JPS6256047A - Transmission system for loop network system - Google Patents

Abstract

PURPOSE:To improve the transmission efficiency by dividing a reception address of a packet so as to be in one to one correspondence to each of plural nodes. CONSTITUTION:In the case of packet exchange multi-cast transmission, a node applying packet transmission sets an address of the own node to a transmission address 111 of the packet, '1' is set to a reception address bit corresponding to the reception node, '0' is set to the reception address bit corresponding to a node not being the reception node, after the setting state of the reception address is stored, the packet is sent. Further, all nodes looks at reception addresses 121-128 every reception of a packet and when the reception address bit corresponding to the own node is 0, the packet is transferred to a transmission line as it is, and when the bit is '0', the data is fetched and the reception address bit corresponding to the own node is changed from '1' to '0' and the packet is transferred to the transmission line. Thus, the transmission efficiency is improved.

Description

DETAILED DESCRIPTION OF THE INVENTION [1f, Higashijou Field of Application] The present invention relates to a loop network system, and particularly to a packet-switched transmission system.

[Prior Art] Conventionally, in a loop network system that performs multicast transmission of a mail exchanger, when a receiving node needs to return an acknowledgement to a transmitting mate, the reception of data in packets, l-, etc. Each successful node sent an acknowledge packet to the packet source node.

[Problems to be solved] - In the case of the conventional packet-switched multicast transmission method described above, each receiving node needs to send an acknowledge packet separately, so sending this acknowledge packet causes problems in the network system. There is a problem in that the transmission efficiency decreases, and the degree of decrease in transmission efficiency is particularly significant when the number of receiving nodes is large.

[Means for Solving the Problems] The transmission method of the loop network system of the present invention which solves the problems listed in L is a transmission method of the loop network system of the present invention that solves the problems listed in item L. In the transmission method, the receiving address of the packet is one-to-one with each of the plurality of nodes.
It is assumed that the packet is divided so as to correspond to each other, and the divided receiving address can be set to one of two states: set or reset, and the packet source node sets the receiving address for the destination mate to the set state, or Set the other receiving addresses to the reset state, and after storing the set receiving address, perform bucket transmission, and when each node receives the packet, if the receiving address for the mate is in the reset state, the packet will be sent. The packet is transferred to the transmission path as is, and if the receiving address for own node is in the set state, the data in the packet is taken in, the receiving address for the own node is reset, and then transferred to the transmission path, and the packet is transferred to the transmission path. When the source node reaches the source mate after going around -, if the receiving address that the source node set to the set state when transmitting the packet is in the reset state, the source mate will be able to read the data in the packet by the destination mate. This configuration determines whether the message has been received.

[Example] Hereinafter, the present invention will be described in detail with reference to the drawings showing examples.

FIG. 1 shows an example of the structure of a packet when the present invention is applied to a network system consisting of a loop-shaped transmission line and eight nodes.

In Fig. 1, lOl is the sender, ill is the sending address, 121.122, ■23.124.125.126
．． 127 and 128 are reception addresses, 131 is a data area, and 141 is a parity. Receiving address 121-1
Each of the 28 bits consists of 1 pin, and the receiving address 121 is for the 1st node, the receiving address 122 is for the mate of 2nd 1, and so on.
correspond to each other on a one-to-one basis.

When performing packet-switched multicast transmission, the node that sends the packet first sets its own address in the sending address 111 of the packet, sets "1" in the receiving address bit l corresponding to the receiving node, and then The reception address bit corresponding to the node that is not mate is set to O'', and the packet is transmitted after storing the setting state of the reception address.Furthermore, every time all nodes receive a packet, they set the reception address 121 of the packet.
~128, if the reception address bit corresponding to the own node is "o", the packet is transferred to the transmission path as is, and if it is "1", after taking in the data, the reception address bit corresponding to the own node is transferred. The address bit is changed from i'' to "o" and the packet is transferred to the transmission path. When the packet goes around the transmission path and returns to the source node, if the received address bits are all "o", the source node determines that the multicast transmission was successful.

Next, we will explain the operation of each node and the change in reception address focus when performing packet conversion type multicast transmission using the packets shown in Fig. 1 in a loop-shaped network having eight nodes shown in Fig. 2. A system will be explained as an example.

In FIG. 2, it is assumed that packet transmission is carried out counterclockwise, and that packets are removed from the transmission path by the packet source mate. Additionally, receive address bits and 8
The correspondence with nodes is the reception address bits 121, 1
22. ,． 128 in the order of nodes 201.202. ,． 2
08.

