What Is Virtual Desktop Infrastructure Azure VDI?

What Is Virtual Desktop Infrastructure Azure VDI ?

What Is Virtual Desktop Infrastructure Azure VDI?

VDI on Azure is the use of Azure resources and services to create an infrastructure for the remote delivery of desktops. It is based on Azure’s Windows Virtual Desktop (WVD) service, which you can manage with Remote Desktop Session Host. The service is designed to enable you to deliver Windows desktops to your users on nearly any client device.

The Windows Virtual Desktop service offers:

• Support for multi-user deployments with Windows 10
• Integration with Microsoft solutions, such as Office 365
• Extended support for Windows 7 including security via Microsoft 365

Understanding Azure VDI Windows Virtual Desktop Architecture

The Windows Virtual Desktop architecture operates slightly differently than on-premises VDI deployments in that you aren’t responsible for managing hypervisors. Below is a breakdown of the components involved.

• Host pools—groups of hosts or VMs that you use to deliver desktops to users. Assigned users can connect to any host in a pool.
• Tenant—an interface you can use to manage your WVD environment. It enables you to define host pools and app groups, assign users, and create service connections. Each tenant is a group of one or more host pools.
• Tenant groups—used when you have multiple tenants for your deployment, as in the case of cloud service providers or hosting partners. These groups enable you to organize host pools, users, and app groups by the tenant.
• App groups—groups of applications in a session host. These are used to provide access to specific apps to users or desktops.
• End-users—the users that you are delivering desktops or apps to. Each user is assigned to a host pool and defined in Active Directory.

 

Managing Windows Virtual Desktop Deployments in Azure

After your Azure virtual desktops are deployed, you can use two main utilities to manage them — FSLogix and PowerShell.

FSLogix
FSLogix is a set of tools that enable you to manage, provision and configure virtual desktops. Included in this set are the following components:

• FSLogix Profile Container—enables you to host desktops in file storage or Blob Storage instead of VM. You can also use this tool to create redundancy via Cloud Cache, increasing availability.
• FSLogix Office Container—enables you to host Office workloads and redirect users to ensure consistency and flexibility.
• FSLogix Application Masking—enables you to manage application and peripheral access rights by IP address or user ID.
• FSLogix Java Version Control—enables you to define which version of Java URLs or applications use.

PowerShell
PowerShell is the default utility for managing WVD and several other Azure resources. You can use this utility to manage host pools, app groups, user roles, and authentication. You can also combine PowerShell with Azure Active Directory or Azure Resource Manager. This combination enables you to script management tasks.

 

VDI Deployment Best Practices

As you are planning or reviewing your deployment, consider the following best practices. These practices can ensure that desktops are secure, productivity is supported, and management is smooth.

Understanding End-User Requirements

To configure your deployment effectively, you need to first understand which applications end-users need, what dependencies applications have, and what resources are needed including both VM and storage resources. Performance requirements are also important to consider. For example, users performing graphics rendering require more powerful desktops than those only accessing email or web applications.

You should also pay attention to requirements in terms of peripherals. This includes monitor support, printers, audio, and USB support.

Make VDI Environments Highly Available

Availability is critical when it comes to VDI deployments. If your users cannot access desktops or connected resources reliably it doesn’t matter how performant or how much easier it is to manage desktops. Additionally, because all desktops rely on the same host infrastructure, if one goes down it’s more likely that multiple users will have trouble connecting.

To avoid outages, you need to make sure to implement redundancies in your data and connectivity. You should also make sure that new desktops can be readily created, especially if desktops are persistent. This means regularly backing up your instances.

Use Thin Clients

Thin clients are devices without built-in computing resources. These devices serve as portals to remote resources and typically include a monitor and peripherals (such as keyboard and mouse).

Because there is no native system for thin clients, these devices can be much easier to manage than traditional workstations. For example, you do not have to update device software or OS individually since these are served remotely. Additionally, these devices may be more secure since you have greater control over what settings users can change and whether they can install unapproved software.

Use Flash or Hybrid Storage

VDI requires greater IOPS performance than traditional virtual infrastructures. The easiest way to obtain this higher performance is through the use of solid-state storage. For example, the storage is available in dedicated flash arrays such as Azure NetApp Files or ultra disk.

You can also consider hybrid storage systems. These systems typically use flash drives to enhance hard disk drives, increasing performance without significantly increasing the hardware.

 

VDI on Azure with Azure NetApp Files

Azure NetApp Files is a Microsoft Azure file storage service built on NetApp technology, giving you the file capabilities in Azure even your core business applications require.

Get enterprise-grade data management and storage to Azure so you can manage your workloads and applications with ease, and move all of your file-based applications to the cloud.

Azure NetApp Files solves availability and performance challenges for enterprises that want to move mission-critical applications to the cloud, including workloads like HPC, SAP, Linux, Oracle, and SQL Server workloads, Windows Virtual Desktop, and more.

In particular, Azure NetApp Files helps virtual desktop environments benefit from a comprehensive file share service that’s highly available and offers unprecedented cloud performance.

Learn More About VDI on Azure

Microsoft Windows Virtual Desktop on Azure

When deploying virtual desktops, durability is essential. You need to store and maintain access to persistent user data, desktop configurations, logging, and application data. In particular, you need to be able to reliably backup your FSLogix Profile Container since this serves as a single source of truth for your deployment.

In this article you’ll learn how using FSLogix Profile Containers with your WVD deployment and Azure NetApp Files can help you ensure your data remains available and how to deploy all three in Azure.

SIMPLE, DYNAMIC, & FAST FILE SERVICES FOR YOUR VIRTUAL DESKTOP NEEDS

How to Get the Lowest Overall TCO with Windows Virtual Desktop

This webinar will show you how to improve your VDI performance, scalability, and security, see a live deployment of WVD using FSLogix and Azure NetApp Files and hear a Q&A about VDI with both NetApp and Microsoft experts.

Azure VDI Pricing Deep Dive: How to Calculate Windows Virtual Desktop Costs

One factor that cannot be overlooked when implementing virtual desktop infrastructure and services is cost. In order to budget for a sustainable deployment and ensure that services can meet your needs, you need to carefully evaluate how services are priced and how you can get the greatest ROI.

Source: netapp