5.0
Table Of Contents
- VMware View Administration
- Contents
- VMware View Administration
- Configuring View Connection Server
- Configuring Role-Based Delegated Administration
- Understanding Roles and Privileges
- Using Folders to Delegate Administration
- Understanding Permissions
- Manage Administrators
- Manage and Review Permissions
- Manage and Review Folders
- Manage Custom Roles
- Predefined Roles and Privileges
- Required Privileges for Common Tasks
- Best Practices for Administrator Users and Groups
- Preparing Unmanaged Desktop Sources
- Creating and Preparing Virtual Machines
- Creating Virtual Machines for View Desktop Deployment
- Install View Agent on a Virtual Machine
- Install View Agent Silently
- Configure a Virtual Machine with Multiple NICs for View Agent
- Optimize Windows Guest Operating System Performance
- Optimize Windows 7 Guest Operating System Performance
- Optimizing Windows 7 for Linked-Clone Desktops
- Benefits of Disabling Windows 7 Services and Tasks
- Overview of Windows 7 Services and Tasks That Cause Linked-Clone Growth
- Disable Scheduled Disk Defragmentation on Windows 7 Parent Virtual Machines
- Disable the Windows Update Service on Windows 7 Virtual Machines
- Disable the Diagnostic Policy Service on Windows 7 Virtual Machines
- Disable the Prefetch and Superfetch Features on Windows 7 Virtual Machines
- Disable Windows Registry Backup on Windows 7 Virtual Machines
- Disable the System Restore on Windows 7 Virtual Machines
- Disable Windows Defender on Windows 7 Virtual Machines
- Disable Microsoft Feeds Synchronization on Windows 7 Virtual Machines
- Preparing Virtual Machines for View Composer
- Prepare a Parent Virtual Machine
- Activating Windows 7 and Windows Vista on Linked-Clone Desktops
- Disable Windows Hibernation in the Parent Virtual Machine
- Configure a Parent Virtual Machine to Use Local Storage
- Keep a Record of the Parent Virtual Machine's Paging-File Size
- Increase the Timeout Limit of QuickPrep Customization Scripts
- Creating Virtual Machine Templates
- Creating Customization Specifications
- Creating Desktop Pools
- Automated Pools That Contain Full Virtual Machines
- Linked-Clone Desktop Pools
- Worksheet for Creating a Linked-Clone Desktop Pool
- Create a Linked-Clone Desktop Pool
- Desktop Settings for Linked-Clone Desktop Pools
- View Composer Support for Linked-Clone SIDs and Third-Party Applications
- Choosing QuickPrep or Sysprep to Customize Linked-Clone Desktops
- Storage Sizing for Linked-Clone Desktop Pools
- Set the Storage Overcommit Level for Linked-Clone Desktops
- Storing View Composer Replicas and Linked Clones on Separate Datastores
- Linked-Clone Desktop Data Disks
- Manual Desktop Pools
- Microsoft Terminal Services Pools
- Provisioning Desktop Pools
- Setting Power Policies for Desktop Pools
- Entitling Users and Groups
- Setting Up User Authentication
- Using Smart Card Authentication
- Using Smart Card Certificate Revocation Checking
- Using RSA SecurID Authentication
- Using the Log In as Current User Feature
- Configuring Policies
- Setting Policies in View Administrator
- Using Active Directory Group Policies
- Using the View Group Policy Administrative Template Files
- Setting Up Location-Based Printing
- Using Terminal Services Group Policies
- Active Directory Group Policy Example
- Configuring User Profiles with View Persona Management
- Providing User Personas in View
- Persona Management and Windows Roaming Profiles
- Configuring a View Persona Management Deployment
- Best Practices for Configuring a View Persona Management Deployment
- View Persona Management Group Policy Settings
- Managing Linked-Clone Desktops
- Reduce Linked-Clone Size with Desktop Refresh
- Update Linked-Clone Desktops
- Rebalance Linked-Clone Desktops
- Manage View Composer Persistent Disks
- View Composer Persistent Disks
- Detach a View Composer Persistent Disk
- Attach a View Composer Persistent Disk to Another Linked-Clone Desktop
- Edit a View Composer Persistent Disk's Pool or User
- Recreate a Linked-Clone Desktop With a Detached Persistent Disk
- Restore a Linked-Clone Desktop by Importing a Persistent Disk from vSphere
- Delete a Detached View Composer Persistent Disk
- Managing Desktops and Desktop Pools
- Managing Desktop Pools
- Edit a Desktop Pool
- Modifying Settings in an Existing Desktop Pool
- Fixed Settings in an Existing Desktop Pool
- Change the Size of an Automated Pool Provisioned by a Naming Pattern
- Add Desktops to an Automated Pool Provisioned by a List of Names
- Disable or Enable a Desktop Pool
- Disable or Enable Provisioning in a Desktop Pool
- Delete a Desktop Pool from View Manager
- Reducing Adobe Flash Bandwidth
- Managing Virtual-Machine Desktops
- Export View Information to External Files
- Managing Desktop Pools
- Managing Physical Computers and Terminal Servers
- Managing ThinApp Applications in View Administrator
