Disclosed are systems, methods and computer-readable media for controlling and managing the identification and provisioning of resources within an on-demand center as well as the transfer of workload to the provisioned resources. One aspect involves creating a virtual private cluster within the on-demand center for the particular workload from a local environment. A method of managing resources between a local compute environment and an on-demand environment includes detecting an event associated with a local compute environment and based on the detected event, identifying information about the local environment, establishing communication with an on-demand compute environment and transmitting the information about the local environment to the on-demand compute environment, provisioning resources within the on-demand compute environment to substantially duplicate the local environment and transferring workload from the local-environment to the on-demand compute environment. The event can be a threshold or a triggering event within or outside of the local environment.

Techniques for dynamically adapting a router capacity to system needs in a network. The border router may receive a list of summarized prefixes for endpoint devices associated with the router from control-plane nodes. The router may store the list of summarized prefixes in memory of the border router. Once the router receives traffic that is destined for endpoint devices associated with the border router, it may determine that the destination address is included in the summarized prefixes. In some examples, the router may download complete prefixes from the control-plane nodes, and forward the traffic to the destination address indicated by the complete prefixes.

A client and content provider are connected by a plurality of simultaneous transport connections. The number of the transport connections that are used to transfer data is selected based on the size of the data to be transferred and may change after transfer of data has commenced based on the amount of data left and the attributes of the transport connections. In another aspect, data to be transmitted over the transport connections is organized into frames such that each frame includes data from only one data stream. The frames are sized to be less than or equal to a control window of the transport connection over which they are transmitted. Each frame may be assigned to a transport connection in a round robin fashion or based on the size of the frame and the sizes of the control windows of the transport connections.

In one embodiment, a method includes starting a network-coordination service, a network-interface component, and an application as separate processes within a user space of an operating system of a device; receiving, by the network-coordination service, a request from the application to connect with a host; selecting, by the network-coordination service and in response to the request, the network-interface component to service the requested connection with the host, the network-interface component is associated with a network interface; allocating, by the network-coordination service, a shared memory region for the application and the network-interface component, the shared memory region is associated with a reference; and sending, by the network-coordination service, the reference to the application, the reference is configured to be used by the application to access the shared memory region, and the shared memory region is configured to be used by the application and the network-interface component to communicate packet data.

Methods are provided in which a computing device obtains telemetry data associated with a network technology used in an enterprise network. The network technology is deployed using one or more assets of the enterprise. The methods further include the computing device determining, for each deployment of the network technology, a progression along an adoption lifecycle of the network technology, based on the telemetry data, generating, based on the progression of each deployment of the network technology, a first action set and an alternative second action set, different from the first action set, for further progression along the adoption lifecycle and providing the first action set and the alternative second action set for the further progression of the network technology along the adoption lifecycle.

Some embodiments provide a novel method for deploying different virtual networks over several public cloud datacenters for different entities. For each entity, the method (1) identifies a set of public cloud datacenters of one or more public cloud providers to connect a set of machines of the entity, (2) deploys managed forwarding nodes (MFNs) for the entity in the identified set of public cloud datacenters, and then (3) configures the MFNs to implement a virtual network that connects the entity's set of machines across its identified set of public cloud datacenters. In some embodiments, the method identifies the set of public cloud datacenters for an entity by receiving input from the entity's network administrator. In some embodiments, this input specifies the public cloud providers to use and/or the public cloud regions in which the virtual network should be defined. Conjunctively, or alternatively, this input in some embodiments specifies actual public cloud datacenters to use.

The invention introduces a method for an automatic scaling of data consumers, performed by a processing unit of a data-consumer server, which contains at least the following steps. State-update requests are received from data consumers, where each state-update request includes a busy state or an idle state and the busy state indicates that the data consumer reads data from a queue and processes the read data. A first quantity of data consumers, a second quantity of busy states and a third quantity of idle states are calculated. A fourth quantity of data consumers to be produced is estimated according to the first, second and third quantities. Data consumers of the fourth quantity are produced.

A method performed by a network node connected to one or more additional network nodes, the network node and the one or more additional network nodes forming a cloud. The method including setting a first timer to a first value, the first timer associated with determining whether another network node from the one or more additional network nodes is an active controller in the cloud. The method further includes determining, before the first timer expires, whether a first message that indicates that another network node from the one or more additional network nodes is the active controller is received. The method further includes based on determining the first message is received before the first timer expires, restarting the first timer. The method further includes, based on determining the first message is not received before the first timer expires, assigning one or more tasks to at least one network node.

Disclosed are systems, methods and computer-readable media for controlling and managing the identification and provisioning of resources within an on-demand center as well as the transfer of workload to the provisioned resources. One aspect involves creating a virtual private cluster within the on-demand center for the particular workload from a local environment. A method of managing resources between a local compute environment and an on-demand environment includes detecting an event associated with a local compute environment and based on the detected event, identifying information about the local environment, establishing communication with an on-demand compute environment and transmitting the information about the local environment to the on-demand compute environment, provisioning resources within the on-demand compute environment to substantially duplicate the local environment and transferring workload from the local-environment to the on-demand compute environment. The event can be a threshold or a triggering event within or outside of the local environment.

Systems and methods to manage and regulate the requests of multiple proxy clients are disclosed. In one aspect, the system and methods disclosed herein aids in configuring proxy server(s) with a rate-limit functionality. Configuration of the rate-limit functionality may be realized by, but not limited to, installing configuration file(s) and/or software application(s) on the proxy server(s). The configuration provides information about the list of restricted and unrestricted domains and their respective request limit specification in a given time frame. Therefore, each time before a proxy server forwards the clients' requests to a target domain, the proxy server checks and ensures that the request count to the particular target domain is well within the limit specified in the request limit specification. Thus, the embodiments described herein aid in preventing the IP addresses of proxy service providers from being blocked or denied from the target websites.