Patent application number | Description | Published |
20110110382 | Distribution of Packets Among PortChannel Groups of PortChannel Links - PortChannel groups are disclosed which include multiple PortChannel links of a PortChannel. Further, the selection of a particular PortChannel group, and possibly a PortChannel link within a selected PortChannel group, for a packet is provided by user-programmable matching of programmed values or rules to data extracted from the packet. In this manner, the forwarding of packets over PortChannel groups can be explicit. Moreover, packets of different flows of a packet session can be caused to be forwarded over a same PortChannel group, possibly leading to a service node for performing one or more applications based on the packets of the flow(s) of a packet session. | 05-12-2011 |
20130163594 | Overlay-Based Packet Steering - Network topology independent service deployment techniques, referred to as overlay-based packet steering techniques, are provided. In one example, a server destined packet is intercepted by an in-path network device enabled as a service classifier. The service classifier encapsulates the packet and inserts the packet into a service path to a service virtualization endpoint front ending one or more service nodes. In other words, the service virtualization endpoint receives the service-directed packet on an overlay-based service path. The service-directed packet includes a service header and a service overlay tunnel encapsulation. The service virtualization endpoint inspects the service header in the service-directed packet to identify a first service node to which the service-directed packet should be forwarded and, based on the inspection, forwards the service-directed packet, on the overlay-based service path, to the first service node. | 06-27-2013 |
20130318522 | Management of Virtual Desktop Infrastructure (VDI) Sessions Using Real-Time Network Conditions - Devices, methods and instructions encoded on computer readable medium are provided herein for management of virtual desktop infrastructure (VDI) sessions in a VDI system based on real-time network conditions. In one example, a request for allocation of bandwidth to a first VDI session configured to operate in parallel with a plurality of other VDI sessions in a network is received at a network device. The real-time conditions of the network are detected, and the network device uses these real-time network conditions to determine if sufficient bandwidth is available to satisfy the request for allocation of bandwidth to the first VDI session. A determination is then performed, based on one or more provisioned policies, to determine how bandwidth is to be allocated between the first VDI session and the other parallel VDI sessions. Bandwidth may then be allocated to the first VDI session. | 11-28-2013 |
20140321459 | ARCHITECTURE FOR AGENTLESS SERVICE INSERTION - An example method for service insertion in a network environment is provided in one example and includes configuring a service node by tagging one or more interface ports of a virtual switch function to which the service node is connected with one or more policy identifiers. When data traffic associated with a policy identifier is received on a virtual overlay path the virtual switch function may then terminate the virtual overlay path and direct raw data traffic to the interface port of the service node that is tagged to the policy identifier associated with the data traffic. | 10-30-2014 |
20150016300 | SUPPORT FOR VIRTUAL EXTENSIBLE LOCAL AREA NETWORK SEGMENTS ACROSS MULTIPLE DATA CENTER SITES - A method is provided in one example embodiment and includes establishing a virtual trunk link between a first network element and a second network element. The first and second network elements are located at a first site and the first site and a second site comprise at least a portion of an overlay network. The method further includes receiving data traffic at the first network element, which data traffic is associated with a segment of the overlay network, and mapping a first network identifier allocated to the overlay network segment at the first network element to a virtual trunk link and a VLAN ID. The method additionally includes forwarding the data traffic from the first network element to the second network element via the virtual trunk link with the VLAN ID. | 01-15-2015 |
20150043581 | Intelligent Handling of Virtual Machine Mobility in Large Data Center Environments - At a physical device in a network configured to host a virtual switch and one or more virtual machines, a packet is received at the virtual switch from a source virtual machine that is directly attached to that virtual switch. A destination Media Access Control (MAC) address is identified from the packet indicating a destination virtual machine for the packet. In response to determining that the destination MAC address of the packet is not present in a database of MAC addresses accessible by the virtual switch, the destination MAC address of the packet is replaced with a shared MAC address associated with a plurality of physical switches in the network. | 02-12-2015 |
20150071285 | DISTRIBUTED SERVICE CHAINING IN A NETWORK ENVIRONMENT - An example method for distributed service chaining in a network environment is provided and includes receiving a packet belonging to a service chain in a distributed virtual switch (DVS) network environment, wherein the packet includes a network service header (NSH) indicating a service path identifier identifying the service chain and a location of the packet on the service chain, evaluating a service forwarding table to determine a next service node based on the service path identifier and the location, with a plurality of different forwarding tables distributed across the DVS at a corresponding plurality of virtual Ethernet Modules (VEMs) associated with respective service nodes in the service chain, and forwarding the packet to the next service node, with substantially all services in the service chain provided sequentially to the packet in a single service loop on a service overlay. | 03-12-2015 |
Patent application number | Description | Published |
20080240100 | LAYER THREE SATELLITE FUNCTIONALITY IN A DATA NETWORK - Method and system for providing access layer satellite architecture in a data network including receiving a data packet from an access layer network device, the data packet including a Virtual Local Area Network (VLAN) identifier associated with a port on the access layer network device, performing a route lookup procedure based on the received data packet to determine a destination of the data packet, updating an ARP table with a Media Access Control (MAC) address associated with the VLAN identifier and the port of the received data packet, and transmitting the data packet to a destination network device, is disclosed. | 10-02-2008 |
20090213867 | BLADE ROUTER WITH NAT SUPPORT - A blade router for increased interface scalability is provided. The blade router may address interface scalability by having each of the linecards manage its interfaces locally and may use the concept of virtual and local interfaces for intelligent forwarding. The blade router may appear as a single router from the customer perspective during configuration. For some embodiments, two virtual interfaces may be used, one for regular interface traffic and another for Network Address Translation (NAT)-enabled interface traffic. | 08-27-2009 |
20090213869 | BLADE SWITCH - A blade switch for increased interface scalability is provided. The blade switch may address interface scalability by having each of the switch linecards manage its interfaces locally and may use the concept of virtual and local interfaces for intelligent forwarding. The blade switch may appear as a single network switch having a single bridge ID from the network perspective during operation and from the customer perspective during configuration. | 08-27-2009 |