JP2003256394A - Transaction processing load distribution method and system therefor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To uniformize transaction processing time for a transaction processing request by any terminal device. <P>SOLUTION: A computer 10 has a load distribution part 13 for setting higher priority for transaction processing parts 14<SB>1</SB>to 14<SB>m</SB>as load gets lowers, based on load information of the transaction processing parts 14<SB>1</SB>to 14<SB>m</SB>and an execution priority information for a transaction processing request, and setting higher priority for the transaction processing parts 14<SB>1</SB>to 14<SB>m</SB>as the execution priority gets higher when loads on the transaction processing parts 14<SB>1</SB>to 14<SB>m</SB>are same. The computer 10 also has a transaction processing request window part 12 for transmitting the transaction processing requests to the transaction processing parts 14<SB>1</SB>to 14<SB>m</SB>separately in descending order of priority. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a transaction processing load distribution method and system for distributing the load among a plurality of transaction processing units that execute transaction processing in response to a transaction processing request.

[0002]

2. Description of the Related Art Conventionally, when a plurality of terminal devices issue transaction processing requests at substantially the same time, a computer that receives the transaction processing requests activates a plurality of transaction processing units in order to smoothly perform the transaction processing. By doing so, the load of transaction processing is distributed.

[0003]

However, the time slice given from the computer to each transaction processing unit varies depending on the load condition of the transaction processing unit and the like, and is not uniform. Therefore, the time required for the transaction processing depends on the load status of the transaction processing unit that has performed the transaction processing.

As a result, the terminal device that issued the transaction processing request later than the terminal device that issued the transaction processing request first causes an inequality in processing time that the transaction processing result is obtained first. There are cases.

Therefore, an object of the present invention is to provide a transaction processing load balancing method and a system thereof which can make the transaction processing time uniform with respect to a transaction processing request from any terminal device. is there.

[0006]

In order to achieve the above object, a transaction processing load distribution method of the present invention distributes a load between a plurality of transaction processing units that execute a transaction processing when a transaction processing request is received. A load balancing method for transaction processing for causing the plurality of transaction processing units to receive the load based on load information of the plurality of transaction processing units and execution priority information for the transaction processing requests. The lower the priority, the higher the priority for determining the destination of the transaction processing request is set, and when the plurality of transaction processing units have the same load, the higher the execution priority, the higher the priority is set. Steps to The serial transaction processing request, is characterized in that a step of transmitting by distributing to the plurality of transaction processing unit to the higher priority order. The execution priority increases as the transaction process executable time allocated by the time slice increases.

In this case, each transaction processing unit
Since the operations are performed so that the loads are always equalized, it is possible to make the transaction processing time uniform for any transaction processing request from any terminal device.

Further, the method further comprises the step of acquiring the load information and the execution priority information from the plurality of transaction processing units by transmitting status information transmission requests to the plurality of transaction processing units at predetermined intervals. The method may further include a step of automatically expanding the predetermined interval for transmitting the status information transmission request when the average value of the loads of the plurality of transaction processing units exceeds a predetermined value. Good as a matter.

In this case, when the transaction processing section is in a high load state, it becomes possible to prevent the load from further increasing due to the processing for the state information transmission request.

In order to achieve the above object, a transaction processing load distribution system according to the present invention comprises a plurality of terminals for issuing a transaction processing request and a plurality of terminals for executing a transaction processing when the transaction processing request is received. In a transaction processing load distribution system having a transaction processing unit and a computer for distributing a load between the plurality of transaction processing units, the computer executes load information of the plurality of transaction processing units and execution of the transaction processing request. Based on the priority information, a priority for determining the destination of the transaction processing request is set to be higher for the plurality of transaction processing units as the load decreases, and the plurality of transaction processing units are set. When the load of the processing unit is the same, the transaction load distribution unit that sets the priority higher as the execution priority increases, and the transaction processing request is distributed to the plurality of transaction processing units in the order of higher priority. And a transaction processing request window section for transmitting the information.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing a transaction processing load distribution system according to an embodiment of the present invention.

As shown in FIG. 1, a load balancing system for transaction processing according to an embodiment of the present embodiment is n
(N is a natural number) terminal devices 20 _{1 to} 20 _n and the computer 1
0 and m transaction processing units 1 (m is a natural number)
4 _{1 to} 14 _m .

Each of the terminal devices 20 _{1 to} 20 _n issues a transaction processing request.

The computer 10 has a communication section 11, a transaction processing request window section 12, and a transaction load distribution processing section 13.

When receiving the transaction processing request issued by the terminal devices 20 _{1 to} 20 _n , the communication unit 11 transmits the received transaction processing request to the transaction processing request window unit 12.

