Methods and systems are provided for adjusting a size of a buffer based on a probability that a rewind request will be received during a currently playing segment of media. When the system determines that receiving a rewind request is likely, the system will increase the size of a buffer such that the rewind request can be accommodated using data from the buffer. When the system determines that receiving a rewind request is unlikely, the system will decrease the size of the buffer to free resources for other system components.

Systems and methods are disclosed herein for storing configuration data as a set of master data and override data where one set of configuration data is defined as the master and every other set of configuration data is defined as override configuration data. A media guidance application may generate master configuration data including the most common configuration data used in the geographical region served by the media guidance application, and number of override configurations which contain only those data which differ from the master configuration data for a number of sub-regions of the geographical region. This reduces duplicative configuration data, and the media guidance application need only store one full set of configuration data, namely the master configuration data, and a number of smaller override configurations.

A display device includes a display, a memory, and a processor that runs at least one application on the memory and allocates a window buffer for each of the at least one application to the memory.

A plurality of byte ranges forms a sample for content output from a player device, and includes at least one double-encrypted byte range. The plurality of byte ranges is stored in a secured memory, and the at least one double-encrypted byte range is partially decrypted to generate at least one decrypted singe-encrypted byte range. The plurality of byte ranges is stored in an unsecured memory using the at least one decrypted single-encrypted byte range in place of the at least one double-encrypted byte range.

A system and method for automatically analyzing and managing a media hub software update. The system and method each utilize available media hub system and diagnostic information to aid in the analysis and installation of a software update. If the installation of the update is determined to require memory capacity in excess of what is currently available within the media hub, an archive and off-loading process is automatically initiated to free the required memory space during the installation process. Any off-loaded information and/or applications are then restored after the installation is complete.

Systems and methods are disclosed herein for storing configuration data as a set of master data and override data where one set of configuration data is defined as the master and every other set of configuration data is defined as override configuration data. A media guidance application may generate master configuration data including the most common configuration data used in the geographical region served by the media guidance application, and number of override configurations which contain only those data which differ from the master configuration data for a number of sub-regions of the geographical region. This reduces duplicative configuration data, and the media guidance application need only store one full set of configuration data, namely the master configuration data, and a number of smaller override configurations.

A computer-implemented method, a system, a video camera, and a server all for dynamically batching a video stream from a video camera. The method comprising the steps of: capturing, by the video camera, a video stream; identifying two or more intended subscribers of the video stream, said subscribers connected to the video camera via the packet-switched network; determining a sensitivity to latency for each subscriber; batching the video stream into a plurality of batches, wherein the size of each batch of the plurality of batches is based on the subscriber determined to be most sensitive to latency; and transmitting the plurality of batches of the video stream to each subscriber.

Systems and methods for performing an action based on viewing positions of other users are provided. Viewing progress in a media asset of each of a plurality of users is retrieved. The viewing progress of each of the plurality of users is compared to identify a maximum viewing progress that is common to each of the plurality of users. A request from a user to access the media asset is received. A current viewing progress in the media asset of the user is monitored to determine when the current viewing progress of the user matches the identified maximum viewing progress that is common to each of the plurality of users. In response to determining that the current viewing progress of the user matches the identified maximum viewing progress, a message with an option to perform an action relative to the media asset is generated for display to the user.

A sever for providing television and system and method for use of the same are disclosed. In one embodiment, the server includes a network interface controller that is configured to receive a source internet protocol television signal, which includes two channels, from an external source and at least partially prepare the source internet protocol signal in order to forward the signal to a television. The server saves in a buffer the at least partially prepared second channel beginning at a recent periodic, sequential signal access point. In response to receiving a channel request instruction from a requesting television when the server is forwarding the at least partially prepared first channel signal, the server forwards the at least partially prepared signal based on the second channel stored in the buffer beginning at the recent periodic, sequential signal access point.

Technologies for coordinating access to packets include a network device. The network device is to establish a ring in a memory of the network device. The ring includes a plurality of slots. The network device is also to allocate cores to each of an input stage, an output stage, and a worker stage. The worker stage is to process data in a data packet with an associated worker function. The network device is also to add, with the input stage, an entry to a slot in the ring representative of a data packet received with a network interface controller of the network device, access, with the worker stage, the entry in the ring to process at least a portion of the data packet, and provide, with the output stage, the processed data packet to the network interface controller for transmission.