| Patent application number | Description | Published |
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| 20130212161 | INDEPENDENT SYNCHRONIZATION OF VIRTUAL DESKTOP IMAGE LAYERS - Methods and systems for n-way cloning and synchronization of a user desktop image are provided. Example embodiments provide a Cloning and Synchronization System (“CSS”) which binds a server stored CVD object representing the user's desktop image to one or more endpoint devices. Each endpoint device receives a clone of the CVD object that comprises one or more layers of the server CVD depending upon the suitability of the endpoint device hardware and operating system to the server stored desktop. The cloned CVDs in the endpoint devices are then kept synchronized by synchronization operations. In one embodiment, the CSS allows only one endpoint device to act as a master device and push up changes to the server CVD. These changes are then pushed down to the other devices using different synchronization methods dependent upon the layer. | 08-15-2013 |
| 20130212480 | DEVICE DEPENDENT RULES FOR SYNCHRONIZING DESKTOP IMAGES AND MANAGING HARDWARE DEPENDENCIES - Methods and systems for n-way cloning and synchronization of a user desktop image are provided. Example embodiments provide a Cloning and Synchronization System (“CSS”) which binds a server stored CVD object representing the user's desktop image to one or more endpoint devices. Each endpoint device receives a clone of the CVD object that comprises one or more layers of the server CVD depending upon the suitability of the endpoint device hardware and operating system to the server stored desktop. The cloned CVDs in the endpoint devices are then kept synchronized by synchronization operations. In one embodiment, the CSS allows only one endpoint device to act as a master device and push up changes to the server CVD. These changes are then pushed down to the other devices using different synchronization methods dependent upon the layer. | 08-15-2013 |
| 20130212579 | FAST PROVISIONING OF A CENTRALIZED VIRTUAL DESKTOP USING LINKED CLONES - Methods and systems for n-way cloning and synchronization of a user desktop image are provided. Example embodiments provide a Cloning and Synchronization System (“CSS”) which binds a server stored CVD object representing the user's desktop image to one or more endpoint devices. Each endpoint device receives a clone of the CVD object that comprises one or more layers of the server CVD depending upon the suitability of the endpoint device hardware and operating system to the server stored desktop. The cloned CVDs in the endpoint devices are then kept synchronized by synchronization operations. In one embodiment, the CSS allows only one endpoint device to act as a master device and push up changes to the server CVD. These changes are then pushed down to the other devices using different synchronization methods dependent upon the layer. | 08-15-2013 |
| 20130219286 | N-WAY SYNCHRONIZATION OF DESKTOP IMAGES - Methods and systems for n-way cloning and synchronization of a user desktop image are provided. Example embodiments provide a Cloning and Synchronization System (“CSS”) which binds a server stored CVD object representing the user's desktop image to one or more endpoint devices. Each endpoint device receives a clone of the CVD object that comprises one or more layers of the server CVD depending upon the suitability of the endpoint device hardware and operating system to the server stored desktop. The cloned CVDs in the endpoint devices are then kept synchronized by synchronization operations. In one embodiment, the CSS allows only one endpoint device to act as a master device and push up changes to the server CVD. These changes are then pushed down to the other devices using different synchronization methods dependent upon the layer. | 08-22-2013 |
| 20140149347 | MERGING OF DESKTOP IMAGES - Methods and systems for n-way cloning and synchronization of a user desktop image are provided. Example embodiments provide a Cloning and Synchronization System (“CSS”) which binds a server stored CVD object representing the user's desktop image to one or more endpoint devices. Each endpoint device receives a clone of the CVD object that comprises one or more layers of the server CVD depending upon the suitability of the endpoint device hardware and operating system to the server stored desktop. The cloned CVDs in the endpoint devices are then kept synchronized by synchronization operations. In one embodiment, the CSS allows only one endpoint device to push up changes to the server CVD. User files are synchronized with the all endpoints using a live sync process. System and managed applications may be intelligently merged into an inactive device rather than overwriting data modified on the inactive device. | 05-29-2014 |
| 20150127661 | RAPID CLOUD-BASED IMAGE CENTRALIZATION - A system for a mass centralization approach to full image cloning of multiple computing devices is provided. The system includes a plurality of computing devices and a server. The server includes a processor programmed to receive, from the plurality of computing devices, metadata for files stored on the plurality of computing devices, determine, from the received metadata, an importance level for each of the files, instruct the plurality of computing devices to send a copy of the files to the server in a defined order, the defined order based on the importance level for each of the files, and store the copy of the files on the server. | 05-07-2015 |
| 20150127768 | RAPID CLOUD-BASED IMAGE CENTRALIZATION - A system for a mass centralization approach to full image cloning of multiple computing devices is provided. The system includes a server, and a computing device that includes a disk for data storage, wherein the disk includes a plurality of blocks within a plurality of regions. The system also includes a processor programmed to map each file stored on the disk to at least one of the plurality of blocks, for one or more of the plurality of regions of the disk, determine that a number of files appearing in sequential blocks exceeds a predefined threshold number of files, perform a continuous scan of the one or more of the plurality of regions of the disk occupied by the number of files appearing in sequential blocks exceeding the predefined threshold number of files, and send a copy of the files scanned from the one or more plurality of regions of the disk to the server. | 05-07-2015 |
| 20150215371 | REMOTE CONTEXTUAL ACCESS TO OPERATING SYSTEM DESKTOPS - Methods, systems, and techniques for remote contextual access to an operating system desktop are provided. Example embodiments provide a desktop state agent the harvests information from a user's desktop regarding state of various objects such as open documents, recent documents, links, shared links, bookmarks, upcoming events, and/or recent emails. The harvested information is translated to html or other web browser recognized language where possible and uploaded to be accessible to a web server configured to respond to requests for desktop state using a web address. In one embodiment, the RCAS allows access to a user's desktop transparently—without the user needing to take explicit action. Further, a remote mobile device can render the desktop data without using a session or connection to the user's desktop machine and without use of a remote desktop protocol. | 07-30-2015 |
