an organised and efficient manner. It will give those new to the topic an appreciation of how to approach the task professionally whilst those with more experience will be able to refresh and refine their skills. The programme comprises three complementary one-day modules: The programme presents a structured methodology for creating technical documents and provides a range of practical techniques that help delegates put principles into practice. Although not essential, it is strongly advised that delegates for modules 2 and 3 have already attended module 1, or another equivalent course. Note: the content of each module as shown here is purely indicative and can be adapted to suit your particular requirements. This course will: Explain the qualities and benefits of well written technical documents Present a structured approach for producing technical documents Review the essential skills of effective technical writing Demonstrate practical methods to help create better documents Provide tools and techniques for specification and report writing Review how technical documents should be issued and controlled Note: the content of each module as shown here is purely indicative and can be adapted to suit your particular requirements. Module 1: Essential skills for technical writers 1 Introduction to the programme Aims and objectives of the module Introductions and interests of participants 2 Creating effective technical documents What is technical writing? how does it differ from other writing? Key qualities of an effective technical document Communication essentials and the challenges faced by technical writers The lessons of experience: how the best writers write The five key steps : prepare - organise - write - edit - release (POWER) 3 Preparing to write Defining the document aims and objectives; choosing the title Understanding technical readers and their needs Getting organised; planning and managing the process Integrating technical and commercial elements The role of intellectual property rights (IPR), eg, copyright 4 Organising the content The vital role of structure in technical documents Deciding what to include and how to organise the information Categorising information: introductory, key and supporting Tools and techniques for scoping and structuring the document Creating and using document templates - pro's and con's 5 Writing the document Avoiding 'blinding them with science': the qualities of clear writing Problem words and words that confuse; building and using a glossary Using sentence structure and punctuation to best effect Understanding the impact of style, format and appearance Avoiding common causes of ambiguity; being concise and ensuring clarity Using diagrams and other graphics; avoiding potential pitfalls 6 Editing and releasing the document Why editing is difficult; developing a personal editing strategy Some useful editing tools and techniques Key requirements for document issue and control Module 2: Creating better specifications 1 Introduction Aims and objectives of the day Introductions and interests of participants The 'POWER' writing process for specifications 2 Creating better specifications The role and characteristics of an effective specification Specifications and contracts; the legal role of specifications Deciding how to specify; understanding functional and design requirements Developing the specification design; applying the principles of BS 7373 Getting organised: the key stages in compiling an effective specification 3 Preparing to write a specification Defining the scope of the specification; deciding what to include and what not Scoping techniques: scope maps, check lists, structured brainstorming The why/what/how pyramid; establishing and understanding requirements Clarifying priorities; separating needs and desires: the MoSCoW method Useful quantitative techniques: cost benefit analysis, QFD, Pareto analysis Dealing with requirements that are difficult to quantify 4 Organising the content The role of structure in specifications Typical contents and layout for a specification What goes where: introductory, key and supporting sections Creating and using model forms: the sections and sub sections Detailed contents of each sub-section Exercise: applying the tools and techniques 5 Writing the specification Identifying and understanding the specification reader Key words: will, shall, must; building and using a glossary Writing performance targets that are clear and unambiguous Choosing and using graphics Exercise: writing a specification 6 Editing and releasing the document Key editing issues for specifications Issue and control of specifications Module 3: Writing better reports 1 Introduction Aims and objectives of the day Introductions and interests of participants The 'POWER' technical writing process for technical reports 2 Creating better reports What is a technical report? types and formats of report The role and characteristics of an effective technical report Understanding technical report readers and their needs The commercial role and impact of technical reports Getting organised: the key stages in compiling a technical report 3 Preparing to write reports Agreeing the terms of reference; defining aims and objectives Being clear about constraints; defining what is not to be included Legal aspects and intellectual property rights (IPR) for reports Preparing the ground; gathering information and reference documents Keeping track of information: note making, cataloguing and cross referencing Tools and techniques for developing a valid and convincing argument 4 Organising the content The role of structure reviewed; some typical report structures Who needs what: identifying the varied needs of the readership What goes where: introductory, key and supporting sections Creating and using model forms: the sections and sub sections Detailed contents of each sub-section Exercise: applying the tools and techniques 5 Writing the report Planning the storyline: the report as a journey in understanding Recognising assumptions about the reader; what they do and don't know Converting complex concepts into understandable statements Presenting technical data and its analysis; the role of graphics Presenting the case simply whilst maintaining technical integrity Exercise: writing a technical report 6 Editing and releasing the report Key editing issues for technical reports Issue and control of technical reports

Duration 3 Days 18 CPD hours This course is intended for This course is intended for beginner to intermediate business and requirements analysts who are looking to improve their elicitation and requirements writing and documentation skills. This course is also a great fit for technical writers, product and software testers, project managers, product owners who work closely with business analysts or who perform some for of business analysis themselves. Overview Understand the role of the business analyst and core competencies for performing successfully Discuss the criticality of business analysis and requirements for successful project outcomes Understand the main professional associations and standards supporting business analysts in the industry Discuss the common problems with requirements and explore approaches to address these issues Obtain a clear understanding of the various requirements types and the significance for eliciting each type Demonstrate your ability to identify stakeholders Explore various methods for understanding and analyzing stakeholders Discuss and apply good planning practices to requirements elicitation efforts Obtain knowledge and understanding of over 15 current and commonly applied elicitation techniques Understand how to progress from elicitation to analysis to documentation Write well-formed and validated requirements Gain understanding of the best practices for writing quality requirements Learn the technical writing techniques that apply directly to writing requirements documents Discuss writing pitfalls, risks that impact requirements, and how to address them Learn best practices for communicating and collaborating with stakeholders, sharing the results of elicitation and the resulting documentation Learn approaches for validating requirements Understand the difference between validating requirements and validating the solution With elicitation serving as a major component of the requirements process, it is imperative that business analysts maintain high competency levels in elicitation practices and technique use to help organizations overcome the requirements related challenges faced on projects. Regardless whether you are a practitioner just starting off your career in business analysis or whether you have been performing the role for some years, this course will provide insight into the latest thoughts on elicitation and writing effective requirements and present a number of current techniques that are being applied on projects across industries today. Review of Foundational Concepts Definition of a business analysis Definition of business analyst BA role vs. PM role Business analysis competencies Benefits of business analysis Purpose for having a BA standard IIBA?s BABOK© Guide and PMI?s Practice Guide in Business Analysis Business analysis core concepts Discussion: Project challenges Understanding Requirements Common problems with requirements Understand the problem first Define the business need Situation statements and moving to requirements Understanding requirement types Business requirements Stakeholder/User Requirements Solution Requirements Functional Requirements Non-Functional Requirements Assumptions and Constraints Discussions: Requirement problems, business needs, and identifying non-functional requirements Discovering Stakeholders Definition of a stakeholder Stakeholder types Identifying stakeholders Performing stakeholder analysis Stakeholders and requirements Tips for identifying stakeholders Grouping stakeholders Creating a RACI model Tips for analyzing stakeholders Documenting results of stakeholder analysis Workshop: Discovering stakeholders Preparing for Requirements Elicitation Planning for elicitation Benefits of elicitation planning What do you plan? The elicitation plan Setting objectives for elicitation Determining the scope for elicitation Establishing pre-work Determining the outputs for the session The iterative nature of elicitation Elicitation roles Elicitation planning techniques Discussions: Who to involve in elicitation, planning impacts, and unplanned elicitation Workshop: Planning for elicitation Conduct Requirements Elicitation Elicitation skillset Types of elicitation techniques Using active listening in elicitation Techniques for