Multiplex communications – Network configuration determination
Reexamination Certificate
1999-12-27
2004-09-14
Vanderpuye, Kenneth (Department: 2661)
Multiplex communications
Network configuration determination
C370S351000
Reexamination Certificate
active
06791948
ABSTRACT:
FIELD OF THE INVENTION
The invention relates generally to the field of digital communications systems and more particularly to digital networks for facilitating communication of digital data in, for example, digital image, audio and video distribution systems and among digital computer systems. The invention more specifically provides a distributed switch and connection control arrangement and method for a digital communications network.
BACKGROUND OF THE INVENTION
Digital networks have been developed to facilitate the transfer of information, including data and programs, among digital computer systems and other digital devices. A variety of types of networks have been developed and implemented using diverse information transfer methodologies. In some networks, such as the well-known Ethernet, a single wire is used to interconnect all of the devices connected to the network. While this simplifies wiring of the network in a facility and connection of the devices to the network, it results in generally slow information transfer, since the wire can only carry information, in the form of messages, from a single device at a time. To alleviate this to some extent, in some Ethernet installations, the network is divided into a number of sub-networks, each having a separate wire, with interfaces interconnecting the wires. In such installations, wires can carry messages for devices connected thereto simultaneously, which increases the number of messages that can be transferred simultaneously. It is only when a device connected to one wire needs to send a message to a device connected to another wire that wires in two or more sub-networks will be used, making them unavailable for use by other devices connected thereto.
To further alleviate this, networks have been developed in which communications are handled through a mesh of switching nodes. The computer systems and other devices are connected to various switching nodes. Since the switching nodes themselves are interconnected in a variety of patterns, a number of paths may be available between pairs of the devices, so that if one path is congested, another may be used. Such an arrangement may result in a network which is more complicated than an Ethernet network, but it can provide substantially higher information transfer rates, particularly if optical fiber is used as the media interconnecting the switching nodes and devices. One problem arises in connection with such networks (that is, networks in which communications are handled through a mesh of switching nodes) is, when one device is to transfer information to another device, to identify a path, and preferably and optimal path, through the switching nodes comprising the network, over which information can be transferred. Typically in networks, the switching nodes include facilities for determining the topology of the switching node mesh comprising the network, and they (that is, the switching nodes) can determine optimal paths using path determination algorithms such as the well-known “open shortest-path first” (“OSPF”) algorithm. Generally, in such networks, each switching node establishes a network topology database (also known as a “link-state database”) in which it stores information defining the network topology. If the network is assumed to be failure-free and static, each switching node's network topology could be established a priori by a network administrator. However, generally it is desirable to provide that the topology of the network may be dynamic, and for such a network, each switching node periodically generates link state advertising messages identifying it and its connections to other switching nodes or devices, which it floods throughout the network. As each switching node receives a link state advertising message, the receiving switching node will update its network topology database with the information from the link state advertising message.
There are several problems that arise in connection with such networks. First, the link state advertising messages take up network bandwidth, reducing the amount of bandwidth that otherwise could be used for transmitting information messages between devices. In addition, and more generally, requiring the switching nodes to determine paths through the network, and maintain the network topology databases required to allow them to determine such paths, can require the switching nodes to be provided with a significant amount of processing power and information storage capability, which can significantly increase the cost of the switching nodes.
SUMMARY OF THE INVENTION
The invention provides a new and improved distributed switch and connection control arrangement and method for a digital communications network.
In brief summary, the invention A network includes devices such as computers and the like, interconnected by switching nodes. The devices are identified by globally-unique identifiers, such as Ethernet MAC addresses or the like. At least some of the devices are configured to determine the topology of the network. In determining the network topology, a device operates in a series of iterations, in each iteration transmitting a request message over a path to determine whether an additional entity is present in the network. If an additional entity is present at the end of the path defined in the request message, the entity will generate a response, which is provided to the device. The device, on receiving the response, will add information concerning the entity to a network topology database, which it maintains to define the topology of the database. At least some of the devices, as they discover additional switching nodes in the network, will attempt to configure the switching nodes. In that operation, the devices interact with the switching nodes in connection with a locking protocol to ensure that only one device attempts to configure each switching node. Each device, after it determines the network topology, and when it needs to transfer information with another device, can determine an appropriate route using the network topology information in its network topology database. After determining the appropriate route, the devices will load routing information into the switching nodes to enable them to forward messages containing the information to be transferred thereamong. Each device will provide to the other devices its globally-unique address, which the other devices use to identify the respective device.
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Clayton Shawn A.
Desnoyers Peter J.
Godiwala Nitin D.
Emulex Corporation
Morrison & Foerster / LLP
Vanderpuye Kenneth
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