1701 Architecture courses

Duration 4 Days 24 CPD hours This course is intended for This course is for experienced cloud security engineers who have taken a previous certification in the security, compliance and identity portfolio. Specifically, students should have advanced experience and knowledge in a wide range of security engineering areas, including identity and access, platform protection, security operations, securing data, and securing applications. They should also have experience with hybrid and cloud implementations. Beginning students should instead take the course SC-900: Microsoft Security, Compliance, and Identity Fundamentals. This is an advanced, expert-level course. Although not required to attend, students are strongly encouraged to have taken and passed another associate level certification in the security, compliance and identity portfolio (such as AZ-500, SC-200 or SC-300) before attending this class. This course prepares students with the expertise to design and evaluate cybersecurity strategies in the following areas: Zero Trust, Governance Risk Compliance (GRC), security operations (SecOps), and data and applications. Students will also learn how to design and architect solutions using zero trust principles and specify security requirements for cloud infrastructure in different service models (SaaS, PaaS, IaaS). Prerequisites Highly recommended to have attended and passed one of the associate level certifications in the security, compliance and identity portfolio (such as AZ-500T00 Microsoft Azure Security Technologies, SC-200T00: Microsoft Security Operations Analyst, or SC-300T00: Microsoft Identity and Access Administrator.) Advanced experience and knowledge in identity and access, platform protection, security operations, securing data and securing applications. Experience with hybrid and cloud implementations. 1 - Introduction to Zero Trust and best practice frameworks Zero Trust initiatives Zero Trust technology pillars part 1 Zero Trust technology pillars part 2 2 - Design solutions that align with the Cloud Adoption Framework (CAF) and Well-Architected Framework (WAF) Define a security strategy Cloud Adoption Framework secure methodology Design security with Azure Landing Zones The Well-Architected Framework security pillar 3 - Design solutions that align with the Microsoft Cybersecurity Reference Architecture (MCRA) and Microsoft cloud security benchmark (MCSB) Design solutions with best practices for capabilities and controls Design solutions with best practices for attack protection 4 - Design a resiliency strategy for common cyberthreats like ransomware Common cyberthreats and attack patterns Support business resiliency Ransomware protection Configurations for secure backup and restore Security updates 5 - Case study: Design solutions that align with security best practices and priorities Case study description Case study answers Conceptual walkthrough Technical walkthrough 6 - Design solutions for regulatory compliance Translate compliance requirements into a security solution Address compliance requirements with Microsoft Purview Address privacy requirements with Microsoft Priva Address security and compliance requirements with Azure policy Evaluate infrastructure compliance with Defender for Cloud 7 - Design solutions for identity and access management Design cloud, hybrid and multicloud access strategies (including Azure AD) Design a solution for external identities Design modern authentication and authorization strategies Align conditional access and Zero Trust Specify requirements to secure Active Directory Domain Services (AD DS) Design a solution to manage secrets, keys, and certificates 8 - Design solutions for securing privileged access The enterprise access model Design identity governance solutions Design a solution to secure tenant administration Design a solution for cloud infrastructure entitlement management (CIEM) Design a solution for privileged access workstations and bastion services 9 - Design solutions for security operations Design security operations capabilities in hybrid and multicloud environments Design centralized logging and auditing Design security information and event management (SIEM) solutions Design solutions for detection and response Design a solution for security orchestration, automation, and response (SOAR) Design security workflows Design threat detection coverage 10 - Case study: Design security operations, identity and compliance capabilities Case study description Case study answers Conceptual walkthrough Technical walkthrough 11 - Design solutions for securing Microsoft 365 Evaluate security posture for collaboration and productivity workloads Design a Microsoft 365 Defender solution Design configurations and operational practices for Microsoft 365 12 - Design solutions for securing applications Design and implement standards