710 Industry courses in Nairn delivered Live Online

Duration 3 Days 18 CPD hours This course is intended for The primary audience for this course is an IT, facilities or data centre operations professional working in and around the data centre and having the responsibility to achieve and improve high-availability and manageability of the data centre. Overview After completion of the course the participant will be able to:? Understand the design life cycle of data centres and the stages involved? Discuss the data centre requirements in great level of detail with vendors, suppliers and contractors to ensure that these requirements are met? Validate design plans, quotes and offers proposed by vendors/contractors? Understand redundancy levels for both the data centre design/setup and maintenance? Understand the various building considerations such as bullet proofing, mitigation of seismic activity, fire ratings and thermal stability? Understand how to install a raised floor that meets requirements, avoiding misalignment, level differences and leakage? Understand how to read a Single Line Electrical Diagram to identify and avoid the most common design issues? Choose the correct UPS and parallel configuration, learn and avoid classic parallel installation mistakes? Understand how to calculate battery banks, validate offered configurations to ensure they meet requirements? Understand what distance to keep to avoid EMF issues for human safety and equipment disturbances? Understand the fundamental cooling setup, CFM, Delta-T and other important factors? Understand contamination factors and limitations? Understand full details of fire suppression options, how to calculate gas content and verify installations? Understand how to measure data centre energy efficiency and how to improve it The course will bring participants to the level of a suitable sparring partner with suppliers. They will be able to verify offers provided by vendors for correctness, effectiveness and efficiency. Data Centre Design/Life Cycle Overview Overview of the phases of a data centre life cycle Planning, re-alignment and continuous improvement Standards and Rating Level Definitions Rating level history Difference between Uptime and TIA-942 Rating level definitions Redundancy options (N+1), 2N, 2(N+1) Concurrent Maintainability/Compartmentalisation Example configurations Substation and feed requirements Maintenance options Operational processes guidelines/standards Skill development Building Considerations Building location considerations Floor and hanging loads requirements Fire rating for walls and glass Blast protection Bullet proofing Forced entry protection Advanced Raised Floor & Suspended Ceiling Raised floor installation guidelines Techniques to install a proper and leveled raised access floor Common mistakes Choosing the right tiles and their locations Seismic-mitigating floor constructions Choosing the correct suspended ceiling Advanced Power Power infrastructure layout; Formulas which you should know for the data centre Single Line Electrical diagrams; how to read to ensure key components are present for protection Over current protection devices (MCB/MCCB/VCB/ACB/Fuses) definitions and what to use where Earth Leakage devices (RCB/RCD/ELCB/GFCI/ALCI/RCBO), definitions and what to use where Sizing of protective components Lightning strikes and surge protection devices (TVSS/SPD), how they operate, where to use and how to install Power cabling and cable run considerations PDU/DB setup and minimum requirements Generators; Generator types: Standy/Prime/Continuous Component make up and functions Fuel storage and calculation Paralleling of gen-sets Generator room/area requirements UPS Systems; Required specifications for UPS systems How to read data sheets and select the correct UPS Requirements for parallel configurations and avoid pitfalls such as single point of failures How parallel installation should be done, classic mistakes made by installers and