Duration 2 Days 12 CPD hours This course is intended for The primary audience for this course is any IT, facilities or data centre professional, consultant and/or those who work in network cabling system design, implementation and operation. Overview With few exceptions, enterprises today rely on IT for the delivery of business-critical services - often directly to the end consumer. It is therefore vital that the mission-critical data centre is designed, maintained and operated with high-availability and efficiency in mind. Among all the facilities, network cabling is the foundation for the network and one of the major contributors to the availability of the data center.CNCDP© is a 2-day course designed to expose participants to in-depth knowledge in designing and installing the data network cabling system which includes key subject matters such as; technical standards, designing of different cabling sub-systems, calculation of material requirements, architecture, installation, testing and acceptance. Introduction to Structured Cabling System (SCS) Brief history of SCS Basic copper and fibre transmission Copper and fibre cabling Single and multimode fibre Step/graded index multimode fibre Difference between Commercial Wiring and data centre cabling Development of standards Role of standards ANSI/TIA 568 standard Common standards The new usage of cabling to support Smart building Horizontal and Administration - Commercial Building Standard diagram recap: ANSI/TIA-568 Functional elements and example Scenario A: Determine the number of work areas Scenario B: Determine the number of user locations Zone wiring Administration: Interconnect and cross-connect Angled and flat panels Creating a cabling schematic design Convert schematic into physical layout Calculating the material list Horizontal and Administration - Data Centre Standard diagram recap: TIA-942 Basic/Reduced/Typical data centre setup Traditional 3 layers network design/ Spine and Leaf network design Select termination hardware Administration design ToR/EoR/Spine & Leaf cabling design Network and cabling resiliency Create cabling schematic design for ToR/EoR Convert into patch panel/rack layout Calculate the material list for ToR/EoR Building Backbone - Commercial Building Backbone diagram Calculate the copper backbone requirements per Telecom Room (TR) Calculate the fibre backbone requirements per Telecom Room Summarize the building backbone requirements Recognised cables Backbone Patch panels The maximum backbone distances Create cabling schematic design Converting the schematic design into patch panel/ rack layout Building Backbone - Data Centre TIA-942 based backbone topology TIA-942 backbone requirements Recognised backbone cable ToR/EoR/Spine and Leaf Backbone distance estimation Resiliency of backbone cable routes Creating cabling schematic design Converting the schematic design into patch panel/ rack layout Field and Fusion Termination for fibre connectors Pre-terminated fibre trunk and copper cables Architectural Considerations ANSI/TIA569-D Cable pathway and spaces Common requirements for the rooms Definition of the rooms Entrance Room/Demarcation Ceiling and floor pathways types Cable trays/basket/ladder/conduit Inner duct/sleeve/slot Calculating of pathway size Cable run best practices Cable management/AIM Grounding and bonding Separation distance requirements for copper cabling to power cabling Fire stopping Fire rated barrier Fire rated jacket cable Campus / Outdoor Backbone Common campus cable installation and cable types : Aerial cable / Direct-buried / Underground in-conduit Outdoor cable installation planning Lightning / surge protection Approved ground for surge protector Creating a schematic diagram Converting a schematic into a physical layout Site Inspection and Testing Visual site inspection notes Installation common issues Copper testing standard Permanent link / Channel / Patch cord / MPTL testing configuration Fibre connectors Fibre testing standard Tier 1 & 2 certification Fibre link definition Fibre testing steps Fibre inspection and cleaning Calibrating the test sets - 3 methods Setting up mandrel for testing Fibre loss budget calculation G.657 Bend insensitive fibre Optical Time-Domain Reflectometer (OTDR) Exam - Certified Network Cabling Design Professional (CNCDP©) The exam is a 60-minute closed book exam, with 40 multiple-choice questions. The candidate requires a minimum of 27 correct answers to pass the exam. Additional course details: Nexus Humans Certified Network Cabling Design Professional (CNCDP) 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 Certified Network Cabling Design Professional (CNCDP) 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.
