JP3112827B2 - Packet switching relay system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a packet switching relay system, and more particularly to a packet switching relay for selecting an output line so as to average the frequency of use of each line when a plurality of lines are provided between relay stations. About the method.

[0002]

2. Description of the Related Art FIG. 2 is a block diagram showing an example of a packet switching network. FIG. 3 is an explanatory diagram showing a configuration example of a packet.

[0003] In FIG. 2, a relay station 25 receives information from a plurality of relay stations 16a to 16c through a communication line 8a to 8c as shown in FIG. Composed packet 20
Is transmitted, the relay station 25 that has received the packet 20 determines from the destination address of each packet 20 the relay station that is the transfer destination of each packet 20 by the relay station 17.
a to 17c, the packet 20 is selected from the relay station 17
a, communication lines 9a to 9c in a line bundle 11 connected to a.
Communication line 1 in line bundle 12 connected to relay station 17b
A network is configured to transmit the data to the transfer destination relay stations 17a to 17c via the communication lines 18a to 18c in the line bundle 19 connected to the relay stations 17a to 17c.

A conventional packet switching relay system is disclosed in
JP-A 1-245663 and JP-A-63-28494.
As described in Japanese Patent Publication No. 9, a packet is received at an input section of a relay station corresponding to a communication line on each input side, the packet is passed to an exchange processing section, and the packet is added to a header section of the packet in the exchange processing section. According to the destination address, a relay station to which a packet is to be transmitted is selected, and a plurality of communication lines between the relay station and the relay station are selected in order to average a line load among a plurality of communication lines with the relay station. One of the communication lines on the output side with the least load is selected from the communication lines to transmit the packet.

FIG. 4 is a block diagram showing a configuration of a conventional relay station of the packet switching relay system. The configuration of the relay station 25 of the conventional packet switching relay system shown in FIG.
input units 26a to 26c corresponding to a to 8c and a line bundle 11 of a communication line in which the transfer destination of the packet 20 is the same relay station.
Output units 3a to 3c corresponding to the communication lines 9a to 9c,
The output units 4a to 4c corresponding to the communication lines 10a to 10c of the line bundle 12 and the relay station to which the packet 20 is to be transmitted are determined based on the destination address in the packet. And an exchange processor 27 that selects one line as an output line from among the communication lines and transfers the packet 20 to the corresponding output unit. The exchange processing unit 27 includes a plurality of communication units provided between the transfer destination relay station and a transfer destination relay station determination processing unit 28 that determines a relay station to which the packet 20 is to be transmitted based on the destination address in the packet 20. A line selection processing unit 29a that selects one line as an output line from the lines and passes the packet 20 to the corresponding output unit;
29b.

For example, when the input unit 26a receives the packet 20 from the communication line 8a, the packet 20 is passed to the exchange processing unit 27. Transfer destination relay station determination processing unit 28 in exchange processing unit 27
Checks the destination address in the packet 20 passed from the input unit 26a and determines the relay station to which the packet should be transferred.
Further, the packet 20 for which the transfer destination relay station is determined,
Line selection processing unit 29 according to the relay station to which the packet is transferred
a, 29b. For example, the transfer destination relay station determination processing unit 28 determines that the transfer destination relay station 1
When 7a is determined, the line bundle 11 connected to the relay station 17a is selected as a communication line group for transmitting the packet 20. When the transfer destination relay station is determined and the line bundle 11 corresponding to the relay station is determined, the packet 20 is passed to the line selection processing unit 29a. When the line selection processing unit 29a determines which line of the line bundle 11 is to be transmitted, for example, if it is determined that the packet should be transmitted to the communication line 9a, the packet 20 is output to the output unit 3a. And sent to the line 9a from there.

[0007]

The above-described conventional packet switching relay system has a drawback that the load on the switching processing unit increases because all packets are concentrated in the switching processing unit, and the throughput decreases. .

An object of the present invention is to perform packet transfer processing in one step.
It is an object of the present invention to provide a packet-switching relay system that can be distributed and performed in places, and can improve throughput.

