Technologies for dynamic allocation of network communication resources includes a resource manager server to allocate a set of network communication resources to a compute device through an expansion bus switch that is coupled to the compute device and to the network communication resources. The resource manager server obtains telemetry data indicative of a present utilization of the allocated set of network communication resources and determines whether the present utilization satisfies a predefined utilization threshold. Additionally, the resource manager server adjusts, through the expansion bus switch and in response to a determination that the present utilization does not satisfy the predefined utilization threshold, an amount of network communication resources in the set to the compute device.

Technologies for dynamic allocation of network communication resources includes a resource manager server to allocate a set of network communication resources to a compute device through an expansion bus switch that is coupled to the compute device and to the network communication resources. The resource manager server obtains telemetry data indicative of a present utilization of the allocated set of network communication resources and determines whether the present utilization satisfies a predefined utilization threshold. Additionally, the resource manager server adjusts, through the expansion bus switch and in response to a determination that the present utilization does not satisfy the predefined utilization threshold, an amount of network communication resources in the set to the compute device.

Computing resources are managed in a computing environment comprising a computing service provider and an edge computing network. The edge computing network comprises computing and storage devices configured to extend computing resources of the computing service provider to remote users of the computing service provider. The edge computing network collects capacity and usage data for computing and network resources at the edge computing network. The capacity and usage data is sent to the computing service provider. Based on the capacity and usage data, the computing service provider, using a cost function, determines a distribution of workloads pertaining to a processing pipeline that has been partitioned into the workloads. The workloads can be executed at the computing service provider or the edge computing network.

A durability assessment system may receive a request, from a computing system, for a durability index describing an entity. The durability assessment system may determine the durability index based on information about the resource usage by the entity, such as a resource availability score or a resource allocation score. The durability assessment system may compare the obtained resource availability score and resource allocation score to ranges associated with a set of durability indices. Based on the comparison, the durability assessment system may determine a durability index for the entity. The durability index may indicate an ability of the entity to return accessed resources. In some cases, the durability assessment system may provide the durability index to an allocation computing system that is configured to determine whether to grant access to resources based on the durability index.

A method including communicating, by a first device in communication with a second device in a mesh network, meshnet data with the second device based at least in part on utilizing a meshnet local port dedicated for communicating the meshnet data; and transmitting, by the first device to a control infrastructure device, a binding request based at least in part on utilizing the meshnet local port, the binding request requesting the control infrastructure to determine a currently allocated public port associated with the first device. Various other aspects are contemplated.

A method including communicating, by a first device in communication with a second device in a mesh network, meshnet data with the second device based at least in part on utilizing a meshnet local port dedicated for communicating the meshnet data; and transmitting, by the first device to a control infrastructure device, a binding request based at least in part on utilizing the meshnet local port, the binding request requesting the control infrastructure to determine a currently allocated public port associated with the first device. Various other aspects are contemplated.

Properties associated with computing resources are received. At least a portion of the received properties is used to cluster the computing resources into one or more operating groups. At least a portion of the received properties is used to determine a recommendation of an operation schedule for at least one of the one or more operating groups. The recommendation is provided. A feedback is received in response to the recommendation.

Techniques are described for providing a cloud data collector (CDC) application for managing the generation of infrastructure templates. The CDC application provides graphical user interfaces that enable a user to provide inputs indicating configurations of data to be ingested by the data intake and query system, each configuration including one or more user accounts, in addition to data sources and regions associated with data sources. Using the configurations provided as input to the CDC application, the CDC application generates an infrastructure template that can be used to configure the service provider network to provide the requested security data to the data intake and query system.

Techniques are described for providing a cloud data collector (CDC) application for managing the generation of infrastructure templates. The CDC application provides graphical user interfaces that enable a user to provide inputs indicating configurations of data to be ingested by the data intake and query system, each configuration including one or more user accounts, in addition to data sources and regions associated with data sources. Using the configurations provided as input to the CDC application, the CDC application generates an infrastructure template that can be used to configure the service provider network to provide the requested security data to the data intake and query system.

A traffic shaping circuit regulates packets transferred by a transmission resource into a network (e.g., a network on a chip) on behalf of a client. The packet transfers are selectively enabled or disabled based on a current budget value. The budget value is modified based on a packet-transfer cost in response to transferring a packet into the network. The rate of packet transfers into the network is monitored. A cost-adjustment signal is generated based on the rate of packet transfers. The packet-transfer cost is modified in response to the cost-adjustment signal for accounting for a subsequent-packet transfer into the network. The cost-adjustment signal may indicate an increase or decrease of the packet-transfer cost and/or a budget limit, both of which are read from a cost table comprising records ordered based on respective packet-transfer cost values. The packet-transfer cost and/or a budget limit are configurable.