KR20000040164A - Method for extending transmission band of tcp/ip server - Google Patents

Abstract

PURPOSE: A method for extending a transmission band of a TCP/IP server is provided to extend information transmission band and increase the number of terminal using a server by using a network of the server. CONSTITUTION: A method for extending a transmission band of a TCP/IP server comprises the following steps. At least two NICs(Network Interface Cards) are installed to a TCP/IP server. Terminals of each group are connected to specific NICs by grouping a plurality of terminal connected to each NIC. In the method, the number of terminal belonging to the group of the terminals connected to the specific NICs is determined by calculating the amount of traffic generated from the terminals and a total traffic.

Description

How to Extend Transmission Band of TPC / IP Server

The present invention relates to a process of providing data information of a TCP / IP server on a local area network. In particular, when the information transmission band using the network of the server is insufficient, the information transmission band can be extended to increase the number of terminals using the server. The present invention relates to a transmission bandwidth extension method of a TCP / IP server.

1 is a diagram illustrating a connection between a TPC / IP server and network terminals according to the related art.

In the prior art, it is limited by a network interface card (hereinafter, referred to as "NIC") that provides an interface for connection between a server and a network terminal. In general, the NIC transmission band of the server uses 100 BaseT and the network terminal uses 10 BaseT to transmit information. However, as the network terminal stores or processes information in the server, the network terminal expands to 100 BaseT. As the transmission bandwidth of the network terminal is extended, the information provided by the server is limited by the limitation of the bandwidth of the NIC.

A description will be given of the information providing, storing and changing operations between the TCP / IP server and network terminals according to the prior art shown in FIG.

The network terminal 12 requests the server 11 to connect using TCP / IP. The server 11 performs user authentication of the terminal 12 requesting access. At this time, the server checks the authentication with the IP address of the terminal 12. The user of the authenticated terminal 12 uses the information stored in the server 11 or stores and changes the information in the server 11.

In the prior art illustrated in FIG. 1, when N terminals use a band of data information provided by the server 11, even when using 10 Mbps, 100 Mbps, or 1 Gbps NIC, the network traffic of the server side is increased. It will increase and eventually delay. This is caused by a single information transmission path provided by the server.

This problem is particularly limited when the information needs to be operated in a manner of using and storing information in real time. For example, when used as a server such as a voice message system, the limitation of the bandwidth of providing the information of the NIC rather than the processing power of the server is limited. Because of the bottlenecks caused by the service is not smooth.

The present invention is to solve the problems of the prior art as described above, characterized in that the server is expanded to install a plurality of NICs, and the plurality of NICs are operated in a load-counting manner.

1 is a diagram illustrating a connection between a TPC / IP server and network terminals according to the prior art;

Figure 2 is a view showing the connection of the TPC / IP server and network terminals according to the present invention.

Explanation of symbols on the main parts of the drawings

11: server 12: terminal

21: Server 22: NIC

Hereinafter, a transmission band extension method of a TPC / IP server according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram illustrating a connection between a TCP / IP server and network terminals according to the present invention.

As shown in Fig. 2, two or more NICs 22 are connected to a single TCP / IP server 21 in the present invention. These N NICs also operate in a load-counting manner. By aliasing the IP address of the server 21, a plurality of IP addresses of the same group are allocated, and the terminals using the information of the server are grouped by accessing the respective IP addresses. In FIG. 2, a group of terminals from the first group to the Nth group can be seen. 2 shows that N NICs are connected. Only the first group can be connected to the NIC-1, and the number of terminals belonging to each group is determined by the sum of information bandwidths required by the terminal. As shown in Fig. 2, N NICs and groups are logically separated, and then connectable NICs and groups are connected.

The server 21 has at least four S-bus interface connections. When the NIC supporting 100Mbps is mounted in the server 21, the NICs are represented by names such as hme0, hme1, and hme2. Each NIC is driven by an individual driver and multiplexed and processed at an IP layer on a protocol stack. In other words, the number of input / output parts through the server and the network increases to N.

In the prior art, even if the central processing unit of the server has sufficient performance to process the input data, the bottleneck occurs in the portion where the input and output through the network.

In the present invention, the load-counting method is used to prevent load concentration on a specific NIC. In order to group the terminals in a load-counting scheme, the amount of traffic generated by the terminals is calculated.

If the system to be applied is an AIN-IP system, the amount of traffic generated from the terminal may be calculated by calculating the incoming information through the public telephone network. In IE (30 phone lines), one phone line generates 64Kbps of traffic. After that, the IP system compresses and processes 64 Kbps into 32 Kbps, and this information is stored and used on the server. By calculating in this way, the total number of traffic generated in the terminal can be obtained. By adding the calculated total traffic, terminals generating 20Mbps traffic are set as one group.

As shown in FIG. 2, when the transmission band of the TCP / IP server is extended, operations of the server and the terminal will be described.

The terminal requests the server 21 for connection using TCP / IP. After checking the IP address of the terminal requesting the connection, the server 21 confirms whether the terminal belongs to the group allowed to access. This is done by identifying the IP address assigned to the NIC and connecting to the server, thereby distributing the load.

For the allowed terminal, the server checks the available authentication of the terminal that requested the connection. The user or application program of the authenticated terminal uses the information stored in the server.

In the method according to the present invention, terminals configured in a specific group transmit and receive information using only a specific NIC of a server, and each NIC has one IP address. For example, when the IP address of /etc/hostname.hme0 is 150.150.61.100 and the IP address of /etc/hostname.hme1 is 150.150.61.101, the terminals configured in the first group access only the NIC set to 150.150.61.100. Information is transmitted and received, and the terminals configured in the second group transmit and receive information only to the NIC set to 150.150.61.101.

As described above, in the present invention, a plurality of NICs are connected to a single TCP / IP server, and a plurality of terminals connected to each NIC are grouped so that terminals belonging to each group are connected only to a specific NIC. The transmission band of the TCP / IP server can be extended. As in the present invention, when the transmission band of the TCP / IP server is extended, it is possible to overcome the limitation of the information transmission bandwidth for storing or using the voice file in the voice message system.

Claims (2)

A method of extending a transmission band of a TCP / IP server, comprising installing two or more NICs in a TCP / IP server and grouping a plurality of terminals connected to each NIC so that terminals belonging to each group connect only specific NICs. The method of claim 1, In the method, the number of terminals belonging to a group of a plurality of terminals accessing a specific NIC is calculated by calculating the amount of traffic generated by the terminal to determine the total traffic, the transmission band extension method of the TCP / IP server.