Disclosed embodiments provide a framework for provisioning a virtual browser application environment accessible using a native browser application. The virtual browser application environment is implemented on a virtual machine instance, where the virtual environment is isolated from other functionality of the virtual machine instance. In response to a request to access the environment, a set of access control policies are identified. The access control policies define a level of access to actions that can be performed within the environment. The environment is presented through a website executed on a user's native browser application. The user's interactions with the environment and with any other users within the environment are monitored in real-time according to the access control policies.

Methods and systems for analysis of a plurality of channels that provide a remote desktop session are described herein. Channel metrics for each of a plurality of communication channels may be received. Each of the plurality of communication channels may be configured to deliver, to a computing device and via a network, different aspects of a remote desktop session. A plurality of channel scores may be determined for each communication channel of the plurality of communication channels. Based on the plurality of channel scores, an aggregate score may be determined. Based on the aggregate score satisfying a threshold, a notification may be transmitted. For example, an indication of one or more executable scripts predicted to improve a performance of one or more of the plurality of communication channels may be transmitted.

A one-machine multi-control method is provided. The method is applied to a master control terminal, including: in response to a touch operation on a graphical user interface of the master control terminal, converting an operation event corresponding to the touch operation into an operation protocol packet by means of a master toolkit; and sending a message to a slave control terminal, the message carrying the operation protocol packet to trigger the slave control terminal to perform the touch operation on the basis of the operation protocol packet by means of a salve toolkit.

A method for establishing a social network provides a user to prepare a deliverable work system and delivery the deliverable work system to other users to associate the deliverable work system. The delivering step may be repeatable by the user and the other users to establish a direct-link relationship of the deliverable work system and each of the other users, such that the user and the other users are able to work together in the deliverable work system. And a home system for hosting and managing the deliverable work system owned by the user may have a social network system with a associated second home system owned by any of the other users by the deliverable work system.

A server computer can be quickly allocated to and made ready for use by users of a tenant by adding and starting, on that server computer, copies of a process implementing the tenant's virtual machine, based on a gold image virtual machine for that tenant. The gold image virtual machine also has an associated gold image virtual disk. The virtual machines on the server computer are associated with virtual disks that are linked clones based on the gold image virtual disk, such as linked clones of a replica of the gold image virtual disk. Each virtual machine for a tenant on the new server computer also is added to the tenant computer network. Server computers for multiple tenants can be grouped into a cluster, and can use anti-affinity rules to limit instantiation of virtual machines of each tenant only on server computers dedicated to the tenant.

A system and method for a virtual desktop system is disclosed. The system includes a master fabric region including resources for provisioning a desktop. The system includes a plurality of expansion fabric regions. Each of the expansion fabric regions including replicated resources for provisioning the desktop from the master fabric region. The system includes a control plane having a global pool. A client device application operated by a user associated with the global pool accesses a desktop from either the master fabric region or one of the expansion fabric regions. The control plane is operable to add a new expansion fabric region to the plurality of expansion fabric regions or eliminate one of the plurality of expansion fabric regions.

Systems, devices, and methods for remote access smartphone services are described. The mobile operating system and smartphone applications are stripped out of smartphone hardware and stored as a virtual smartphone instance at a host server. The virtual smartphone instance remains addressable by a phone number. A specialized portable interface device (such as a smartglasses device, a smartwatch, or an adapted smartphone device) remotely accesses the virtual smartphone instance through a cellular or internet connection and utilizes the smartphone applications to deploy smartphone services, including messaging and phone calling via the phone number. The systems, devices, and methods are extended to include a cellular telecommunications content delivery network comprising multiple portable interface devices all remotely accessing respective virtual smartphone instances corresponding to unique phone numbers, with virtual smartphone instances edge cached in relation to the portable interface devices.

A computing system includes a virtualization server that runs virtual machine sessions and provides a hosted application having user interface (UI) elements. A client computing device receives the UI elements and displays the UI elements as local virtual UI elements, applies user input to one of the local virtual UI elements in focus, generates a local virtual UI element graphics overlay corresponding to a predicted response to the user input and sends the user input to the virtualization server, which generates an updated UI element graphics corresponding to an actual response to the user input. The client computing device replaces at least a portion of the local virtual UI element graphics overlay corresponding to the predicted response with the received updated UI element graphics.

A computing system includes a virtualization server that runs virtual machine sessions and provides a hosted application with user interface (UI) elements having scrollable content. A client computing device accesses the hosted application during one of the virtual machine sessions and receives the scrollable content. The client computing device displays at least a portion of the scrollable content as local virtual UI elements, applies user input to scroll the portion of the scrollable content in focus, caches scrollable content that is positioned adjacent the portion of the scrollable content being scrolled that is not in focus, and generates a local virtual UI element graphics overlay that includes at least a portion of the cached scrollable content for display corresponding to a predicted response to the user input.

A computing system includes a virtualization server that runs virtual machine sessions and provides a hosted application with user interface (UI) elements having an ordered hierarchy of graphical control elements when sequenced therethrough. A client computing device accesses the hosted application and receives the ordered hierarchy of graphical control elements and displays the graphical control elements as local virtual UI elements, applies user input to one of the graphical control elements in focus, generates a local virtual UI element graphics overlay for display corresponding to a predicted response to the user input as a next graphical control element in the ordered hierarchy and sends the user input to the virtualization server.