JPH0550899B2 - - Google Patents

Description

[Detailed Description of the Invention] (1) Technical field to which the invention pertains The present invention relates to
This invention relates to a network control method that introduces a waiting time when controlling retransmission by a transmitting station in a system that performs pair-to-n communication.

(2) Prior Art There have been systems in the past that, when a transmitting station sends data to a receiving station and receives an acceptance rejection notification from the receiving station, the data is promptly retransmitted. . In such a system, communication can be performed with sufficiently high efficiency if all transmitting stations and receiving stations connected to the network transmit and receive approximately equal amounts of data. However, if there is an unbalanced data flow in which many transmitting stations transmit data to a particular receiving station, the probability that the receiving station's buffer is full becomes very high. This increases the number of retransmissions that must occur before the data is accepted. All data that is not accepted by the receiving station becomes invalid data, so under these circumstances, the inside of the network is mostly filled with invalid data, and the network's original capacity is reduced. It has the disadvantage that only a small amount of data can pass through compared to .

(3) Purpose of the Invention The purpose of the present invention is to improve the reduction in the amount of data that can pass through a network (throughput) when an unbalanced data flow occurs, and to realize efficient communication.

(4) Structure of the Invention (4-1) Features of the Invention and Differences from the Prior Art In the present invention, when a transmitting station receives a refusal to accept data from a receiving station, it transmits the data after receiving the notification of refusal to accept the data. One of the features is that the transmitting station is equipped with a means to insert a waiting time before retransmitting the data, and to increase the waiting time as the number of successive acceptance range rejection notifications increases. . The conventional technique is such that when an acceptance rejection is received, retransmission is performed immediately, so the operation at the time of retransmission differs from the conventional technique. The diagram shown in FIG. 5 shows the operation of the transmitting station in the conventional case, and the diagram in FIG. 1 shows the operation of the transmitting station in the case of the present invention. That is, as can be seen by comparing the two figures, in the case of the present invention, when rejection notifications are repeated, the waiting time _t2 is set to be larger than the illustrated _t1 .

(4-2) Embodiment FIG. 2 is a diagram for explaining the first embodiment of the present invention, and shows an outline of the configuration of a transmitting station. Reference numeral 1 indicates an upper control unit of a computer, a terminal, etc. When the control unit 1 requests data transmission, the signal line 10
1 to notify the buffer control unit 2 of the data transmission request. The buffer control unit 2 controls the data buffer 3 through the control signal line 102 and reads data into the data buffer 3 through the channel bus 103. Next, the buffer control section 2 instructs the data buffer 3 to start transmitting data through the control signal line 102. The data is converted into serial data through a parallel to serial converter 4 and sent via a network bus 5 to the receiving station. The data buffer 3 does not discard data even after data transmission is completed. After a while, a command is received from the receiving station via the network bus 5. The received command is converted into parallel data by the serial/parallel converter 6, and the received command analysis unit 7 determines whether it is data acceptance (ACK) or data acceptance rejection (REJ). When REJ is received, a pulse is generated on the signal line 104, the REJ number counter 8 is incremented, and the bus 105 is incremented.
through down counter 9 to REJ number counter 8
Load the value of .

Then, the indicated zero output 10 of the down counter 9
6 becomes logic “0”, so the clock generator 1
The output from 0 is input to the down counter 9 through the AND gate 11, and the down counter 9 starts counting. When a number of clocks equal to the previously loaded value is input, the counter value becomes 0 again and the zero output 106 becomes logic "1", so that the down counter 9 is no longer supplied with clocks and stops. In the buffer control unit 2, the zero output 106 changes from “0” to “1”.
The change to is determined to be a retransmission request, and the control signal line 1 is
02 to instruct the data buffer 3 to start transmission. Thereafter, the data is retransmitted to the receiving station by the same operation as the first transmission. on the other hand,
When an ACK is received from the receiving station, a pulse is generated on the signal line 107 and the REJ number counter 8 is cleared. The pulse on the line 107 is also applied to the buffer control unit 2, and the buffer control unit 2 that receives this notifies the host control unit 1 through the signal line 108 that the transmission of the data has been completed, and is ready to transmit the next data. We will notify you accordingly.