performing elicitation Benchmarking/Market Analysis Brainstorming Business Rules Analysis Collaborative Games Concept Modeling Data Mining Data Modeling Document Analysis Focus Groups Interface Analysis Interviews Observation Process Modeling Prototyping Survey or Questionnaire Workshops Write Effective Requirements Elicitation and Analysis Requirements related issues Implications of bad requirements Elicitation and documentation Writing skillset Documenting requirements Modeling requirements Defining the project life cycle Impact of project life cycle on documentation Requirements specifications Characteristics of good requirements Guidelines for writing textual requirements Structuring a requirement Writing pitfalls Traceability Requirements attributes Risks associated to requirements Discussions: Project Life Cycle and Correcting Poorly Written Requirements Workshops: Documenting Requirements and Identify Characteristics of Good Requirements Confirm and Communicate Elicitation Requirements Business analysis communication Requirements communication Communication skills The 7 Cs Timing of communication Planning communication Importance of Collaboration Planning collaboration Documenting communication/collaboration needs Confirming elicitation results Verify requirements Characteristics of good requirements (revisited) Requirements checklist Requirements validation Signing off on requirements Discussions: Responsibility for Communication, Eliciting Communication Needs, Validation Signoff Workshops: Communicating Requirements and Obtaining Signoff Evaluate the Solution Business analyst role in solution evaluation Why solutions under perform What we are looking for in solution evaluation When does solution evaluation occur Performing solution evaluation Planning solution evaluation Metrics that might exist Evaluating long term performance Qualitative vs. quantitative measures Tools & techniques used in solution evaluation Comparing expected to actuals When solution evaluation discovers a variance Tools/techniques for analyzing variances Proposing a recommendation Communicating results of solution evaluation Discussion: Addressing Variance Wrap up and Next Steps Useful books and links on writing effective requirements BABOK© Guide Business Analysis for Practitioners: A Practice Guide Additional course details: Nexus Humans BA04 - Eliciting and Writing Effective Requirements training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the BA04 - Eliciting and Writing Effective Requirements course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

IELTS Exam Preparation Course Overview This IELTS Exam Preparation course is designed to equip learners with the essential skills needed to excel in the IELTS exam. Covering all four sections of the test—listening, reading, writing, and speaking—the course provides in-depth insights into the format and structure of the test. Learners will develop strong English language skills, ensuring they are well-prepared for each section of the exam. By the end of the course, learners will gain confidence in their ability to manage time, understand test requirements, and perform under exam conditions. With expert guidance and structured content, this course aims to help learners achieve their desired IELTS band score. Course Description This course delves into each component of the IELTS exam, helping learners understand its format and assess their strengths and weaknesses. The grammar modules focus on essential areas such as sentence structure, punctuation, and capitalisation to ensure learners can effectively communicate their ideas. The listening, reading, writing, and speaking modules are tailored to build specific skills required for each section of the exam, guiding learners through practice exercises and strategies for optimal performance. Through engaging lessons and mock tests, learners will gain a clear understanding of what is expected in the IELTS exam and how to approach each section with confidence. The course also includes practical advice on preparing for the test, managing exam stress, and performing well under timed conditions. IELTS Exam Preparation Curriculum Module 01: Introduction to IELTS Module 02: IELTS Test Format Module 03: Grammar for IELTS: Basics of Grammar Module 04: Grammar for IELTS: The Basics of Sentence Module 05: Grammar for IELTS: Structure of Sentence Module 06: Grammar for IELTS: Punctuation & Capitalisation Module 07: The Listening Section Module 08: The Reading Section [Academic] Module 09: The Writing Section [Academic] Module 10: The Speaking Section Module 11: IELTS [General Training] Module 12: IELTS Life Skills Module 13: What To Do Before The IELTS Test? Module 14: IELTS Full-length Practice Tests (See full curriculum) Who is this course for? Individuals seeking to achieve a high band score in the IELTS exam. Professionals aiming to meet English language proficiency requirements for work or study. Beginners with an interest in pursuing international education or career opportunities. Those preparing for the IELTS exam as part of their visa application process. Career Path International student in higher education. Migration consultant or advisor. Professional in need of an English language proficiency qualification. Candidate for job roles requiring IELTS certification for global organisations.

