MOC On-Demand: 10992-Integrating On-Premises Core Infrastructure with Microsoft Azure Course Outline
*** Note: This is an On-Demand Self Study Class, 3-days of content, $995 ***
You can take this class at any time; there are no set dates. It covers the same content as the 3-day instructor-led class of the same name. The cost for this MOC On-Demand class is $995. (Microsoft Enterprise customers paying with Software Assurance Vouchers, see SATV Payment note below.) In all cases, customers must call us directly to purchase this class at 800-288-8221.
MOC On-Demand Learner Profiles
MOC On-Demand is a self-study training solution that was designed for two types of learners. First, MOC On-Demand is a great fit for experienced IT professionals who don't need a traditional 5-day class to upgrade their existing skills. They can pick and choose topics to make the most effective use of their time. Second, MOC On-Demand is perfect for highly-motivated individuals who are new to a technology and need to space their learning over a period of weeks or months. These learners can take their time and repeat sections as needed until they master the new concepts.
About MOC On-Demand
Our MOC On-Demand classes are self-study courses with 30 to 40 hours of content. They include hours of videos, hands-on labs using the actual software, and knowledge checks and were created by Microsoft to mirror the content found in the traditional live instructor-led version of this course. Those features are all part of the standard MOC On-Demand training. But don't settle for the standard MOC On-Demand class! Check out the "ONLC Extras" that you get when purchasing this course from us.
ONLC Training Centers bundles in valuable extras with our MOC On-Demand Courses. These items are not available from other training companies.
Courseware After the Course.
Get the digital courseware that is used in the live, instructor-led version of this class. While the MOC On-Demand access goes away after 90 days, you will have access to the "extra" digital courseware for an unlimited period of time.
24/7 Online Support.
You will be able to chat online with a content matter expert while you are taking your MOC On-Demand class. And, with your permission, the expert can even take over your computer to provide with assistance with your labs.
These add-ons are available exclusively by ONLC Training Centers and are offered to you at an additional cost.
90-Day Extension, $300.
Need more time? Get another 90 days of access to your MOC On-Demand class, complete with labs, videos and knowledge checks.
Certification Pak, $150.
Interested in obtaining certification? Get a Transcender practice exam and a Microsoft exam voucher at this reduced price.
ILT Listener, $250.
Want to listen in and follow along with a live Instructor-Led Training (ILT) class? We offer this option for individuals on a limited budget who have time during the day to hear a live class in progress. ILT Listeners have access to their online support chat expert during the class but they do not have direct access to the live instructor.
ILT Participant, $ Varies.
You've purchased MOC On-Demand, have gone through the training and decided that you still want a live class. Just pay difference between MOC On-Demand course and and the Instructor-Led Training (ILT) class and you can have a seat in our live class. Get both self-study and live, instructor-led training for the retail price of the instructor-led class alone!
Paying with Software Assurance Training Vouchers (SATV)
For Microsoft Enterprise customers paying with Software Assurance Vouchers, the cost of this class is 3 vouchers--this includes access to the self-study materials, the student workbook, 24/7 access to an online expert, and a corresponding exam voucher, if applicable, upon request.
Do You Still Prefer a Live, Instructor-led Class?
Already know MOC On-Demand is not right for you? We also offer this same course content in a live, instructor-led format. For more details, click on the link below:
This 3-day instructor-led course covers a range of components, including Azure Compute, Azure Storage, and network services that customers can benefit from when deploying hybrid solutions. In this context, the term hybrid means integrating infrastructure technologies that customers host in on-premises datacenters with Azure IaaS and PaaS services. This course offers an overview of these services, providing the knowledge necessary to design hybrid solutions properly. It also includes a number of demonstrations and labs that enable students to develop hands-on skills that are necessary when implementing such solutions.