[0009]

According to a packet switching relay system of the present invention, a relay station to which a packet is to be transferred is determined based on a destination address of the packet received through each of a plurality of input communication lines. A packet switching relay system that selects a communication line with a small load among a plurality of communication lines with the relay station and averages and uses the output load of the packet on the plurality of communication lines with the relay station. The destination of the packet received from the communication line on the input side.
Based on the above address to determine the destination of the relay station of the packet, further comprising a plurality of exchange processing means for selecting a smaller communication line load among a plurality of communication lines between the relay station, said exchange means , The destination of the received packet
Determines the relay station to which the packet is forwarded based on the address
Between the transfer destination relay station determination processing means and the relay station
Select a communication line with a low load among multiple communication lines
And line selection processing means .

[0010]

Further, the packet switching relay system of the present invention comprises:
The number of the switching units is equal to the number of the plurality of communication lines on the input side.

[0012]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing an embodiment of the packet switching relay system of the present invention.

In the packet switching relay system according to the present embodiment shown in FIG. 1, a relay station to which the packet 20 is transferred is provided with a plurality of output stations based on the destination address of the packet 20 received from the input communication lines 8a to 8c. Communication line 9a which is a line
9c or a relay station connected to the line bundle 12 composed of the communication lines 10a to 10c. Of the plurality of communication lines 9a to 9c and the communication lines 10a to 10c,
A plurality of switching processing units 2a to 2c for selecting a line, and output units 3a to 3c each connected to the switching processing units 2a to 2c and connected to one of a plurality of output communication lines 9a to 9c. And each of the exchange processing units 2a to 2
c, and a plurality of output lines as communication lines 10
output units 4a to 4c connected to any of
c.

The switching processing unit 2a includes an input unit 7 for receiving the packet 20 from the communication line 8a on the input side, and a transfer destination for determining a transfer destination of the packet based on the destination address of the received packet 20. Relay station determination processing unit 5
And a plurality of communication lines 9a to 9 between the determined relay station
c or a line selection processing unit 6a, 6b for selecting a communication line with the least load among the communication lines 10a to 10c.
It is comprised including. In FIG. 1, the internal configuration of the blocks of the exchange processing units 2b to 2c is not shown, but the interior of the exchange processing units 2b to 2c is configured similarly to the interior of the exchange processing unit 2a. That is, the exchange processing unit 2
b has an input unit for receiving the packet 20 from the input communication line 8b, and the switching unit 2c has an input unit for receiving the packet 20 from the input communication line 8c.
In addition, two line selection processing units of the switching processing units 2b and 2c are connected to the communication lines 9a to 9c and the communication lines 10a to 1c.
The connection with 0c is the same as in the case of the exchange processing unit 2a.

Next, the operation will be described.

In FIG. 1, it is assumed that a packet 20 is received by the relay station 1 from, for example, the communication line 8a. The packet 20 is received by the input unit 7 of the exchange processing unit 2a, converted from the signal format of the communication line 8a to the signal format of the relay station 1, and then output to the transfer destination relay station determination processing unit 5. The transfer destination relay station determination processing unit 5 determines the transfer destination relay station of the packet 20 based on the destination address of the received packet 20. Here, the relay station to which the line bundle 11 is connected If it is determined that the destination relay station is the transfer destination relay station, the communication line used to transfer the packet 20 from the transfer destination relay station determination processing unit 5 to the line selection processing unit 6a is included in the line bundle 11. The user is notified to select from the communication lines 9a to 9c. The line selection processing unit 6a controls the communication lines 9a to 9c so that the output loads of the respective packets 20 of the communication lines 9a to 9c with the relay station determined by the transfer destination relay station determination processing unit 5 are averaged. For example, if the communication line 9b is selected as the communication line having the least load among the communication lines 9c, the line selection processing unit 6a outputs the output of the transfer destination relay station determination processing unit 5 and the output unit 3b to which the communication line 9b is connected. The input is connected to form a transfer route of the packet 20 stored in the transfer destination relay station determination processing unit 5. The line selection processing unit 6a transmits each packet 2 of the communication lines 9a to 9c.
Communication lines 9a to 9 so that the output load of 0 is averaged.
In order to select the communication line with the smallest load among the packets c, the actual data when the transfer of the packet 20 is performed is recorded, and the selection is made based on the data. Thus, the packet 2 received from the communication line 8a
0 is transferred from the output unit 3b to the next relay station via the communication line 9b. If the transfer destination relay station determination processing unit 5 determines the transfer destination relay station of the packet 20 based on the destination address of the received packet 20, the relay station to which the line bundle 12 is connected transfers the packet 20. If it is determined that the destination relay station is the destination relay station, the communication line used to transfer the packet 20 is transmitted from the transfer destination relay station determination processing unit 5 to the line selection processing unit 6b. The user is notified to select from the lines 10a to 10c.