how to avoid these Harmonic Filters; Active/Passive filters and their application Battery Banks; Battery bank terminology Designing battery banks, how to calculate, and double check the battery bank to be installed Battery charging pitfalls and ensuring the right charger is being installed and used Using parallel battery banks; how to properly install them, limitations and risks when using batteries in parallel How to test batteries correctly and make decisions on cell/block or string replacement Battery casing choices; ABS, V0, V1, V2 Alternative energy storage; flywheel, re-usable cell, compressed air UPS, etc. Advanced Electro Magnetic Fields Sources of EMF Difference between single, three phase and bus-bar EMF Options available to measure EMF and how to interpret the results from single-axes and composite measurements Guidance on safe distance for equipment and humans Calculation of EMF attenuation factor for shielding material permeability and saturation factors Advanced Cooling Important definitions; dry-bulb, wet-bulb, dew-point, RH, sensible and latent heat Psychometric chart and ASHRAE recommendations Environmental class definitions and thermal specifications Temperature/humidity measurements guideline Heat dissipation methods Altitude impact on temperature intake to ICT equipment Floor plan setup for effective cooling Differences in tile surface and supporting structure and the air-flow performance impact Rack door construction and the flow performance impact Equipment Delta-T and its impact Optimising air flow Thermal units conversions Calculations for air volume displacement (CFM/CMH) Cooling capacity calculations Air-conditioning selection De- / humidifying options Air conditioning efficiency SHR impact on cost saving Efficiency indicator New cooling principle and techniques (Submerged, VSD/VRF/ECF/water- and air side economisers) Redundancy guidelines for air-conditioners avoiding classic misconceptions and mistakes for meeting ANSI/TIA-942 compliant designs Installation requirements Connections to fire panel and EPO Commissioning of air conditioners Set points and calibration CFD (Computational Fluid Dynamics) Advanced Fire Protection The fire triangle and elements to stop a fire Detection systems in detail (VESDA, VIEW, smoke sensors) Considerations for installation of sensors Proper testing of smoke sensors Water based systems i.e. deluge, wet-pipe, dry-pipe, pre-action and why most of them don't work and how to detect this Details on Inert and Halocarbon systems and how to select the correct system for your data centre How to calculate the gas content ensuring the appropriate level is installed to suppress the fire including safety considerations Other requirements for gas systems such as release times, hold times, pipe install requirements and other important factors Requirements for the fire detection panel Installation verification, methods, what to check and how New advanced fire suppression technologies Design and Install Scalable Networking Cabling System ANSI/TIA942 cabling structure topology ToR, EoR Design Intelligent patching systems Installation best practice such as routing, bending radius, separation from power, containment fill ratio, fiber link loss calculator, bonding and grounding requirement Standard for telecommunications labeling and administration Environmental Specifications and Contamination Control Acoustic noise effects, regulations, specifications and limits Data centre contaminations and classifications Measurements, standards and limits Preventive measures and avoidance Data Centre Efficiency Business drivers to go Green High-availability or Green? Green guidelines and standards How to measure it and what are acceptable numbers compared to the general industry PUE classes defined by Green Grid and issues with PUE Techniques for saving energy in all parts of the data centre i.e. application/system level, cooling, power distribution Mock ExamEXAM: Certified Data Centre Specialist

