JPH0158599B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to rewriting storage contents in loop transmission storage. More specifically, a communication line is connected between multiple information processing devices in a loop, and information that is commonly used by each information processing device is constantly transmitted on the line loop, and each information processing device This is to avoid troubles related to rewriting the information stored on the line in a system that can be immediately referenced when the device uses this information.

In loop transmission storage, information that is commonly used is continuously transmitted over a loop-shaped line, which allows information to be referenced in a short time.In addition, the communication line can be used as a storage element, making efficient use of space. It can be measured. In this case, when one information processing device changes its own state from one state to another, the problem is how to determine the timing to transmit the updated information to other information processing devices. After an information processing device transmits its state to another information processing device through a loop transmission path, in a system that changes its own state, the other information processing device recognizes the state, that is, the change in memory content. If you refer to the previous state and take action before you do so, there will be a problem in the processing between the mutual information processing devices. Depending on how you use your shield, you may end up in a deadlock situation where both players are closing in on the other.

The purpose of the present invention is to manage a loop transmission storage system that takes advantage of the characteristic of loop transmission storage that necessary information can be immediately referenced, and eliminates problems when rewriting the stored contents due to delays in information transmission. The goal is to provide a method.

In other words, a signal that is endlessly transferred over a transmission path as stored information is treated as a signal that is scheduled to be updated.
By dividing the information into information that is not scheduled to be updated and deleting the information that is scheduled to be updated from the loop transmission path and not informing others, the information that is scheduled to be updated is deleted from the loop transmission path and not notified to others. This is to avoid troubles that may occur. Furthermore, in other words,
By not storing information that is scheduled to be updated, it can no longer be referenced by others, thereby avoiding trouble when updating the stored contents.

Hereinafter, the present invention will be explained in detail using the drawings. FIG. 1 is a system configuration diagram showing an example for explaining the operation of a loop transmission storage system. Information processing devices 101, 105, 109 are connected to terminal devices 103, 107, 11 on a loop-shaped transmission path.
Connected through 1. Transmission lines 104, 108, and 112 connected between each terminal station continue to endlessly transmit information to be stored. If information that is mutually used by each information processing device is continuously transmitted endlessly at high speed on a loop transmission path, necessary information can be immediately referenced. Information processing device 10
1 sends its own status to the loop transmission path through the terminal device 103, and if this information is endlessly transmitted through the transmission path, the information processing device 109
can refer to this information through the terminal device 111. When the information processing device 111 refers to information and then this information reaches the terminal device 103 through the transmission path 112, the information processing device 10
1, when a reason for updating the content of previously stored information occurs, the terminal device 103 updates the stored content, and the update is transmitted to the information processing device 109 through the terminal device 111. In other words, there is a slight delay when information updates are notified.

When the information processing device 109 tries to communicate with the information processing device 101 based on the information that it first refers to, the state of the information processing device 101 has already changed and it becomes unable to communicate with the information processing device 109. Situations may occur. 109 is 10
If you keep waiting only for the reply from 1, as long as this state of 101 continues, 109
will no longer perform any processing.

The present invention is intended to prevent such a situation from occurring, and sets rules when changing the content of stored information in a system that stores and references information using a loop transmission path. This is to prevent inconveniences from occurring due to updating of stored information in the transmission path.

FIG. 2 is a principle diagram for explaining the operation of one embodiment of the loop transmission storage system according to the present invention, and schematically shows temporal changes in the transmission signal at one point on the loop transmission path. It is. 20
2,204,206,212,216,222,
224, 226 are headers for distinguishing the type of stored information; 201, 203, 205, 2
11, 215, 221, 223, and 225 are signals indicating stored information. There is no update schedule for the three signal groups (201 and 202, 203 and 204, 205 and 206) shown in FIG. 2a,
These are transmitted endlessly through the transmission path and stored. After this, when a plan to update the content stored as 203 occurs, the terminal station device immediately connects to the information processing device in charge of updating the content (even if it is not yet determined what content will be changed to). (For example, when changing the status of the information processing device 101 in FIG. 1, the terminal device 103) erases the header 204 and its contents 203 related to this information. The resulting signal arrangement is as shown in FIG. 2b. In other words, 211, 212, 215,
216 are 201, 202, 2 in Figure 2a, respectively.
05,206, and in Fig. 2b, 20 of a
The signal corresponding to 3,204 has been erased.

Eventually, when the processing related to the content of 203 is completed in the corresponding information processing device and the content to be updated is determined, the resulting information needs to be stored and notified to others, and is written to the loop transmission path again. As a result, the signal arrangement on the loop transmission path becomes as shown in FIG. 2c, and new information is written as 223 and 224.

In this embodiment, the updated information is written in the position (time order) where the relevant information existed before the update, but a header is not added to each memory content. For example, this allows identification of stored information, so that the relative order in which the information is transmitted may change before and after the update. When an information processing device wants to know the status of another information processing device, it refers to the information on the loop transmission path, and if there is corresponding information on it, refers to that information and waits one round. If the corresponding information does not exist, it can be recognized that the corresponding information is being updated.

Since information that is scheduled to be updated does not exist on the loop transmission path, an information processing device that attempts to refer to information from another information processing device will not refer to the information that is scheduled to be updated, and problems caused by updating the stored contents will occur. can be avoided.

As described above, according to the present invention, information scheduled to be updated in a loop transmission storage system is not used by other information processing devices, and unnecessary troubles can be avoided. Information can be easily controlled, and a system can be realized that has the characteristics of a loop transmission storage system, such as being able to immediately refer to necessary information and making effective use of space.

[Brief explanation of drawings]

FIG. 1 is a system configuration diagram for explaining the operation of the loop transmission storage system, and FIG. 2 is a system configuration diagram for explaining the operation of the loop transmission storage system.
FIG. 3 is a diagram showing temporal changes in stored signals for explaining the principle of the embodiment of the present invention. 101, 105, 109 are information processing devices, 10
3, 107, 111 are terminal devices in the loop transmission path, 102, 106, 110 are communication paths connecting the information processing device and the terminal devices, 104, 108, 112
is the loop transmission line that connects the terminal equipment. 20
1,203,205,211,215,221,
223, 225 schematically show information that is endlessly transmitted and stored on a loop transmission path, 202, 204, 206, 212, 216,
222, 224, and 226 schematically show headers for identifying these pieces of information.

Claims (1)

[Claims] 1 A management method for a loop transmission information system that connects multiple information processing devices in a loop through communication lines and continuously transmits information to be stored, in which there is no plan to update the stored information. When the information is generated, the information will be deleted immediately, and when the update process is completed,
A management method for a loop transmission storage system, characterized in that new information is stored on the transmission path.