JPS607310B2 - Two system system configuration method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a two-system system configuration method in which two file groups are managed as individual files.

In a two-system configuration in which two file groups are managed as individual files, the input data is determined whether it is the own file or the pond file, and input data related to the other file is determined, for example. In the load sharing system, a method was used in which a file update process was requested to another system and the result was returned after the update process was completed.

However, in a system configuration in which cross-connections to two systems are frequently made in order to improve reliability, the frequency of transfer transactions increases, and this transfer processing causes a problem in that the system processing capacity is reduced. An object of the present invention is to solve the above-mentioned conventional problems, and to provide the effect of reducing transfer processing between two systems and improving processing capacity.

The feature of this invention is that a flag is provided in the input message, and the terminal or terminal control device determines which system is managing the file based on this flag, and the file is directly managed. It sends input data to the system and reduces the frequency of transfers between systems.

The outline will be explained with reference to FIGS. 1 to 4. FIG. 2 is a diagram showing the format of an input message. A flag 11 is provided in the input message 10, and when the bit of flag 11 is 1, the update file is managed in system A, and when it is 0, the update file is managed in system B. It shows that Figure 1 shows 2
This shows a system configuration diagram, and includes communication control devices 3a, 3b, central processing units 4a, 4b, file device 5.
a and 5b have two systems, A system and B system, and these two
A terminal device 1 is provided for sending input messages to any of the systems. The terminal control device 1 receives an input message 10
A flag discrimination mechanism 2 is equipped. When the input message 10 reaches the terminal control device 1, the flag determination mechanism 2
looks at the flag 11 of the input message 10, determines to which system the input message should be sent, and sends the message to the system where the file is being managed. In this way, it is possible to reduce transfer processing between two systems. Next, an application example of the present invention will be explained.

As an example application, a file update process is performed based on an input message from a terminal, and the result is returned to the terminal. There are deposit and withdrawal transactions for ordinary deposits in the online banking 2-line load sharing system. Figure 3 shows an input message 20 when performing a deposit/withdrawal transaction for a regular deposit. A
System bit 0 separates the file group to be managed by the B system.

Recent branches tend to have paths for the second system in order to improve reliability, and considering that this trend will continue in the future, it is recommended to provide a flag discrimination mechanism 32 in the terminal 31 as shown in Fig. 4. This allows direct input to the system where the file is managed. This can be said to be an effective method under such circumstances, as the frequency of cross-transactions increases as the number of branches with a cross configuration increases. As described above, the effects of the present invention are as follows:
In a two-system system configuration method in which file updates are divided into two file groups and each file is managed as an object file, even if input is cross-configured from a terminal to improve reliability, the resulting two-system This means that it is possible to avoid a significant drop in system processing capacity without increasing the number of transfer processes between systems.

[Brief explanation of the drawing]

Figure 1 is a two-system system configuration diagram with a flag discrimination mechanism.
FIG. 2 is a diagram showing an input message format, FIG. 3 is a diagram showing an application example of the input message format, and FIG. 4 is a diagram showing an application example of the flag discrimination mechanism. 1...Terminal control device, 5a, 5b...
File device, 10, 20... Input message, 11, 21... Flag. O Figure Juice 2 Figure O 3 Figure O 4 Figure

Claims (1)

[Claims] 1. In a two-system system configuration method in which file groups divided into two are managed as their own file groups, input to a terminal or terminal control device connected to either of the two systems is A means is provided to determine which system a file is managed by using a flag set in an input message, and by directly inputting the file to the system where the file is managed and updating the file, it is possible to transfer between one system. A two-system system configuration that reduces processing and improves processing capacity.