- View Requirements for ThinApp Applications
- Capturing and Storing Application Packages
- Assigning ThinApp Applications to Desktops and Pools
- Best Practices for Assigning ThinApp Applications
- Assign a ThinApp Application to Multiple Desktops
- Assign Multiple ThinApp Applications to a Desktop
- Assign a ThinApp Application to Multiple Pools
- Assign Multiple ThinApp Applications to a Pool
- Assign a ThinApp Template to a Desktop or Pool
- Review ThinApp Application Assignments
- Display MSI Package Information
- Maintaining ThinApp Applications in View Administrator
- Remove a ThinApp Application Assignment from Multiple Desktops
- Remove Multiple ThinApp Application Assignments from a Desktop
- Remove a ThinApp Application Assignment from Multiple Pools
- Remove Multiple ThinApp Application Assignments from a Pool
- Remove a ThinApp Application from View Administrator
- Modify or Delete a ThinApp Template
- Remove an Application Repository
- Monitoring and Troubleshooting ThinApp Applications in View Administrator
- ThinApp Configuration Example
- Managing Local Desktops
- Benefits of Using View Desktops in Local Mode
- Managing View Transfer Server
- Managing the Transfer Server Repository
- Using the Transfer Server Repository to Download System Images
- Determine the Size of a View Composer Base Image
- Configure the Transfer Server Repository
- Publish Package Files in the Transfer Server Repository
- Delete a Package File from the Transfer Server Repository
- Migrate the Transfer Server Repository to a New Location
- Recover from a Corrupted Transfer Server Repository Folder
- Managing Data Transfers
- Configure Security and Optimization for Local Desktop Operations
- Optimizing Data Transfers Between Local-Desktop Host Computers and the Datacenter
- Setting Security Options for Local Desktop Operations
- Change the Local Desktop Encryption Key Cipher for New Key Generation
- Change the Encryption Key Cipher for an Existing Local Desktop
- Determining the Effects of Deduplication and Compression on Data Transfers
- Guest File System Optimization of Data Transfers
- Configuring Endpoint Resource Usage
- Configuring an HTTP Cache to Provision Local Desktops Over a WAN
- Configuring the Heartbeat Interval for Local Desktop Client Computers
- Manually Downloading a Local Desktop to a Location with Poor Network Connections
- Troubleshooting View Transfer Server and Local Desktop Operations
- Check-Out Fails with "No Available Transfer Server" Error
- Problems with Desktop Check-Outs After Initial Check-Out
- Login Window Takes a Long Time to Appear
- View Transfer Server Remains in a Pending State
- View Transfer Server Fails to Enter Maintenance Mode
- The Transfer Server Repository Is Invalid
- View Transfer Server Cannot Connect to the Transfer Server Repository
- View Transfer Server Fails the Health Check
- The Transfer Server Repository Is Missing
- View Transfer Server Instances Have Conflicting Transfer Server Repositories
- The View Transfer Server Web Service Is Down
- Virtual Disk of a Local Desktop Needs Repair
- Recover Data from a Local Desktop
- Maintaining View Components
- Backing Up and Restoring View Configuration Data
- Monitor View Components
- Monitor Desktop Status
- Understanding View Manager Services
- Add Licenses to VMware View
- Update General User Information from Active Directory
- Migrating View Composer with an Existing Database
- Update the Certificates on a View Connection Server Instance or Security Server
- Troubleshooting View Components
- Monitoring System Health
- Monitor Events in View Manager
- Send Messages to Desktop Users
- Display Desktops with Suspected Problems
- Manage Desktops and Policies for Unentitled Users
- Collecting Diagnostic Information for VMware View
- Create a Data Collection Tool Bundle for View Agent
- Save Diagnostic Information for View Client
- Collect Diagnostic Information for View Composer Using the Support Script
- Collect Diagnostic Information for View Connection Server Using the Support Tool
- Collect Diagnostic Information for View Agent, View Client, or View Connection Server from the Console
- Update Support Requests
- Further Troubleshooting Information
- Troubleshooting Network Connection Problems
- Troubleshooting Desktop Pool Creation Problems
- Pool Creation Fails if Customization Specifications Cannot Be Found
- Pool Creation Fails Because of a Permissions Problem
- Pool Provisioning Fails Due to a Configuration Problem
- Pool Provisioning Fails Due to a View Connection Server Instance Being Unable to Connect to vCenter
- Pool Provisioning Fails Due to Datastore Problems
- Pool Provisioning Fails Due to vCenter Being Overloaded
- Virtual Machines Are Stuck in the Provisioning State
- Virtual Machines Are Stuck in the Customizing State
- Troubleshooting USB Redirection Problems
- Troubleshooting QuickPrep Customization Problems