Why choose Vectorworks Garden Design Training Course? Vectorworks, a user-friendly industry-standard software, is perfect for interior design, architectural planning, 3D modeling, and landscaping projects. Its versatility makes it suitable for both home enthusiasts and professionals. Course Info Scheduling: 1-on-1 training, your schedule. Book any hour, Mon to Sat, 9 am - 7 pm. Call 02077202581 to reserve. Duration: 16 hours. Method: In-person face-to-face sessions and live online instruction. Vectorworks Garden Design Training Course: Master the art of garden design with Vectorworks software in our specialized training program. Led by certified tutors and industry experts, this course equips you with comprehensive skills and techniques tailored to garden design. Create stunning 2D layouts and 3D landscapes, visualize designs, and produce professional documentation for your projects. Benefits: In-Person and Live Online Options: Choose between in-person or live online sessions for flexible learning. Certified Tutors and Experts: Learn from experienced tutors passionate about garden design. Comprehensive Curriculum: Cover essential aspects of garden design using Vectorworks. Lesson Recordings: Access valuable session recordings for review and reinforcement. Lifetime Email Support: Receive ongoing assistance from industry experts for continuous growth. Course Duration: 16 hours Course Description: This advanced Vectorworks course is tailored for individuals who already possess basic knowledge of the software and wish to enhance their skills to become proficient users. Participants will learn more advanced 2D and 3D techniques, including advanced 3D modeling, rendering, visualization, and customizing Vectorworks to suit their specific needs and workflows. The course will cover topics such as creating custom tools, working with planting plans, and integrating with AutoCAD. Course Outline: Module 1: Vectorworks Interface and Basic Concepts - Understanding the Vectorworks interface and palettes - Opening, saving, and managing files - Creating and editing objects and shapes - Utilizing Undo/Redo and Snaps for precision - Applying graphic attributes and working with dimensions Module 2: Modeling and Drawing Techniques - Exploring advanced tools and commands in detail - Integrating with AutoCAD and data exchange - Creating, modifying, and editing text - Utilizing callout text tool for annotations - Organizing information using design layers and classes Module 3: Working with Buildings and Models - Utilizing design layers and sheet layers for architectural projects - Assigning objects to layers and classes - Working with viewports and sheet layers for presentation - Drawing buildings, including walls and roofs - Setting up and rendering perspective views Module 4: Creating Site and Landscape Plans - Importing land surveys or architects' files - Drawing site surveys and working with hard landscape elements - Adding and customizing plantings using the plant tool - Editing plant definitions and creating custom plant symbols - Generating plant schedules and reports Module 5: Vectorworks Architect Features - Setting up files and scaling the drawing - Customizing text styles and dimension standards - Working with scanned images and creating site models - Designing floors, doors, and windows using standard Vectorworks elements - Creating and managing title blocks, labels, notes, and keynotes Module 6: Working Drawings and Final Project - Developing the final project with 2D and 3D elements - Applying site modifiers and stairs to the design - Generating printing layouts for presentations - Creating working drawings with detailed plans and elevations Download Vectorworks Trial https://www.vectorworks.net/trial Proficiently use Vectorworks software for garden design, including creating accurate site plans and garden layouts. Apply 2D and 3D modeling techniques to visualize garden designs and present them professionally. Incorporate plants, hardscape elements, and other design elements into garden layouts effectively. Generate detailed construction drawings for seamless implementation of garden projects. Understand the key features and functionalities of Vectorworks specific to garden design. Demonstrate proficiency in utilizing Vectorworks tools for various garden design tasks. Interact collaboratively in face-to-face or online learning environments, engaging with instructors and peers. Utilize lesson recordings to review and reinforce course concepts for continuous learning. Seek personalized guidance and assistance through lifetime email support from certified tutors and industry experts. Transform creative garden design ideas into practical and stunning real-world projects using Vectorworks software.

