A data distribution method is provided. The method includes: acquiring a subscription timestamp of each subscription server in a set of subscription servers; determining a sorting result of the subscription servers based on the subscription timestamps of the subscription servers; determining a first subscription server and a target subscription server based on the sorting result; and sending a notification message to the first subscription server, wherein the notification message in configured to instruct the first subscription server to subscribe to the target message from the target subscription server.

Embodiments of the present invention provide methods, systems, apparatuses, and computer program products for predicting network asset requests for a future network time interval.

Various implementations described herein are directed to technologies for providing over the top streaming for one or more clients of a network. A network is formed among the network among customer premises equipment. The customer premises equipment may include at least a gateway and the one or more clients. A user selection for over the top (OTT) content is received. The OTT content is received and includes one or more cue points. The gateway is marked as a proxy server in response to receiving the one or more cue points. Proxy data is received from the gateway corresponding to the one or more cue points.

A system and method for securing authenticated communication through a device that is able to trigger an offline physical event through an online communication process.

A distributed data platform is able to predict whether data stored on a first network infrastructure component will be needed by a second network infrastructure component and prepares the data to be transmitted to the second network infrastructure component. The distributed data platform identifies a plurality of network infrastructure components connected to a network, and identifies data present on each component. The distributed data platform receives an indication that an event has occurred on the network and predicts whether the second network infrastructure component will require data stored by the first network infrastructure component. The distributed data platform prepares the data to be transmitted to the second network infrastructure component, and transmits the data after receiving an indication that the second network infrastructure component requires the data.

Sessions are core components of communication between communicating systems, which may include, for example, a client device and a server. A network device can be used to monitor and analyze session information that is transmitted in a client-server communication. Visibility into the session information and the traffic flow of a network device is critical to improve the performance and security of the network device and the transmission of information in the client-server communication. A lack of visibility into the session information can reduce security, leading to viruses, malware, and malfunctions.

Methods, systems, and computer-readable storage media for providing a VM vector representative of resources that are to be consumed by the VM within the cloud computing environment, comparing the VM vector to each physical node vector in a set of physical node vectors to determine a distance, each physical node vector representative of resources available by a respective physical node, and selecting a physical node from a set of physical nodes based on a respective distance between the VM vector and a physical node vector representative of the physical node, and in response, automatically: deploying the VM to the physical node within the cloud computing environment at least partially by installing the VM on the physical node for execution thereon.

The disclosure provides an approach for seamless hand-off of data traffic in public cloud environments. Techniques are provided for activating an edge services gateway (ESG) virtual computing instance (VCI) on a new host. Prior to activating the ESG VCI on the new host, an underlay routing table is reprogrammed to associate a first IP address of a first tunnel endpoint (TEP) with a first network interface of an old host and to associate a second IP address of a second TEP with a second network interface of the new host. The routing table associates a third IP address of the ESG VCI with the first network interface. After activating the ESG VCI, a packet having as a destination address the third IP address is received at the first network interface and is encapsulated, by the first TEP, with an outer header having as a destination address the second IP address.

This disclosure describes techniques and mechanisms for providing hybrid cloud services for enterprise fabric. The techniques include enhancing an on-demand protocol (e.g., such as LISP) and allowing simplified security and/or firewall service insertion for datacenter servers providing those services. Accordingly, the techniques described herein provide hybrid cloud services that work in disaggregated, distributed, and consistent way, while avoiding complex datacenter network devices (e.g., such running overlay on TOR), replacing and moving the functionality to on demand protocol enabled servers, which intelligently receive the required mappings as well as registers and publishes the service information to intelligently interact with the network.

A method for generating network function (NF) set load information aware NF discovery responses includes, at an NF repository function (NRF), receiving NFUpdate messages from producer NF instances. The method further includes collecting or generating, from the NFUpdate messages, NF set load information for NF sets of which the producer NF instances are members. The method further includes receiving, from a consumer NF, an NF discovery request. The method further includes generating, using query parameters in the NF discovery request, an NF discovery response including NF profiles of producer NF instances corresponding to the query and, including, in the NF discovery response, NF set load information for NF sets of producer NF instances whose NF profiles are included in the NF discovery response. The method further includes forwarding the NF discovery response including the NF set load information to the consumer NF.