A Quick Glance

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    Design business solutions with Azure

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    Prepare for the Microsoft Azure Architect Design exam

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    Taught by Microsoft Certified Trainers

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    Includes official Microsoft material

Who should take this course

Learners should have practical experience with operating systems, virtualization, cloud infrastructure, storage structures, billing, and networking.

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Prerequisites

There are no formal prerequisites, though Microsoft Certified: Azure Fundamentals certification is recommended.

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  Course Overview

​This 3-day course teaches the following:

  • How to manage security and identity within the context of Azure. Also, you’ll be introduced to multiple SaaS services available in Azure that for integration into existing Azure solutions
  • How to Compare and contrast various database options on Azure, identify data streaming options for large-scale data ingest, and identify longer-term data storage options
  • How to deploy an ARM template to a resource group, author a complex deployment using the Azure Building Blocks tools, and integrate an API or Logic App with the API Management service
  • How to Describe DNS and IP strategies for VNETs in Azure, compare connectivity options for ad-hoc and hybrid connectivity, distribute network traffic across multiple loads using load balancers, and design a hybrid connectivity scenario between cloud and on-premise

This course has been designed to prepare you for the Microsoft Azure Solutions Architect Design Exam AZ-301

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  Course Content

Module 1: Managing Security & Identity for Azure Solutions

This module discusses both security and identity within the context of Azure. For security, this module reviews the various options for monitoring security, the options available for securing data and the options for securing application secrets. For identity, this module focuses specifically on Azure Active Directory (Azure AD) and the various features available such as Multi-Factor Authentication (MFA), Managed Service Identity, Azure AD Connect, ADFS and Azure AD B2B/B2C.

  • Lab: Securing Secrets in Azure

After completing this module, students will be able to:

  • Integrate their existing solutions with external identity providers using Azure AD B2B or B2C.
  • Design a hybrid identity solution.
  • Determine when to use advanced features of Azure AD such as Managed Service Identity, MFA and Privileged Identity Management.
  • Secure application secrets using Key Vault.
  • Secure application data using SQL Database and Azure Storage features.

Module 2: Integrating SaaS Services Available on the Azure Platform

This module introduces multiple SaaS services available in Azure that are available for integration into existing Azure solutions. These services include Cognitive Services, Bot Service, Machine Learning and Media Services

  • Lab : Deploying Service Instances as Components of Overall Azure Solutions

After completing this module, students will be able to:

  • Detail the various APIs available in Cognitive Services.
  • Identify when to use the Face API, Speech API or Language Understanding (LUIS) service.

Module 3: Backing Azure Solutions with Azure Storage

This module describes how many Azure services use the Azure Storage service as a backing store for other application solution in Azure. The module dives into critical considerations when using Azure Storage as a supplemental service for an all-up Azure solution.

After completing this module, students will be able to:

  • Determine the ideal pricing option for Azure Storage based on a solution’s requirements.
  • Identify performance thresholds for the Azure Storage service.
  • Determine the type of Storage blobs to use for specific solution components.
  • Use the Azure Files service for SMB operations.
  • Identify solutions that could benefit from the use of StorSimple physical or virtual devices.

Module 4: Comparing Database Options in Azure

This module compares the various relational and non-relational data storage options available in Azure. Options are explored as groups such as relational databases (Azure SQL Database, MySQL, and PostgreSQL on Azure), non-relational (Azure Cosmos DB, Storage Tables), streaming (Stream Analytics) and storage (Data Factory, Data Warehouse, Data Lake)

  • Lab: Deploying Database Instances in Azure

After completing this module, students will be able to:

  • Compare and contrast monitoring services for applications, the Azure platform, and networking.
  • Identify data streaming options for large-scale data ingest.
  • Identify longer-term data storage options.

Module 5: Monitoring & Automating Azure Solutions

This module covers the monitoring and automation solutions available after an Azure solution has been architected, designed and possibly deployed. The module reviews services that are used to monitor individual applications, the Azure platform, and networked components. This module also covers automation and backup options to enable business-continuity scenarios for solutions hosted in Azure.

  • Lab: Deploying Configuration Management Solutions to Azure

After completing this module, students will be able to:

  • Compare and contrast monitoring services for applications, the Azure platform, and networking.
  • Design an alert scheme for a solution hosted in Azure.
  • Select the appropriate backup option for infrastructure and data hosted in Azure.
  • Automate the deployment of future resources for backup recovery or scaling purposes.

Module 6: Deploying Resources with Azure Resource Manager

This module establishes a basic understanding of the Azure Resource Manager and the core concepts of deployments, resources, templates, resource groups, and tags. The module will dive deeply into the automated deployment of resources using ARM templates.

  • Lab: Deploying Resources with Azure Resource Manager

After completing this module, students will be able to:

  • Create a resource group.
  • Add resources to a resource group.
  • Deploy an ARM template to a resource group.
  • Filter resources using tags.
  • Author a complex deployment using the Azure Building Blocks tools.

