Quality of service is provided to prioritized VMs and applications, based on the varied quality of different shared computing resources. Each VM or application has an associated priority. A quality rating is dynamically assigned to each shared computing resource. Requests for shared computing resources made by specific VMs or applications are received. For each specific received request, the current priority of the requesting VM or application is identified. In response to each received request, a specific shared computing resource is assigned to the specific requesting VM or application. This assignment is made based on the current priority of the requesting VM or application and the current quality rating of the shared computing resource, thereby providing quality of service to the requesting VM or application corresponding to its current priority.

Quality of service is provided to prioritized VMs and applications, based on the varied quality of different shared computing resources. Each VM or application has an associated priority. A quality rating is dynamically assigned to each shared computing resource. Requests for shared computing resources made by specific VMs or applications are received. For each specific received request, the current priority of the requesting VM or application is identified. In response to each received request, a specific shared computing resource is assigned to the specific requesting VM or application. This assignment is made based on the current priority of the requesting VM or application and the current quality rating of the shared computing resource, thereby providing quality of service to the requesting VM or application corresponding to its current priority.

Secure device data records (DDRs) are provided. In some embodiments, a system for secure DDRs includes a processor of a wireless communication device for wireless communication with a wireless network, in which the processor is configured with a secure execution environment, and in which the secure execution environment is configured to: monitor service usage of the wireless communication device with the wireless network; and generate a plurality of device data records of the monitored service usage of the wireless communication device with the wireless network, in which each device data record is associated with a unique sequence order identifier; and a memory coupled to the processor and configured to provide the processor with instructions. In some embodiments, the secure execution environment is located in an application processor, in a modem processor, and/or in a subscriber identity module (SIM).

A system and method are provided of minimizing network bandwidth used from an external network by client peers in a local network. The method can include the operation of organizing a plurality of clients each having media streamlets and a client parent in a structure within the local network. Mapping information propagates through the structure. The mapping information represents local streamlet locations as stored by the plurality of clients. Another operation is retrieving a local streamlet from a client identified in the mapping information as having the local streamlet for the requesting client.

A system and method are provided of minimizing network bandwidth used from an external network by client peers in a local network. The method can include the operation of organizing a plurality of clients each having media streamlets and a client parent in a structure within the local network. Mapping information propagates through the structure. The mapping information represents local streamlet locations as stored by the plurality of clients. Another operation is retrieving a local streamlet from a client identified in the mapping information as having the local streamlet for the requesting client.

Technology is disclosed for feeding source images from image stores of client systems into an image processing system using image feeding servers (“the technology”). The technology includes multiple image feeding servers that can feed a source image to the image processing system, using which the image processing system can generate processed images to be served to end users. The image feeding servers can be installed at various locations, e.g., geographically spread, and more proximate to where the source images are stored. An image feeding server obtains the source image from the image store in original size, downsizes the source image, and transmits the downsized source image to the image processing system. The technology selects an image feeding server based on a score of the image feeding server. The score can be determined as a function of one or more image feeding server parameters, e.g., latency, workload, or computing resource.

Technology is disclosed for feeding source images from image stores of client systems into an image processing system using image feeding servers (“the technology”). The technology includes multiple image feeding servers that can feed a source image to the image processing system, using which the image processing system can generate processed images to be served to end users. The image feeding servers can be installed at various locations, e.g., geographically spread, and more proximate to where the source images are stored. An image feeding server obtains the source image from the image store in original size, downsizes the source image, and transmits the downsized source image to the image processing system. The technology selects an image feeding server based on a score of the image feeding server. The score can be determined as a function of one or more image feeding server parameters, e.g., latency, workload, or computing resource.

A surgical hub within a surgical hub network may include a controller having a processor, in which the controller may determine a priority of a communication, an interaction, or a processing of information based on a requirement of a device communicating with the hub. The device may be a smart surgical device. The requirement of the surgical device may comprise data processed by a device component of an associated system The controller may prioritize communication of the data processed by the device component of the associate system with the surgical device. A network of surgical hubs may include a plurality of surgical hubs. Each hub may have one of a plurality of controllers, in which a first of the plurality of controllers is configured to distribute an execution of a process and data used by the process among at least a subset of the plurality of surgical hubs.

A surgical hub within a surgical hub network may include a controller having a processor, in which the controller may determine a priority of a communication, an interaction, or a processing of information based on a requirement of a device communicating with the hub. The device may be a smart surgical device. The requirement of the surgical device may comprise data processed by a device component of an associated system The controller may prioritize communication of the data processed by the device component of the associate system with the surgical device. A network of surgical hubs may include a plurality of surgical hubs. Each hub may have one of a plurality of controllers, in which a first of the plurality of controllers is configured to distribute an execution of a process and data used by the process among at least a subset of the plurality of surgical hubs.

Various embodiments relate generally to computer science, data science, application architecture, and computer data security. More specifically, techniques for credential and authentication management in scalable data networks is described, including, but not limited to, multiplexed data exchanges in a scalable data network. For example, a method may include receiving a subset of requests to access a data network. The requests each may originate from an associated computing device having a source identifier. The method also may include data to cause modification of data representing presentation of a hosted page via the data network, monitoring data traffic from the data network and managing actions initiated via a request based on the data traffic. Optionally, data traffic received via an aggregation port may be filtered to origination of a request associated with a source identifier.