Duration 4 Days 24 CPD hours This course is intended for This course is designed for technical professionals who require the skills to administer IBM© MQ queue managers on distributed operating systems, in the Cloud, or on the IBM© MQ Appliance. Overview After completing this course, you should be able to:Describe the IBM© MQ deployment optionsPlan for the implementation of IBM© MQ on-premises or in the CloudUse IBM© MQ commands and the IBM© MQ Explorer to create and manage queue managers, queues, and channelsUse the IBM© MQ sample programs and utilities to test the IBM© MQ networkEnable a queue manager to exchange messages with another queue managerConfigure client connections to a queue managerUse a trigger message and a trigger monitor to start an application to process messagesImplement basic queue manager restart and recovery proceduresUse IBM© MQ troubleshooting tools to identify the cause of a problem in the IBM© MQ networkPlan for and implement basic IBM© MQ security featuresUse accounting and statistics messages to monitor the activities of an IBM© MQ systemDefine and administer a simple queue manager cluster This course provides technical professionals with the skills that are needed to administer IBM© MQ queue managers on distributed operating systems and in the Cloud. In addition to the instructor-led lectures, you participate in hands-on lab exercises that are designed to reinforce lecture content. The lab exercises use IBM© MQ V9.0, giving you practical experience with tasks such as handling queue recovery, implementing security, and problem determination. Note: This course does not cover any of the features of MQ for z/OS or MQ for IBM© i. Course introductionIBM© MQ reviewIBM© MQ installation and deployment optionsCreating a queue manager and queuesExercise: Using commands to create a queue manager and queuesIntroduction to IBM© MQ ExplorerExercise: Using IBM© MQ Explorer to create queue managers and queuesTesting the IBM© MQ implementationExercise: Using IBM© MQ sample programs to test the configurationImplementing distributed queuingExercise: Connecting queue managersIBM© MQ clientsExercise: Connecting an IBM© MQ clientImplementing trigger messages and monitorsExercise: Implementing a trigger monitorDiagnosing problemsExercise: Running an IBM© MQ traceImplementing basic security in IBM© MQExercise: Controlling access to IBM© MQBacking up and restoring IBM© MQ messages and object definitionsExercise: Using a media image to restore a queueExercise: Backing up and restoring IBM© MQ object definitionsIntroduction to queue manager clustersExercise: Implementing a basic clusterMonitoring and configuring IBM© MQ for performanceExercise: Monitoring IBM© MQ for performanceCourse summary

Duration 5 Days 30 CPD hours This course is intended for Telco cloud system administrators and telco network operations engineers Professionals who work with telco or enterprise and data center networks Designers and operations engineers who manage telco workloads Overview By the end of the course, you should be able to meet the following objectives: Describe the VMware Telco Cloud Infrastructure™ architecture Describe the VMware Cloud Director architecture List the infrastructure requirements of ETSI NFV Describe the VMware Cloud Director architecture as Virtualized Infrastructure Manager (VIM) Describe the options associated with VMware cloud providers Explain how organizations are supported in VMware Cloud Director Describe the security model in VMware Cloud Director Configure key networking elements of VMware Cloud Director Manage and monitor resources in VMware Cloud Director Enumerate troubleshooting concepts and Day 2 operations using VMware Cloud Director This five-day, hands-on training course provides you with the advanced knowledge, skills, and tools to achieve competency in operating and troubleshooting the VMware Telco Cloud Infrastructure environment. In this course, you are introduced to VMware Cloud Director? as a virtualized infrastructure manager. You will examine ETSI NFV requirements, deployment options, and procedures. You will also deploy virtualized network functions and understand their detailed configuration settings. You will learn how to support organizations as well as set up networking and security using hands-on lab exercises.In addition, you are presented with various types of technical problems in VMware Cloud Director, which you will identify, analyze, and solve through a systematic troubleshooting process. Course Introduction Introductions and course logistics Course objectives Day 0 Operations: VMware Telco Cloud Infrastructure Installation Describe the challenges of the telco cloud Describe the key functions of the telco cloud List the benefits of the VMware Cloud Director based VMware Telco Cloud Infrastructure Describe the VMware Telco Cloud Infrastructure architecture Describe the role of VMware Cloud Director in the VMware Telco Cloud Infrastructure architecture List the VMware Telco Cloud Infrastructure deployment options Describe the VMware Cloud Director architecture List the key VMware components that are part of VMware Cloud Director Describe the key use cases for the VMware Cloud Director based VMware Telco Cloud Infrastructure Day 0 Operations: ETSI NFV Requirements for Cloud Platforms Compare physical and virtual infrastructures List