to secure application development Evaluate security posture of existing application portfolios Evaluate application threats with threat modeling Design security lifecycle strategy for applications Secure access for workload identities Design a solution for API management and security Design a solution for secure access to applications 13 - Design solutions for securing an organization's data Design a solution for data discovery and classification using Microsoft Purview Design a solution for data protection Design data security for Azure workloads Design security for Azure Storage Design a security solution with Microsoft Defender for SQL and Microsoft Defender for Storage 14 - Case study: Design security solutions for applications and data Case study description Case study answers Conceptual walkthrough Technical walkthrough 15 - Specify requirements for securing SaaS, PaaS, and IaaS services Specify security baselines for SaaS, PaaS, and IaaS services Specify security requirements for web workloads Specify security requirements for containers and container orchestration 16 - Design solutions for security posture management in hybrid and multicloud environments Evaluate security posture by using Microsoft Cloud Security Benchmark Design integrated posture management and workload protection Evaluate security posture by using Microsoft Defender for Cloud Posture evaluation with Microsoft Defender for Cloud secure score Design cloud workload protection with Microsoft Defender for Cloud Integrate hybrid and multicloud environments with Azure Arc Design a solution for external attack surface management 17 - Design solutions for securing server and client endpoints Specify server security requirements Specify requirements for mobile devices and clients Specify internet of things (IoT) and embedded device security requirements Secure operational technology (OT) and industrial control systems (ICS) with Microsoft Defender for IoT Specify security baselines for server and client endpoints Design a solution for secure remote access 18 - Design solutions for network security Design solutions for network segmentation Design solutions for traffic filtering with network security groups Design solutions for network posture management Design solutions for network monitoring 19 - Case study: Design security solutions for infrastructure Case study description Case study answers Conceptual walkthrough Technical walkthrough Additional course details: Nexus Humans SC-100T00 Microsoft Cybersecurity Architect 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 SC-100T00 Microsoft Cybersecurity Architect 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.

Why Opt for the Rhino 3D Training Course in Jewelry Design? Click here for more info Within a span of 10 hours, you'll master the interface and gain insights into how Rhino leverages points, lines, surfaces, and solids to fashion printable 3D objects. Moreover, you'll explore the art of crafting repetitive and intricate geometric shapes, perfect for creating minimalist and elegant jewelry. Flexible Scheduling: 1-on-1 training sessions tailored to your schedule. Pick any hour between 9 am and 7 pm from Mon to Sat. Course Duration: 10 hours. Training Methods: Choose between in-person sessions or live online training. Why Choose Our Rhino 3D Training Course for Jewelry Design? Rhino, also known as Rhinoceros, stands as a robust 3D computer graphics and computer-aided design software extensively utilized in various industries, including architecture, industrial design, and multimedia. LDTC offers meticulously crafted Rhino courses to empower you in mastering this software. Led by experienced instructors, our courses ensure a comprehensive understanding of Rhino, equipping you to create exceptional designs, specifically tailored for jewelry creation. Rhino 3D Training for Jewelry Design: Our Rhino 3D training caters to both beginners and those aspiring to acquire advanced techniques, emphasizing its application in jewelry design. Course Highlights: Precise 3D Modeling: Master the art of crafting free-form 3D NURBS models with utmost precision. Advanced Functionality: Explore Rhino's advanced surfacing commands and features tailored for jewelry design. User Interface Mastery: Navigate Rhino's interface seamlessly and refine your skills in curves, surfaces, and solids. Expert Guidance: Acquire expertise in Rhino's modeling environment under the guidance of seasoned professionals. Modeling Why Choose Our Rhino 3D Training Course for Jewelry Design? Rhino, also known as Rhinoceros, stands as a robust 3D computer graphics and computer-aided design software extensively utilized in various industries, including architecture, industrial design, and multimedia. LDTC offers meticulously crafted Rhino courses to empower you in mastering this software. Led by experienced instructors, our courses