Patents Assigned to Framehawk, LLC
  • Patent number: 8392497
    Abstract: Systems and algorithm for controlling a virtualized computer service remotely through a client includes defining a virtual infrastructure in which a plurality of virtual machines are running on a hypervisor with at least one of the virtual machine executing an image processor algorithm. The image processor algorithm is configured to receive a connection request from the client for controlling the virtualized computer service (or simply, virtual service) available at a specific virtual machine. The request includes a plurality of connection parameters that describe the connection requirements of the client and is received at the virtual machine that is equipped with the image processor algorithm. The connection parameters are interrogated using the image processor algorithm to identify a specific virtual machine that provides the requested virtualized computer service. A framebuffer data for the identified virtual machine located in virtual memory is accessed and read directly through a hypervisor.
    Type: Grant
    Filed: May 20, 2010
    Date of Patent: March 5, 2013
    Assignee: Framehawk, LLC
    Inventors: Stephen D Vilke, Peter Badger, Dan Roncadin, Rudy Willis, James Selvidge
  • Publication number: 20120314599
    Abstract: Methods and apparatus for providing layered gear mechanism to analyze network loss and latency conditions includes bundling data into data packets of varying depths, at a source with data packets of each depth belonging to a particular data type. The data packets of varying depths are transmitted in layers over a network, to a destination. Information for the transmitted data packets for each layer is collected constantly and analyzed as the data progresses along the network to identify corresponding network transmission characteristics. The transmission of subsequent data packets for anyone of the layers is adjusted based on the network transmission characteristics. The adjusting is repeated one or more times based on the analyzed information for the transmitted data packets. The transition metrics for each layer is utilized for relative analysis of transmission metrics across the layers to set the adjusting.
    Type: Application
    Filed: June 9, 2012
    Publication date: December 13, 2012
    Applicant: Framehawk, LLC
    Inventors: Stephen D. Vilke, Rudy Willis, James Selvidge, Paul Hinks
  • Publication number: 20120317493
    Abstract: Methods and system for enabling locally generated transition graphics interaction with virtualized host computer service includes receiving a control command issued by a user to control screen data currently being rendered at the display device, at a display device of a client device. The control command is transmitted to the host computer service for processing. The host computer service processes the control command and returns updated screen data to the client device. In response to the receipt of the updated screen data, the client device identifies a desired screen effect associated with the control command. The updated screen data received from the host computer service is packaged at the client device with data associated with the desired screen effect to generate a visual response at the client device. The packaged screen effect is returned to the display device for rendering, in response to the control command.
    Type: Application
    Filed: June 9, 2012
    Publication date: December 13, 2012
    Applicant: Framehawk, LLC
    Inventors: Stephen D. Vilke, Paul Hinks
  • Publication number: 20110126198
    Abstract: Methods for controlling a virtualized computer service remotely through a client includes receiving a connection request from the client for controlling the virtual service available at a virtual machine. The request includes a plurality of connection parameters that describe the connection requirements of the client and is received at a virtual machine that is equipped with an image processor algorithm. The connection parameters are interrogated using the image processor algorithm to identify a specific virtual machine that provides the requested virtualized computer service. A framebuffer data for the identified virtual machine located in virtual memory is accessed and read directly through a hypervisor. The framebuffer data is processed into a plurality of image data packets using the image processor algorithm and transmitted to the client for presenting on a display device associated with the client.
    Type: Application
    Filed: May 20, 2010
    Publication date: May 26, 2011
    Applicant: Framehawk, LLC
    Inventors: Stephen D. Vilke, Peter Badger, Dan Roncadin, Rudy Willis, James Selvidge
  • Publication number: 20110126110
    Abstract: Systems and algorithm for controlling a virtualized computer service remotely through a client includes defining a virtual infrastructure in which a plurality of virtual machines are running on a hypervisor with at least one of the virtual machine executing an image processor algorithm. The image processor algorithm is configured to receive a connection request from the client for controlling the virtualized computer service (or simply, virtual service) available at a specific virtual machine. The request includes a plurality of connection parameters that describe the connection requirements of the client and is received at the virtual machine that is equipped with the image processor algorithm. The connection parameters are interrogated using the image processor algorithm to identify a specific virtual machine that provides the requested virtualized computer service. A framebuffer data for the identified virtual machine located in virtual memory is accessed and read directly through a hypervisor.
    Type: Application
    Filed: May 20, 2010
    Publication date: May 26, 2011
    Applicant: Framehawk, LLC
    Inventors: Stephen D. Vilke, Peter Badger, Dan Roncadin, Rudy Willis, James Selvidge