| Patent application number | Description | Published |
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| 20090292813 | Address Assignment in Fibre Channel Over Ethernet Environments - A method of initializing a Fibre Channel over Ethernet (FCoE) link between a Fibre Channel over Ethernet node (ENode) and Fibre Channel Forwarders (FCFs) in a network by discovering the presence of FCFs available to the ENode and other FCFs, assigning second MAC addresses to the ENode corresponding to each available FCF, and converting from a management and initialization process using the first MAC address to normal Fibre Channel operation using the second MAC addresses. The implementations described herein may additionally distinguish management and initialization processes from normal Fibre Channel operation using separate Ethertypes. | 11-26-2009 |
| 20090296726 | ACCESS CONTROL LIST MANAGEMENT IN AN FCoE ENVIRONMENT - A Fibre Channel Forwarder (FCF) suspends a fabric session with a virtual machine (VM) in response to receipt of a deregister message from the virtual machine through an Ethernet bridge and transmits a deregister acceptance message to the VM. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to remove the MAC address of the VM. While the fabric session is suspended, a virtual machine may migrate to another physical machine without terminating its connection to the fabric. After migration, the FCF resumes its fabric session with the VM in response to receipt of a register message from the VM through a second Ethernet bridge. The FCF responds to the register message with a register acceptance message. The Ethernet bridge detects the messages and updates its Access Control List (ACL) to add the MAC address of the VM. | 12-03-2009 |
| 20100246388 | REDUNDANT HOST CONNECTION IN A ROUTED NETWORK - One embodiment of the present invention provides a switch. The switch includes a management mechanism and a configuration mechanism. During operation, the management mechanism is configured to operate the switch in conjunction with the partner switch as a single logical switch. The configuration mechanism is configured to assign a virtual switch identifier to the logical switch. | 09-30-2010 |
| 20110299414 | PRESERVING QUALITY OF SERVICE ACROSS TRILL NETWORKS - Systems and techniques for processing and/or forwarding packets are described. An ingress switch can use a QoS mapping mechanism to map a first set of Quality of Service (QoS) bits in a packet received from a customer to a second set of QoS bits for use in a Transparent Interconnection of Lots of Links (TRILL) packet which encapsulates the packet. The first set of QoS bits can be different from the second set of QoS bits. The TRILL packet can be processed and/or forwarded in the network based on the second set of QoS bits. At the egress switch, the TRILL packet can be decapsulated and the original packet with the original QoS bits (or QoS bits that are different from the original QoS bits) can be forwarded to the customer's network. In this manner, some embodiments of the present invention can preserve the QoS bits across a TRILL network. | 12-08-2011 |
| 20110299527 | SUPPORTING MULTIPLE MULTICAST TREES IN TRILL NETWORKS - Systems and techniques for supporting multiple multicast trees are described. Some embodiments provide a system that determines an internal multicast group identifier based on a source address, a multicast address, and a multicast tree identifier field associated with a multicast packet. The system can then forward the multicast packet based on the internal multicast group identifier. Specifically, the system can determine a first set of bits based on the source address and the multicast address of the multicast packet. The system can determine a second set of bits based on the multicast tree identifier field of the multicast packet. Next, the system can combine the first set of bits and the second set of bits to obtain the internal multicast group identifier. In some embodiments, the scope of an internal virtual network identifier does not extend beyond a switch or a forwarding module within a switch. | 12-08-2011 |
| 20110299528 | NETWORK LAYER MULTICASTING IN TRILL NETWORKS - Systems and techniques for performing network layer multicasting in a TRILL network are described. Some embodiments provide a system that receives multicast packet that includes a network-layer multicast-address. The multicast packet can be received on a first multicast tree associated with a first virtual network. Next, the system can determine, based on the network-layer multicast-address, a second multicast tree associated with a second virtual network over which the multicast packet is to be forwarded. The system can then forward the multicast packet on the first multicast tree associated with the first virtual network, and forward a copy of the multicast packet on the second multicast tree associated with the second virtual network. | 12-08-2011 |
