An integrated circuit includes: a processor; a receiver coupled to the processor; and memory coupled to the processor. The memory stores resource coordinator instructions that, when executed by the processor, cause the processor to: maintain a plurality of active secure sessions; identify a priority session trigger; and allocate receiver resources for incoming packets related to the plurality of active secure sessions based on the priority session trigger.

Some implementations of the disclosure are directed to a method, comprising: receiving a plurality of traffic flows transmitted by a plurality of user devices; determining, at a modem, a user device of the user devices that is associated with each of the traffic flows; classifying, at the modem, each of the traffic flows according to a class of service associated with a traffic class; and allocating, at the modem, bandwidth to each of the traffic flows based on the traffic flow's class of service and the user device associated with the traffic flow. A total available bandwidth may be allocated to the traffic flows as a function of traffic classes associated with the traffic flows, the classes of services associated with the traffic flows, and the user devices that transmitted the traffic flows.

A computer-implemented for allocating resources is disclosed. The method includes: receiving, from a client device associated with an entity, input including a selection of a first operation; obtaining a threshold quantity of resources associated with the first operation; allocating a first quantity of resources associated with the entity to the first operation; detecting a trigger condition for obtaining resources associated with the first operation; and in response to detecting the trigger condition for obtaining resources associated with the first operation: determining a second quantity of resources associated with the entity for allocation to the first operation based on a difference between the threshold quantity of resources associated with the first operation and the first quantity of resources; and transmitting, to the client device, a signal representing a message indicating the second quantity of resources.

Embodiments described herein are directed to utilizing a tokenized system to manage network bandwidth. A total network bandwidth availability is determined for a network, and a total number of tokens is determined for that total network bandwidth. The system also determines a total number of users for the network. When a user sends a network usage request to use or access the network, the system selects and allocates a number of tokens for the user based on the network usage request, the total number of network users, and the total number of tokens. The user's device can then access and use the network if the user has a sufficient number of available tokens for that usage. The number of tokens for the user is reduced based on the amount of data used by the user.

A device configured to receive a resource reservation request that identifies a user and a resource. The device is further configured to generate a resource allocation that includes an association between the user, location information for the resource, a resource identifier for the resource, and a token value. The device is further configured to associate the resource allocation with a time interval indicating a deadline for using the resource allocation. The device is further configured to receive a reservation verification request from a network device. The device is further configured to determine the location information for the network device is within a predetermined distance from the location information for the resource, to determine the resource identifier matches the resource identifier for the resource, and to determine a current time is within the time interval. The device is further configured to generate resource allocation instructions authorizing access to the resource.

Embodiments of the present disclosure disclose a method and apparatus for allocating a server resource, an electronic device and a computer readable storage medium, and relate to the technical fields of cloud platform, cloud environment, containerization and resource allocation. A specific implementation of the method comprises: acquiring a container group creation request initiated by a user for creating a target container group; determining a required amount of server resources required by the user and a remaining amount of the server resources according to the container group creation request, the remaining amount comprising at least one of an exclusive server resource or a shared server resource; rating qualities of the remaining amount of server resources in the remaining amount, and selecting a target server resource corresponding to the required amount according to an obtained actual rating; and allocating the target server resource to the user for creating the target container group.

A transactional method and system of managing access to API services based on the performance of computational tasks by an end-user is disclosed. The system and method are configured to identify requests from an end-user to an API for services that are associated with a transactional cost. This cost is passed on to the end-user by generation of a computational task assignment to be completed by the client computing system. Once the assignment has been performed, the end-user may be granted access to the requested service.

Some implementations of the disclosure are directed to a method, including: receiving traffic flows transmitted by user devices over a local area network including the user devices; determining a user device of the user devices that transmitted each traffic flow of the traffic flows; classifying each traffic flow of the traffic flows as being associated with a class of service and a traffic class, the traffic flows being classified as belonging to multiple classes of service and traffic classes; and distributing available bandwidth between the traffic flows based on the traffic classes, the classes of service, and the user devices by: distributing, to each traffic flow of the traffic flows, a portion of the available bandwidth based on the class of service associated with the traffic flow, the traffic class associated with the traffic flow, and the user device that transmitted the traffic flow.

Systems, computer program products, and methods are described herein for real-time distributed communication channel and multiple data processing channel selection. The present invention is configured to receive, from a first user input device via a first communication channel, a request to access resources; retrieve connectivity and routing parameters associated with the first communication channel; determine communication channel requirements associated with the request to access the resources; determine that the connectivity and routing parameters associated with the first communication channel does not meet the communication channel requirements associated with the request to access the resources; capture geographic information associated with the first user input device; determine a second communication channel available to the first user input device to access the resources; and authorize the first user input device to access the resources via the second communication channel.

Methods and systems establish a traffic policy for a personal electronic device based on one or more physical characteristics of the device. In some aspects, a database of traffic policies is maintained. The traffic policies are for accessing a network via a wireless communications link. A network access unit receives a request from a personal electronic device to access the network. The request is analyzed to determine a physical characteristic of the device. A traffic policy is established from the database for the device based, at least in part, on the determined physical characteristic of the device. Transmission of network traffic for the device is then scheduled based at least in part, on the established traffic policy.