Systems and methods for dynamically modifying properties of content elements within information resources by client-side computing devices are provided herein. A computing device may receive an information resource. The information resource may include a content element and a content modification script. The content modification script may include a predefined trigger event and a change list for modifying the information resource. The computing device may detect an occurrence of a predefined trigger event on the information resource. The computing device may determine that the information resource satisfies a condition of the change list, responsive to detecting the occurrence of the predefined trigger event. The computing device may set a property of the content element, responsive to determining that the information resource satisfies the condition. The computing device may add a modification indicator to the content element to prevent modification while the information resource satisfies the condition of the change list.

A system and method for sharing resources among application modules includes receiving, on an application including a plurality of modules, a resource from a server; determining a storage position identifier corresponding to an identifier of the resource and indicative of a storage position in a database for storing resources dedicated for the application; and storing the resource in the database based on the determined identifier for sharing among the plurality of modules.

A device may receive an indication to establish a communication session between a first device and a second device for a file transfer. The device may receive, from the second device, metadata. The metadata may be used to identify files of a set of files. The device may identify the files for transfer from the second device to the first device based on the metadata. The device may cause multiple communication sessions to be established between the first device and the second device. The multiple connections may be used to transfer the files from the second device to the first device. The device may receive, from the second device, the files. The files may be received via the multiple communication sessions.

Methods and apparatus for dynamically deploying software agents are disclosed. For example, a user of an electronic record management system may deploy a plurality of different background processes (e.g., OCR, dedup, etc.) that may each take several hours to complete. Subsequently, the user may decide to change the number of servers dedicated to one or more background process. In addition, the user may decide to deploy additional background processes. Neither of these user actions interrupts any of the background processes.

Disclosed aspects relate to asset management with respect to a shared pool of configurable computing resources. With respect to a set of assets which share a resource on a first compute node, a set of asset weight values is identified. The set of asset weight values indicates a set of utilization shares of the resource by the set of assets. A set of asset priority values is identified with respect to the set of assets on the first compute node. The set of asset priority values indicates a relative status arrangement for the set of assets. Using the set of asset weight values and the set of asset priority values, a determination is made to migrate a first asset of the set of assets from the first compute node to a second compute node. Accordingly, the first asset of the set of assets is migrated from the first compute node to the second compute node.

A system to facilitate communication between a cloud system and an edge server is described. The system includes one or more processors to execute a translation service to receive a first request operation from a cloud service, wherein the first request operation comprises a first communication protocol supported by the cloud service, translate the first request operation to a second communication protocol supported by a first edge server, wherein the second communication protocol is different from the first communication protocol and transmit the translated first request operation to the first edge server.

Systems and methods for communications network failure detection and remediation utilizing link probes are disclosed. Exemplary methods include: receiving first communications from a first client; authenticating the first user of the first client; creating a registration for the first client in a registration database; establishing a connection to the first client; detecting the connection to the first client has failed, the detecting comprising using a link probe to test connectivity of the first client and utilizing a voting scheme, based on the plurality of connectivity test results, to determine that the connection to the first client has failed; receiving second communications from the second client; authenticating the first user of the second client using the telephone number and the security credential; removing the registration for the first client from the registration database; creating a registration for the second client; and establishing a connection to the second client.

A device configured to receive a data set and instructions for processing the data set from a network device. The device is further configured to parse the data set into a plurality of data segments to be processed, and generate a plurality of instruction segments from the received instructions. The device is further configured to assign each instruction segment to a resource unit, and to generate control information with instructions for combining processed data segments from the resource units. The device is further configured to receive processed data segments from the resource units, to generate the processed data set, and to output the processed data set to the network device.

An information handling system may include a processor; a memory; the processor to execute computer code of an evolved packet core to initiate a tiered communication network access policy by: detecting the connection of each of a plurality of endpoint devices to a communication network via one of a plurality of access points; and determining if a communication channel among a plurality of communication channels is available on the communication network for each of the endpoint devices based on a tier assigned to each of the endpoint devices; the processor to execute computer code of a telemetry data module to: receive telemetry data descriptive of the use characteristics of the endpoint devices; and execute a communication network machine learning algorithm using the telemetry data to generate a network prediction model; the processor to execute computer code of a reallocation module to: predict network resource use across the communication channels of the communication network based on the network prediction model and, with the reallocation module, reallocate endpoint devices based on the predicted network resource use and tier assigned to the endpoint devices.

A system and method for server relocation in a packet data network. A transport protocol session is established between a client 20 and server 14_1 to transfer content from the server to the client in data packets. As well as transmitting data packets to the client, the server additionally transmits declarative information as signaling packets. The declarative information includes an identifier of the content being transmitted in the ongoing session. This allows other servers 14_2 with the same content to identify the existence of the session and gives them the opportunity to volunteer to take over the session, for example if they can see that the client is now closer to them than the server currently serving the content. The two servers can then coordinate transfer of the session, whereafter the session continues with the second server transmitting content to the client.