Data packets are received at a communication device that is coupled to a network node in a communication network, to a gateway router that is coupled to other network nodes in the communication network, and to a further communication network. For each received data packet, a determination is made as to whether the received data packet is to be routed toward a destination by the communication device instead of by the gateway router. The received data packet is routed toward the destination by the communication device based on determining that the received data packet is to be routed toward the destination by the communication device instead of by the gateway router. Otherwise, the received data packet is switched from the communication device to the gateway router to be routed by the gateway router toward the destination.

According to an implementation, a method for signaling that a first network node exists in a network is following entry of the first network node into a reduced power mode includes receiving, in a second network node, an indication that the first network node will enter into the reduced-power mode. The method also includes generating information that signals the existence of the first network node and that the first network node is reachable in the network and communicating the information to the network such that the second network node operates as a proxy advertiser for the first network node following entry of the first network node into the reduced-power mode.

A method for determining a path in an optical network, implemented by one or more controllers associated with a control layer, includes receiving a path request specifying start and end points, an associated bandwidth, and a longevity parameter providing an anticipated length during which the path is required; determining a route in the optical network through a routing algorithm executed by the controller, wherein the routing algorithm utilizes the start and end points, the associated bandwidth, and the longevity parameter to determine the path; and provisioning the path through a plurality of switches along the route.

The present application is directed to a computer-implemented device for reserving a path in a network. The device includes a non-transitory memory operably coupled to a processor. The processor is configured to perform the instruction of sending a path computation request to a backbone router via a routing protocol path. The processor is also configured to perform the instruction of receiving a computation reply from the backbone router path based upon the request. The processor is also configured to perform the instruction of assigning a soft cell on the path between the source and the destination device. The application is also directed to a computer-implemented device for reserving a path between a source device and destination device.

The method includes: forwarding, based on path sets of nodes in a network, service data between a source node and a sink node in the network, where the path sets of the nodes in the network are determined by iteratively performing the following path set determining step: for each link in the network, obtaining a path set of a start node of the link, and determining N shortest paths from an end node of the link to the sink node; and for each path included in the path set of the start node, determining, according to the N shortest paths, the path, and the link, to add a new path formed by the path and the link into a path set of the end node.

A content delivery method enabling a communication terminal to acquire a content held by a passing communication terminal with a lightened communication load between the communication terminals is provided as follows in the present invention. The content delivery method according to the present invention includes storing a content and a content holder list listing a content holder that holds the content, in a mutually associated manner, receiving an external signal, detecting a neighboring communication terminal, and outputting a terminal identifier of the neighboring communication terminal included in the external signal. The method further includes searching the content holder list in accordance with the terminal identifier, determining a content related to an unsearched content holder list as an unheld content, and outputting the unheld content as a transmitted content, with the terminal identifier as a destination terminal identifier. The method further includes creating, in accordance with the determination result, a content message including the transmitted content and the destination terminal identifier, with a local terminal identifier as a transmission terminal identifier, or a content list message including a content list of the transmitted content and the destination terminal identifier, with the local terminal identifier as a transmission terminal identifier, and transmitting the created message as a content information message to the neighboring communication terminal.

A sending node may send a network message to a multicast IP address. The sending node and a recipient node may be in communication via a plurality of intermediary nodes. The recipient node may receive a number of copies of the network message that corresponds to a number of equal cost paths between the sending node and the recipient node. The recipient node may send a reply to each of the copies of the network message to the sending node. The sending node may provide the replies to a collector module, which may use the replies for network analytics, network monitoring, machine learning, and the like.

An integrated circuit includes a network on chip (NOC) that includes a plurality of processing elements and a plurality of NOC nodes, interconnected to the plurality of processing elements. The integrated circuit includes logic that is configured to: increment by one, a virtual channel identifier to produce an incremented destination VC identifier, the virtual channel (VC) identifier associated with at least portion of a packet stored in at least one virtual channel buffer; determine that a destination virtual channel buffer corresponding to the incremented destination VC identifier in a destination NOC node in the NOC is available to store the portion of the packet; and in response to the determination, send the portion of the packet and the incremented destination VC identifier to the destination NOC node.

The disclosure provides for a system that includes a network controller. The network controller is configured to receive information from nodes of a network, where nodes include one node that is in motion relative to another node. The network controller is also configured to generate a table representing nodes, available storage at each node, and possible links in the network over a period of time based on the information, and determine a series of topologies of the network based on the table. Based on received client data including a data amount, the network controller is configured to determine flows for the topology. The network controller then is configured to generate a schedule of network configurations based on the flows, and send instructions to the nodes of the network for implementing the network configurations and transmitting client data.

A parallel computer system includes: direct links that forms a direct connection between a sending node and a receiving node, one-hop links that forms a connection between a sending node and a receiving node by way of a return node that is other than the sending node and the receiving node, and a communication control unit that, when transferring data from a sending node to a receiving node, selects the link that connects the sending node and the receiving node from among a link that uses only a direct link, a link that uses only a one-hop link, and a link that forms a connection combines and uses the direct link and the one-hop link.