Coexistence and migration of legacy and VXLAN networks may be provided. A first anchor leaf switch and a second anchor leaf switch may detect that they can reach each other over a Virtual Extensible Local Area Network (VXLAN) overlay layer 2 network. In response to detecting that they can reach each other over the VXLAN, the second anchor leaf switch may block VLANs mapped to the VXLAN's VXLAN Network Identifier (VNI) on the second anchor leaf switch's ports connecting to spine routers. In addition, the first anchor leaf switch and the second anchor leaf switch may detect that they can reach each other over a physical layer 2 network. In response to detecting that they can reach each other over a physical layer 2 network, the second anchor leaf switch may block Virtual Extensible Local Area Network (VXLAN) segments at the second anchor leaf switch.

A method in a source node establishing independent network paths including a first and second router nodes connected to the source node over a first and second mutually independent networks. The source node includes a first interface towards the first network, associated with a path identifier for a first network path; a second interface towards a second network associated with a path identifier for a second network path, and is configured to select which of the first and second router nodes should be used for sending data from the source node to the destination node via the first and second network paths, wherein the source node is configured to select different router nodes for the first and second network paths.

Provided are devices, computer-program products, and methods (e.g. methods implemented on a network device) for caching and forwarding router advertisements. In some implementations, a router advertisement may be received by a network device. In these implementations, a router advertisement may include router service information. The router service information may correspond to a service associated with a router on a network. In some implementations, the router advertisement is stored. In some implementations, a router solicitation is also received. In these implementations, the router solicitation is associated with a client device on the network. In some implementations, the stored router advertisement is transmitted. In these implementations, the stored router advertisement is sent as a unicast packet. The stored router advertisement may facilitate a connection to the network when the stored router advertisement is received at the client device that was associated with the router solicitation.

A router advertisement may be received by a network device, and may include router service information corresponding to a service associated with a router on a network. A virtual local area network (VLAN), which may be one of a plurality of VLANs, for receiving the router advertisement may be identified. A VLAN may be associated with one or more client devices. An access point on the network may be identified. The identified access point is associated with a client device that is associated with the identified VLAN. A VLAN configuration for the identified access point is determined, which may include determining the number of VLANs included in the configuration. The router advertisement may be transmitted according to the VLAN configuration of the identified access point. The router advertisement facilitates a connection to the network when the router advertisement is received by the client device.

A method for processing state information updates. The method includes receiving, by a coordination point, a plurality of state information from a plurality of network elements; processing at least one of the plurality of state information to generate a result; and applying the result to at least one of the plurality of network elements in order to modify an operation of the at least one of the plurality of network elements.

This application provides a method for deciding on handling a failure of a stacking system, where the method includes: collecting values of a decision parameter for respective groups after the stacking system is divided; and applying a preset reserve strategy according to the values of the decision parameter for the respective groups to decide on one of the groups to be reserved.

Embodiments of methods and systems for peer-to-peer interconnection between service providers are presented. In one embodiment, a method includes receiving, at a session controller, a request for access to a target communication device, the target communication device being communicatively coupled to a foreign service provider network. The method may also include referencing a list of available routes for peer-to-peer communication with the target communication device on the foreign service provider network from a database of available routes. Additionally, the method may include identifying, in a peer-to-peer interconnect controller, a path for communication with the target communication device in response to the list of available routes. In one embodiment, the method also includes establishing a peer-to-peer communication session from a peering point to the target communication device over the path.

A router, and a method of routing an interest packet having multiple nonces in NDN to eliminate stale PIT entries. The method includes a consumer device initially sending an interest packet having a first nonce within a protocol data unit (PDU), the interest packet having a second nonce. A router receives the interest packet and creates a pending interest table (PIT) entry. The consumer device resends the interest packet, the router keeping a single PIT entry per consumer device and using the second nonce to clear PIT entries corresponding to the initial transmission of the consumer device. The first nonce is indicative of requested content from the producer device, and the second nonce is indicative of the consumer device.

A sticky order routing system may include multiple order routers in communication with an electronic exchange for communicating transaction messages. Each of the order routers communicates transaction messages between multiple associated trading sessions and the electronic exchange, where of the associated trading sessions is assigned to the order router in communication with the electronic exchange. Transaction message traffic between the order routers and the electronic exchange is monitored, such as randomly, based on round-robin assignment, and/or trading data. In response to transaction message traffic exceeding a threshold, the trading session may be assigned to a new order router.

Techniques for dynamic augmentation of server rack network capacity are provided herein. Network nodes are described that are connected between server rack switches and a rack aggregation layer device. A port allocation controller is also described that can automatically reconfigure the network nodes to create connections, via the network nodes, between the rack aggregation layer device and the server rack switches. These network node connections can be used to alter the network capacities of the server rack switches in response to changing network demands.