Abstract: In some embodiments, an apparatus includes a module within a first stage of a switch fabric, a module within a second stage of the switch fabric, and a module within a third stage of the switch fabric. The module within the first stage is configured to send data to the module within the second stage. The module within the second stage is configured to send data to the module within the third stage. The module within the second stage is configured to send a first suspension indicator to the module within the third stage. The module within the third stage is configured to send a second suspension indicator to the module within the first stage in response to the first suspension indicator. The module within the first stage is configured to stop sending data to the module within the second stage in response to the second suspension indicator.

Abstract: A network device may include logic to establish an IP session, establish a BFD session within the established IP session, transmit BFD packets within the established BFD session, and determine that the established IP session is active based upon reception of the BFD packets. In another embodiment, the logic may also determine that an IP session is active using an inactivity timer that may also trigger transmission of BFD packets.

Abstract: A pipeline scheduler provides a minimum bandwidth guarantee by transporting cells from an input port to an output port in a two-phased approach. Cells that conform to a minimum cell rate (MCR) are selected from queues at the input port and arranged into supercells for transport to the output port, followed by nonconforming cells, to guarantee fairness by using scheduling modules to build the supercells first for conforming cells, and then for nonconforming cells. Reservation vectors are used to permit the same time slot of the next frame to be reserved by a first queue, and the same time slot of the following time frame to be held for reservation by a second queue, to ensure equal time slot access by the first and second queues over successive time frames.

Abstract: Call setup signaling is performed across at least a first security zone, a second security zone, and a third security zone to set up a call. At least one gate is then established between the first security zone and the third security zone to enable traffic flow for the call between the first security zone and the third security zone.

Abstract: A method for securing delivery of flash content over a network includes rewriting flash content action code capable of making a network request for flash content to redirect network communication associated with the flash content to a network device.

Abstract: A system and method for transferring Media over IP (MoIP) packets over an overlay network is provided. The system provides specially designed overlay network units located at key points in the IP network effectively creating an overlay network that is capable of interacting both on the overlay level as well as over the standard IP network.

Abstract: A method may include detecting an event, determining whether the event correlates to a hard disk access, requesting a wake-ahead of a hard disk drive if it is determined that the event correlates to a hard disk access, weighing a performance improvement of the hard disk drive if the wake ahead request is granted against a life of the hard disk drive if the wake ahead request is not granted, and waking ahead the hard disk drive if the performance improvement outweighs the life of the hard disk drive.

Abstract: To provide a switching system with telephone switching function mainly on the basis of hardware processing by using isochronous channel which is a real time communication channel. The switching system comprises a gateway node connected with ISDN (Integrated Services Digital Network) and PSTN (Public Switched Telephone Network), and one or more extension nodes, and a serial bus such as IEEE 1394 bus. The gateway node transforms data rate of outside line into data rate of extension node, and the other way around, and secure a seamless communication channel. Concretely, the gateway node secures an isochronous channel, according to a request from the extension nodes or the outside line, and executes switching such as transfer or reservation. A resource manager holds a table for managing the gateway node and extension node.

Abstract: In general, this disclosure describes techniques for testing and verifying the functionality of networks and network devices without requiring the deployment of specialized testing components. For example, as described herein, a device management protocol (e.g., SNMP or NETCONF) typically used for remote configuration of devices has been extended to allow traffic patterns to be seamlessly injected into the existing network devices that form the enterprise network. For instance, a network management device sends configuration data to a managed network device in accordance with a device management protocol and calls, using a test packet parameter, a device configuration function exposed by a managed device. When the device configuration function is called, the managed device processes the test packet to produce a result in accordance with the configuration data as if the test packet had been received from the network, and the managed device returns a test packet processing result.

Abstract: Techniques are describe for establishing an overall label switched path (LSP) for load balancing network traffic being sent across a network using the a resource reservation protocol such as Resource Reservation Protocol with Traffic Engineering (RSVP-TE). The techniques include extensions to the RSVP-TE protocol that enable a router to send Path messages for establishing a tunnel that includes a plurality of sub-paths for the overall LSP. The tunnel may comprise a single RSVP-TE Label Switched Path (LSP) that is configured to load balance network traffic across different sub-paths of the RSVP-TE LSP over the network.

