AZ-801T00: Configuring Windows Server Hybrid Advanced Services Course Overview

AZ-801T00: Configuring Windows Server Hybrid Advanced Services Course Overview

The AZ-801T00: Configuring Windows Server Hybrid Advanced Services course is designed for IT professionals who seek to enhance their skills in implementing, managing, and maintaining a Windows Server hybrid environment. This course covers a range of advanced topics, including Securing Windows Server infrastructures, Implementing high availability, disaster recovery, Server migration, and Monitoring/troubleshooting.

In Module 1, learners focus on securing both on-premises and hybrid infrastructures, emphasizing Operating system security, Active Directory, network, and Storage security, as well as using Azure services to identify and remediate security issues.

Module 2 delves into high availability through Failover clustering and Managing Storage Spaces Direct, while Module 3 centers on disaster recovery techniques, including Azure Site Recovery and Hyper-V replicas.

Module 4 is vital for understanding Server and workload migrations, from on-premises to Azure and upgrading to Windows Server 2022.

Lastly, Module 5 equips participants with the knowledge to monitor and troubleshoot diverse environments effectively, using both native Windows Server tools and Azure services.

For IT professionals seeking to pass the Microsoft AZ-801 exam, this course is an essential step in acquiring the expertise necessary for optimizing and securing server environments.

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Course Prerequisites

To ensure a successful learning experience in the AZ-801T00: Configuring Windows Server Hybrid Advanced Services course, it is important to meet the following minimum prerequisites:


  • Basic understanding of networking fundamentals, including TCP/IP, User Datagram Protocol (UDP), and Domain Name System (DNS).
  • Experience with Windows Server operating systems and Windows client operating systems such as Windows 10 or Windows 11.
  • Familiarity with Active Directory Domain Services (AD DS) principles and management.
  • Knowledge of core Microsoft compute, storage, networking, and virtualization technologies.
  • Awareness of basic security best practices.
  • Experience with Windows PowerShell scripting and automation.
  • Understanding of cloud services, particularly Microsoft Azure, and the core Microsoft 365 services is helpful.
  • Prior completion of the AZ-800T00: Administering Windows Server Hybrid Core Infrastructure course or equivalent knowledge is recommended.

These prerequisites are intended to provide a baseline for the training course, enabling you to fully engage with the course content and participate in hands-on labs and exercises. If you meet these requirements, you will be well-prepared to take on the challenges of the AZ-801T00 course and advance your skills in configuring Windows Server Hybrid Advanced Services.


Target Audience for AZ-801T00: Configuring Windows Server Hybrid Advanced Services

The AZ-801T00 course equips IT professionals with advanced Windows Server hybrid configuration and security skills.


Target Audience Job Roles:


  • Systems Administrators
  • Windows Server Administrators
  • IT Professionals with experience in Windows Server and Azure environments
  • Network Engineers focusing on Windows Server infrastructure
  • Security Specialists overseeing Windows Server and hybrid Active Directory
  • Disaster Recovery Consultants
  • Infrastructure Architects planning server migrations and high availability
  • Cloud Solutions Architects with a focus on Microsoft Azure and Windows Server
  • Technical Support Engineers for Windows Server environments
  • IT Professionals looking to upgrade skills from older versions to Windows Server 2022
  • IT Managers overseeing Windows Server infrastructure and cloud integration


Learning Objectives - What you will Learn in this AZ-801T00: Configuring Windows Server Hybrid Advanced Services?

Introduction to Course Learning Outcomes:

The AZ-801T00 course equips learners with advanced skills to secure, manage, and recover Windows Server infrastructures, ensuring high availability and seamless migration in hybrid environments.

Learning Objectives and Outcomes:

  • Understand and implement security measures to protect Windows Server operating systems and hybrid Active Directory infrastructures.
  • Utilize Azure services to identify and remediate security issues within Windows Server environments.
  • Configure and secure network and storage resources in Windows Server installations.
  • Implement and manage Windows Server failover clustering and Storage Spaces Direct for high availability.
  • Manage backup strategies and implement disaster recovery solutions using Azure Site Recovery and Hyper-V replicas.
  • Perform migrations of on-premises storage, servers, and workloads to Azure and newer versions of Windows Server.
  • Transition IIS workloads and Active Directory Domain Services (AD DS) infrastructures to Azure and Windows Server 2022 AD DS.
  • Monitor Windows Server environments using native tools and Azure services for optimized performance and health.
  • Troubleshoot network, virtual machine, and Active Directory issues in both on-premises and Azure-hosted Windows Server deployments.
  • Leverage best practices for maintaining and troubleshooting server environments to minimize downtime and ensure business continuity.

