7.0
Table Of Contents
- View Architecture Planning
- Contents
- View Architecture Planning
- Introduction to View
- Planning a Rich User Experience
- Feature Support Matrix for Horizon Agent
- Choosing a Display Protocol
- Using Hosted Applications
- Using View Persona Management to Retain User Data and Settings
- Using USB Devices with Remote Desktops and Applications
- Using the Real-Time Audio-Video Feature for Webcams and Microphones
- Using 3D Graphics Applications
- Streaming Multimedia to a Remote Desktop
- Printing from a Remote Desktop
- Using Single Sign-On for Logging In
- Monitors and Screen Resolution
- Managing Desktop and Application Pools from a Central Location
- Advantages of Desktop Pools
- Advantages of Application Pools
- Reducing and Managing Storage Requirements
- Application Provisioning
- Deploying Individual Applications Using an RDS Host
- Deploying Applications and System Updates with View Composer
- Deploying Applications and System Updates with Instant Clones
- Managing VMware ThinApp Applications in View Administrator
- Deploying and Managing Applications Using App Volumes
- Using Existing Processes or VMware Mirage for Application Provisioning
- Using Active Directory GPOs to Manage Users and Desktops
- Architecture Design Elements and Planning Guidelines for Remote Desktop Deployments
- Virtual Machine Requirements for Remote Desktops
- View ESXi Node
- Desktop Pools for Specific Types of Workers
- Desktop Virtual Machine Configuration
- RDS Host Virtual Machine Configuration
- vCenter Server and View Composer Virtual Machine Configuration
- View Connection Server Maximums and Virtual Machine Configuration
- vSphere Clusters
- Storage and Bandwidth Requirements
- View Building Blocks
- View Pods
- Advantages of Using Multiple vCenter Servers in a Pod
- Planning for Security Features
- Understanding Client Connections
- Choosing a User Authentication Method
- Restricting Remote Desktop Access
- Using Group Policy Settings to Secure Remote Desktops and Applications
- Using Smart Policies
- Implementing Best Practices to Secure Client Systems
- Assigning Administrator Roles
- Preparing to Use a Security Server
- Understanding View Communications Protocols
- Overview of Steps to Setting Up a View Environment
- Index
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You can deploy a desktop pool on a cluster that contains up to 32 ESXi hosts, with certain restrictions.
Replica disks must be stored on VMFS5 or later datastores or NFS datastores. If you store replicas on a
VMFS version earlier than VMFS5, a cluster can have at most eight hosts. OS disks and persistent disks
can be stored on NFS or VMFS datastores.
Compatible vSphere 5.5 Update 1 or Later Features
With vSphere 5.5 Update 1 or a later release, you can use Virtual SAN, which virtualizes the local physical
solid-state disks and hard disk drives available on ESXi hosts into a single datastore shared by all hosts in a
cluster. Virtual SAN provides high-performance storage with policy-based management, so that you specify
only one datastore when creating a desktop pool, and the various components, such as virtual machine files,
replicas, user data, and operating system files, are placed on the appropriate solid-state drive (SSD) disks or
direct-attached hard disks (HDDs).
Virtual SAN also lets you manage virtual machine storage and performance by using storage policy profiles.
If the policy becomes noncompliant because of a host, disk, or network failure, or workload changes, Virtual
SAN reconfigures the data of the affected virtual machines and optimizes the use of resources across the
cluster. You can deploy a desktop pool on a cluster that contains up to 20 ESXi hosts.
While supporting VMware features that require shared storage, such as HA, vMotion, and DRS, Virtual
SAN eliminates the need for an external shared storage and simplifies storage configuration and virtual
machine provisioning activities.
IMPORTANT The Virtual SAN feature available with vSphere 6.0 and later releases contains many
performance improvements over the feature that was available with vSphere 5.5 Update 1. With vSphere 6.0
this feature also has broader HCL (hardware compatibility) support. For more information about Virtual
SAN in vSphere 6 or later, see the Administering VMware Virtual SAN document.
NOTE Virtual SAN is compatible with the View storage accelerator feature but not with the space-efficient
disk format feature, which reclaims disk space by wiping and shrinking disks.
Compatible vSphere 6.0 or Later Features
With vSphere 6.0 or a later release, you can use Virtual Volumes (VVols). This feature maps virtual disks
and their derivatives, clones, snapshots, and replicas, directly to objects, called virtual volumes, on a storage
system. This mapping allows vSphere to offload intensive storage operations such as snapshoting, cloning,
and replication to the storage system.
Virtual Volumes also lets you manage virtual machine storage and performance by using storage policy
profiles in vSphere. These storage policy profiles dictate storage services on a per-virtual-machine basis.
This type of granular provisioning increases capacity utilization. You can deploy a desktop pool on a cluster
that contains up to 32 ESXi hosts.
NOTE Virtual Volumes is compatible with the View storage accelerator feature but not with the space-
efficient disk format feature, which reclaims disk space by wiping and shrinking disks.
NOTE Instant clones do not support Virtual Volumes.
View Architecture Planning
38 VMware, Inc.