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
Using Single Sign-On for Logging In to a Remote Desktop
The single-sign-on (SSO) feature allows end users to supply login credentials only once.
If you do not use the single-sign-on feature, end users must log in twice. They are first prompted to log in to
View Connection Server and then are prompted log in to their remote desktop. If smart cards are also used,
end users must sign in three times because users must also log in when the smart card reader prompts them
for a PIN.
For remote desktops, this feature includes a credential provider dynamic-link library.
Using Multiple Monitors
Regardless of the display protocol, you can use multiple monitors with a remote desktop.
If you use PCoIP, the display protocol from VMware, you can adjust the display resolution and rotation
separately for each monitor. PCoIP allows a true multiple-monitor session rather than a span mode session.
A span mode remote session is actually a single-monitor session. The monitors must be the same size and
resolution, and the monitor layout must fit within a bounding box. If you maximize an application window,
the window spans across all monitors. Microsoft RDP 6 uses span mode.
In a true multiple-monitor session, monitors can have different resolutions and sizes, and a monitor can be
pivoted. If you maximize an application window, the window expands to the full screen of only the monitor
that contains it.
This feature has the following limitations:
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If you use PCoIP, the maximum number of monitors that you can use to display a remote desktop is 4,
with a resolution of up to 2560 X 1600 if you have enough video RAM. The maximum number of
monitors that can be stacked vertically is 2. If you use more than 2 monitors, the monitors must be in
the same mode and have the same screen resolution. That is, if you use 3 monitors, all 3 monitors must
be in either portrait mode or landscape mode and must use the same screen resolution.
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To use the 3D rendering feature, you can use up to 2 monitors, with a resolution of up to 1920 X 1200.
You must use the PCoIP display protocol.
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If you use Microsoft RDP 7, the maximum number of monitors that you can use to display a remote
desktop is 16.
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If you use Microsoft RDP display protocol, you must have Microsoft Remote Desktop Connection
(RDC) 6.0 or higher installed in the remote desktop.
View Architecture Planning
28 VMware, Inc.