The transaction load balancing processor 13
The transaction processing units 14 _{1 to} 14 _m are prioritized to determine the destination of the transaction processing request received by the transaction processing request window unit 12.

Therefore, the transaction load distribution processing unit 13 issues status information transmission requests to the transaction processing units 14 _{1 to} 14 _m at predetermined intervals, so that the transaction processing units 14 _{1 to} 14 _m generate status information as status information.
Acquires load status information and execution priority information for transaction processing requests.

The above execution priority is determined by each transaction processing unit 14 according to the time slice given by the computer 10.
_It becomes higher as the transaction process executable time allocated to _{1 to} 14 _m becomes longer, and becomes lower as the transaction process executable time becomes shorter.

The transaction load balancing processor 13
First, the transaction processing unit 14 ₁~ 14_mLoad situation
Transaction processing unit 14 based on the information of₁~ 1
Four_mOn the other hand, as the load decreases, priority
Set high.

At this time, the transaction processing unit 14 ₁
When the load of ~ 14 _m is the same, the transaction load distribution processing unit 13 determines that the transaction processing units 14 ₁ ~
Based on the execution priority information of 14 _m, with respect to the transaction processing unit 14 ₁ to 14 _m, is set high priority according to the execution priority is higher.

The transaction processing request window section 12
When a transaction processing request is received from the terminal device 20 _{1 to} 20 _n via the communication unit 11, the transaction load distribution processing unit 13 causes the transaction processing unit 14 ₁ to
The transaction processing unit with the highest priority is searched from 14 _m , and the transaction processing request is transmitted to the transaction processing unit with the highest priority.

[0023] Each transaction processing section 14 _{1-14
When m} receives the transaction processing request issued by the terminal devices 20 _{1 to} 20 _n via the transaction processing request window unit 12 in the computer 10, it performs transaction processing for the received transaction processing request, and the transaction processing result Is transmitted to the transaction processing request window section 12. The transaction processing result transmitted to the transaction processing request window unit 12 is transmitted to the terminal device that issued the transaction processing request via the communication unit 11.

Further, each transaction processing unit 14 _1-
14 _m indicates that when the status information transmission request issued by the transaction load balancing processor 13 in the computer 10 is received,
It measures its own load status, acquires its own execution priority, and sends the load status information and execution priority information to the transaction load distribution processing unit 13.

The operation of the transaction processing load balancing system shown in FIG. 1 will be described below.

The transaction load distribution processing unit 13 in the computer 10 issues a status information transmission request to the transaction processing units 14 _{1 to} 14 _m at predetermined intervals.

[0027] Each transaction processing section 14 _{1-14
When m} receives the status information transmission request issued by the transaction load distribution processing unit 13, it measures its own load status and acquires the execution priority for its own transaction processing request, and acquires the load status information and execution priority. Information is transmitted to the transaction load distribution processing unit 13.

The transaction load balancing processor 13
Upon obtaining the information of the transaction processing unit 14 ₁ to to 14 _m of load status information and the execution priority, first, based on the acquired information of the load status, performing prioritization of the transaction processing unit 14 ₁ to 14 _m. This prioritization is performed by setting a high priority for a transaction processing unit having a low load and setting a low priority for a transaction processing unit having a high load.

At this time, the transaction processing unit 14 ₁
When the load of ~ 14 _m is the same, the transaction load distribution processing unit 13 determines that the transaction processing units 14 ₁ ~
Based on the execution priority information acquired from 14 _m , the transaction processing units 14 _{1 to} 14 _m are prioritized. This prioritization is performed by setting a high priority for a transaction processing unit having a high execution priority and setting a low priority for a transaction processing unit having a low execution priority.

Below, each transaction processing unit 14 ₁
The reason why prioritization is performed based on the execution priority for a transaction processing request when the loads of ˜14 _m are the same will be described.

Depending on the execution priority for the transaction processing request, each transaction processing unit 14 _{1 to} 14 _m
Executable time of transaction processing assigned by time slice changes.

If the execution priority of each of the transaction processing units 14 _{1 to} 14 _m remains high, the processing for the transaction processing request and other requests may not be executed. Therefore, the execution priority is automatically set. May be lowered.

In this case, the transaction processing unit whose execution priority is lowered becomes short in the transaction process executable time allocated by the time slice (or the interval between the execution time and the next execution time becomes long). , It takes a long time to finish transaction processing. Then, it takes a longer time to wait until another transaction process can be executed.

Therefore, in the present embodiment, in order to avoid sending a transaction processing request to such a transaction processing unit, the execution priority for the transaction processing request is low (transaction processing execution assigned by time slice). (The long possible time) The priority of the transaction processing unit is set to be low.