ensure a comprehensive understanding of Rhino, equipping you to create exceptional designs, specifically tailored for jewelry creation. Rhino for Jewelry Design - 16-Hour Course Module 1: Introduction and Navigation Get acquainted with Rhino's interface, menus, and screen layout. Navigate Rhino models with precision in 2D lines, polylines, and NURBS curves. Use modeling setup features like snap, ortho, and planar constraints for accuracy. Leverage object snaps and Smart Track functionality for enhanced precision. Module 2: Solid and Surface Modeling Fundamentals Rapidly develop 3D solids and surfaces using Rhino's organized layering system. Utilize coordinates and constraints for meticulous modeling in 3D space. Create diverse shapes, including rectangles, circles, arcs, ellipses, and polygon curves. Enhance models with Rhino render, render color, and free-form curves. Efficiently handle model views with pan, zoom, and view management tools. Implement various editing commands for curve manipulation and transforming curves into surfaces and solids. Utilize history tracking for advanced editing and execute general editing actions. Module 3: Intermediate Edit and Surfacing Techniques Introduce essential NURBS modeling concepts and terminologies. Edit curves and surfaces through control point manipulation and rebuilding for optimal refinement. Use the nudge modeling aid for precise adjustments and generate deformable shapes. Create curves through projection techniques and split surfaces using curves and surfaces. Blend surfaces seamlessly, utilizing symmetry tools, lighting, and rendering effects. Convert intricate 3D objects into detailed 2D drawings and craft page layouts. Module 4: Advanced Surfacing and Solid Modeling Techniques Construct model primitives and solid text using techniques such as pipe and extrusion. Efficiently modify solids using Boolean tools, expanding surface modeling capabilities. Utilize techniques like extrusion, lofting, and revolving for intricate surfaces. Create sweeps using 1 and 2 rail curves and master surface network techniques for complex shapes. Downlaod Rhino. Upon completion of the Rhino 3D Training Course for Jewelry Design, participants can expect the following learning outcomes: Mastering Rhino Interface: Gain a comprehensive understanding of Rhino's interface, menus, and screen layout. Precision in Modeling: Navigate Rhino models with precision using 2D lines, polylines, and NURBS curves. Modeling Setup Proficiency: Utilize modeling setup features such as snap, ortho, and planar constraints for accurate designs. Enhanced Navigation Techniques: Leverage object snaps and Smart Track functionality for enhanced precision during navigation. Solid and Surface Modeling Skills: Rapidly develop 3D solids and surfaces with Rhino's organized layering system. Coordination and Constraint Application: Utilize coordinates and constraints for meticulous modeling in 3D space. Diverse Shape Creation: Create diverse shapes, including rectangles, circles, arcs, ellipses, and polygon curves. Rendering and Enhancement Techniques: Enhance models with Rhino render, render color, and free-form curves. Efficient Model View Handling: Efficiently handle model views with pan, zoom, and view management tools. Intermediate Edit and Surfacing Techniques: Edit curves and surfaces through control point manipulation and rebuilding for optimal refinement. NURBS Modeling Mastery: Introduce essential NURBS modeling concepts and terminologies. Advanced Editing and Modeling Skills: Use the nudge modeling aid for precise adjustments and generate deformable shapes. Complex Shape Creation: Create sweeps using 1 and 2 rail curves and master surface network techniques for intricate shapes. Solid Modeling Proficiency: Construct model primitives and solid text using techniques such as pipe and extrusion. Application of Boolean Tools: Efficiently modify solids using Boolean tools, expanding surface modeling capabilities. Advanced Surfacing Techniques: Utilize techniques like extrusion, lofting, and revolving for intricate surfaces. Conversion and Crafting of 2D Drawings: Convert intricate 3D objects into detailed 2D drawings and craft page layouts. Hands-On Project Experience: Engage in practical exercises and hands-on projects tailored for jewelry design applications. Upon mastering these skills, participants will be well-equipped to create sophisticated jewelry designs using Rhino 3D modeling software.

Limited Time Offer | 11-in-1 Bundle | CPD QS Certified | 120 CPD Points | Gifts: Hardcopy + PDF Certificate + SID - Worth £180 | Customer Support | Lifetime Access | Enrol Now

In this course, students will learn general strategies for planning, designing, developing, implementing, and maintaining an IoT system through various case studies and by assembling and configuring an IoT device to work in a sensor network.