Technical Topic Explanation

Implementing high availability

Implementing high availability means making sure that your computer systems and applications are always up and running, even if something goes wrong. Essentially, you set up your technology in a way that allows it to quickly recover from any failures, minimizing downtime. This involves using multiple hardware components, duplicating critical systems or functions, and automating processes to switch over to backup systems seamlessly. The aim is to ensure continuous operations and service availability so that businesses can function without interruption and users aren’t affected by technical issues.

Disaster recovery

Disaster recovery is a strategic plan that businesses implement to protect and recover their IT infrastructure from potential disasters, such as natural calamities, cyber-attacks, or system failures. The goal is to maintain or quickly resume mission-critical functions, minimizing downtime and data loss. Effective disaster recovery strategies ensure that a business can continue operations under adverse conditions, safeguarding both data integrity and organizational productivity. This involves not only technological solutions but also involves planning and testing how to restore IT operations after a disruption.

Server migration

Server migration involves moving data, applications, and services from one server to another. This can happen within the same data center, between data centers, or from on-premises servers to the cloud. It’s typically done to improve performance, increase capacity, enhance security, or reduce costs. Effective migration requires careful planning, testing, and execution to ensure data integrity and minimal downtime. The process can be complex, demanding detailed attention to compatibilities between old and new environments to avoid data loss or disruptions in service.

Securing Windows Server infrastructures

Securing Windows Server infrastructures involves protecting the servers and data from unauthorized access and threats. It includes implementing strong authentication methods, regularly updating software to patch vulnerabilities, and monitoring network activity for suspicious behavior. Additionally, configuring firewalls, using encryption for data protection, and enforcing user access controls are critical steps. These security measures ensure that the server operates reliably and securely, keeping sensitive information safe from cyber threats. This foundational approach to server security supports maintaining the integrity and availability of services and data that businesses heavily rely on.

Monitoring/troubleshooting

Monitoring and troubleshooting in technology are processes used to detect and resolve issues within software, networks, and systems. Monitoring involves continuously checking and recording the performance and health of systems using specialized tools to ensure they are functioning as expected. Troubleshooting is the subsequent step where professionals analyze the data from monitoring to identify the root cause of any problem and find a solution. Effective monitoring and troubleshooting help maintain system stability, optimize performance, and ensure user satisfaction by minimizing downtime and addressing issues promptly.

Operating system security

Operating system security involves protecting computer systems against intrusions, unauthorized access, and software vulnerabilities. It incorporates establishing strong user authentication, applying regular software updates, and using antivirus and anti-malware tools. By managing permissions, monitoring system activities, and enforcing security policies, organizations can safeguard sensitive data and maintain system integrity. Effective security measures also include data encryption and using firewalls to control incoming and outgoing network traffic, ensuring a robust defense against potential cyber threats.

Storage security

Storage security involves protecting data stored in physical devices, like hard drives, and virtual environments, such as cloud storage, from unauthorized access, theft, or corruption. Key practices include encryption, which scrambles data so it can only be read by someone with the key to decode it, and access controls, which ensure only authorized users can access certain data. Regular audits and vulnerability scans help identify and rectify security gaps. Effective storage security ensures data privacy and compliance with regulations, maintaining the integrity and availability of information crucial for organizational success.

Failover clustering

Failover clustering is a strategy used in computing to ensure system reliability and continuous availability. It involves a group of interconnected computers, called a cluster, that work together to provide continuous service even if one or more computers fail. This setup is designed to handle failures automatically by transferring control to another machine in the cluster without disrupting services or causing data loss. This process helps maintain important operations and minimizes downtime, making it crucial for businesses that require high availability and consistent performance.

Managing Storage Spaces Direct

Managing Storage Spaces Direct (S2D) involves configuring groups of servers to use their local drives collectively, creating a shared pool of storage that appears to the operating system as a single entity. This approach enhances data availability and boosts performance by keeping data accessible even if one or more drives fail. Commonly utilized in data centers, S2D supports scalable, cost-effective storage solutions that can dynamically expand according to organizational needs. It's especially relevant for businesses requiring high availability and resilience without excessive hardware investments.

