JPH08241274A - Power source turning off system - Google Patents

Abstract

PURPOSE: To provide the power source turning off system of a distributed processor performing a centralized control in a host computer, reducing the load of the host computer, in the on-line system composed of the host computer and plural distributed processors. CONSTITUTION: A centralized control can be performed for the individually different power source turning off times for distributed processors 2 in a host computer 1, reducing the load of the timer setting in the host computer 1, by holding their own power source turning off times by the distributed processors 2, setting the timer to the power source turning off time by each of the distributed processors 2, notifying the incoming of their own power source turning off times to the host computer 1 by the distributed processor 2 at time out and turning off the power sources of the distributed processors 2 by the host computer 1, taking the notification of the incoming of the power source turning off time as opportunity. The distributed processors 2 prevent the abnormality at the time of the next start by performing the termination processing for maintaining the compatibility of a system before the notification of the incoming of the power source turning off time to the host computer 1.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power-off system for controlling the power supply of distributed processors in a host computer in an online system such as a banking system.

[0002]

2. Description of the Related Art Conventionally, in this type of power-off method, a host computer directly monitors a power-off time with a timer and issues a power-off instruction to a distributed processor when the power-off time arrives.

As a document relating to the conventional power-off system, there is "Japanese Patent Laid-Open No. 5-224782 (power-off system)". In the method described in this publication, a means for notifying a power-off instruction from a remote location (host computer), a means for performing various processes for maintaining system consistency, and a power-off mechanism (power control device) Means for requesting power-off. And this method is
The problem is that when the power is cut off automatically, "it can be restarted as usual even if a power cut factor occurs unexpectedly". However, even in this method, there is no change in the above-mentioned "the host computer directly monitors the power-off time with a timer and gives a power-off instruction to the distributed processor when the power-off time arrives".

[0004]

In the above-described conventional power-off system, "the host computer directly monitors the power-off time by a timer, and when the power-off time arrives, the distributed processor is instructed to turn off the power". Therefore, if the host computer controls the power of a large number of distributed processors that have different power-off times, it is necessary to monitor the timer for each distributed processor in the host computer, which increases the load on the host computer. It was

In view of the above points, an object of the present invention is to perform timer monitoring of its own power-off time on the distributed processor side,
The host computer is to provide a power-off method for the distributed processor that is centrally managed by the host computer while reducing the load on the host computer by turning off the power to the distributed processor by notifying the arrival of the power-off time from the distributed processor. .

[0006]

In order to solve the above-mentioned problems, the present invention is provided with a distributed processor management table for holding a "power-off time" in units of distributed processors, and the power supply is instructed to each distributed processor when a task is started. Notify the disconnection time, send a business end instruction to each distributed processor at a predetermined time, and then, when receiving the power-off time arrival notification from the distributed processor, instruct the power control unit of the distributed processor to power off the distributed processor. Host computer and a power-off time management table that retains the "power-off time" received from the host computer at the start of business, and sets a timer until this power-off time when the host computer receives a business end instruction. When a time-out is detected, the distributed processor that sends the power-off time notification to the host computer and this distributed processor Connected to the host computer and communicating with the host computer, and a power control mechanism for turning on / off the power of the distributed processor according to an instruction from the host computer. Upon detection, system termination processing is performed to maintain system consistency. Further, the terminal has a power-off time change request transmission function, the "power-off time" in the host computer, and the distribution A power-off method that changes the "power-off time" in the processor is adopted as a means.

[0007]

Next, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the power-off system of the present invention. The present embodiment corresponds to the invention described in claim 2.

The power-off method according to this embodiment uses a host computer 1, a distributed processor 2, a terminal 3, and a power control device 4.
And the communication media 5, 6 and 7 (one host computer 1 and a plurality of distributed processors 2 (the number of distributed processors 2 is not limited to "3" in FIG. 1 The same applies to the terminal 3) via the communication medium 5, one host computer 1 and a plurality of power supply control devices 4 are connected via the communication medium 6, and one The distributed processor 2 and a plurality of terminals 3 are connected via a communication medium 7). The power-off method of this embodiment is applied to an online system such as a banking system, and the distributed processor 2 is installed, for example, in each branch of a bank.

