Patent application number | Description | Published |
20130315233 | LARGE DISTRIBUTED FABRIC-BASED SWITCH USING VIRTUAL SWITCHES AND VIRTUAL CONTROLLERS - In one embodiment, a system includes at least one distributed line card (DLC) in electrical communication with at least one switch fabric coupler (SFC) and a meta-controller in electrical communication with the at least one DLC, the meta-controller including a processor for executing logic, logic configured for creating more than one virtual switch and a corresponding virtual control domain (VCD) associated with each virtual switch, wherein each virtual switch includes a plurality of physical ports of one or more of the at least one DLC, and logic configured for autonomously controlling the virtual switches, wherein the system appears to a device external of the system as a single cell switched domain. Other systems are described according to more embodiments. | 11-28-2013 |
20130315234 | METHOD FOR CONTROLLING LARGE DISTRIBUTED FABRIC-BASED SWITCH USING VIRTUAL SWITCHES AND VIRTUAL CONTROLLERS - In one embodiment, a method includes splitting a plurality of physical ports distributed across multiple distributed line cards (DLCs) into a plurality of virtual switches, wherein each virtual switch comprises ports of one or more DLC, creating a virtual control domain (VCD) associated with each virtual switch, and autonomously controlling the virtual switches, wherein each DLC is in electrical communication with at least one switch fabric coupler (SFC), and wherein the plurality of physical ports appear to external devices as being part of a single cell switched domain. Other systems and methods are described according to more embodiments. | 11-28-2013 |
20130322446 | VIRTUAL ETHERNET PORT AGGREGATION (VEPA)-ENABLED MULTI-TENANT OVERLAY NETWORK - In accordance with one embodiment, a system that may be used for enabling Virtual Ethernet Port Aggregation (VEPA) in an overlay network includes a host server providing a virtual switch, the virtual switch including logic adapted for receiving a packet from a first virtual machine (VM) on the host server, logic adapted for determining that a destination of the packet is a second VM common to the host server, logic adapted for encapsulating the packet with a tunnel header to form an overlay packet, logic adapted for sending the overlay packet via a tunnel to a physical networking element to have inspection services performed thereon, logic adapted for receiving the overlay packet from the physical networking element, logic adapted for de-encapsulating the overlay packet to retrieve a serviced packet, and logic adapted for forwarding the serviced packet to the second VM, wherein the tunnel header includes tenant specific information. | 12-05-2013 |
20140269709 | VIRTUAL GATEWAYS AND IMPLICIT ROUTING IN DISTRIBUTED OVERLAY VIRTUAL ENVIRONMENTS - Embodiments of the invention relate to providing default gateway virtualization in a distributed overlay virtual environment. One embodiment includes a method that includes creating a packet by a first virtual machine (VM) including a first destination address. The packet is received from the first VM by a first virtual switch. A second destination address for a second VM is obtained by the first virtual switch based on information in the packet. The first destination address in the packet is replaced with the second destination address. The packet is encapsulated using a header that is addressed for a second virtual switch. | 09-18-2014 |
20140313892 | OVERLAY NETWORK PRIORITY INHERITANCE - In one embodiment, a system includes logic adapted for receiving an overlay-encapsulated packet including one or more underlay packets, logic adapted for decapsulating the one or more underlay packets from the overlay-encapsulated packet, logic adapted for deriving a priority for each of the one or more underlay packets based on at least one of: a priority of the overlay-encapsulated packet, a transport header of the overlay-encapsulated packet, and an application designation of the one or more underlay packets, and logic adapted for setting the priority of the one or more underlay packets. In another embodiment, a method includes receiving an overlay-encapsulated packet, decapsulating underlay packets therefrom, deriving a priority for the underlay packets, and setting the priority of the underlay packets, the priority being based on any of: a priority of the overlay-encapsulated packet, a transport header of the overlay-encapsulated packet, and/or an application designation of the underlay packets. | 10-23-2014 |
20150100670 | TRANSPORTING MULTI-DESTINATION NETWORKING TRAFFIC BY SENDING REPETITIVE UNICAST - In a distributed network environment, a first virtual machine sends a first virtual machine control information to a first network system. The first network system sends a first control information to a first network control system in response to receiving the first virtual machine control information. The first network control system sends a portion of the first control information to a number of network systems. The first network control system sends a second control information to the first network system. The first virtual machine sends a first packet to the first network system which generates a unicast packet using a portion of the first packet and a portion of the second control information. A second network system receives and processes the unicast packet. The second network system sends a copy of the processed unicast packet to a second virtual machine associated with a second tenant. | 04-09-2015 |
20150100958 | TRAFFIC MIGRATION ACCELERATION FOR OVERLAY VIRTUAL ENVIRONMENTS - Embodiments of the invention relate to providing acceleration for traffic migration for virtual machine (VM) migration in overlay networks. One embodiment includes a method that includes migrating of a VM from a first hypervisor to a second hypervisor. The first hypervisor detects incoming encapsulated traffic sent from a third hypervisor that is targeted for the VM. The first hypervisor indicates to a service of incorrect information in the incoming encapsulated traffic for the VM. The third hypervisor is notified with updated information for the VM. | 04-09-2015 |
20150372840 | SERVICING PACKETS IN A VIRTUAL NETWORK AND A SOFTWARE-DEFINED NETWORK (SDN) - In one embodiment, an apparatus includes a processor and logic configured to designate one of a plurality of endpoint virtual network identifiers (EPVNIDs) for each endpoint device in a network, wherein each EPVNID is configured to be shared by one or more endpoint devices, designate a common waypoint virtual network identifier (WPVNID) for all transparent waypoint devices in the network which perform a same function, designate a unique WPVNID for each routed waypoint device in the network, designate a common virtual network identifier (VNID) for all virtual switches in a single virtual network, wherein a different VNID is designated for each virtual network, and create a service chain table comprising each VNID, WPVNID, and EPVNID designated in the network individually correlated with at least a pair of VNIDs: a source VNID and a destination VNID, based on one or more policies affecting application of services to packets in the network. | 12-24-2015 |