Azure Site Recovery

Azure Site Recovery is a service provided by Microsoft that ensures your business applications remain available during disasters. It continuously replicates workloads from your primary site to a secondary location (either another data center or the cloud). When an outage occurs, this service orchestrates the recovery of applications to minimize downtime. Essentially, Azure Site Recovery acts as a safety net, allowing for seamless business continuity by automating the process of switching to a backup setting, thus ensuring minimal disruption to operations.

Hyper-V replicas

Hyper-V replicas are a feature in Microsoft Hyper-V that allows you to duplicate a virtual machine from one Hyper-V host to another for disaster recovery purposes. It helps ensure business continuity by keeping copies of virtual machines that can quickly be activated if the primary machine fails. This replication is done periodically, capturing and sending only the changes made since the last successful replication, which conservatively uses network resources and reduces downtime during failovers.

Server and workload migrations

Server and workload migrations involve transferring data, applications, and IT processes from one server environment to another. This can be from physical servers to virtual environments (on-premises or hosted) or from one cloud platform to another, such as when moving services to Microsoft Azure (potentially relevant to exams like AZ-801). The goal is to enhance performance, cut costs, or expand capabilities. The process needs careful planning to ensure data integrity, minimize downtime, and optimize resource allocation, requiring both technical precision and strong project management skills.

Windows Server 2022

Windows Server 2022 is the latest version of Microsoft's operating system designed for servers. It provides a platform for running applications and services that support business operations. This version offers enhanced security features, including advanced multi-layer security and secured-core server capabilities to protect against cyber threats. Windows Server 2022 also supports hybrid cloud environments, facilitating seamless connectivity and integration with Azure services, making it easier to extend datacenters to the cloud. It is designed to handle high-demand workloads efficiently and includes improved storage and network functionalities to boost server performance and reliability.

Azure services

Azure services are a collection of cloud computing services provided by Microsoft, encompassing various functionalities like computing, storage, networking, and analytics. Users can build, deploy, and manage applications through Microsoft's global network of data centers. These services offer scalability, flexibility, and cost-effectiveness, enabling businesses to operate more efficiently and adapt to changing needs without significant upfront capital expenditure. Azure supports a wide range of programming languages, frameworks, and databases, allowing for customization and integration with existing IT environments.

Target Audience for AZ-801T00: Configuring Windows Server Hybrid Advanced Services

The AZ-801T00 course equips IT professionals with advanced Windows Server hybrid configuration and security skills.


Target Audience Job Roles:


  • Systems Administrators
  • Windows Server Administrators
  • IT Professionals with experience in Windows Server and Azure environments
  • Network Engineers focusing on Windows Server infrastructure
  • Security Specialists overseeing Windows Server and hybrid Active Directory
  • Disaster Recovery Consultants
  • Infrastructure Architects planning server migrations and high availability
  • Cloud Solutions Architects with a focus on Microsoft Azure and Windows Server
  • Technical Support Engineers for Windows Server environments
  • IT Professionals looking to upgrade skills from older versions to Windows Server 2022
  • IT Managers overseeing Windows Server infrastructure and cloud integration


Learning Objectives - What you will Learn in this AZ-801T00: Configuring Windows Server Hybrid Advanced Services?

Introduction to Course Learning Outcomes:

The AZ-801T00 course equips learners with advanced skills to secure, manage, and recover Windows Server infrastructures, ensuring high availability and seamless migration in hybrid environments.

Learning Objectives and Outcomes:

  • Understand and implement security measures to protect Windows Server operating systems and hybrid Active Directory infrastructures.
  • Utilize Azure services to identify and remediate security issues within Windows Server environments.
  • Configure and secure network and storage resources in Windows Server installations.
  • Implement and manage Windows Server failover clustering and Storage Spaces Direct for high availability.
  • Manage backup strategies and implement disaster recovery solutions using Azure Site Recovery and Hyper-V replicas.
  • Perform migrations of on-premises storage, servers, and workloads to Azure and newer versions of Windows Server.
  • Transition IIS workloads and Active Directory Domain Services (AD DS) infrastructures to Azure and Windows Server 2022 AD DS.
  • Monitor Windows Server environments using native tools and Azure services for optimized performance and health.
  • Troubleshoot network, virtual machine, and Active Directory issues in both on-premises and Azure-hosted Windows Server deployments.
  • Leverage best practices for maintaining and troubleshooting server environments to minimize downtime and ensure business continuity.
AZ-801T00: Configuring Windows Server Hybrid Advanced Services