the benefits and challenges of physical infrastructure Describe the types of virtual infrastructure Describe the advantages and components of the NFV infrastructure (NFVI) Explain the role of network virtualization in the NFVI List the requirements of NFVI for VMware Cloud Director Describe the networking options of VMware Cloud Director Describe the key networking use cases Describe requirements of VMware Telco Cloud Automation? for networking Describe the storage options of VMware Cloud Director Describe the key storage use cases Day 1 Operations: Virtualized Infrastructure Manager (VIM) Configuration Explain basic concepts related to VMware Cloud Director Describe the components of the VMware Cloud Director architecture Describe the basic configuration of the VMware Cloud Director architecture Describe virtual data centers or VDCs Explain the role of organization VDCs Describe the relationship between provider VDCs and organization VDCs Describe resources in VMware Cloud Director List the key resource organization Create resource pools Describe how vSAN integrates with VMware Cloud Director Day 1 Operations: Configuring VMware Cloud Director Providers Describe how compute resources are provided to VMware Cloud Director Describe how storage resources are provided to VMware Cloud Director Describe provider VDC requirements and best practices List the requirements of creating VDCs Describe the VNF on-boarding process Create provider VDCs Day 1 Operations: Configuring VMware Cloud Director Organizations Describe VMware Cloud Director organizations Create VMware Cloud Director organizations Navigate through the VMware Cloud Director HTML5 provider portal Describe the VMware Cloud Director organization VDC Navigate through the tenant portal List use cases for a VMware Cloud Director organization VDC List the organization VDC allocation models Describe the types of resources that can be allocated Describe how resources are allocated for an organization Examine the function and requirements of network pools Describe the network types available in VMware Cloud Director (external, organization, and vApp) Create and manage organization VDC networks Describe catalogs Manage an organization?s catalog Populate, share, and publish catalogs Describe vApps Manage access to vApps and catalogs Modify the configuration of vApps and their virtual machines (VMs) Manage organization VDC networking Create affinity and anti-affinity rules Day 1 Operations: Configuring VMware Cloud Director Security Describe role-based access Create custom security roles Describe the directory services in VMware Cloud Director Describe the role of LDAP, SAML, SSL, Kerberos, and OAuth2 with VMware Cloud Director Explain the use of VMware Cloud Director with SSO Day 1 Operations: Configuring VMware Cloud Director Networking List networking options in VMware Cloud Director Describe key networking use cases in VMware Cloud Director Describe the use and placement of VMware NSX© Edge? services gateways in relation to VMware Cloud Director Review routing with the distributed logical router and edge services gateways in combination with VMware Cloud Director Describe firewall management in VMware Cloud Director with edge services gateways and the distributed firewall Describe an overview of VMware NSX-T? Data Center Explain the architecture of NSX-T Data Center Describe VMware Cloud Director supported features of NSX-T Data Center Describe the benefits and challenges of multisite networking List the requirements for multisite networking Describe the benefits and challenges of networking between VDCs List the requirements for networking between VDCs Configure cross-VDC networking Day 2 Operations: VMware Cloud Director Resource Management and Monitoring Identify the key resources that need to be managed with VMware Cloud Director List monitoring options with VMware Cloud Director Explain the resource management and monitoring architecture in VMware Cloud Director Monitor objects from the VMware Cloud Director portal Identify features of VMware vRealize© Operations Manager? Integrate VMware Cloud Director with vRealize Operations Manager Configure VMware vRealize© Operations Management Pack for VMware Cloud Director? Outline the monitoring features of vRealize Operations Manager in VMware Cloud Director Describe the purpose of the vRealize Operations Tenant App for VMware Cloud Director Integrate VMware Cloud Director with the Tenant App Configure the Tenant App for VMware Cloud Director Monitor objects with the Tenant App List the steps to monitor VMware Cloud Director environments with vRealize Operations Manager List the steps to monitor VMware Cloud Director environments with VMware vRealize© Log Insight? List the steps to review historical virtual machine metrics in VMware Cloud Director Examine VMware Cloud Director logs Day 2 Operations: VMware Cloud Director Troubleshooting Identify the features of the VMware Telco Cloud Automation dashboards List the components of the VMware Telco Cloud Automation dashboards Explain the features of fault management in VMware Telco Cloud Director Describe the use of fault management in VMware Cloud Director Describe the use of performance management in VMware Cloud Director Describe the use of logs in VMware Cloud Director Troubleshoot using VMware Cloud Director

