Patent application number | Description | Published |
20120201169 | METHOD & APPARATUS FOR PROVISIONING A NETWORK SWITCH PORT - A network switch is comprised of a control processor and one or more line cards. The control processor includes functionality to register interest with a hypervisor, operating in conjunction with a network host connected to the switch, in data object attributes maintained on the network host by the hypervisor. The hypervisor associated with the network host sends changes in the host attributes to the switch which the switch maintains in a listing of attributes. The switch traps and copies particular packets to the switch control processor where a provisioning function operates on the attribute information in the list with source information included in the packet header in order to configure a forwarding table on the line card. | 08-09-2012 |
20140219081 | SYSTEMS AND METHODS FOR LAYER-2 TRAFFIC POLARIZATION DURING FAILURES IN A VIRTUAL LINK TRUNKING DOMAIN - An information handling system is provided. The information handling system includes a first network switch configurable, the first network switch having a computer processor in communication with a plurality of ports for receiving and sending frames and a memory coupled to the computer processor and including a media access control (MAC) address table. The computer processor is configured to read frames, each frame having a header, and is also configured to associate a MAC address with a parent link aggregation group (LAG) except while a downstream link failure is detected. The computer processor is configured to associate the MAC address with a sub-LAG while a downstream link failure is detected. Methods for directing traffic through a virtual link trunking (VLT) domain during failure of a downstream link are also provided. | 08-07-2014 |
20140241146 | SYSTEM AND METHOD FOR TRAFFIC POLARIZATION DURING FAILURES - A system and method for traffic polarization during failures includes a communication network cluster including a first network switching unit configured to communicate with a first network node via a first network link and a second network node via a second network link, a second network switching unit configured to communicate with the first network node via a third network link and the second network node via a fourth network link, and a first intra-cluster link coupling the first network switching unit to the second network switching unit. The second network switching unit is further configured to respond to a failure in the fourth network link by broadcasting a route withdrawal message to the first network switching unit and the first network node. The first network switching unit is configured to accept rerouted network traffic from the first network node via the first network link resulting from the route withdrawal message. | 08-28-2014 |
20140254352 | SYSTEM AND METHOD FOR RAPID VLT CONNECTION FAILURE HANDLING - A system and method for rapid virtual link trunk connection failure handling includes receiving a packet at a first network switching unit where the packet is to be forwarded to a second network switching unit, detecting a failure in a network connection between the first network switching unit and the second network switching unit and associated with a first LAG of the first network switching unit, determining a second LAG associated with an inter-chassis link (ICL) as a failover LAG for the first LAG, redirecting the packet to the second LAG, altering the packet to set a redirection status bit to a logic value, and forwarding the altered packet using the ICL. | 09-11-2014 |
20150188759 | N-NODE VIRTUAL LINK TRUNKING (VLT) SYSTEMS DATA PLANE - Aspects of the present invention include an N-Node virtual link trunking (VLT) system comprising a set of N nodes collectively provide a logical fabric-level view that is consistent across the set of N nodes. Embodiments of the N-Node VLT system comprise a control plane mechanism to provide Layer 2 multipathing between access network devices (switches or servers) and the core network. The N-Node VLT system provides a loop-free topology with active-active load-sharing of uplinks from access to the core. Accordingly, the N-Node VLT system eliminates the disadvantage of Spanning Tree Protocol (STP) (active-standby links) by allowing link aggregation group (LAG) terminations on multiple separate distribution or core switches and also supporting a loop-free topology. Additional benefits of an N-Node VLT system include, but are not limited to, higher resiliency, improved link utilization, and improved manageability of the network. | 07-02-2015 |
20150256405 | N-Node Virtual Link Trunking (VLT) Supporting Arbitrary Topologies - Aspects of the present invention include an arbitrary N-Node virtual link trunking (VLT) system comprising a set of N nodes collectively provide a logical fabric-level view that is consistent across the set of N nodes. Embodiments of the arbitrary N-Node VLT system comprise a control plane mechanism to provide Layer 2 multipathing between access network devices (switches or servers) and the core network. The N-Node VLT system provides a loop-free topology with active-active load-sharing of uplinks from access to the core. Accordingly, the N-Node VLT system eliminates the disadvantage of Spanning Tree Protocol (STP) (active-standby links) by allowing link aggregation group (LAG) terminations on multiple separate distribution or core switches and also supporting a loop-free topology. Additional benefits of an N-Node VLT system include, but are not limited to, higher resiliency, improved link utilization, and improved manageability of the network. | 09-10-2015 |
20160043954 | AVOIDING TRAFFIC LOSS DUE TO ROUTE FAILURES - Embodiments of the present invention include systems and methods for preventing traffic loss of data directed to a destination in a network. A router in the network attempts to install a route prefix of a destination or an ARP entry in the router. If the attempt fails, the router determines whether the routing device originates the uninstalled route prefix or a set of route prefixes pointing the uninstalled ARP entry as next hop in an internet protocol (IP) reachability. If the determination is negative, the router sends a message to a neighboring router to add the router to the exclude route list of the neighboring router. When the neighboring router determines an optimal route involving the uninstalled route prefix or the set of route prefixes pointing the uninstalled ARP entry, it looks up the exclude route list so that the router is not included when determining the optimal route. | 02-11-2016 |
20160050102 | MECHANISM FOR RAPID NETWORK FAILURE DETECTION FOR FASTER SWITCH-OVER IN SERVER-TO-SERVER APPLICATIONS - Embodiments of the present invention comprise systems and methods for monitoring communication connectivity between applications remotely separated from each other in a network. The system includes: one or more processors; a memory communicatively coupled to the one or more processors; a network interface communicatively coupled to the one or more processors; and an agent communicatively coupled to the network interface and configured to: receive a registration for an application operating on the information handling system; monitor a liveliness status of a communication session between the agent and a remote agent operating on a remote information handling system, the communication session being enabled via the network interface; and notify the application of a fault in the communication session responsive to detecting that the fault exists. | 02-18-2016 |