Here, when the terminal devices 20 _{1 to} 20 _n issue transaction processing requests at substantially the same time, the communication unit 11 in the computer 10 receives them, and the transaction processing requests are issued in the order of reception. Send to 12.

The transaction processing request window section 12
The transaction load distribution processing unit 13 is made to retrieve the transaction processing unit having the highest priority from the transaction processing units 14 _{1 to} 14 _m .

At this time, if it is assumed that the transaction load distribution processing unit 13 searches the transaction processing unit 14 ₁ as the transaction processing unit having the highest priority, the transaction processing request window unit 12
Sends the _first transaction processing request received to the transaction processing unit 14 ₁ .

The transaction load balancing processor 13
After the transaction processing request window section 12 transmits the transaction processing request to the transaction processing section 14 ₁ , the priority of the transaction processing section 14 ₁ is lowered.

The transaction processing unit 14 ₁ performs transaction processing for the transaction processing request received from the transaction processing request window unit 12,
The transaction processing result is transmitted to the transaction processing request window section 12.

Thereafter, the transaction processing result transmitted to the transaction processing request window section 12 is transmitted to the terminal device which issued the transaction processing request via the communication section 11.

[0041] Even in a transaction in the transaction processing unit 14 _1, the transaction processing request window unit 12 sequentially receives the transaction processing request issued from another terminal apparatus.

Therefore, each time the transaction processing request window section 12 receives a transaction processing request,
The transaction load distribution processing unit 13 is searched for the transaction processing unit having the highest priority among the transaction processing units 14 _{1 to} 14 _m , and the transaction processing request is transmitted to the transaction processing unit having the highest priority.

After the transaction processing request window section 12 transmits the transaction processing request, the transaction load distribution processing section 13 lowers the priority of the transaction processing section that is the destination of the transaction processing request.

Therefore, in the present embodiment, the transaction processing unit 14 is executed by the load balancing processing described above.
Of _{1 to} 14 _m, the transaction processing unit that always takes the shortest time to perform the transaction processing performs the transaction processing.

As a result, the transaction processing results can be returned to the terminal devices 20 _{1 to} 20 _n in the order in which the transaction processing requests are issued, and inequality in transaction processing time can be prevented.

If the load state of the computer 10 is uniform, the transaction processing time is uniform with respect to the transaction processing request from any _{one of} the terminal devices 20 _{1 to} 20 _n. be able to.

The operation of the transaction load balancing processor 13 will be described in detail below with reference to the flowchart of FIG.

The transaction load balancing processor 13
The following three operations are performed according to the type of event that has occurred (step 201).

When the event 1 in which the load status information and the execution priority information are input as the status information from the transaction processing units 14 _{1 to} 14 _m , the transaction load distribution processing unit 13 updates the status information, Priority is given to the transaction processing units 14 _{1 to} 14 _m (step 202).

Specifically, transaction load balancing processing
First, the section 13 includes a transaction processing section 14₁~ 14_m
Transaction processing unit based on the load status information
14 ₁~ 14_mOn the other hand, as the load decreases, the
Set high ioritity.

At this time, the transaction processing unit 14 ₁
When the load of ~ 14 _m is the same, the transaction load distribution processing unit 13 determines that the transaction processing units 14 ₁ ~
Based on the execution priority information of 14 _m, with respect to the transaction processing unit 14 ₁ to 14 _m, is set high priority according to the execution priority is higher.

Here, the transaction processing units 14 ₁ ...
When a state information transmission request is issued from the transaction load distribution processing unit 13 when 14 _m is in a high load state, the transaction processing units 14 _{1 to} 14 _m have a higher load in order to perform processing for the state information transmission request. It is thought that it will be in a state and will hinder the processing of the work.

For this reason, the transaction load distribution processing unit 13 determines the status information when the average load value of the transaction processing units 14 _{1 to} 14 _m exceeds a predetermined value (a value that can be set by the user of this system). The interval for issuing the transmission request is automatically expanded (step 203).

As a result, the transaction processing unit 14
_{When 1 to} 14 _m is in a high load state, it is possible to further suppress the load from being increased due to the processing for the state information transmission request.

The transaction processing unit 1 is used as information for determining the interval for issuing the status information transmission request.
The reason why the average load value of 4 _{1 to} 14 _m is used is that it is assumed that only a certain transaction processing unit is in a high load state and the other transaction processing units are in a low load state. .

Further, since the load of the transaction processors 14 _{1 to} 14 _m is kept uniform by the above load balancing processing, it is not necessary to take an average value, but there is a reason for taking an average value here. This is because it is assumed that the processing load for business requests will be much higher than the processing loads for other business requests.