Course Duration: 1–2 days (or modular format across 3–4 sessions) Target Audience: Managers, team leaders, HR professionals, and anyone responsible for leading or being part of a high-performance team. Course Objectives By the end of this course, participants will be able to: Understand the key characteristics of high-performing teams. Apply strategies to build trust, collaboration, and accountability. Leverage diversity and strengths within the team. Align team goals with organisational objectives. Overcome challenges and navigate through conflict. Measure and sustain high performance over time. Course Outline Module 1: The Foundations of High-Performing Teams What defines a high-performing team? The stages of team development (Tuckman Model: Forming, Storming, Norming, Performing, Adjourning) Key traits of successful teams (trust, collaboration, accountability) The importance of team culture and values Module 2: Team Roles and Dynamics Understanding team roles (e.g., Belbin’s Team Roles, Gallup’s StrengthsFinder) Building diverse teams with complementary skills Encouraging collaboration over competition Strategies for integrating different personalities and work styles Module 3: Leadership for High Performance The role of a leader in high-performing teams Transformational leadership vs transactional leadership Delegation and empowering team members Creating a vision and setting clear expectations Module 4: Building Trust and Effective Communication The role of trust in team performance Building rapport and psychological safety Developing active listening and feedback skills Encouraging open, honest, and transparent communication Module 5: Goal Setting and Alignment The SMART goal framework for teams Aligning team goals with organisational strategy Prioritising and tracking team performance Creating individual and team accountability Module 6: Conflict Management and Problem Solving Understanding and addressing team conflict Strategies for resolving disagreements and promoting collaboration Facilitating difficult conversations Problem-solving techniques and decision-making processes Module 7: Motivation, Recognition, and Sustaining Performance Motivating team members and recognising achievements Building a culture of continuous improvement Measuring team performance (KPIs, feedback loops, 360-degree reviews) Keeping momentum in long-term projects Module 8: Measuring Success and Continuously Improving Tools for measuring team effectiveness (e.g., surveys, team assessments) Adjusting processes and practices to ensure continuous high performance Developing a personal and team action plan for ongoing growth Creating a feedback loop for long-term success Delivery Style Interactive discussions and team exercises Group activities, role-playing, and case studies Practical tools and frameworks for immediate application Peer feedback and group coaching Course Materials Provided Participant workbook with key concepts, templates, and worksheets Team development toolkits (e.g., team assessment forms, feedback templates) Leadership and team-building resources for further learning Personal action plan template for team growth Optional Add-ons Personalised team assessment and tailored development plan Ongoing coaching sessions for team leaders Facilitated team-building activities for real-world application Post-course team performance follow-up and support

Duration 4 Days 24 CPD hours This course is intended for This is an introductory-level Java programming course, designed for experienced developers who wish to get up and running with Java, or who need to reinforce sound Java coding practices, immediately. Overview Working in a hands-on learning environment, guided by our expert team, attendees will learn to: Understand not only the fundamentals of the Java language, but also its importance, uses, strengths and weaknesses Understand the basics of the Java language and how it relates to OO programming and the Object Model Learn to use Java exception handling features Work with the Modular system (Project Jigsaw) Understand and use classes, inheritance and polymorphism Understand and use collections, generics, autoboxing, and enumerations Process large amount of data using Lambda expressions and the Stream API Abstract, static and private methods in interfaces Take advantage of the Java tooling that is available with the programming environment being used in the class Specific Java 11 features covered: Using the Local Variable Type in Lambda expressions; Updates made to the String AP Time Permitting: Quick look ahead - Java 12, Java 13, Java 14 and Beyond If you're an experienced OO developer (coming from a C# or C++ background, etc.) who needs to transition to programming in Java, this fast-paced, hands-on course will get you there quickly. Fast Track to Java Programming for OO Experienced Developers is a four-day, lab-intensive class where you'll quickly be immersed in working with the latest Java 11 programming techniques, using best practices for writing solid, robust (and well-written!) modern object-oriented applications. In addition to learning excellent, current coding skills in Java, you'll explore the new improved features for better performance and new capabilities for addressing rapid application development that Java 11 brings to the table. This course includes several key aspects that were