Duration 5 Days 30 CPD hours This course is intended for Professionals who need to maintain or set up a Kubernetes cluster Container Orchestration Engineers DevOps Professionals Overview Cluster architecture, installation, and configuration Rolling out and rolling back applications in production Scaling clusters and applications to best use How to create robust, self-healing deployments Networking configuration on cluster nodes, services, and CoreDNS Persistent and intelligent storage for applications Troubleshooting cluster, application, and user errors Vendor-agnostic cloud provider-based Kubernetes Kubernetes is a Cloud Orchestration Platform providing reliability, replication, and stability while maximizing resource utilization for applications and services. By the conclusion of this hands-on, vendor agnostic training you will go back to work with the knowledge, skills, and abilities to design, implement, and maintain a production-grade Kubernetes cluster. We prioritize covering all objectives and concepts necessary for passing the Certified Kubernetes Administrator (CKA) exam. You will be provided the components necessary to assemble your own high availability Kubernetes environment and configure, expand, and control it to meet the demands made of cluster administrators. Your week of intensive, hands-on training will conclude with a mock CKA exam that simulates the real exam. Cluster Architecture, Installation & Configuration Each student will be given an environment that allows them to build a Kubernetes cluster from scratch. After a detailed discussion on key architectural components and primitives, students will install and compare two production grade Kubernetes clusters. Review: Kubernetes Fundamentals After successfully instantiating their own Kubernetes Cluster, students will be guided through foundational concepts of deploying and managing applications in a production environment. Workloads & Scheduling After establishing a solid Kubernetes command line foundation, students will be led through discussion and hands-on labs which focus on effectively creating applications that are easy to configure, simple to manage, quick to scale, and able to heal themselves. Services & Networking Thoroughly understanding the underlying physical and network infrastructure of a Kubernetes cluster is an essential skill for a Certified Kubernetes Administrator. After an in-depth discussion of the Kubernetes Networking Model, students explore the networking of their cluster?s Control Plane, Workers, Pods, and Services. Storage Certified Kubernetes Administrators are often in charge of designing and implementing the storage architecture for their clusters. After discussing many common cluster storage solutions and how to best use each, students practice incorporating stateful storage into their applications. Troubleshooting A Certified Kubernetes Administrator is expected to be an effective troubleshooter for their cluster. The lecture covers a variety of ways to evaluate and optimize available log information for efficient troubleshooting, and the labs have students practice diagnosing and resolving several typical issues within their Kubernetes Cluster. Certified Kubernetes Administrator Practice Exam Just like the Cloud Native Computing Foundation CKA Exam, the students will be given two hours to complete hands-on tasks in their own Kubernetes environment. Unlike the certification exam, students taking the Alta3 CKA Practice Exam will have scoring and documented answers available immediately after the exam is complete, and will have built-in class time to re-examine topics that they wish to discuss in greater depth.

Duration 2 Days 12 CPD hours This course is intended for Experienced system administrators, network administrators, and system integrators responsible for designing and implementing networking solutions Network and security professionals who work with enterprise and data center networks Overview By the end of the course, you should be able to meet the following objectives: Discuss the SD-WAN architecture and platform deployment model options Identify and describe the SD-WAN solution components Explain the interaction between the SD-WAN Edge, Orchestrator, and Gateway components Describe the SD-WAN Software-Defined Networking (SDN) approach, traffic, and network flows Explore SD-WAN core features and evaluate how these dramatically improve operational automation Use SD-WAN features to perform simple, agile, and secure SD-WAN operations Simplify branch infrastructure by inserting network services on the branch edge, in the cloud, or in the regional and