Referring to FIG. 2, the host computer 1 has a distributed processor power control means 11, a distributed processor management table 12, and a distributed processor transmission / reception control means 13.
And a transmission / reception control means 14 between the power supply control devices. The distributed processor management table 12 includes a distributed processor number for identifying each distributed processor,
It has a status that holds the state of the distributed processor and a power-off time of the distributed processor.

Referring to FIG. 3, the distributed processor 2 is
The power-off time control means 21, the power-off time management table 22, the host computer transmission / reception control means 23, and the terminal transmission / reception control means 24 are included. The power-off time management table 22 has the power-off time of the distributed processor 2 notified from the host computer 1.

Referring to FIG. 4, the terminal 3 has a power-off time notification means 31 and a distributed processor transmission / reception control means 3.
2 and a console 33.

FIG. 5 is a flow chart showing the processing of the host computer 1 in the power-off system of this embodiment. This process includes a power-on instruction step 101, a job start instruction step 102, and a job start instruction end determination step 103.
A business end standard time timer setting step 104, a time-out determination step 105, a power-off time change request reception sweep 106, a distributed processor management table change step 107, and a business end instruction step 108.
And a power-off time arrival notification reception step 110, a power-off instruction step 111, and a power-off instruction end determination step 112.

FIG. 6 is a flow chart showing the processing of the distributed processor 2 in the power-off system of this embodiment. This processing includes a job start reception step 201, a power-off time management table setting step 202, a power-off time change request reception step 203, a power-off time management table change step 204, and a power-off time change request step 20.
5, a job end instruction receiving step 206, a power-off time timer setting step 207, a time-out determination step 208, and a power-off time change request receiving step 20.
9 and step 210 of changing the power-off time management table
A power-off time resetting step 211, a power-off time change request step 212, an end processing step 213, and a power-off time arrival notification step 214.

FIG. 7 is a flow chart showing the processing of the terminal 3 in the power off system of this embodiment. This process includes a console input acceptance step 301 and a power-off time change request step 302.

Next, the operation of the power-off system of the present embodiment thus constructed will be described. The communication between the host computer 1 and the distributed processor 2 is performed via the communication medium 5, and the communication between the distributed processor 2 and the terminal 3 is performed via the communication medium 7. The communication between the power supply control device 4 and the power supply control device 4 is performed via the communication medium 6, but the communication mediums 5, 6 and 7 will not be referred to in the following description.

First, the operation of the host computer 1 will be described (see FIG. 5).

At startup in the morning, the distributed processor power supply control means 11 follows the distributed processor management table 12
A power-on instruction is transmitted to the power control device 4 (step 1
01). After the distributed processor 2 is started up, the distributed processor power supply control means 11 transmits a work start instruction to the distributed processor 2 and changes the status of the distributed processor management table 12 to "work in progress" (step 102). At this time, the distributed processor power control means 11 refers to the distributed processor management table 12 to notify the distributed processor 2 of the power-off time. The above processing is performed for all the distributed processors 2 registered in the distributed processor management table 12 (step 103).

Next, the distributed processor power supply control means 11
Sets a timer until the power-off reference time (the earliest time among the power-off times of the distributed processors) (step 104).

Until the timeout, the distributed processor power control means 11 changes the power cut time in the distributed processor management table 12 when the power cut time change request from the distributed processor 2 is received (step 106) (step 106). 107).

When the time-out arrives (step 105),
The distributed processor power supply control means 11 transmits an operation end instruction to the distributed processor 2 according to the distributed processor management table 12, and changes the status of the distributed processor management table 12 to "transmission completed" (step 108). The above processing is performed for all the distributed processors 2 registered in the distributed processor management table 12 (step 109).

After that, when the power-off time arrival notification is received from the distributed processor 2 (step 110), the distributed processor power supply control means 11 sends a power-off instruction to the power supply control device 4 of the distributed processor 2 to distribute the power. The status of the processor management table 12 is changed to "power off" (step 111). For all distributed processors 2 registered in the distributed processor management table 12,
When the above process is completed, the process of the distributed processor power supply control means 11 ends (step 112).

Second, the operation of the distributed processor 2 (one of the related distributed processors 2) will be described (see FIG. 6).

After the power is turned on by the power-on instruction from the host computer 1 to the power controller 4, the power-off time control means 21 sets the power-off time in the job start instruction (step 201) from the host computer 1. The power-off time management table 22 is set (step 202).