The communication lines 9a to 9 in the line bundle 11
c are connected to the output units 3a to 3c, which are also connected to the exchange processing units 2b and 2c, respectively.
8c are received by the communication lines 9a to 9c.
c, the actual data obtained when the packet 20 was transferred and recorded in the line selection processing unit 6a of the switching processing unit 2a include the switching processing unit. Communication line 9a by line selection processing unit 6a of 2b
-9c, or the actual data transferred via the communication lines 9a-9c by the line selection processing unit 6a of the exchange processing unit 2c. Since the output loads of the respective packets 20 of the communication lines 9a to 9c are averaged by the line selection processing unit 6a of 2a to 2c,
Even if the output load of the packet 20 is not averaged in a short time, the packet 20
Are averaged, the exchange processing units 2a to 2c
There is no problem even if the result data when the packet 20 is transferred between the line selection processing units 6a are not mutually notified.

In the above description, the number of lines to the relay station on the input side is represented by one line for simplicity, but the number of lines on the input side may be plural.

On the input side, when a plurality of switching units determine a relay station to which the packet 20 is to be transferred, and when a communication line with a small load is selected from a plurality of communication lines with the relay station, a It is possible that one of the exchange processing units selects the same output unit at the same time. In this case, the output unit assigns priorities to the packets 20 from the plurality of exchange processing units in a predetermined manner. Need to be processed. That is, the low priority packets 20 are stored in the memory, and after the previously transmitted packets 20 are transferred, the packets 20 stored in the memory are read out from the high priority packets and sequentially read out. Try to transfer.

[0021]

As described above, in the packet switching relay system of the present invention, a plurality of switching processing means for performing packet transfer processing are provided in correspondence with the number of input communication lines, and the plurality of switching processing means are used. By performing the processing in parallel, the packet transfer processing can be performed in a decentralized manner without being performed at one place, and the throughput can be improved.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of a packet switching relay system of the present invention.

FIG. 2 is a block diagram illustrating an example of a packet switching network.

FIG. 3 is an explanatory diagram illustrating a configuration example of a packet.

FIG. 4 is a block diagram showing a configuration of a relay station of a conventional packet switching relay system.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Relay station 2a-2c Exchange processing part 3a-3c Output part 4a-4c Output part 5 Transfer destination relay station determination processing part 6a, 6b Line selection processing part 7 Input part 9a-9c Communication line 10a-10c Communication line 11,12 Line bundle

────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Yoritsu Kurita 5-7-1 Shiba, Minato-ku, Tokyo Within NEC Corporation (56) References JP-A-4-280536 (JP, A) JP-A-Hei 7-131456 (JP, A) JP-A-61-242493 (JP, A) JP-A-61-210470 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) H04L 12/56

Claims (2)

(57) [Claims] 1. A relay station to which a packet is transferred is determined based on a destination address of a packet received via each of a plurality of communication lines on an input side. In a packet switching relay system in which a communication line with a small load is selected and the output load of the packet in a plurality of communication lines between the relay station and the relay station is used, a packet received from the communication line on the input side is used. A plurality of switching processing means for determining a transfer destination relay station of the packet based on a destination address and selecting a communication line with a small load among a plurality of communication lines with the relay station, wherein the switching processing means Transfer destination relay station determination processing means for determining a relay station to which the packet is to be transferred based on a destination address of the received packet; And a line selection processing means for selecting a communication line having a small load among the packet switching relay systems. 2. A packet switching relay method according to claim 1 Symbol placement, packet switching relay scheme, characterized in that the number of the replacement processing unit is the number of the plurality of communication lines on the input side.