enterprise data centers This course provides you with the knowledge, skills, and tools to achieve competency in deploying and managing the VMware SD-WAN by VeloCloud environment. In this course, you are introduced to workflows of various software-defined WAN constructs along with several operational tools that help you deploy and manage VMware SD-WAN by VeloCloud. Course Introduction Introductions and course logistics Course objectives Introduction to VMware SD-WAN Solution Revisit the traditional WAN technology, WAN topologies and downsides Explain the challenges solved by Secure Access Service Edge (SASE) and use cases List the components of the VMware SASE? solution Describe the VMware SD-WAN solution and list its capabilities VMware SD-WAN Components and Architecture Understand the architecture of the VMware SD-WAN solution and list all its components Explain the function of VMware SD-WAN Edges, Hub, Gateways, controllers, and Orchestrator Explain how the components of the VMware SD-WAN solution interact with each other Using VMware SD-WAN Orchestrator Describe key attributes of the VMware SD-WAN Orchestrator List primary features of the VMware SD-WAN Orchestrator Navigate the main menus of the VMware SD-WAN Orchestrator portal Deploy and Configure VMware SD-WAN Understand the deployment process of VMware SD-WAN components like VMware SD-WAN Edges, Hubs, Gateways, and more Understand the workflow of the VMware SD-WAN configuration List the optional network services that are supported by VMware and the steps to configure the same Understand the profiles and their application in the VMware SD-WAN infrastructure Describe the VMware SD-WAN Edge activation process Path and Traffic Management List the routing options supported by VMware SD-WAN: Static, BGP, OSPF Understand the Dynamic Multipath Optimization (DMPO) feature and its advantages Explain the Quality of Service and its configuration to manage traffic Securing VMware SD-WAN Environment Explain various options available to secure VMware SD-WAN environments. Understand the firewall capabilities and configuration Monitoring, Maintenance, and Troubleshooting List and understand the various features available to monitor the VMware SD-WAN infrastructure List and understand the various options available to troubleshoot and investigate issues in VMware SD-WAN

Duration 1 Days 6 CPD hours This course is intended for System administrators and security operations personnel, including analysts and managers Overview By the end of the course, you should be able to meet the following objectives: Describe the components and capabilities of the Carbon Black EDR server Identify the architecture and data flows for Carbon Black EDR communication Identify the architecture for a cluster configuration and Carbon Black EDR cluster communication Describe the Carbon Black EDR server data types and data locations Use the API to interact with the Carbon Black EDR server without using the UI Create custom threat feeds for use in the Carbon Black EDR server Perform the integration with a syslog server Use different server-side scripts for troubleshooting Troubleshoot sensor-side configurations and communication This course teaches you how to use the advanced features of the VMware Carbon Black© EDR? product. This usage includes gaining access to the Linux server for management and troubleshooting in addition to configuring integrations and using the API. This course provides an in-depth, technical understanding of the Carbon Black EDR product through comprehensive coursework and hands-on scenario-based labs. This class focuses exclusively on advanced technical topics related to the technical back-end configuration and maintenance Course Introduction Introductions and course logistics Course objectives Architecture Data flows and channels Sizing considerations Communication channels and ports Server Datastores SOLR database Storage configurations and data aging Partition states Postgres Modulestore EDR API CBAPI overview Viewing API calls in the browser Utilizing the API to access data Threat Intelligence Feeds Feed structure Report indicator types Custom threat feed creation and addition Syslog Integration SIEM support Configuration Troubleshooting Server-side scripts Server logs Sensor operations Additional course details:Notes Delivery by TDSynex, Exit Certified and New Horizons an VMware Authorised Training Centre (VATC) Nexus Humans VMware Carbon Black EDR Advanced Administrator 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 VMware Carbon Black EDR Advanced Administrator 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.