introduced in Java 9, Java 10, and Java 11 including the Java Modular System, Local Variable Type Inference, and several API updates. This course also includes a Quick Look at what?s next in Java ? Java 12, Java 13, Java 14 and beyond. The Java Platform Java Platforms Lifecycle of a Java Program Responsibilities of JVM Documentation and Code Reuse Using the JDK Setting Up Environment Locating Class Files Compiling Package Classes Source and Class Files Java Applications The Eclipse Paradigm Workbench and Workspace Views Editors Perspectives Projects Writing a Simple Class Classes in Java Class Modifiers and Types Class Instance Variables Primitives vs. Object References Creating Objects Adding Methods to the Class Passing Parameters into Methods Returning a Value from a Method Overloaded Methods Constructors Optimizing Constructor Usage Language Statements Operators Comparison and Logical Operators Looping Continue and Break Statements The switch Statement The for-each() Loop Using Strings Create an instance of the String class Test if two strings are equal Get the length of a string Parse a string for its token components Perform a case-insensitive equality test Build up a string using StringBuffer Contrast String, StringBuffer, and StringBuilder Specializing in a Subclass Extending a Class Casting The Object Class Default Constructor Implicit Constructor Chaining Fields and Variables Instance vs. Local Variables: Usage Differences Data Types Default Values Block Scoping Rules Final and Static Fields Static Methods Using Arrays Arrays Accessing the Array Multidimensional Arrays Copying Arrays Variable Arguments Local-Variable Type Inference Type inference Infering Types of Local Variables The var Reserved Type name Benefits of Using var Backward Compatibility Java Packages and Visibility Class Location of Packages The Package Keyword Importing Classes Executing Programs Visibility in the Modular System Java Naming Conventions Inheritance and Polymorphism Polymorphism: The Subclasses Upcasting vs. Downcasting Calling Superclass Methods from Subclass The final Keyword Interfaces and Abstract Classes Separating Capability from Implementation Abstract Classes Implementing an Interface Abstract Classes vs. Interfaces Introduction to Exception Handling Exception Architecture Throwing Exceptions Checked vs. Unchecked Exceptions Exceptions Handling Multiple Exceptions Automatic Closure of Resources Creating Your Own Exceptions Utility Classes Wrapper Classes Autoboxing/Unboxing Enumeration Syntax Using Static imports Introduction to Generics Generics and Subtyping Bounded Wildcards Generic Methods Legacy Calls to Generics When Generics Should Be Used Lambda Expressions and Functional Interface Lambda Expression Syntax Functional Interfaces Type Inference in Java 8 Method references Collections Characterizing Collections Collection Interface Hierarchy The Set, List and Queue Interfaces Map Interfaces Using Collections Collection Sorting Comparators Using the Right Collection Lambda expressions in Collections Streams Processing Collections of data The Stream interface Reduction and Parallelism Filtering collection data Sorting Collection data Map collection data Find elements in Stream Numeric Streams Create infinite Streams Sources for using Streams Collectors Creating Collections from a Stream Group elements in the Stream Multi-level grouping of elements Partitioning Streams Introduction to the Module System Introduce Project Jigsaw Classpath and Encapsulation The JDK internal APIs Java 9 Platform modules Defining application modules Define module dependencies Implicit dependencies Implied Readability Exporting packages Java Date/Time The Date and Calendar classes Introduce the new Date/Time API LocalDate, LocalDateTime, etc. Formatting Dates Working with time zones Manipulate date/time values Java 12 and beyond Provide an overview of changes since Java 11 Introduce Preview Features Records (Java 14) Switch Expressions (Java 12, Java 13, Java 14) Text Blocks (Java 13, Java 14) Helpful NullPointerExceptions (Java 14) Pattern Matching for instanceof (Java 14) Additional course details: Nexus Humans Fast Track to Core Java Programming for Object Oriented Developers (TT2104-J11) training program is a workshop that presents an invigorating mix of sessions, lessons, and masterclasses meticulously crafted to propel your learning expedition forward. This immersive bootcamp-style experience boasts interactive lectures, hands-on labs, and collaborative hackathons, all strategically designed to fortify fundamental concepts. Guided by seasoned coaches, each session offers priceless insights and practical skills crucial for honing your expertise. Whether you're stepping into the realm of professional skills or a seasoned professional, this comprehensive course ensures you're equipped with the knowledge and prowess necessary for success. While we feel this is the best course for the Fast Track to Core Java Programming for Object Oriented Developers (TT2104-J11) course and one of our Top 10 we encourage you to read the course outline to make sure it is the right content for you. Additionally, private sessions, closed classes or dedicated events are available both live online and at our training centres in Dublin and London, as well as at your offices anywhere in the UK, Ireland or across EMEA.