The purpose of this course is to describe the principles and procedures of Hazard and Operability (HAZOP) Studies. HAZOP is a structured and systematic technique for examining a defined system, with the objective of: Identifying potential hazards in the system. The hazards involved may include both those essentially relevant only to the immediate area of the system and those with a much wider sphere of influence, e.g. some environmental hazards; Identifying potential operability problems with the system and in particular identifying causes of operational disturbances and production deviations likely to lead to nonconforming products. An important benefit of HAZOP studies is that the resulting knowledge, obtained by identifying potential hazards and operability problems in a structured and systematic manner, is of great assistance in determining appropriate remedial measures. The course is designed using the tools and techniques identified by IEC 61882:2016. LEARNING OUTCOMES By the end of this course you will understand how to: prepare for a HAZOP study meeting and programme – including defining the scope of the study and choosing the team choose nodes (parts of the drawings or operation for HAZOP study) estimate the programme requirements for the successful completion of a study use facilitation techniques to motivate the team and keep them on task avoid common problems encountered during study meetings, including challenging behaviours formulate the HAZOP study report fulfil the team leader’s role in implementing recommendations and managing the process FOR WHOM Anyone with experience of the HAZOP technique who is required to lead HAZOP studies Process safety engineers, loss prevention specialists, production engineers, process design engineers, project engineers, process programmers and instrument control engineers Risk Managers COURSE CONTENT Introduction to HAZOPWhat is a HAZOP?What are Hazards and Risk?Limitations of HAZOPsEssential Features of HAZOP Principles of examination Design representation Design requirements and design intent Applications of HAZOP Relation to other analysis toolsFailure Mode Effect AnalysisAs Low As Reasonably Practicable (ALARP)Fail Tree AnalysisEvent Tree Analysis HAZOP study limitations Risk identification studies during different system life cycle stagesConcept stageDevelopment stageRealization stageUtilization stageEnhancement stageRetirement stage The HAZOP study procedure Initiate the study Define scope and objectives Define roles and responsibilities Preparation Plan the study Collect data and documentation Establish guide words and deviations Examination Structure the examination Guidewords and Deviations Causes, Consequences and Safeguards Perform the examination Risk Ranking Documentation and follow up Establish method of recording Output of the study Record information Sign off the documentation Follow-up and responsibilities Case Study and practical application TRAINING METHODOLOGIES Presentation Case Study Individual Exercises Group Exercises DURATION: 4 Days (Examination on day 4)
Preparing for Digital Transformation: Virtual In-House Training Organizations today must keep pace with changing technology to stay abreast of the market demand. Keeping pace means a transformation of the entire organization into the digital age. This workshop presents the challenges, benefits, and pitfalls of digital transformation and how it will affect you, and how you can be better prepared and positioned for the upcoming digital transformation. The goal of this course is to enable you to become knowledgeable about the technologies behind a digital transformation in your organization and the driving forces compelling such a transformation. You will learn how to become engaged in the processes of transforming your organization digitally to meet with the growing demands of customers and clients What you will Learn Describe the impact that digital is making on the economy and on customer expectations Examine the nature and drivers of the digital transformation Evaluate new technologies such as Blockchain, Big Data, Artificial Intelligence, and other technologies and see how they work to bring about digital transformation Assess the impact of digital technologies on the current roles and positions in the organization Discuss both the demand that customers have for digital technologies and the impact the digital technologies have on the customer and its relationship with the organization Recognize the new technology trends in the digital transformation and what they mean to the future of the organization Identify how digital transformation will affect all roles and how to be prepared for the upcoming and continuing digital transformation Foundation Concepts Digital transformation versus automation Driving forces behind the digital transformation Learning from digital transformation successes Digital Transformation and Customer Orientation The Digital Customer Customer touch points and the customer journey Omnichannel concept Transform to the customer Digital Technologies and the Organization Relationship Management Big Data: The Basis for it All The Human Factor in Digital Transformations Risks of Digital Transformation Technology Trends Data and Business Analytics Other Major Trends Preview of Coming Attractions Pathway to Digital Transformation
Relationship coaching for your relationship skills can be done individually or as a couple Emotional intelligence training Learn how to be a strong couple Love Language training Learn how to improve rapport and empathy Emotional validation and emotional civility training Consideration and patience training Conflict Resolution and self management Free check in calls in between sessions Choose one of our office locations to have your sessions 1 hour per week 3 sessions https://relationshipsmdd.com/product/relationship-coach-london-package/
Overview This 2 day course provides a practical introduction to Interest Rate Derivatives, equipping participants with the skills to price, trade, and manage risk across financial markets. Participants will explore key pricing concepts like bootstrapping, zero-coupon curves, and forward curves, while developing risk management techniques to navigate various market scenarios. The course also covers using derivatives to express macroeconomic views, bridging theory with real-world applications. By the end, participants will have the tools and insight to confidently engage with Interest Rate Derivatives in professional settings Learning Objectives Understand how to use Interest Rate Derivatives in different roles Grasp major pricing concepts like bootstrapping, zero-coupon curve, forward curve Develop risk management techniques to manage multiple scenarios Express Macro views using derivatives Who the course is for Anyone seeking practical insights into interest rate derivatives which include: Bank traders, market makers, sales, structurers, market risk Portfolio managers, execution traders Corporate treasurers, private bankers Operations, mid and back office personnel, brokers Graduate students and aspiring professionals aiming for careers in financial markets Course Content To learn more about the day by day course content please click here To you are interested in speaking with a course specialist, you can book a meeting here