Duration 3 Days 18 CPD hours This course is intended for The Foundation course is designed for individuals who want to gain an overview of Business Analysis (Business Analysts, Requirements Engineers, Product manager, Product Owner, Chief Product Owner, Service Manager, Service Owner, Project manager, Consultants) Overview Students should be able to demonstrate knowledge and understanding of business analysis principles and techniques. Key areas are: the role and competencies of a business analyst strategy analysis business system and business process modelling stakeholder analysis investigation and modelling techniques requirements engineering business case development The business analyst role analyzes, understands and manages the requirements in a customer-supplier relationship and ensures that the right products are delivered. The Foundation Seminar gives a good introduction to the spectrum of this responsibility. Course Introduction Let?s Get to Know Each Other Course Overview Course Learning Objectives Course Structure Course Agenda Introduction to Business Analysis Structure and Benefits of Business Analysis Foundation Exam Details Business Analysis Certification Scheme What is Business Analysis? Intent and Context Origins of business analysis The development of business analysis The scope of business analysis work Taking a holistic approach The role and responsibilities of the business analyst The competencies of a Business Analyst Personal qualities Business knowledge Professional techniques The development of competencies Strategy Analysis The context for strategy The defiition of strategy Strategy development External environmental analysis Internal invironmental analysis SWOT analysis Executing strategy Business Analysis Process Model An approach to problem solving Stages of the business analysis process model Objectives of the process model stages Procedures for each process model stage Techniques used within each process model stage Investigation Techniques Interviews Observation Workshops Scenarios Prototyping Quantitative approaches Documenting the current situation Stakeholder Analysis and Management Stakeholder categories and identification Analysing stakeholders Stakeholder management strategies Managing stakeholders Understanding stakeholder perspectives Business activity models Modelling Business Processes Organizational context An altrnative view of an organization The organizational view of business processes Value propositions Process models Analysing the as-is process model Improving business processes (to-be business process) Defining the Solution Gab analysis Introduction to Business Architecture Definition to Business Architecture Business Architecture techniques Business and Financial Case The business case in the project lifecycle Identifying options Assessing project feasibility Structure of a business case Investment appraisal Establishing the Requirements A framework for requirements engineering Actors in requirements engineering Requirements elicitation Requirements analysis Requirements validation Documenting and Managing the Requirements The requirements document The requirements catalogue Managing requirements Modelling the Requirements Modelling system functions Modelling system data Delivering the Requirements Delivering the solution Context Lifecycles Delivering the Business Solution BA role in the business change lifecycle Design stage Implementation stage Realization stage

Duration 1 Days 6 CPD hours This course is intended for System administrators and security operations personnel, including analysts and managers Overview By the end of the course, you should be able to meet the following objectives: Describe the components and capabilities of VMware Carbon Black Cloud Endpoint Standard Identify the architecture and data flows for Carbon Black Cloud Endpoint Standard communication Perform searches across endpoint data to discover suspicious behavior Manage the Carbon Black Cloud Endpoint Standard rules based on organizational requirements Configure rules to address common threats Evaluate the impact of rules on endpoints Process and respond to alerts Describe the different response capabilities available from VMware Carbon Black CloudTM This course teaches you how to use the VMware Carbon Black Cloud Endpoint? Standard product and leverage the capabilities to configure and maintain the system according to your organization?s security posture and policies. This course provides an in-depth, technical understanding of the product through comprehensive coursework and hands-on scenario-based labs. Course Introduction Introductions and course logistics Course objectives Data Flows and Communication Hardware and software requirements Architecture Data flows Searching Data Creating searches Analyzing events Search operators Advanced queries Policy Components Rules Local scanner Sensor capabilities Prevention Capabilities Using Rules Rule types Rule creation Reputation priority Configuring rules Evaluating rule impact Processing Alerts Alert triage Alert actions Response Capabilities Using quarantine Using live response Hash banning

Duration 2 Days 12 CPD hours This course is intended for Operators and application owners who are responsible for deploying and managing policies for multiple Kubernetes clusters across on-premises and public cloud environments. Overview By the end of the course, you should be able to meet the following objectives: Describe the VMware Tanzu Mission Control architecture Configure user and group access Create access, image registry, network, security, quota, and custom policies Connect your on-premises vSphere with Tanzu Supervisor cluster to VMware Tanzu Mission Control Create, manage, and backup Tanzu Kubernetes clusters Perform cluster inspections Monitor and secure Kubernetes environments During this two-day course, you focus on using VMware Tanzu© Mission Control? to provision and manage Kubernetes clusters. The course covers how to apply access, image registry, network, security, quota, and custom policies to Kubernetes environments. For cluster provisioning and management, the course focuses on deploying, upgrading, backing up and monitoring Kubernetes clusters on VMware vSphere© with Tanzu. Given the abstractions of VMware Tanzu Mission Control, the learnings should be transferrable to public cloud. Introducing VMware Tanzu Mission Control VMware Tanzu Mission Control Accessing VMware Tanzu Mission Control VMware Cloud? services access control VMware Tanzu Mission Control architecture Cluster Management Attached clusters Management clusters Provisioned clusters Cluster inspections Data protection VMware Tanzu© Observability? by Wavefront VMware Tanzu© Service Mesh? Policy Management Policy management Access policies Image registry policies Network policies Security policies Quota policies Custom policies Policy insights