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Why Choose Vectorworks Night Training Courses? Flexibility: Learn around your work schedule. Personalized Attention: Small classes for focused guidance. Practical Learning: Hands-on training for immediate application. Convenience: Balance work and learning seamlessly. Check our Website Training Duration: 10 hours. Approach: Personalized 1-on-1 Training and customized training. Timings: Schedule a convenient hour, Mon to Sat, between 9 am and 7 pm. Course Outline: Mastering Vectorworks Basics I. Introduction to CAD and Vectorworks Software Understanding the role of Computer-Aided Design (CAD) in modern workflows. Comprehensive introduction to Vectorworks software. II. Workspace Setup and Fundamental Options Configuring the workspace for efficient navigation and operation. Exploring basic options to enhance user experience. III. Basic Skills in Drawing and Object Selection Mastering fundamental drawing techniques. Expertise in selecting and manipulating objects. IV. Advanced Editing Techniques Combining shapes, mirroring, rotating, and grouping objects effectively. Working with precise scaling, preferences, and templates. V. Detailed Object Manipulation and Attributes Drawing and moving objects accurately within the design space. Utilizing advanced editing tools like fillet and offset. Introduction to basic attributes and group editing. VI. Advanced Drawing Techniques and Graphics Creating room plans with walls, windows, and doors. Implementing graphic elements such as hatching, gradients, and image fills. Drawing elevations using various methods and techniques. VII. Resource Management and Design Layers Importing images for graphic illustration. Creating symbols and navigating the Resource Browser. Organizing the drawing effectively using design layers. VIII. Labels, Annotations, and User Interface Mastery Labeling drawings and incorporating simple title block text. Navigating the user interface, understanding key terminologies. Plotting, printing, creating sheets (A1, A2, A3), and working with viewports. IX. Advanced Object Manipulation and Customization Converting drawings into PDF files. Efficiently working with files, objects, and data. Utilizing object snaps, quick selection, division, and measurement. X. Dimensioning, Text, and Tool Palettes Implementing dimensioning and annotations effectively. Working with text, custom tool palettes, and organizing these palettes. Creating standard views and additional drawing objects (Arc, Donut, Ellipse). XI. 3D Modeling Introduction and Real-World Units Introduction to 3D modeling, focusing on creating extrudes. Working with real-world units for accurate representation. XII. Advanced Object Manipulation and Exporting Manipulating objects, changing object angles, creating mirror images. Dealing with architectural elements like walls, doors, windows, and floors. By the end of the Vectorworks Evening Training Course, participants will: Demonstrate proficiency in using the Vectorworks interface, tools, and navigation. Create and edit 2D drawings, including walls, doors, windows, floors, ceilings, stairs, and railings. Effectively manage layers, classes, and views for organized and controlled object placement. Create and edit dimensions and annotations for accurate measurements and documentation. Develop skills in creating, modifying, and utilizing symbols for increased efficiency. Generate and edit 3D geometry, apply textures, and create sections and elevations from 3D models. Create polished presentation drawings using viewports, annotations, and text for clarity. Summarize course content and confidently apply learned skills in Vectorworks projects. Utilize available resources for further learning and professional development. Who Should Attend? Perfect for those aiming to master Advanced 2D Plans, Sections, Elevations and Construction detailing, lighting, and rendering in Vectorworks. Schedule Flexibility: Book personalized 1-on-1 sessions, Monday to Saturday, 9 a.m. to 7 p.m. Split 10 hours to fit your schedule. Method: Choose in-person or Live Online 1-on-1 sessions with tailored content and individual support, including Zoom options. Why Vectorworks? A pioneering CAD software, Vectorworks seamlessly integrates 2D and 3D capabilities, making it ideal for architects and designers. Free Educational Access: Students and professors can access a complimentary Vectorworks Designer license via the Academic Portal. Explore Vectorworks: Transform your designs with Vectorworks, the leading 2D, 3D, CAD, BIM software. Download or try now: https://www.vectorworks.net Tailored Training Solutions: We offer customized and project-focused training programs, designed to meet your specific needs and goals. Individualized Coaching: Receive personalized one-on-one guidance tailored exclusively for you. Adaptable Timings: Choose training slots that align with your schedule, ensuring flexibility in your learning journey. Ongoing Assistance: Access continuous post-course support to enhance your understanding and resolve queries. Comprehensive Learning Resources: Receive detailed materials providing in-depth insights for effective learning and reference. Recognition of Participation: Earn a Certificate of Attendance upon completion of your personalized training. Affordable Learning: Benefit from cost-effective rates, making quality education accessible to all. Software Setup Guidance: Get expert assistance in setting up your software on your devices for seamless learning experiences. Rewards for Referrals: Recommend our courses to others and enjoy special rewards for each successful referral. Group Learning Benefits: Enjoy exclusive discounts when you opt for group training, making it an ideal choice for teams. Convenient Hours of Operation: Access our training services at your convenience, with operating hours extending to accommodate your busy schedule. Tailored Learning Paths: Experience courses curated specifically for your needs, ensuring targeted and effective learning outcomes.

