Provided is a content delivery method and architecture for ways to improve the caching of content at one or more content providing devices of a Content Delivery Network (CDN). In particular, systems and methods are disclosed that vary the requirements to store resources or content within a caching device using a dynamic popularity threshold. This popularity threshold may be varied based on a measured fullness of the storage capacity of the cache device. In another example, the dynamic popularity threshold may be further varied based on a cache pressure, which is an indication of how often the cache replaces stored items with new items. The adjustment to the popularity threshold for caching particular content at the caching device may thus be based on a number of requests for content received at the device to tune the caching procedure for a particular region of the CDN.

A system, includes a non-transitory memory; and one or more hardware processors coupled to the non-transitory memory and configured to read instructions from the non-transitory memory to cause the system to perform operations comprising: transmitting a message from an application client to a service to request content from the service; ascertaining a failure of the service to provide the requested content; and in response to ascertaining the failure, applying data from the application client to an application in lieu of the requested content.

A computer-implemented system for eliminating perpetual application programming interface (API) calls to minimize resource drain. The system may comprise: at least one non-transitory computer-readable medium configured to store instructions; and at least one processor configured to execute the instructions to perform operations. The operations may comprise: monitoring a dynamic list of one or more API calls, wherein the dynamic list is configured to vary in length; identifying a subset of the API calls that remain in the dynamic list through a number of the process cycles over a first threshold; querying one or more network databases to verify that the subset of the API calls have not been resolved; determining costs of dismissing the subset of the API calls; dismissing the API calls with costs less than a second threshold; and transmitting a notification API call to one or more user devices corresponding to the dismissed API calls.

A computer-implemented system for eliminating perpetual application programming interface (API) calls to minimize resource drain. The system may comprise: at least one non-transitory computer-readable medium configured to store instructions; and at least one processor configured to execute the instructions to perform operations. The operations may comprise: monitoring a dynamic list of one or more API calls, wherein the dynamic list is configured to vary in length; identifying a subset of the API calls that remain in the dynamic list through a number of the process cycles over a first threshold; querying one or more network databases to verify that the subset of the API calls have not been resolved; determining costs of dismissing the subset of the API calls; dismissing the API calls with costs less than a second threshold; and transmitting a notification API call to one or more user devices corresponding to the dismissed API calls.

A method and system for a content broker, including a unified object index, where the content broker is coupled to the unified object index and receives, from a requesting entity, a request to perform an action on an object and the object is stored in the content repository. The method further including obtaining the object associated with the request from a content repository, determining, using the unified object index, a normalized object type associated with the object, obtaining a governance rule based on the normalized object type, and servicing the request using the governance rule.

A method and system for a content broker, including a unified object index, where the content broker is coupled to the unified object index and receives, from a requesting entity, a request to perform an action on an object and the object is stored in the content repository. The method further including obtaining the object associated with the request from a content repository, determining, using the unified object index, a normalized object type associated with the object, obtaining a governance rule based on the normalized object type, and servicing the request using the governance rule.

Disclosed herein are methods, systems, and processes to distribute and disperse search loads to optimize security event processing in cybersecurity computing environments. A search request that includes a domain specific language (DSL) query directed to a centralized search cluster by an event processing application is intercepted. The event processing application is inhibited from issuing the search request to the centralized search cluster if a structured or semi-structured document matches the DSL query.

A process of ranking internet-of-things (IoT) data based on IoT analytics services. In operation, the IoT gateway receives IoT data captured by an IoT device and transmits the IoT data to IoT analytics servers each providing a different IoT analytics service. The IoT gateway receives acknowledgments including data rankings from IoT analytics servers. Each of the acknowledgments include a respective one of the data rankings indicating an importance of the IoT data as an input to the IoT analytics service provided by a respective one of the IoT analytics servers. The IoT gateway assigns an aggregated data ranking to the IoT data based on the data rankings included in the acknowledgments received from the IoT analytics servers. The IoT gateway then transmits, to the IoT device, an electronic notification including the aggregated data ranking assigned to the IoT data.

A process of ranking internet-of-things (IoT) data based on IoT analytics services. In operation, the IoT gateway receives IoT data captured by an IoT device and transmits the IoT data to IoT analytics servers each providing a different IoT analytics service. The IoT gateway receives acknowledgments including data rankings from IoT analytics servers. Each of the acknowledgments include a respective one of the data rankings indicating an importance of the IoT data as an input to the IoT analytics service provided by a respective one of the IoT analytics servers. The IoT gateway assigns an aggregated data ranking to the IoT data based on the data rankings included in the acknowledgments received from the IoT analytics servers. The IoT gateway then transmits, to the IoT device, an electronic notification including the aggregated data ranking assigned to the IoT data.

A system designed for increasing network communication speed for users, while lowering network congestion for content owners and ISPs. The system employs network elements including an acceleration server, clients, agents, and peers, where communication requests generated by applications are intercepted by the client on the same machine. The IP address of the server in the communication request is transmitted to the acceleration server, which provides a list of agents to use for this IP address. The communication request is sent to the agents. One or more of the agents respond with a list of peers that have previously seen some or all of the content which is the response to this request (after checking whether this data is still valid). The client then downloads the data from these peers in parts and in parallel, thereby speeding up the Web transfer, releasing congestion from the Web by fetching the information from multiple sources, and relieving traffic from Web servers by offloading the data transfers from them to nearby peers.