6.1
Table Of Contents
- View Architecture Planning
- Contents
- View Architecture Planning
- Introduction to View
- Planning a Rich User Experience
- Feature Support Matrix for View 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 to a Remote Desktop
- Using Multiple Monitors
- Managing Desktop and Application Pools from a Central Location
- 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
- 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
Note that physical RAM costs are not linear and that in some situations, it can be cost-effective to
purchase more smaller servers that do not use expensive DIMM chips. In other cases, rack density,
storage connectivity, manageability and other considerations can make minimizing the number of
servers in a deployment a better choice.
n
Note that in View 5.2 and later, the View Storage Accelerator feature is turned on by default, which
allows ESXi 5.0 and later hosts to cache common virtual machine disk data. View Storage Accelerator
can improve performance and reduce the need for extra storage I/O bandwidth to manage boot storms
and anti-virus scanning I/O storms. This feature requires 1GB of RAM per ESXi host.
n
Finally, consider cluster requirements and any failover requirements. For more information, see
“Determining Requirements for High Availability,” on page 55.
For information about specifications of ESXi hosts in vSphere, see the VMware vSphere Configuration
Maximums document.
Desktop Pools for Specific Types of Workers
View provides many features to help you conserve storage and reduce the amount of processing power
required for various use cases. Many of these features are available as pool settings.
The most fundamental question to consider is whether a certain type of user needs a stateful desktop image
or a stateless desktop image. Users who need a stateful desktop image have data in the operating system
image itself that must be preserved, maintained, and backed up. For example, these users install some of
their own applications or have data that cannot be saved outside of the virtual machine itself, such as on a
file server or in an application database.
Stateless desktop
images
Stateless architectures have many advantages, such as being easier to
support and having lower storage costs. Other benefits include a limited
need to back up the linked-clone virtual machines and easier, less expensive
disaster recovery and business continuity options.
Stateful desktop images
These images might require traditional image management techniques.
Stateful images can have low storage costs in conjunction with certain
storage system technologies. Backup and recovery technologies such as
VMware Consolidated Backup and VMware Site Recovery Manager are
important when considering strategies for backup, disaster recovery, and
business continuity.
You create stateless desktop images by using View Composer and creating floating-assignment pools of
linked-clone virtual machines.
You create stateful desktop images by creating dedicated-assignment pools of either linked-clone virtual
machines or full virtual machines. If you use linked-clone virtual machines, you can configure View
Composer persistent disks and folder redirection. Some storage vendors have cost-effective storage
solutions for stateful desktop images. These vendors often have their own best practices and provisioning
utilities. Using one of these vendors might require that you create a manual dedicated-assignment pool.
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Pools for Task Workers on page 48
You can standardize on stateless desktop images for task workers so that the image is always in a
well-known, easily supportable configuration and so that workers can log in to any available desktop.
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Pools for Knowledge Workers and Power Users on page 49
Knowledge workers must be able to create complex documents and have them persist on the desktop.
Power users must be able to install their own applications and have them persist. Depending on the
nature and amount of personal data that must be retained, the desktop can be stateful or stateless.
Chapter 4 Architecture Design Elements and Planning Guidelines for Remote Desktop Deployments
VMware, Inc. 47