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SAFe® for Architects: In-House Training Enable continuous value flow by aligning technical strategy with business goals, communicating that strategy to development teams, and applying Agile architecture practices. Attendees can improve collaboration and alignment in a SAFe® Lean-Agile enterprise when they become a SAFe® 5 Architect. The SAFe® for Architects course prepares System, Solution, and Enterprise Architects to engage across the organization as effective leaders and change agents who collaboratively deliver architectural solutions. During this course, attendees will explore the roles, responsibilities, and mindset of Agile Architects, and appreciate how to align architecture with business value and drive continuous flow to large systems of systems while supporting SAFe® program execution. What you will Learn To perform the role of a SAFe® Architect, you should be able to: Architect using SAFe® principles Align architecture with business value Develop and communicate architecture vision and intent Plan architectural runway to enable delivery success Architect for continuous delivery and Release on Demand Lead and coach architects and team members during Program Increment (PI) Planning and execution Provide leadership during a Lean-Agile transformation Exemplifying Lean-Agile architecture Architecting for DevOps and Release on Demand Aligning architecture with business value Developing Solution Vision, Solution Intent, and Roadmaps Preparing architecture for Program Increment (PI) Planning Coordinating architecture throughout PI Planning Supporting Continuous Delivery during PI execution Supporting new Strategic Themes and Value Streams Leading as an architect during a Lean-Agile transformation

SAFe® for Architects Enable continuous value flow by aligning technical strategy with business goals, communicating that strategy to development teams, and applying Agile architecture practices. Attendees can improve collaboration and alignment in a SAFe® Lean-Agile enterprise when they become a SAFe® 5 Architect. The SAFe® for Architects course prepares System, Solution, and Enterprise Architects to engage across the organization as effective leaders and change agents who collaboratively deliver architectural solutions. During this course, attendees will explore the roles, responsibilities, and mindset of Agile Architects, and appreciate how to align architecture with business value and drive continuous flow to large systems of systems while supporting SAFe® program execution. What you will Learn To perform the role of a SAFe® Architect, you should be able to: Architect using SAFe® principles Align architecture with business value Develop and communicate architecture vision and intent Plan architectural runway to enable delivery success Architect for continuous delivery and Release on Demand Lead and coach architects and team members during Program Increment (PI) Planning and execution Provide leadership during a Lean-Agile transformation Exemplifying Lean-Agile architecture Architecting for DevOps and Release on Demand Aligning architecture with business value Developing Solution Vision, Solution Intent, and Roadmaps Preparing architecture for Program Increment (PI) Planning Coordinating architecture throughout PI Planning Supporting Continuous Delivery during PI execution Supporting new Strategic Themes and Value Streams Leading as an architect during a Lean-Agile transformation

LTE Architecture and Protocols course description This course provides a comprehensive tour of the LTE architecture along with services provided and the protocols used. What will you learn Describe the overall architecture of LTE. Explain the information flows through LTE. Describe the LTE security. Describe LTE mobility management. Recognise the next steps for LTE. LTE Architecture and Protocols course details Who will benefit: Anyone working with LTE. Prerequisites: Mobile communications demystified Duration 3 days LTE Architecture and Protocols course contents Introduction History, LTE key features. The 4G ITU process. The LTE 3GPP specifications. Specifications. System Architecture LTE hardware architecture. UE architecture and capabilities. E-UTRAN and eNB. EPC, MME functions, SGW, PGW and PCRF. System interfaces and protocol stacks. Example information flows. Dedicated and default bearers. EMM, ECM, RRC state diagrams. Radio transmission and reception OFDMA, SC-FDMA, MIMO antennas. Air interface protocol stack. Logical, transport and physical channels. Frame and slot structure, the resource grid. Resource element mapping of the physical channels and signals. Cell acquisition, data transmission and random access. MAC, RLC, PDCP protocols. LTE spectrum allocation. Power-on procedures Network and cell selection. RRC connection establishment. Attach procedure, including IP address allocation and default bearer activation. LTE detach procedure. Security in LTE networks LTE security features, identity confidentiality, ciphering and integrity protection. Architecture of network access security in LTE. Secure key hierarchy. Authentication and key agreement procedure. Security mode command procedure. Network domain security architecture. Security associations using IKE and IPSec. Mobility management RRC_IDLE, RRC_CONNECTED. Cell reselection, tracking area updates. Measurement reporting. X2 and S1 based handovers. Interoperation with UMTS, GSM and non-3GPP technologies such as cdma2000. QoS, policy control and charging QoS in LTE, EPS bearers, service data flows and packet flows. The architecture and signalling procedures for policy and charging control. Data transport using GPRS, differentiated services and MPLS. Offline and online charging in LTE. Delivery of voice and text messages over LTE Difficulties and solutions for Voice over LTE. Architecture and call setup procedures for circuit switched fallback. Architecture, protocols and call setup procedures in IP multimedia subsystem. Enhancements in release 9 LTE location services. Multimedia broadcast / multicast service and MBSFN. Cell selection, commercial mobile alert service. LTE Advanced and release 10 Impact of carrier aggregation on LTE air interface. Enhanced MIMO processing on uplink and downlink. Relaying. Release 11 and beyond. OAM and self organising networks Operation, administration, maintenance and provisioning for LTE. Self-configuration of base station parameters. Fractional frequency re-use, inter-cell interference co-ordination. Self-optimisation of base station procedures. Self-healing to detect and recover from faults.