The transaction load balancing processor 13
When the processing in step 203 ends, step 2
It returns to the event occurrence waiting state of 01.

The transaction processing unit 14₁~ 1
Four_mAt a predetermined interval (this system
Event 2 that has passed the interval that can be set by the user of the system
When it occurs, the transaction load balancing processing unit 13
Is the transaction processing unit 14 ₁~ 14_mAgainst the state
An information transmission request is issued (step 204).

The transaction load balancing processor 13
When the processing in step 204 ends, step 2
It returns to the event occurrence waiting state of 01.

The transaction processing request window section 1
When the event 3 in which 2 receives the transaction processing request from the terminal devices 20 _{1 to} 20 _n occurs, the transaction load distribution processing unit 13 determines that the transaction processing unit having the highest priority among the transaction processing units 14 _{1 to} 14 _m. For the transaction processing request window 12 (step 20).
5).

After the transaction processing request window section 12 transmits the transaction processing request, the transaction load balancing processing section 13 lowers the priority of the transaction processing section to which the transaction processing request is transmitted (step 206).

The transaction load balancing processor 13
When the processing in step 206 ends, step 2
It returns to the event occurrence waiting state of 01.

[0063]

As described above, in the present invention,
For multiple transaction processing units, the priority is set higher as the load becomes lower, and if the load is the same, the execution priority for the transaction processing request becomes higher (the transaction processing executable time allocated by the time slice). Becomes longer)
Accordingly, a transaction load distribution unit that sets a higher priority and a transaction processing request window unit that distributes and sends a transaction processing request to a plurality of transaction processing units in the order of higher priority.

As a result, the respective transaction processing units operate so that the loads are always equalized, so that the transaction processing time is made uniform for transaction processing requests from any terminal device. Therefore, it is possible to prevent inequality in transaction processing time.

[Brief description of drawings]

FIG. 1 is a diagram showing a load balancing system for transaction processing according to an embodiment of the present invention.

FIG. 2 is a flowchart illustrating an operation of a transaction load distribution processing unit shown in FIG.

[Explanation of symbols]

10 computer 11 communication unit 12 transaction processing request window unit 13 transaction load distribution processing unit 14 _{1 to} 14 _m transaction processing unit 20 _{1 to} 20 _n terminal device

Claims (8)

[Claims] 1. A transaction processing load balancing method for balancing the load between a plurality of transaction processing units that executes a transaction process when a transaction processing request is received. Based on the information and the information of the execution priority for the transaction processing request, for the plurality of transaction processing units, set a high priority for determining the destination of the transaction processing request as the load decreases, When the load of the plurality of transaction processing units is the same, a step of setting the priority higher as the execution priority becomes higher, and the transaction processing requests are made in the order of higher priority of the plurality of transactions. And a step of transmitting distributing the processing unit, the load distribution method. 2. The execution priority increases as the transaction process executable time allocated by the time slice increases.
The load balancing method described in. 3. A step of acquiring the load information and the execution priority information from the plurality of transaction processing units by transmitting a status information transmission request to the plurality of transaction processing units at predetermined intervals. The load balancing method according to claim 1, which has. 4. The method further comprises the step of automatically expanding the predetermined interval for transmitting the status information transmission request when the average value of the loads of the plurality of transaction processing units exceeds a predetermined value. The load balancing method according to claim 3. 5. A plurality of terminals that issue transaction processing requests, a plurality of transaction processing units that execute transaction processing when the transaction processing requests are received, and a computer that distributes the load among the plurality of transaction processing units. In a load balancing system for transaction processing having :, the computer, for the plurality of transaction processing units, based on load information of the plurality of transaction processing units and information of execution priority for the transaction processing request, As the load decreases, the priority for determining the destination of the transaction processing request is set higher, and when the load of the plurality of transaction processing units is the same, the priority increases as the execution priority increases. Load distribution system comprising: the transaction load distribution unit set a high tee, the transaction processing request with transaction processing request window unit that transmits distributed to the plurality of transaction processing unit the priority in descending order. 6. The execution priority increases as the transaction process executable time allocated by the time slice increases.
The load balancing system described in. 7. The transaction load distribution unit transmits a status information transmission request to the plurality of transaction processing units at a predetermined interval so that the plurality of transaction processing units can determine the load information and the execution priority. The load balancing system according to claim 5, which acquires information. 8. The transaction load distribution unit automatically sets the predetermined interval for transmitting the status information transmission request when the average value of the loads of the plurality of transaction processing units exceeds a predetermined value. The load balancing system according to claim 7, which expands.