Official BRCGS Product Safety Management course: Environmental Monitoring Delivered online (Zoom) by a live BRCGS Approved Training Partner. Exam and Certificate fee included in the price.

Not everyone is born with it, but unlike IQ, Emotional Intelligence can be acquired and improved with practice.

Who is this course for? The "3ds Max and Unity 3D Game Designing Training Course" is ideal for aspiring game designers, developers, graphic designers, students, and creative professionals. It's tailored for individuals keen on mastering 3D modeling, animation, and interactive game development using industry-standard software like 3ds Max and Unity 3D. Click here for more info: Website Scheduling: Available from Monday to Saturday, 9 a.m. to 7 p.m. Choose in-person or live online sessions over Zoom. Duration: 40 hours. Module 1: Introduction to 3ds Max (8 hours) Overview of 3ds Max interface and tools Basic 3D modeling techniques: primitives, Editable Poly, modifiers Material creation and application Introduction to lighting and rendering concepts Module 2: Advanced 3ds Max Techniques (8 hours) Advanced modeling: Splines, Loft, Extrude, and ProBoolean Animation basics: Keyframes, paths, and controllers Particle systems and dynamics Introduction to character rigging and animation Module 3: Introduction to Unity 3D (8 hours) Unity interface and project setup Importing 3D assets from 3ds Max Physics and colliders in Unity Basic scripting and interactions Module 4: Advanced Unity 3D Features (8 hours) Unity scripting: C# fundamentals Advanced physics and particle systems User interface design and implementation Integrating audio and visual effects Module 5: Game Design and Optimization (8 hours) Game design principles and mechanics Level design and interactive gameplay elements Optimizing game performance: LOD, batching, and asset optimization User testing and feedback incorporation Final Project (4 hours) Collaborative game development project using 3ds Max and Unity 3D Implementation of learned skills in a real-world scenario Presentation and feedback session Note: The course outline is designed to provide a comprehensive understanding of both 3ds Max and Unity 3D, covering fundamental and advanced topics. The final project aims to apply the acquired skills in a practical context, fostering creativity and collaboration among participants. Unity - Real-time 3D https://www.unity.com/. 3ds Max Trial  https://www.autodesk.co.uk › products › free-trial Upon completion of the 40-hour 3ds Max and Unity 3D Game Design Masterclass, students will: Master 3D Modeling: Acquire proficient skills in creating detailed 3D models, understanding various techniques, and utilizing advanced tools in 3ds Max. Expertise in Animation: Gain expertise in animating characters and objects, employing keyframes, paths, and controllers for realistic motion. Material Creation and Texturing: Understand material creation, application, and advanced texturing techniques for creating visually appealing game assets. Unity Game Development: Learn Unity's interface, project setup, and scripting fundamentals to create interactive games. Physics and Interactivity: Explore physics systems, colliders, and interactive elements, enhancing gameplay experiences. Advanced Scripting: Develop proficiency in C# scripting, enabling the implementation of complex game mechanics and interactions. Optimization Techniques: Understand techniques to optimize game assets, improving performance and ensuring smooth gameplay. Game Design Principles: Grasp essential game design principles, including level design, user experience, and gameplay mechanics. Real-World Application: Apply learned skills in a collaborative final project, integrating 3D models, animations, scripting, and game design principles. Presentation Skills: Develop the ability to present and explain game concepts, designs, and mechanics effectively. Troubleshooting and Debugging: Gain skills in identifying and resolving common issues and errors in both 3ds Max and Unity 3D projects. Team Collaboration: Enhance teamwork and collaboration skills through the final project, working effectively with peers in a creative environment. Upon completing the course, students will have a well-rounded skill set in 3D modeling, animation, game design, and Unity development, making them proficient candidates for roles in game development studios, animation companies, or freelance projects. 3ds Max and Unity 3D Game Designing Training Course: Skills & Careers! Skills Acquired: Advanced 3D Modeling Texturing and Animation Unity 3D Game Development Lighting and Rendering Interactive UI/UX Design Career Opportunities: Game Developer 3D Modeler Texture Artist Game Tester UI/UX Designer Embrace Personalized Learning. Why Us? Discover the Benefits: One-on-One Training: Experience tailored coaching from practicing architects and designers, either face-to-face at (SW96DE) or in live online sessions. Available Monday to Saturday, 9 am to 7 pm. Customized Tutorials: Take home exclusive video tutorials crafted to enhance your learning journey. Comprehensive Resources: Access a digital reference book for thorough revision, ensuring a deep understanding of every concept. Free Ongoing Support: Enjoy continuous post-course assistance via phone or email, ensuring your success even after class completion. Flexible Syllabus: We adapt syllabus and projects to your needs, ensuring focused learning on what matters most to you. Official Certificate: Certificate upon course completion. Why Choose Us? Individualized Support: Our courses, ranging from 10 to 120 hours, offer unwavering assistance at every stage. With personalized homework assignments and free after-course support, we guide you toward mastering software with unparalleled expertise. Personal Attention, No Crowded Classrooms: Experience the intimacy of one-on-one learning. Bid farewell to crowded classrooms, ensuring you receive the undivided attention you deserve in a confident and comfortable environment. Financial Flexibility: Embarking on your educational journey shouldn't strain your finances. Diverse payment plans tailored to your needs. Explore available options and embark on your learning adventure today. Expert Instructors, Real-world Experience: Our instructors, chosen for their industry expertise and passion for teaching, are dedicated to imparting invaluable skills to eager learners.

Landscape training face to face training customised and bespoke.

P404 Air Sampling of Asbestos and MMMF and Requirements for a Certificate of Reoccupation Following Clearance of Asbestos is the industry standard qualification for those whose work involves air sampling and clearance testing, such as asbestos analysts. In addition to holding the qualification, they are required to undertake and provide evidence of annual refresher training. RP404 Refresher is a new course, specifically designed to meet this requirement. RP404 Refresher enables candidates to revise and update their knowledge on air sampling and clearance testing techniques, and to receive a certificate of course completion by passing a written examination, which covers both the theory and practice of air sampling and clearance testing.

