摘要:
A system and method for interface translation between a system packet interface level 3 (SPI-3) defines an interface between a physical device (PHY device) and a link layer device, and a gigabit media independence interface (GMII) which defines an interface between a media access control (MAC) portion of a gigabit Ethernet and a physical device. The system includes a translation circuit for translating a GMII reception signal, received from a GMII interface device, into an SPI-3 reception signal synchronized with an SPI3 reference clock, and for translating an SPI-3 transmission signal, received from an SPI-3 interface device, into a GMII transmission signal synchronized with a GMII reference clock.
摘要:
A system and method for interface translation between a system packet interface level 3 (SPI-3) defines an interface between a physical device (PHY device) and a link layer device, and a gigabit media independence interface (GMII) which defines an interface between a media access control (MAC) portion of a gigabit Ethernet and a physical device. The system includes a translation circuit for translating a GMII reception signal, received from a GMII interface device, into an SPI-3 reception signal synchronized with an SPI3 reference clock, and for translating an SPI-3 transmission signal, received from an SPI-3 interface device, into a GMII transmission signal synchronized with a GMII reference clock.
摘要:
In transferring a service context during hand-over of a mobile node located in a wireless mesh network, transfer boundaries are set according to positions spaced from an initial Access Point (AP) to which the mobile node is initially connected to, AP types being determined based upon the set transfer boundaries. Prior to hand-over of the mobile node in response to its movement, a service context is transferred to APs arranged in a moving direction of the mobile node based upon context transfer policies according to the determined AP types.
摘要:
An optical multi-ring network for burst data communication is disclosed. The multi-ring network includes a plurality of optical single-ring networks having a plurality of optical add/drop routers connected with each other through fiber links, and a core optical router for supporting communication between the optical single-ring networks. The core optical router includes a wavelength division demultiplexing section for demultiplexing optical signals received from the each single-ring network and outputting the demultiplexed optical signals as channels whose wavelengths are different from each other; a branching section for branching off and outputting a portion of each channel; and a switching section for switching each channel to a path directed to the destination of each channel according to a first control signal. The core optical router also includes a contention resolution block for aligning channels in a chronological order, which are output at the switching section and directed to identical destinations, according to a second control signal; a wavelength division multiplexing section for collecting channels which pass through the contention resolution block according to destination and outputting the collected channels as multiplexed optical signals; and a controller for recognizing a destination of each branched channel input from the branching section and outputting a third control signal to the switching section and the contention resolution block so as to a low each channel to be directed to the destination of each channel. A frame transmitted on the multi-ring network includes a burst datum consisting of a plurality of packet data, and a header datum indicating a destination of the burst datum.
摘要:
This invention relates to a routing apparatus and to a routing method in a network system in which a 6to4 network is connected to a native IPv6 network. An optimum transmission route is selected by considering the topology of the 6to4 network and the topology of the native IPv6 network. One embodiment of the routing apparatus comprises an information collector, a message generator and a message transmitter. Another embodiment of the routing apparatus comprises a routing information collector, a message receiver, and a route selector. The network system comprises a 6to4 relay router and a 6to4 router. The method comprises collecting routing information of the native IPv6 network and the 6to4 network, respectively, and selecting the route based on the collected information. Finally, a message used for transmitting the routing information comprises a Border Gateway Protocol (BGP) update message.
摘要:
In a tunneling method and apparatus for multicasting between an IPv4 network and an IPv6 network, a multicast table containing information about receive and transmit interfaces in a multicast delivery tree structure for each of the IPv4 network and the IPv6 network is set, a multicast address area is assigned to the first network and a multicast address area is assigned to the second network compatible with the first network, an IPv6 multicast packet containing source and multicast destination addresses of the IPv6 network is received, and when a destination network of the IPv6 multicast packet is the IPv6 network connected to the IPv4 network, source and multicast destination addresses of the IPv4 network are extracted from source and multicast destination addresses contained in the IPv6 multicast packet, the IPv6 multicast packet is capsulated into an IPv4 format, and the IPv4 format packet is multicast-tunneled to the IPv6 network through the IPv4 network by referring to the multicast table.
摘要:
In allocating bandwidth using a Resilient Packet Ring (RPR) fairness mechanism in a node connected to an RPR network, when congestion occurs, an amount of traffic that the node has transmitted to a ring during one aging interval is stored together with its own identifier in a fairness message as a fairness transmission rate to be advertised to its own upstream nodes. The amount of traffic transmitted from the upstream node during the aging interval is measured and stored. When the congestion has been solved, an available bandwidth is calculated with reference to the fairness transmission rate and the amount of traffic transmitted from the upstream nodes, and the fairness transmission rate is calculated to fairly allocate the available bandwidth to the upstream nodes so that the fairness transmission rate is transmitted to the upstream nodes.
摘要:
An Internet Protocol address look-up method for looking up an Internet Protocol address of an Internet Protocol packet in order to forward the Internet Protocol packet uses a ternary content addressable memory (CAM) which has routing entries, each including a pair of data strings having a prefix of an Internet Protocol address and a mask string representing a length of the prefix, which compares a search key as a destination address of the Internet Protocol packet to be forwarded with the routing entries, which sets a match line of a matching routing entry, and which outputs a mask string of the matching routing entry. The method comprises the steps of: comparing prefix lengths of mask strings outputted in correspondence to set match lines when at least one match line is set in the ternary content addressable memory (CAM); and determining, as a longest prefix matching (LPM) entry, a routing entry corresponding to a mask string having the longest prefix length.
摘要:
A network routing control method includes: setting best and secondary route information while receiving/transmitting a routing protocol control message with adjacent routers; setting a table having best and secondary next hop entries using the best and secondary route information; extracting a destination IP address from the best and secondary route information to set a forwarding table; and when a failure occurs in a network which is set as the best next hop entry according to the best route information, setting the secondary next hop entry as an output interface according to the secondary route information to forward a corresponding packet.
摘要:
In transferring a service context during hand-over of a mobile node located in a wireless mesh network, transfer boundaries are set according to positions spaced from an initial Access Point (AP) to which the mobile node is initially connected to, AP types being determined based upon the set transfer boundaries. Prior to hand-over of the mobile node in response to its movement, a service context is transferred to APs arranged in a moving direction of the mobile node based upon context transfer policies according to the determined AP types.