Course Duration: 1–2 days (or modular format across 3–4 sessions) Target Audience: Managers, team leaders, HR professionals, and anyone responsible for leading or being part of a high-performance team. Course Objectives By the end of this course, participants will be able to: Understand the key characteristics of high-performing teams. Apply strategies to build trust, collaboration, and accountability. Leverage diversity and strengths within the team. Align team goals with organisational objectives. Overcome challenges and navigate through conflict. Measure and sustain high performance over time. Course Outline Module 1: The Foundations of High-Performing Teams What defines a high-performing team? The stages of team development (Tuckman Model: Forming, Storming, Norming, Performing, Adjourning) Key traits of successful teams (trust, collaboration, accountability) The importance of team culture and values Module 2: Team Roles and Dynamics Understanding team roles (e.g., Belbin’s Team Roles, Gallup’s StrengthsFinder) Building diverse teams with complementary skills Encouraging collaboration over competition Strategies for integrating different personalities and work styles Module 3: Leadership for High Performance The role of a leader in high-performing teams Transformational leadership vs transactional leadership Delegation and empowering team members Creating a vision and setting clear expectations Module 4: Building Trust and Effective Communication The role of trust in team performance Building rapport and psychological safety Developing active listening and feedback skills Encouraging open, honest, and transparent communication Module 5: Goal Setting and Alignment The SMART goal framework for teams Aligning team goals with organisational strategy Prioritising and tracking team performance Creating individual and team accountability Module 6: Conflict Management and Problem Solving Understanding and addressing team conflict Strategies for resolving disagreements and promoting collaboration Facilitating difficult conversations Problem-solving techniques and decision-making processes Module 7: Motivation, Recognition, and Sustaining Performance Motivating team members and recognising achievements Building a culture of continuous improvement Measuring team performance (KPIs, feedback loops, 360-degree reviews) Keeping momentum in long-term projects Module 8: Measuring Success and Continuously Improving Tools for measuring team effectiveness (e.g., surveys, team assessments) Adjusting processes and practices to ensure continuous high performance Developing a personal and team action plan for ongoing growth Creating a feedback loop for long-term success Delivery Style Interactive discussions and team exercises Group activities, role-playing, and case studies Practical tools and frameworks for immediate application Peer feedback and group coaching Course Materials Provided Participant workbook with key concepts, templates, and worksheets Team development toolkits (e.g., team assessment forms, feedback templates) Leadership and team-building resources for further learning Personal action plan template for team growth Optional Add-ons Personalised team assessment and tailored development plan Ongoing coaching sessions for team leaders Facilitated team-building activities for real-world application Post-course team performance follow-up and support

Course Duration: 1–2 days (or modular format across 3–4 sessions) Target Audience: Managers, team leaders, HR professionals, and anyone responsible for leading or being part of a high-performance team. Course Objectives By the end of this course, participants will be able to: Understand the key characteristics of high-performing teams. Apply strategies to build trust, collaboration, and accountability. Leverage diversity and strengths within the team. Align team goals with organisational objectives. Overcome challenges and navigate through conflict. Measure and sustain high performance over time. Course Outline Module 1: The Foundations of High-Performing Teams What defines a high-performing team? The stages of team development (Tuckman Model: Forming, Storming, Norming, Performing, Adjourning) Key traits of successful teams (trust, collaboration, accountability) The importance of team culture and values Module 2: Team Roles and Dynamics Understanding team roles (e.g., Belbin’s Team Roles, Gallup’s StrengthsFinder) Building diverse teams with complementary skills Encouraging collaboration over competition Strategies for integrating different personalities and work styles Module 3: Leadership for High Performance The role of a leader in high-performing teams Transformational leadership vs transactional leadership Delegation and empowering team members Creating a vision and setting clear expectations Module 4: Building Trust and Effective Communication The role of trust in team performance Building rapport and psychological safety Developing active listening and feedback skills Encouraging open, honest, and transparent communication Module 5: Goal Setting and Alignment The SMART goal framework for teams Aligning team goals with organisational strategy Prioritising and tracking team performance Creating individual and team accountability Module 6: Conflict Management and Problem Solving Understanding and addressing team conflict Strategies for resolving disagreements and promoting collaboration Facilitating difficult conversations Problem-solving techniques and decision-making processes Module 7: Motivation, Recognition, and Sustaining Performance Motivating team members and recognising achievements Building a culture of continuous improvement Measuring team performance (KPIs, feedback loops, 360-degree reviews) Keeping momentum in long-term projects Module 8: Measuring Success and Continuously Improving Tools for measuring team effectiveness (e.g., surveys, team assessments) Adjusting processes and practices to ensure continuous high performance Developing a personal and team action plan for ongoing growth Creating a feedback loop for long-term success Delivery Style Interactive discussions and team exercises Group activities, role-playing, and case studies Practical tools and frameworks for immediate application Peer feedback and group coaching Course Materials Provided Participant workbook with key concepts, templates, and worksheets Team development toolkits (e.g., team assessment forms, feedback templates) Leadership and team-building resources for further learning Personal action plan template for team growth Optional Add-ons Personalised team assessment and tailored development plan Ongoing coaching sessions for team leaders Facilitated team-building activities for real-world application Post-course team performance follow-up and support