| 20110299531 | FLOODING PACKETS ON A PER-VIRTUAL-NETWORK BASIS - Methods and techniques for flooding packets on a per-virtual-network basis are described. Some embodiments provide a method (e.g., a switch) which determines an internal virtual network identifier based on one or more fields in a packet's header. Next, the method performs a forwarding lookup operation based on the internal virtual network identifier. If the forwarding lookup operation succeeds, the method can process and forward the packet accordingly. However, if the forwarding lookup operation fails, the method can determine a set of egress ports based on the internal virtual network identifier. Next, for each egress port in the set of egress ports, the method can flood the packet if a virtual network identifier in the packet's header is associated with the egress port. Flooding packets on a per-virtual-network basis can substantially reduce the amount of resources required to flood the packet when a forwarding lookup operation fails. | 12-08-2011 |
| 20110299533 | INTERNAL VIRTUAL NETWORK IDENTIFIER AND INTERNAL POLICY IDENTIFIER - Systems and techniques for processing and forwarding packets are described. Some embodiments provide a system (e.g., a switch) which determines an internal virtual network identifier and/or an internal policy identifier for a packet based on a port on which the packet was received and/or one or more fields in the packet. The system can then process and forward the packet based on the internal virtual network identifier and/or internal policy identifier. In some embodiments, the system encapsulates the packet in a TRILL (Transparent Interconnection of Lots of Links) packet by adding a TRILL header to the packet. In some embodiments, the scope of an internal virtual network identifier and/or an internal policy identifier may not extend beyond a switch or a module within a switch. | 12-08-2011 |
| 20120063316 | CONGESTION NOTIFICATION ACROSS MULTIPLE LAYER-2 DOMAINS - One embodiment of the present invention provides a congestion notification. During operation, the system receives a congestion notification message with a destination layer-2 address set as the receiving mechanism's layer-2 address. The system modifies a destination layer-2 address, a source layer-2 address, and optionally a VLAN identifier of the congestion notification message, and forwards the modified congestion notification message. | 03-15-2012 |
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| 20090015237 | Classification technique for powered devices using selective frequency filtering - A method, performed by a power sourcing apparatus is provided. The method includes (a) providing an electronic signal to a powered device (PD) over a wire through a circuit device, the circuit device permitting current to flow at pre-determined frequencies, the pre-determined frequencies forming a first set of frequency components, (b) sensing the electronic signal over the wire to detect frequency components present in the electronic signal, the detected frequency components forming a second set of frequency components, and (c) classifying the electronic signal into one of a plurality of classes according to a pattern of frequency components present in the first and second sets. Apparatus for use in conjunction with the method are also provided. | 01-15-2009 |
| 20090121548 | DYNAMIC CURRENT LIMITS - A method is provided for allocating and providing power to network devices. The method includes (i) receiving an electronic request to power a network device with a requested amount of power, (ii) establishing a worst-case current draw of the device in the event of a pre-defined maximum voltage slew rate, and (iii) selectively (a) allocating and providing power to the device when a remaining power capacity is greater than or equal to a provision voltage multiplied by the worst-case current draw of the device in the event of the maximum voltage slew rate, and (b) denying power to the device when the remaining power capacity is less than the provision voltage multiplied by the worst-case current draw of the device in the event of the maximum voltage slew rate. Apparatus are also provided for performing the method. | 05-14-2009 |
| 20100237846 | CONTROLLING INLINE POWER AT AT POWERED DEVICE - A powered device includes a first switch, a second switch, and a controller. The first switch is disposed between a center tap of the first transformer and a center tap of the third transformer. The second switch is disposed between a center tap of the second transformer and a center tap of the fourth transformer. The controller is coupled to the first switch and the second switch. The controller is constructed and arranged to output a control signal to the first and second switches to electrically connect the center taps of the first and third transformers together and concurrently electrically connect the center taps of the second and fourth transformers together. The powered device is constructed and arranged to operate in 4-pair mode when the center taps of the first and third transformers are connected together and the center taps of the second and fourth transformers are connected together. | 09-23-2010 |