After that, when the power-off time change request is received from the terminal 3 (step 203), the power-off time control means 2
1 changes the power-off time management table 22 (step 204), and further transmits a power-off time change request to the host computer 1 (step 205). This power-off time changing process can be repeated.

When the business end instruction is received from the host computer 1 (step 206), the power-off time control means 21 refers to the power-off time management table 22 and sets a timer until the power-off time (step 207). Until the time-out arrives, the power-off time change process can be performed as in steps 203 to 205 (step 20).
9 to 212). However, at this time, it is necessary to reset the timer (step 211).

When a time-out comes (step 208),
The power-off time control means 21 is required before power-off,
A termination process for maintaining the consistency of the system is performed (step 213). After that, the power-off time control means 21 transmits a power-off time arrival notification to the host computer 1 (step 214).

Thirdly, the operation of the terminal 3 (one of the power-off request input terminals) will be described (see FIG. 7).

The operator of the terminal 3 inputs a request for changing the power-off time from the console 33 when the work needs to be extended. The power-off time notifying means 31 receives an input from the console 33 (step 301) and transmits the power-off time to the distributed processor 2 (step 30).
2).

In this embodiment, the distributed processor 2 receives the power-off time change request from the terminal 3 and updates the power-off time management table 22 in the immediate distributed processor 2, but the power-off time change request is sent. Once host computer 1
To the distributed processing control table 12 in the host computer 1, and after changing the power-off time of the distributed processor management table 12 in the host computer 1, the host computer 1 sends the distributed processor 2 a power-off time change instruction. It is also possible to update the power-off time management table 22 in the distributed processor 2 (for centralized management of the power-off time in the host computer 1).

[0031]

As described above, according to the present invention, the distributed processor holds its own power-off time, each distributed processor sets a timer until the power-off time, and when the time-out occurs, the distributed processor is powered on by its own power. Notify the host computer of the arrival of the disconnection time, and the host computer powers off the corresponding distributed processor upon the notification of the arrival of the power supply disconnection time, reducing the load of the timer setting on the host computer and distributing the distributed processors individually. This has an effect that different power-off times can be centrally managed by the host computer. Moreover, the distributed processor performs an end process for maintaining the consistency of the system prior to the notification of the arrival of the power-off time to the host computer, so that there is an effect of preventing an abnormal startup at the next time.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a block diagram showing a configuration of a host computer according to an embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a distributed processor according to an embodiment of the present invention.

FIG. 4 is a block diagram showing a configuration of a terminal according to an embodiment of the present invention.

FIG. 5 is a flowchart showing the processing of the host computer in the power-off system according to the embodiment of the present invention.

FIG. 6 is a flowchart showing the processing of the distributed processor in the power-off system according to the embodiment of the present invention.

FIG. 7 is a flowchart showing the processing of the terminal in the power-off system according to the embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 host computer 2 distributed processor 3 terminal 4 power supply control device 5, 6, 7 communication medium 11 distributed processor power supply control means 12 distributed processor management table 13 distributed processor transmission / reception control means 14 power supply control transmission / reception control means 21 power-off time control Means 22 Power-off time management table 23 Host computer transmission / reception control means 24 Terminal transmission / reception control means 31 Power-off time notification means 32 Distributed processor transmission / reception control means 33 Console

Claims (3)

[Claims] 1. A distributed processor management table that holds a power-off time for each distributed processor, notifies each distributed processor of the power-off time in a business start instruction,
A host computer that sends a work end instruction to each distributed processor at a predetermined time, and then, upon receiving a power-off time arrival notification from the distributed processor, instructs the power control device of the relevant distributed processor to turn off the distributed processor. Equipped with a power-off time management table that holds the power-off time received from the host computer at the start of business, and sets a timer until this power-off time when receiving a business end instruction from the host computer. A distributed processor that transmits a power-off time arrival notification, a terminal that is connected to this distributed processor and that communicates with the host computer, and a power supply that powers on and off the distributed processor according to an instruction from the host computer. A power-off method having a control mechanism. 2. The power-off system according to claim 1, wherein the distributed processor performs processing for maintaining system consistency as system termination processing when a time-out is detected. 3. The terminal has a power-off time change request transmission function, and changes the power-off time in the host computer and the power-off time in the distributed processor. Power off method.