Abstract: An apparatus for remotely releasing a connector, e.g., an RJ-45 connector, is described. Embodiments of the invention allow a user to release a cable comprising a connector from a connector jack when the connector jack is difficult to reach. The invention may be particularly useful to release cables from devices comprising an array of connector jacks.

Abstract: A redundant power system determines a rate of decline of a voltage supplied by a remote power source. The redundant power system further supplies power from a redundant power source to the remote power source based on the determined rate of decline of the voltage supplied by the remote power source.

Abstract: A system includes a first device connected to a second device The first device includes a second node connected to a first node and the second device via a link, and includes a backup second node connected to the first node and the second device via another link. The first node is configured to receive, via the link or the other link, a group of packets (i.e., “packets”), from the second device; display a first notification that the second node can be removed when the packets are received via only the other link; display a second notification indicating that the backup second node can be removed when the packets are received via only the link; and display a third notification indicating that neither the second node nor the backup second node can be removed when the packets are not received via only the link and via only the other link.

Abstract: A data processing unit includes a chassis configured to contain a line card. The chassis defines, at least in part, a portion of a first flow pathway and a portion of a second flow pathway. The chassis is configured such that a first portion of a gas can flow within the first flow pathway between an intake region and the first end portion of the line card such that the first portion of the gas flows across a first end portion of the line card in a first direction. The chassis is configured such that a second portion of the gas can flow within the second flow pathway between the intake region and a second end portion of the line card such that the second portion of the gas flows across the second end portion of the line card in a second direction opposite the first direction.

Abstract: Methods and devices for processing packets are provided. The processing device may Include an input interface for receiving data units containing header information of respective packets; a first module configurable to perform packet filtering based on the received data units; a second module configurable to perform traffic analysis based on the received data units; a third module configurable to perform load balancing based on the received data units; and a fourth module configurable to perform route lookups based on the received data units.

Abstract: A method may include generating a request that includes a host domain associated with a multiple-domain-to-one domain mapping, capturing the request before transmission of the request, rewriting the host domain, and transmitting the request.

Abstract: A method may include receiving a packet; identifying the packet as a multicast packet for sending to a plurality of destination nodes; selecting a first forwarding table or a second forwarding table for sending the packet to each of the plurality of destination nodes, wherein the first forwarding table includes first port information associated with a first destination and second port information associated with a second destination, and wherein the second forwarding table includes third port information associated with the second destination; sending the packet to the first destination using the first port; and sending the packet to the second destination using the second port when the first forwarding table is selected and sending the packet to the second destination using the third port when the second forwarding table is selected.

Abstract: In one embodiment, a method, comprising receiving at a receive side of a physical link a request to suspend transmission of data from a queue within a transmit side of a first stage of queues and to suspend transmission via a path including the physical link, a portion of the first stage of queues, and a portion of a second stage of queues. The method includes sending, in response to the request, a flow control signal to a flow control module configured to schedule transmission of the data from the queue within the transmit side of the first stage of queues. The flow control signal is associated with a first control loop including the path and differing from a second control loop that excludes the first stage of queues.

Abstract: A cable modem termination system (CMTS) provides for ordered switchover of the cable modems it serves when a primary module of the CMTS fails. When the primary module in the CMTS fails, a backup module takes over service of the cable modems. The backup module restores the service flows of the cable modems based on a restoration order determined by session recovery priorities that are related to quality of service levels required by the service flows. In particular, service flows that are engaged in VoIP “911” calls are restored first. Service flows engaged in other VoIP calls are next restored. Lastly, service flows engaged in regular data sessions are restored.

Abstract: A method of scheduling upstream bandwidth. This method comprises: 1) anticipating the need for the upstream bandwidth in advance of any specific request for said upstream bandwidth; and 2) scheduling the upstream bandwidth in accordance with such need.