JPS5812047A - File transfer system - Google Patents

Abstract

PURPOSE:To perform file transfer in a short time without intervention of the operator, by switching data from an old file to a new file through the use of transfer information from a host computer to new data, in an on-line system of a decentralized processing system. CONSTITUTION:Two generations of new and old files 12-1 and 12-2 are provided for a host computer 10, a sub-host computer 11 forms new data and stores the data in the new file 12-2 by receiving the renewal information of the file data from the input and output device of the host computer 10 or the sub-host computer 11, and the transfer from the old file 12-1 to the new file 12-2 is made by receiving the switching information from the host computer 10 to the new data.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a file migration method for a distributed processing computer system comprising a plurality of computers.

Most conventional computer systems, especially online systems, are centralized on-finance systems, and online services are usually not available during nighttime hours.

The file migration method for such computer systems is to create file data in advance using a computer such as an off-twin computer, and then perform file migration by replacing files during hours when online work is not being performed, such as at night. Nine.

At the end of the day, it is a centralized on-twin system.

1-) There is a limit to the processing power of one computer.

(j) The impact of a computer failure is large and there is a lack of consideration for risk distribution.

(O) Effective use of the II line network (reducing line costs) cannot be achieved.

(d) Resources cannot be enabled between computer systems.

Due to these problems, on-twin system construction using a single distributed processing method is becoming established. Although this distributed processing online system can solve problems such as (6) to (d) above, it still requires operator intervention (K for each computer system) when migrating files.
In recent years, the demand for online services that operate 24 hours a day has been increasing, and the issue of how to achieve file migration in a short period of time remains unsolved.

The object of the present invention is to eliminate the above-mentioned conventional problems, and to enable file migration in a distributed processing system to be carried out in a short time and without operator intervention. It provides a file migration method that can be used.

A feature of the present invention is that, in a computer system composed of a host computer and a sub-host computer, two generations of files, new and old, are installed on the sub-host computer side, and file data is transferred from the input/output device of the host computer or sub-host computer. By receiving update information, the sub-host computer creates new data and stores it in a new file, and by receiving switching information to the new data from the host computer, it switches from the old file to the new file.

Next, an example of the present invention-)11! This will be explained below with reference to the drawings.

FIG. 1 is a block diagram of a compound computer system composed of a plurality of computers. 10 is a host computer, 11 is a sub-host computer, 12-1 and 12-2 are old files and new files of the sub-host computers, respectively, 11 is a terminal device, 14 is a new/old file switching mechanism, and 15 is an input/output device.

now! FIG. 1 will be explained using a ticket vending system as a business example. The host computer 10 has a national fare file, and the sub-host computer 11 installed in a rural area has a local fare file that is frequently used in rural areas in the Naphost computer old file 12-1. What is the flow of gastrointestinal tract?

A sale inquiry is made from the terminal device 13. This Asahisan is a connoisseur! It is calculated based on the fare data in the daily file 12-1. If there is no fare data in the old file 12-1, the sub-host computer 11 requests the host computer 10 to perform transaction processing by referring to the national fare data file.

The sub-host computer new file 12-2 is a file that stores new fare data. This operation method is designed to take advantage of the time when the busy sub-host computer 11 is under a light load during the period from when the fare revision is decided to when the fare revision is implemented (for example, if a 24-hour online service is provided, the system is not fully loaded during the day at night). 2) A new fare file is created by the sub-host computer 11 (performed at night when the computer usage rate is low since the pick amount is not high). In terms of system, the revised freight unit price data (
up to X yen/-, etc.). The sub-host computer 11 creates a local fare data file using fare unit price data based on the inter-station distance information data held in the file of the sub-host computer 11.

In this case, if there is a large amount of revised fare unit price data to be sent to the sub-host and the line usage efficiency is to be high, it may be necessary to locally input it into the input/output device 15 of the sub-host (for example, using a magnetic tape, etc.). You may also create a data file.

Next, we will discuss the file transfer method at the time of fare revision. When the fare revision date is determined, data regarding the fare revision date is transmitted from the host computer 10 to the sub-host computer 11.

Data on this 9th date is sent to the old and new file switching mechanism 14. Figure 2 is.

2 is a configuration block diagram of a new/old file switching mechanism 14. FIG. 2
1 is a date storage mechanism, 22 is an uninterruptible calendar mechanism, 25
indicates a comparator.

The date data sent from the host computer 10 is stored in the date storage mechanism 21 through the signal line 201. This date data is sent to the comparator 23 via the signal line 202 at regular intervals. At the same time interval, date information is sent from the uninterruptible calendar mechanism 22 to the comparator 25 through the signal @205. The comparator 25 compares and checks the date information between the date storage mechanism 21 and the uninterruptible calendar mechanism 22, and if the date information from the date storage mechanism 21 and the uninterruptible power calendar mechanism 220 is incorrect (if the date is new)
An instruction is given via the signal line 204 to access the old file 12-1. The date information in the date storage device and groove 21 is a fixed date, and the date information in the uninterruptible calendar mechanism 22 is updated with time, so the date information in the uninterruptible calendar mechanism 22 is stored in the fare revision mill. The value is older than the date data of the mechanism 21 in terms of time. The comparator 2S, being busy at this time of change, switches from the signal line 204 to the signal line 205 and instructs the new file 12-2 to be accessible.

In this way, from old file 12-1 to new file 1
It becomes possible to switch to 2-2 in a short time.

After switching, the subhost computer 11 manages the new file 12-2 as an old file and the old file 12-1 as a new file. (The old and new settings of the old and new file switching mechanism shown in FIG. File migration can be achieved in a short time without operator intervention.

In this example, a ticket sales system is taken as an example, but it may also be used for tasks such as updating file table data all at once at a certain time, changing the interest rate of each deposit in banking, or changing the price of purchased items all at once in inventory management. It can also be applied to

As described above, the effect of the present invention is that in a computer system consisting of a plurality of computers, file migration of nine computers that have two generations of old and new files can be realized in a short time during online operation and without operator intervention. It is.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a multiple computer system showing an embodiment of the present invention, and FIG. 2 is a block diagram showing details of the old and new file switching mechanism in FIG. 10...Host computer, 11...Subhost computer 12-1...Old file, 12-2...New file, 13...Terminal device. 14... Old and new file switching mechanism, 15... Input/output device. Agent Attorney Susuki 1) Li/-'\Figure 71] Sai 2 Figure 4

Claims (1)

[Claims] In a computer system consisting of a host computer and a sub-host computer, two generations of old and new files are installed on the sub-host computer side, and file data update information is received from the host computer fIk or the input/output device of the sub-host computer. A file migration method characterized by creating new data on a sub-host computer from k, storing it in a new file, receiving switching information to the new data from the host computer, and switching from an old file to a new file from k.