COMPUTER HARDWARE INCLUDING WEB SERVERS

Brand Owner (click to sort) Address Description
A2DIS KAWASAKI STEEL CORPORATION No. 1-28, Kitahonmachidori 1-Chome Chuo-ku, Kobe Japan Computer hardware including web servers, intranet servers, firewalls, virtual private network servers, remote access servers, multi-media transmission servers, routers, hubs, terminal adapters, line terminal units, digital service units, multi-layer switches and security servers and software for use in data communications, namely, for transferring information to and from small offices and home offices, for connecting personal computers to global computer networks, for connecting home office computers with business operations computers and for assessing insurance risk evaluations for use in the field of insurance;
SECURED A2DIS KAWASAKI STEEL CORPORATION No. 1-28, Kitahonmachidori 1-Chome Chuo-ku, Kobe Japan Computer hardware including web servers, intranet servers, firewalls, virtual private network servers, remote access servers, multi-media transmission servers, routers, hubs, terminal adapters, line terminal units, digital service units, multi-layer switches and security servers and software for use in data communications, namely, for transferring information to and from small office and home offices, for connecting personal computers to global computer networks, for connecting home office computers with business operations computers and assessing insurance risk evaluations for use in the field of insurance;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A system and method for providing switch redundancy in a computer network comprises two or more separate servers that are connected together to allow the servers to operate as one complete system that may continue to operate even in the event that one server becomes unable to provide switching functions. In one exemplary embodiment, the computer network includes two or more servers and a server bridging assembly. Two or more servers are interconnected via the server bridging assembly such that, in the event that a switch located in one of the servers fails, the switch located in the other server can be used to provide switching functions for both servers. As a result, the servers are interconnected to provide redundancy.