Module 7: Creating Managed Server Applications in Azure

This module describes how solutions can leverage serverless application hosting services in Azure to host web applications, REST APIs, integration workflows and HPC workloads without the requirement to manage specific server resources. The module focuses on App Services-related components such as Web Apps, API Apps, Mobile Apps, Logic Apps, and Functions.

  • Lab: Deploying Managed Containerized Workloads to Azure

After completing this module, students will be able to:

  • Select between hosting application code or containers in an App Service instance.
  • Describe the differences between API, Mobile, and Web Apps.
  • Integrate an API or Logic App with the API Management service.
  • Design an App Service Plan or multi-region deployment for high performance and scale.

Module 8: Authoring Serverless Applications in Azure

This module describes how solutions can leverage serverless application hosting services in Azure to host web applications, REST APIs, integration workflows and HPC workloads without the requirement to manage specific server resources. The module focuses on App Services-related components such as Web Apps, API Apps, Mobile Apps, Logic Apps, and Functions.

  • Lab: Deploying Serverless Workloads to Azure

After completing this module, students will be able to:

  • Select between hosting application code or containers in an App Service instance.
  • Describe the differences between API, Mobile, and Web Apps.
  • Integrate an API or Logic App with the API Management service.
  • Design an App Service Plan or multi-region deployment for high performance and scale.

Module 9: Application Architecture Patterns in Azure

This module introduces, and reviews common Azure patterns and architectures as prescribed by the Microsoft Patterns & Practices team. Each pattern is grouped into performance, resiliency, and scalability categories and described in the context of similar patterns within the category.

After completing this module, students will be able to:

  • Locate and reference the Cloud Design Patterns documentation.
  • Locate and reference the Azure Architecture Center.
  • Describe various patterns pulled from the Cloud Design Patterns.

Module 10: Building Azure IaaS-Based Server Applications (ADSK)

This module identifies workloads that are ideally deployed using Infrastructure-as-a-Service services in Azure. The module focuses on the VM Scale Sets and Virtual Machine services in Azure and how to best deploy workloads to these services using best practices and features such as Availability Sets.

  • Lab: Building Azure IaaS-Based Server Applications.

After completing this module, students will be able to:

  • Design an availability set for one or more virtual machines.
  • Describe the differences between fault and update domains.
  • Author a VM Scale Set ARM template.
  • Join a virtualized machine to a domain either in Azure or on a hybrid network.

Module 11: Networking Azure Application Components

This module describes the various networking and connectivity options available for solutions deployed on Azure. The module explores connectivity options ranging from ad-hoc connections to long-term hybrid connectivity scenarios. The module also discusses some of the performance and security concerns related to balancing workloads across multiple compute instances, connecting on-premise infrastructure to the cloud and creating gateways for on-premise data.

  • Lab: Deploying Network Infrastructure for Use in Azure Solutions

After completing this module, students will be able to:

  • Describe DNS and IP strategies for VNETs in Azure.
  • Compare connectivity options for ad-hoc and hybrid connectivity.
  • Distribute network traffic across multiple loads using load balancers.
  • Design a hybrid connectivity scenario between cloud and on-premise.

Module 12: Integrating Azure Solution Components Using Messaging Services

This module describes and compares the integration and messaging services available for solutions hosted on the Azure platform. Messaging services described include Azure Storage Queues, Service Bus Queues, Service Bus Relay, IoT Hubs, Event Hubs, and Notification Hubs. Integration services include Azure Functions and Logic Apps.

  • Lab: Integrating Azure Solution Components using Messaging Services

After completing this module, students will be able to:

  • Compare Storage Queues to Service Bus Queues.
  • Identify when to use Azure Functions or Logic Apps for integration components in a solution.
  • Describe the differences between IoT Hubs, Event Hubs and Time Series Insights.
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About Chester

Chester is a city in Cheshire, England. it is the most populous city of the Cheshire West and Chester with 332,200 population. It is the supreme populous settlement of Cheshire West and Chester, which had a population of 332,200 in 2014. Chester was initially considered as a Castrum or Roman fort with the name Deva Victrix. 

Governance:

Chester is an unparished region within the unitary power of Cheshire West and Chester. A small area around Chester Castle scraps a civil community of Chester Castle. The Member of Parliament for the City of Chester is Chris Matheson, chosen in 2015.

Geography:

Chester deceits at the southern end of a 2-mile (3.2 km) Triassic sandstone edge that increases to a height of 42 m within a natural S-bend in the River Dee. The bedrock, which is also recognised as the Chester Pebble Beds, is perceptible because of the many small stones stuck within its layers. Receding glacial sheet ice also placed amounts of sand and marl across the area where boulder clay was inattentive.

The eastern and northern part of Chester contained heathland and forest. The western side towards the Dee Estuary was marsh and wetland homes.

Climate:

Chester has an oceanic weather. Even with its nearness to the Irish Sea, the temperature system is similar to areas further inland, owing to the shelter delivered by the Pennines to the northeast and the Welsh Mountains to the south-west. The nearest official weather station is at Hawarden Airport, about 4 miles (6.4 km) west of the city Centre.

The absolute supreme temperature recorded was 35.2 °C for the period of August 1990. In an average year, the warmest day should reach 29.3 °C.

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