In the network system shown in Figure 2, No. 1" 2
01 is connected to three mates through the transmission line 211, that is, /-doard 2
Consider the case where multicast transmission of packets to 02.204.205 is performed. FIG. 3 shows how the received address bits change in this case.

First, in the reception address immediately after the packet is transmitted from the 7-board 201 to the transmission line 211, only the reception address bits 122, 124, and 125 are 1'', as shown in FIG. 3(a). This indicates that the packet is to be sent to node 202.204.205.

Next, when this packet reaches the node 202, the node 202 sets its own node reception address bit 122 to 1.
”, so after taking in the data, change the bit 122 from “i” to “o” and transfer the packet to the transmission path 211.The receiving address at this time is shown in Fig. 3(b).
It looks like this.

Subsequently, when this packet reaches the node 203, the node 203 sets its own receiving address (pi) 123 as "
o'', the packet is transferred as is to the transmission line 211.The receiving address at this time is shown in Figure 3 (b).
) remains.

In the same manner, after the nodes 204 and 205 have taken in the data,
．． 125 from i″ to “o” and the transmission line 21
1 and forwards the packet to node 206.207.208
Then, the packet is transferred to the transmission path 211 as it is. Third
3(c) shows the receiving address immediately after the packet passes through node 204, and FIG. 3(d) shows the receiving address immediately after the packet passes through node 205. node 20
6.207.208 does not change the receiving address, so even if the packet passes through node 206.207.208, the receiving address remains as shown in FIG. 3(d).

When the last packet sent from node 201 goes around the transmission path and reaches node 201 again, node 201
removes this packet from the transmission path 211 because its own mate's address is set in the sending address of the packet, but at this time, the receiving address bits are all o'' as shown in Figure 3(d). So node 201
can confirm that all receiving nodes 202, 204, and 205 have successfully received data.

In the above multicast transmission, for example, the node 20
Let us consider a case in which 5 fails to receive data. in this case,
When the packet returns to the source node 201, the receive address bit 125 for the node 205 remains "i", so the node 201 determines that the node 205 has failed to receive the data and needs to retransmit it. If there is, a packet with the same data will be received in address bit 12.
The packet will be retransmitted with only 5 set as "1".

As described above, in the transmission method according to this embodiment, the reception address of the packet includes a function equivalent to an acknowledge packet, so that each receiving node can indicate to the sender that the data has been successfully received. It is no longer necessary to send seven packets for reporting to nodes, and the transmission efficiency of the network system can be improved.

[Effects of the Invention] As explained above, the present invention eliminates the need for the receiving mate to send an acknowledge pagent by including a function equivalent to an acknowledgment packet in the receiving address of the packet. This has the effect of improving the transmission efficiency of the network system. This effect is particularly remarkable when performing multicast transmission with a large number of receiving nodes.

[Brief explanation of the drawing]

Figure 1 is a diagram showing an example of the structure of a packet when the packet-switched multicast transmission method of the present invention is adopted. FIGS. 3(a) to 3(d) are block diagrams showing an example of the transition of the content of the receiving address of a packet when packet-switched multicast transmission is performed using the present invention in the network system of FIG. 2. It is a figure which shows an example. 101: Packet header 111: Sending address 121.122.123, 124.125.126.1
27.128: Reception address 131: Data area 141: Parity 201.202.203.204.205.206.2
07,208: Node 211: Transmission line

Claims (1)

[Claims] In a transmission method for a network system consisting of a plurality of nodes and a loop-shaped transmission path that perform packet-switched multicast transmission, a packet reception address is divided so that it has a one-to-one correspondence with each of the plurality of nodes. The divided reception addresses can be set to one of two states: set or reset, and the packet source node sets the reception address for the destination node to the set state, and resets the other reception addresses. and memorize the set reception address before transmitting a packet, and when each node receives the packet, if the reception address for its own node is in the reset state, the packet is transferred as is to the transmission path. , if the receiving address for the own node is in the set state, the data in the packet is taken in, the receiving address for the own node is reset, and then transferred to the transmission path, and the packet goes around the transmission path and returns to the source node. When the destination node reaches , if the receiving address that the source node set to the set state when sending the packet is in the reset state, the source node determines that the data in the packet has been received by the destination node. A transmission method for a loop-shaped network system featuring characteristics.