- View Composer Provisioning Errors
- Windows XP Linked Clones Fail to Join the Domain
- Troubleshooting GINA Problems on Windows XP Desktops
- Using the vdmadmin Command
- vdmadmin Command Usage
- Configuring Logging in View Agent Using the ‑A Option
- Overriding IP Addresses Using the ‑A Option
- Setting the Name of a View Connection Server Group Using the ‑C Option
- Updating Foreign Security Principals Using the ‑F Option
- Listing and Displaying Health Monitors Using the ‑H Option
- Listing and Displaying Reports of View Manager Operation Using the ‑I Option
- Assigning Dedicated Desktops Using the ‑L Option
- Displaying Information About Machines Using the ‑M Option
- Configuring Domain Filters Using the ‑N Option
- Configuring Domain Filters
- Displaying the Desktops and Policies of Unentitled Users Using the ‑O and ‑P Options
- Configuring Clients in Kiosk Mode Using the ‑Q Option
- Displaying the First User of a Desktop Using the ‑R Option
- Removing the Entry for a View Connection Server Instance Using the ‑S Option
- Setting the Split Limit for Publishing View Transfer Server Packages Using the ‑T Option
- Displaying Information About Users Using the ‑U Option
- Decrypting the Virtual Machine of a Local Desktop Using the ‑V Option
- Unlocking or Locking Virtual Machines Using the ‑V Option
- Detecting and Resolving LDAP Entry Collisions Using the -X Option
- Setting Up Clients in Kiosk Mode
- Configure Clients in Kiosk Mode
- Prepare Active Directory and View Manager for Clients in Kiosk Mode
- Set Default Values for Clients in Kiosk Mode
- Display the MAC Addresses of Client Devices
- Add Accounts for Clients in Kiosk Mode
- Enable Authentication of Clients in Kiosk Mode
- Verify the Configuration of Clients in Kiosk Mode
- Connect to Desktops from Clients in Kiosk Mode
- Configure Clients in Kiosk Mode
- Running View Client from the Command Line
- Index
Table 8-14. View PCoIP General Session Variables (Continued)
Setting Description
Configure PCoIP image quality levels
Controls how PCoIP renders images during periods of network
congestion. The Minimum Image Quality, Maximum Initial Image
Quality, and Maximum Frame Rate values interoperate to provide fine
control in network-bandwidth constrained environments.
Use the Minimum Image Quality value to balance image quality and
frame rate for limited-bandwidth scenarios. You can specify a value
between 30 and 100. The default value is 50. A lower value allows higher
frame-rates, but with a potentially lower quality display. A higher value
provides higher image quality, but with potentially lower frame rates
when network bandwidth is constrained. When network bandwidth is not
constrained, PCoIP maintains maximum quality regardless of this value.
Use the Maximum Initial Image Quality value to reduce the network
bandwidth peaks required by PCoIP by limiting the initial quality of the
changed regions of the display image. You can specify a value between 30
and 100. The default value is 90. A lower value reduces the image quality
of content changes and decreases peak bandwidth requirements. A higher
value increases the image quality of content changes and increases peak
bandwidth requirements. Unchanged regions of the image progressively
build to a lossless (perfect) quality regardless of this value. A value of 90
or lower best utilizes the available bandwidth.
The Minimum Image Quality value cannot exceed theMaximum Initial
Image Quality value.
Use the Maximum Frame Rate value to manage the average bandwidth
consumed per user by limiting the number of screen updates per second.
You can specify a value between 1 and 120 frames per second. The default
value is 30. A higher value can use more bandwidth but provides less jitter,
which allows smoother transitions in changing images such as video. A
lower value uses less bandwidth but results in more jitter.
These image quality values apply to the soft host only and have no effect
on a soft client.
When this setting is disabled or not configured, the default values are used.
Configure PCoIP session encryption
algorithms
Controls the encryption algorithms advertised by the PCoIP endpoint
during session negotiation.
Checking one of the check boxes disables the associated encryption
algorithm. You must enable at least one algorithm.
By default, both the Salsa20-256round12 and AES-128-GCM algorithms
are available for negotiation by this endpoint.
This setting applies to both server and client. The endpoints negotiate the
actual session encryption algorithm that is used. If FIPS140-2 approved
mode is enabled, the Disable AES-128-GCM encryption value is always
overridden so that AES-128-GCM encryption is enabled.
If this setting is disabled or not configured, both the Salsa20-256round12
and AES-128-GCM algorithms are available for negotiation by this
endpoint.
Chapter 8 Configuring Policies
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