Interconnected trunk cluster arrangement
    27.
    发明授权
    Interconnected trunk cluster arrangement 失效
    互连干线集群安排

    公开(公告)号:US6058116A

    公开(公告)日:2000-05-02

    申请号:US60606

    申请日:1998-04-15

    CPC分类号: H04L45/02 H04L12/46

    摘要: An arrangement of trunk clusters and a method for interconnecting trunk clusters wherein the interconnection method has no single point of failure, the bandwidth between trunk clusters is not limited by the throughput of a single switch, and faults are contained within each trunk cluster. A trunked interconnection structure is provided between trunk clusters. Each switch of a trunk cluster has a logical port connected to a trunked port. The trunked port or trunk port provides a physical connection to each trunk switch of another trunk cluster. Each trunk switch of the another trunk cluster has a logical port connected to a trunked port which in turn has physical connections to each switch of the first trunk cluster. Trunked interconnect isolates faults to a single trunk cluster and there is no single point of failure and the total throughput is not limited to any single switches capacity. This always provides a single loop free path from one trunk cluster to the other or others. Multiple trunk clusters may be interconnected using point-to-point connections. A high throughput campus interconnect trunk cluster can be used to connect each building data center trunk cluster.

    摘要翻译: 中继集群的布置和互连干线集群的方法,其中互连方式没有单点故障,中继集群之间的带宽不受单个交换机的吞吐量的限制,每个中继集群中都包含故障。 中继集群之间提供集群互连结构。 中继集群的每个交换机都有连接到集群端口的逻辑端口。 集群端口或中继端口提供与另一个中继集群的每个中继交换机的物理连接。 另一个中继集群的每个中继交换机都有连接到集群端口的逻辑端口,该集群端口又具有到第一中继集群的每个交换机的物理连接。 集群互连将故障隔离到单个中继集群,并且没有单点故障,总吞吐量不限于任何单个交换机容量。 这总是提供从一个中继集群到另一个或其他集群的单循环自由路径。 可以使用点对点连接来互连多个中继群集。 高吞吐量的校园互连中继群集可用于连接每个建筑数据中心中继群集。

    Method and apparatus for transparent intermediate system based filtering
on a LAN of multicast packets
    28.
    发明授权
    Method and apparatus for transparent intermediate system based filtering on a LAN of multicast packets 失效
    基于组播数据包LAN的基于透明中间系统过滤的方法和装置

    公开(公告)号:US5818838A

    公开(公告)日:1998-10-06

    申请号:US542157

    申请日:1995-10-12

    摘要: A bridge (62) capable of reducing unwanted WAN multicast packet traffic in a LAN is disclosed. The bridge examines the contents of WAN multicast query and report packets and includes this information in its filtering database (88). The bridge designates ports on which query packets are received as query ports. When there is no WAN router generating multicast query packets into the LAN, the bridge simulates the behavior of a WAN router and generates WAN multicast query packets so as to cause report packet generation by end systems. A timeout interval for undesignating query ports and a method for determining an appropriate timeout for a port is disclosed.

    摘要翻译: 公开了一种能够减少LAN中不想要的WAN组播数据包流量的桥接器(62)。 网桥检查WAN组播查询和报告数据包的内容,并将其包含在其过滤数据库(88)中。 桥指定接收查询报文的端口作为查询端口。 当没有WAN路由器生成组播查询报文到局域网时,桥接器模拟WAN路由器的行为,并生成WAN组播查询报文,从而使终端系统生成报告报文。 公开了一种用于不指定查询端口的超时间隔和一种用于确定端口适当超时的方法。

    Wireless mesh architecture
    30.
    发明授权

    公开(公告)号:US08565164B2

    公开(公告)日:2013-10-22

    申请号:US12356232

    申请日:2009-01-20

    申请人: Floyd Backes

    发明人: Floyd Backes

    IPC分类号: H04W4/00

    CPC分类号: H04W84/18 H04W76/10

    摘要: A wireless mesh network architecture includes a plurality of wireless nodes, with each wireless node in the network is connected to every other wireless node in the network. Each pair of wireless nodes is coupled by a link dedicated to exchange of data by the pair of nodes. The link is characterized by an agreement between two end points of the link to rendezvous for the purposes of exchanging data at a predetermined time over a predetermined channel. Methods of negotiating rendezvous characteristics, such as rendezvous channel, time, frequency, duration and transmission power ensure that the selected link is tuned to minimize interference and power usage in the WN. A handshake mechanism enables high performance data delivery with minimal packet loss. The link based architecture uses Link State Advertisements, traffic tags and spanning trees to fine tune packet flow through divergent devices in the network.