If the oscillation period of the clock generator 10 is T, then the waiting time before retransmission when REJ is received i times is i×T. That is, the waiting time until retransmission increases in proportion to the number of REJ receptions.

FIG. 3 is a diagram illustrating a second embodiment of the present invention, and in comparison with the first embodiment, a shift register 12 and a decrementer (subtracts 1 from the data value) instead of the REJ number counter 8. The difference from the first embodiment is that Shift register 12 is loaded with "1" from normal fixed value register 14. Every time REJ is received from the receiving station, the data in the shift register is shifted to the left one bit at a time, subtracted by 1 through the decrementer 13, and then loaded into the down counter 9. That is, when REJ is received i times in succession, the value loaded into the down counter 9 is 2 ⁱ −1. If the clock cycle is T, the retransmission waiting time at this time is (2 ⁱ -1)×T. In other words, the waiting time until retransmission increases exponentially. When ACK is received, the shift register 12 receives “1” from the fixed value register 14.
is loaded. The operation of other parts is the same as in the first embodiment.

With this configuration, in both Embodiments 1 and 2, if many transmitting stations transmit data to a specific receiving station and the number of retransmissions increases, the transmitting station will detect this on its own and eliminate wasted data. This has the effect of reducing retransmissions.

FIG. 4 shows calculations of the throughput (number of data passing per second) of the systems according to the first and second embodiments and the prior art. The horizontal axis is the number of transmitting stations transmitting data to one particular receiving station. However, calculations are made under the following conditions.

●Network: Token ring type, 100 megabits/second, 10km ●Number of receiving buffers: 2 sides ●Channel speed of receiving station: 1 megabyte/second ●T: 1 millisecond As is clear from Figure 4, one receiving station As the number of transmitting stations concentrated in the network increases, the throughput can be significantly improved compared to the prior art.

(5) Effects of the Invention As explained above, according to the present invention, a waiting time is inserted when retransmitting data, and the waiting time increases in accordance with the number of retransmissions. Even if the network is concentrated at a certain receiving station, the generation of invalid data within the network can be suppressed, and a higher throughput can be maintained than in the prior art.

Therefore, by using the technique of the present invention, it is possible to construct a stable network that does not suffer extreme characteristic deterioration no matter what the data flow.

[Brief explanation of the drawing]

FIG. 1 is an explanatory diagram of the operation of the transmitting station according to the present invention, and FIG.
The figure shows the configuration of the transmitting station in the first embodiment, FIG. 3 shows the configuration of the transmitting station in the second embodiment, FIG. 4 is an explanatory diagram comparing the throughput of the prior art and the present invention, and FIG. The operation of the transmitting station is shown below. 1...Upper control unit, 2...Buffer control unit, 3
...Data buffer, 4...Parallel-serial converter, 5...
...Network bus, 6...Serial-to-parallel converter, 7...
... Received command analysis section, 8 ... REJ number counter, 9 ... Down counter, 10 ... Clock generator, 11 ... AND gate, 12 ... Shift register, 13 ... Decrementer, 14 ... Fixed value register.

Claims (1)

[Claims] 1. A plurality of transmitting stations, a plurality of receiving stations, or a plurality of composite stations having both the functions of a transmitting station and a receiving station,
A network consisting of a means for connecting these stations to enable communication between arbitrary stations, in which a transmitting station transmits data at any time when there is data to be transmitted to its own station, If the receiving station receives this data and can accept the data, it notifies the transmitting station that it accepts the data, and if it cannot accept the data because its own buffer is full, it notifies the transmitting station that it cannot accept the data. In a network configured to retransmit data when a transmitting station is notified of a refusal to accept data, if a transmitting station is notified of a refusal to accept data from a receiving station, it waits for a certain period of time and then retransmits the data. A network characterized by being configured to retransmit data, and having a means for calculating the number of times acceptance rejection notifications for the data have been received, and increasing the waiting time until the retransmission as the number of times is increased. Work control method.