A visibility platform can be used to monitor traffic traversing private cloud infrastructures and/or public cloud infrastructures. In some instances, the traffic is provided to a set of network services that are accessible to the visibility platform. These network services can be provisioned in a serial or parallel fashion. Network service chaining can be used to ensure that traffic streams skip unnecessary network services and receive only those network services that are needed. For example, an email service chain can include virus, spam, and phishing detection, while a video streaming service chain can include traffic shaping policies to satisfy quality of service (QoS) guarantees. When the visibility platform is represented as a graph that makes use of action sets, network service chains can be readily created or destroyed on demand.

A visibility platform can be used to monitor traffic traversing private cloud infrastructures and/or public cloud infrastructures. In some instances, the traffic is provided to a set of network services that are accessible to the visibility platform. These network services can be provisioned in a serial or parallel fashion. Network service chaining can be used to ensure that traffic streams skip unnecessary network services and receive only those network services that are needed. For example, an email service chain can include virus, spam, and phishing detection, while a video streaming service chain can include traffic shaping policies to satisfy quality of service (QoS) guarantees. When the visibility platform is represented as a graph that makes use of action sets, network service chains can be readily created or destroyed on demand.

A metrics collection method includes: transmitting a media data obtaining request to an application service device in response to a trigger operation for streaming media; obtaining a media data response message transmitted by the application service device, the media data response message including metrics collection configuration information, and the metrics collection configuration information including metrics collection environment information and network slice information; obtaining environment information of the streaming media, and when the environment information matches the metrics collection environment information, collecting metrics data corresponding to the streaming media; determining, based on the network slice information, a network path for reporting the metrics data; and reporting the metrics data to the application service device through the network path.

Resource provider specifications, characterizing computing resources of computing resource providers, are received. The reachability of each IP address included in the received specification is determined. An agent is deployed that is operable to determine the value of each of a set of metrics in the environment of the host at which the agent is deployed. The agent determines the value of each metric of the set of metrics in the environment of the relevant host, and communicates the determined values to one or more computing devices that validate whether the resources characterized by the communicated values are sufficient to provide the performance characterized by the received specification and that each ISP router complies with a predetermined policy. For each computing resource provider validated and determined to comprise an ISP router compliant with policy, the specified computing resources are added to a pool of resources for cloud computing.

Systems and methods that adaptively model network traffic to predict network capacity utilization and quality of experience into the future. The adaptive model of network traffic may be used to recommend capacity upgrades based on a score expressed in a QoE space.

Systems and methods that adaptively model network traffic to predict network capacity utilization and quality of experience into the future. The adaptive model of network traffic may be used to recommend capacity upgrades based on a score expressed in a QoE space.

A method for monitoring message packets that are exchanged between at least two control units. The message packets are concatenated in a data stream and each have an identifier, a payload, and a length specification of the payload described by a data item of predefined word size. The at least two control units are connected by a distributor. The distributor is connected by a first distributor port to a first of the at least two control units, is connected by a second distributor port to a second of the at least two control units, and is connected by a third distributor port to a computer system. The data stream flows through the first and distributor port for communication between the first node and the second node. The computer system has a memory, and information on the respective identifiers of the message packets is stored in the memory.

A method of optimizing network traffic visibility resources comprises receiving, by a controller associated with a network traffic visibility system, information indicative of operation of the network traffic visibility system. The method further comprises facilitating, by the controller, control of resources in the network traffic visibility system, according to a configured resource control policy. The facilitating can include providing, by the controller, control signaling to cause maximization of network traffic monitoring fidelity for a plurality of Quality of Service (QoS) classes of network traffic, based on a specified fixed amount of one or more network resources associated with the network traffic visibility system. Alternatively or additionally, the facilitating can include providing, by the controller, control signaling to cause minimization of use of the one or more network resources, based on a specified fixed level of traffic monitoring fidelity associated with the plurality of QoS classes.

A method of optimizing network traffic visibility resources comprises receiving, by a controller associated with a network traffic visibility system, information indicative of operation of the network traffic visibility system. The method further comprises facilitating, by the controller, control of resources in the network traffic visibility system, according to a configured resource control policy. The facilitating can include providing, by the controller, control signaling to cause maximization of network traffic monitoring fidelity for a plurality of Quality of Service (QoS) classes of network traffic, based on a specified fixed amount of one or more network resources associated with the network traffic visibility system. Alternatively or additionally, the facilitating can include providing, by the controller, control signaling to cause minimization of use of the one or more network resources, based on a specified fixed level of traffic monitoring fidelity associated with the plurality of QoS classes.

Disclosed herein are a system, non-transitory computer readable medium, and method for monitoring and replaying packets. A network tap forwards packets from a first network to a second network. At least one node in the first network has the same IP address as a node in the second network. The packets are replayed in the second network.