This programme provides an intensive, one-day overview of the key concepts and techniques of project management. The project management methods presented can be applied to a wide range of projects and the course emphasises both the task and the team-related aspects of project management. The aims of the programme are to: Present the key concepts of project management Provide a structured approach for managing projects Demonstrate tools and techniques for planning and controlling project work Enable participants to apply the techniques to their own projects At the end of the programme, participants will: Recognise the benefits of a structured approach to project work Be able to apply a range of practical tools and techniques to improve their personal effectiveness in project work Have a means of determining the status of current projects and know what actions are needed to ensure success 1 Introduction Why this programme has been developed Review of participants' needs and objectives 2 Key concepts The characteristics of projects and project work The four key phases of a project Essential lessons from past projects Key success factors Achieving success through the 'Team-Action Model' Challenges of the multi-project situation 3 Setting project goals Understanding 'customer' requirements Managing project stakeholders and gaining commitment Using questioning skills to define goals and success criteria Defining and documenting the scope of the project 4 Project planning Defining what has to be done Creating a work breakdown Agreeing roles and responsibilities for the work Developing a programme using networks and bar charts Estimating timescales, costs and resource requirements Planning exercise: participants develop a project plan Identifying and managing project risks Using project planning software Managing and updating the plan 5 Project implementation and control Creating a pro-active monitoring and control process Techniques for monitoring progress Using latest estimates Managing project meetings Resolving problems effectively Managing multiple projects Personal time management 6 Course review and action planning Identify actions Sponsor-led review and discussion of proposals Conclusion
EFQM Performance Improvement Practitioner Course A 2-day deep-dive workshop on RADAR and how to use it as an agile project performance framework. The essential course for anyone wanting to learn more about the RADAR logic and how to build a continuous improvement culture and mindset across your whole organisation. Who is it for? This course is suitable for anyone who wants to understand the RADAR logic and how it can be used to make their organisation more effective. Whilst this training is effective as a stand-alone course; it is also a Level 1 option for anyone considering one of the EFQM qualification routes as a way of progressing their management development and career. Benefits By the end of the course, participants will be able to: Explain the overall RADAR logic Explain the main principles of positive culture and mindset for driving performance Describe how RADAR can be implemented into an organisation to improve performance at every level Identify how to use RADAR to drive the management agenda Apply RADAR across day-to-day initiatives and key projects as an agile project performance framework. Programme The main topics covered during the EFQM Performance Improvement Practitioner training are: RADAR logic and examples of how it can be used Using RADAR to drive the management agenda Using RADAR to drive strategic initiatives Using RADAR to set up strategic KPI’s RADAR as a Performance Improvement Framework Case studies and group exercises RADAR Improvement Matrix self-assessment The training is spread over two days and is delivered in a virtual classroom setting (Zoom or Microsoft Teams), using videos, group discussions, case studies and activities in breakout rooms and presentations from the trainer. Further Development The EFQM Performance Improvement Practitioner training provides core knowledge about the RADAR Logic. In some cases, the training will have fulfilled an individual's learning needs. In many cases, the individual will want to consolidate their learning by applying the theory to a practical task. We encourage you to apply RADAR to a practical, work-based project, and we provide guidance on how to approach and complete your project. Completion of the RADAR Performance Improvement Project also allows you to progress to one of the advanced EFQM qualification programmes: EFQM Performance Improvement Leader, EFQM Assessor or EFQM Organisational Change Leader. EFQM Performance Improvement Leader If you successfully complete the EFQM Performance Improvement Practitioner training and the subsequent project, you are invited to apply for the EFQM Performance Improvement Leader assessment. You will be guided and coached by an EFQM trainer and asked to present your project to the EFQM expert panel. Here you will answer questions about how you applied the RADAR logic and principles (we provide participants with templates for running the project, as well as a high-level mid-term review). You will also receive feedback on how to improve and maximise the use of RADAR for future endeavours. Dates and time: This is a two day on-line workshop delivered on the 31st of January & 7th of February from 9:00 AM to 3:30 PM GMT Cost: £650 + VAT
Leading Cross-Cultural Virtual Teams (Virtual) High-performing teams are a must in this world of intense competition and higher expectations. Global virtual teaming has become a necessity as organizations become increasingly distributed and suppliers and clients actively engage in joint projects. Teams work across geographical and organizational boundaries to deliver solutions and services to global users where distance and differences, both geographic and cultural, amplify the effect of issues and factors that are relatively straightforward when managing a team of people in the same location. This course delivers practical concepts and techniques that participants will start using immediately on their global projects. What you will Learn At the end of this program, you will be able to: Define relationships among foundational concepts (leadership and three dimensions of diversity) and explain their potential impacts on project performance Describe key components of successful project leadership and build selected Transformational Leadership skills Prepare to convert project challenges stemming from personal or cultural diversity into potential competitive advantage Implement selected best practices to meet key challenges facing virtual project teams Foster and grow an environment that supports continued success for CCVTs Getting Started Foundation Concepts Basic definitions Critical success factors for leading cross-cultural virtual teams (CCVTs) A roadmap to success for leading CCVTs Leadership Excellence in Any Project Environment Leading effectively in a global environment Transformational leadership The four components of Transformational Leadership Leveraging Personal Diversity Overview of personal diversity Mind styles The theory of multiple intelligences Connecting Transformational Leadership and personal diversity Embracing Cultural Diversity Introduction to cultural intelligence The impact of culture Cultural Dimensions Theory The Culture Map Managing Virtual Diversity Overview of virtual diversity Virtual time management Virtual processes and technology Virtual leadership Creating an Environment for Success Supporting a cross-cultural virtual-team (CCVT-) friendly environment Building a foundation of trust Developing a team charter Recap and review Summary and Next Steps Personal action plan
A four-hour workshop for Neurodiverse individuals and those who recognise some traits in themselves.