This course is intended for IT professionals and development operations (DevOps) professionals who are well versed in on-premises technologies and who have some knowledge of cloud technologies but want to learn more about integrating their on-premises environments with Azure. These professionals should have at least three years of experience working in their respective fields—typically, in the areas of on-premises system administration or network administration, in addition to DevOps support. These IT professionals have broadly applicable administration and operational skills, and they generally work for both enterprise-level organizations and small and medium business environments.
More specifically, the intended audience includes:
IT professionals who have used on-premises virtualization technologies, including both Hyper-V and VMware platforms, but who want to deploy, configure, and administer services and virtual machines in Azure.
IT professionals who have used Microsoft System Center to manage and orchestrate an on-premises server infrastructure.
Windows and Linux administrators who are looking to evaluate and migrate on-premises workloads and services to the cloud.
IT professionals who need to implement network connectivity between on-premises environments and services that Azure or Microsoft Office 365 hosts.
IT professionals who want to use Azure to increase the resiliency and agility of their on-premises environments.
DevOps personnel who are considering deploying hybrid solutions that consist of both cloud-based and on-premises components.
IT professionals and DevOps personnel who are experienced in other non-Microsoft cloud technologies,, who meet the course prerequisites, and how are looking to cross-train on Azure.
Before attending this course, students must have:
An understanding of on-premises virtualization technologies, including virtual machines, virtual networking, and virtual hard disks.
An understanding of network configuration, including TCP/IP, Domain Name System (DNS), VPNs, firewalls, and encryption technologies.
An understanding of web applications, including creating, configuring, monitoring, and deploying web applications on Internet Information Services (IIS).
An understanding of Active Directory concepts, including domains, forests, domain controllers, replication, the Kerberos protocol, and Lightweight Directory Access Protocol (LDAP).
Knowledge of Windows Server 2012 and Windows Server 2016 fundamentals.
Knowledge of Windows PowerShell command-line interface basics.
Knowledge of cloud computing basics.
At course completion
After completing this course, students will be able to:
Describe the core concepts of Azure.
Explain the primary methods for integrating an on-premises environment with Azure Virtual Machines and Azure Cloud Services.
Describe Azure hybrid networking technologies.
Describe the Azure services that provide data storage, management, and analytics capabilities in hybrid scenarios.
Explain the use of Azure disaster recovery and business continuity solutions for on-premises environments.
Explain how to design and implement cross-premises applications.
Describe Azure monitoring and management solutions that offer hybrid capabilities.
Module 1: Introduction to Microsoft Azure
This module starts with a general overview of cloud computing, and then focuses on Microsoft Azure and its technologies that offer integration opportunities. It also introduces the most common methods of interacting with Azure, including the Azure portals, Azure PowerShell, Azure Command-Line Interface (CLI), and Microsoft Visual Studio. The module concludes by covering Azure deployment models, which dictate how you provision and manage Azure services.
Overview of cloud computing and Azure
Overview of the Azure deployment models
Lab : Use Azure portal, Azure PowerShell, and Microsoft Visual Studio to deploy and manage Azure resources
Deploying Microsoft Azure VMs by using the Azure portal
Deploying Azure VMs by using Azure PowerShell
Creating and deploying an Azure Resource Manager deployment template
Identify and delete newly deployed resources
Module 2: Integrating with Azure Compute services
This module explores the different compute resources available in Azure in the context of hybrid scenarios. It first explains the differences between Azure Virtual Machines and Azure Cloud Services and how you can use each of them to migrate on-premises workloads. Next, it describes the process of migrating on-premises virtual machines to Azure by using virtual machine images and disks. It also explains the process of extending Big Compute workloads to Azure by integrating them with on-premises high performance computing (HPC) deployments and by using Azure Batch. The module concludes with an explanation on containers and Azure Service Fabric.