Innovation Project Management: Virtual In-House Training Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. Companies need growth for survival. Companies cannot grow simply through cost reduction and reengineering efforts. Innovation is needed and someone must manage these innovation projects. Over the past two decades, there has been a great deal of literature published on innovation and innovation management. Converting a creative idea into reality requires projects and some form of project management. Unfortunately, innovation projects, which are viewed as strategic projects, may not be able to be managed using the traditional project management philosophy we teach in our project management courses. There are different skill sets needed, different tools, and different life-cycle phases. Innovation varies from industry to industry and even companies within the same industry cannot come to an agreement on how innovation project management should work. This program describes the relationship that needs to be established between innovation, business strategy, and project management to turn a creative idea into a reality. We will explore the importance of identifying the components of an innovative culture, existing differences, challenges, and the new set of skills needed in innovation project management. What you Will Learn Explain the links needed to bridge innovation, project management, and business strategy Describe the different types of innovation and the form of project management each require Identify the differences between traditional and innovation project management, especially regarding governance, human resources management challenges, components of an innovative culture and competencies needed by innovation project managers Establish business value and the importance of new metrics for measuring and reporting business value Relate innovation to business models and the skills needed to contribute in the business model development Recognize the roadblocks affecting innovation project management and their cause to determine what actions can be taken Determine the success and failure criteria of an innovation project Foundation Concepts Understanding innovation Role of innovation in a company Differences between traditional (operational) and strategic projects Innovation management Differences between innovation and R&D Differing views of innovation Why innovation often struggles Linking Innovation Project Management to Business Strategy The business side of innovation project management The need for innovation targeting Getting close to the customers and their needs The need for line-of-sight to the strategic objectives The innovation enterprise environmental factors Tools for linking Internal Versus External (Co-creation) Innovation Open versus closed innovation Open innovation versus crowdsourcing Benefits of internal innovation Benefits of co-creation (external) innovation Selecting co-creation partners The focus of co-creation The issues with intellectual property Understanding co-creation values Understanding the importance of value-in-use Classification of Innovations and Innovation Projects Types of projects Types of innovations Competency-enhancing versus competency-destroying innovations Types of innovation novelty Public Sector of Innovation Comparing public and private sector project management Types of public service innovations Reasons for some public sector innovation failures An Introduction to Innovation Project Management Why traditional project management may not work The need for a knowledge management system Differences between traditional and innovation project management Issues with the 'one-size-fits-all' methodology Using end-to-end innovation project management Technology readiness levels (TRLs) Integrating Kanban principles into innovation project management Innovation and the Human Resources Management Challenge Obtaining resources Need for a talent pipeline Need for effective resource management practices Prioritizing resource utilization Using organizational slack Corporate Innovation Governance Types of innovation governance Business Impact Analysis (BIA) Innovation Project Portfolio Management Office (IPPMO) Using nondisclosure agreements, secrecy agreements, confidentiality agreements, and patents Adverse effects of governance decisions Innovation Cultures Characteristics of a culture for innovation Types of cultures Selecting the right people Linking innovation to rewards Impact of the organizational reward system Innovation Competencies Types of innovation leadership The need for active listening Design thinking Dealing with ambiguity, uncertainty, risks, crises, and human factors Value-Based Innovation Project Management Metrics Importance of innovation project management metrics Understanding value-driven project management Differences between benefits and value - and when to measure Traditional versus the investment life cycle Benefits harvesting Benefits and value sustainment Resistance to change Tangible and intangible innovation project management metrics Business Model Innovation Business model characteristics Impact of disruptive innovation Innovation Roadblocks Roadblocks and challenges facing project managers Ways to overcome the roadblocks Defining Innovation Success and Failure Categories for innovation success and failure Need for suitability and exit criteria Reasons for innovation project failure Predictions on the Future of Innovation Project Management The Six Pillars of changing times Some uses for the new value and benefits metrics

Networks demystified training course description A concise overview course covering all aspects of networking with particular emphasis of use of the 7 layer model as a framework for discussing and learning new network terms enabling delegates to recognise the main buzzwords used in the industry. What will you learn Use the 7 layer model to classify networking terms. Differentiate between LANS and WANS. Recognise bandwidth measurements. List LAN and WAN technologies. Recognise cabling issues in a network. Networks demystified training course details Who will benefit: Sales staff, managers and other non-technical personnel. Technical personnel may benefit more from our Intro to data communications and networking course. Prerequisites: None. Duration 1 day Networks demystified training course contents What are networks? What is a network? Types of network, Local Area Networks (LANs), Wide Area Networks (WANs), connecting networks together with routers. The 7 layer model What is the 7 layer model? The importance of standards, using the 7 layer model to classify networking terms. Cables Copper, Fibre, Air, standards, connectors, LAN cables, WAN cables, distance limitations, hubs and repeaters, other issues. The radio spectrum. Bandwidth Bits and bytes. Bandwidth measurements, common technologies and their bandwidth, the impact of applications on bandwidth. Full and half duplex. Joining cables together to increase bandwidth (Link aggregation). LANs and WANs What is Ethernet? What is WiFi? What are Leased lines? What is MPLS? Ethernet switches Ethernet 'packets', MAC addresses, what is a switch, what is the difference between a hub and a switch. TCP/IP What is TCP/IP? What is a protocol? What is IP? What is TCP? The role of routers in joining LANS and WANS, What is the Internet? Applications Ways to use the network, clients, servers, web browsing and HTTP, Email, instant messaging, multimedia applications.

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