Overview of Azure virtual machines and Azure cloud services
Migrating workloads to Azure virtual machines by using virtual machine images and disks
Extending HPC workloads to Azure
Integrating compute workloads by using containers and Azure Service Fabric
Lab : Uploading an on-premises virtual disk file to Azure
Preparing for an upload of a virtual disk file to Azure
Uploading a virtual disk file to Azure
Lab : Moving containers between on-premises Hyper V virtual machines and Azure virtual machines
Creating a Docker host by using Docker Machine
Deploying a private Docker Registry in Azure
Module 3: Integrating with Microsoft Azure virtual networks
This module introduces the Azure Virtual Network service and its components. It also describes how to implement Azure virtual networks and integrate them with your on-premises computing resources by establishing direct network connectivity between the two environments.
Overview of Azure Virtual Network Service
Extending on-premises networks to Azure
Lab : Implementing a point-to-site VPN by using Azure Resource Manager
Preparing a Microsoft Azure subscription for implementing a point-to-site VPN
Completing the point-to-site VPN setup
Testing a point-to-site VPN from an on-premises virtual machine
Module 4: Integrating with Azure Storage and data services
This module starts with a description of Azure Storage types and their capabilities. It then describes Azure Backup, StorSimple hybrid storage solution, Microsoft SQL Server Stretch Database, Azure Data Factory with Data Management Gateway, and Azure Content Delivery Network. It concludes with a detailed walkthrough of the implementation of Azure Recovery Services agent-based and Microsoft Azure Backup Server-based backups.
Overview of Azure Storage and data services
Implementing Azure Backup for on-premises workloads
Lab : Implementing the Azure Recovery Services agent-based backups
Preparing your Microsoft Azure subscription for the implementation
Configuring a virtual machine for Azure Recovery Services agent-based backups
Testing the backup of the virtual machine files and folders
Testing the restore of the virtual machine files and folders
Module 5: Designing and implementing Azure Site Recovery solutions
This module presents the main features of Azure Site Recovery and the scenarios it supports. It also describes the planning considerations for Azure Site Recovery, the different types of implementations of Azure as a disaster recovery site for on-premises workloads, and the disaster recovery capabilities that StorSimple offers. You will become familiar with the process of planning Site Recovery deployment and will step through a sample deployment.
Overview of Site Recovery
Planning for Site Recovery
Implementing Site Recovery with Azure as the disaster recovery site
Lab : Implementing protection of on-premises Hyper-V virtual machines in Azure by using Site Recovery
Preparing your Microsoft Azure subscription for implementing Site Recovery
Preparing your Hyper-V host for the implementation
Configuring Site Recovery protection of a Hyper-V virtual machine
Module 6: Designing and implementing cross-premises applications
This module presents the most common solutions that facilitate implementation of cross-premises applications, including Azure RemoteApp, Traffic Manager, and Hybrid Connections with the Web Apps feature of Azure App Service. It also describes the process of implementing cross-premises solutions for desktop, web, and mobile apps.
Overview of cross-premises application capabilities and their design considerations
Implementing cross-premises solutions for desktop, web, and mobile apps
Lab : Implementing Traffic Manager
Creating two instances of an organizational website using the Web Apps feature of Azure App Service
Creating and configuring an Azure Traffic Manager profile
Testing the distribution of traffic targeting the Azure Traffic Manager profile
Module 7: Integrating operations and application monitoring and management
This module presents Azure-based services that deliver monitoring and management functionality for on-premises workloads. These services include Microsoft Operations Management Suite with its Log Analytics, Microsoft Azure Automation with its support for on-premises systems based on Hybrid Runbook Worker functionality, and Visual Studio Application Insights. This module also describes the process of implementing cross-premises Azure monitoring and management solutions.
Overview of the cross-premises monitoring and management capabilities of Microsoft Azure
Implementing cross-premises Azure monitoring and management solutions
Lab : Implementing Azure Automation
Creating and configuring an Operations Management Suite workspace
Creating and configuring an Azure Automation account
Configuring an on-premises computer as a Hybrid Runbook Worker
Running a runbook on a Hybrid Runbook Worker and examining the outcome
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