JPH0436412B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention solves the problem of seek (SEEK) operation when reading data from a multiplexed volume composed of a plurality of physical volumes holding the same data. The present invention relates to a method for selecting a physical volume to be used in a multiplexed volume system in which desired data is read from the least physical volume.

[Conventional technology and problems]

In order to improve reliability, a single logical volume (synonymous with a multiplexed volume) is constructed from multiple physical volumes that hold the same data, but READ requests for this type of logical volume are not accepted. There are two methods for selecting the volume to be used: the PRIMARY method,
The CYCLIC method is known. PRIMRY
The method always uses a fixed physical volume as the physical volume to be read.
The CYCLIC method sequentially changes the physical volume to be read. However, the conventional method as described above has the problem that maximum processing efficiency cannot be obtained.

[Purpose of the invention]

The present invention is based on the above considerations, and includes:
It is an object of the present invention to provide a method for selecting a physical volume to be used in a multiplexed volume system, which enables efficient processing of reading data from a multiplexed volume composed of a plurality of physical volumes holding the same data.

[Structure of the invention]

Therefore, the multiplexed volume of the present invention
The physical volume selection method used in the system includes a multiplexed volume management table having a request number field for each physical volume that makes up the multiplexed volume, and a last access cylinder number field for each physical volume that makes up the multiplexed volume; A queue for each physical volume and a multiplexed volume control means are provided, and the multiplexed volume control means increments the content of the corresponding request number field by 1 when an input/output request is connected to the waiting queue of the physical volume. At the same time, the last access cylinder number specified in the I/O request is written in the corresponding last access cylinder number field, the I/O request connected to the waiting queue is sent to the corresponding I/O device, and the I/O request is processed. A physical volume selection method for use in a multiplexed volume system configured to decrement the contents of a corresponding request number field by 1 at the end of an input/output operation based on When a read request is sent,
Reads the contents of the request number field and last access cylinder number field of the applicable multiplexed volume management table, and if the contents of the read request number fields are different, selects the physical volume with the least number of requests, and Connects the read request to the waiting queue of the physical volume, updates the contents of the corresponding request number field and last access cylinder number field, and if the contents of the read request number fields are equal, the read request specifies the one specified in the read request. access/
Selecting the physical volume for which the absolute value of the difference between the cylinder number and the contents of the last accessed cylinder number field is the smallest, connecting the read request to the waiting queue of the selected physical volume, and
It is characterized in that it is configured to update the contents of the corresponding request number field and last access cylinder number field.

[Embodiments of the invention]

Hereinafter, the present invention will be explained with reference to the drawings.

The present invention is based on a computer system that includes a central processing unit and a plurality of magnetic disk devices on which a plurality of physical volumes holding the same data are mounted. In order to carry out the invention,
A multiplexed volume management table is provided on the main memory. Note that if a plurality of multiplexed volumes exist, a multiplexed volume management table is provided for each multiplexed volume. In the multiplexed volume management table, the request number field and last access field are used to select the physical volume to be used.
Provide a cylinder number field. A request number field exists for each physical volume.
The numerical data in the number of requests field indicates the number of requests currently being accepted, and is incremented by +1 when an input/output request is accepted, and is decremented by -1 when the input/output operation ends. A last access cylinder number field also exists for each physical volume. Last access/
The data in the cylinder number field indicates the access cylinder number specified in the last I/O request enqueued to the waiting queue for that physical volume, and is updated when a new I/O request is enqueued to the waiting queue.

FIG. 1 is a diagram illustrating the main part of a duplex volume control program executed by a central processing unit. In Figure 1, countl is physical volume 1
count2 is the number of requests for physical volume 2, LASTC1 is the last access cylinder number of physical volume 1, LASTC2 is the last access cylinder number of physical volume 2, and ACCSCYL is the cylinder number accessed by the accepted request. There is. In addition, in FIG. 1, for the sake of simplicity, the target is a duplex volume, and only READ requests are accepted. The duplex volume control program performs the following processing.

Compare count1 and count2. When the former is greater than the latter, the process is performed, when the former is smaller than the latter, the process is performed, and when the two are equal, the process is performed.

Physical volume 2 is selected and the acceptance request is enqueued to the waiting queue of physical volume 2.

Increase count2 by 1.

Update LASTC2 to ACCSCYL.

Select physical volume 1 and enqueue the acceptance request to the waiting queue of physical volume 1.

Increase count1 by 1.

Update LASTC1 to ACCSCYL.

Check whether the absolute value of the value obtained by subtracting ACCSCYL from LATC is smaller than the absolute value of the value obtained by subtracting ACCSCYL from LASTC2. If Yes, perform the process; if No, perform the process 〓.

Select physical volume 1 and enqueue the acceptance request to the physical volume's waiting queue.

Increase count1 by 1.

Update LASTC1 to ACCSCYL.

Select physical volume 2 and enqueue the waiting queue acceptance request of physical volume 2.

〓 Add 1 to count2.

〓 Update LASTC2 to ACCSCYL.

FIG. 2 is a diagram showing a specific example of selecting a physical volume to be used according to the present invention. In Figure 2, PV
1 and PV2 are physical volumes, Q1 (i=1, 2,
3,...) is the queue element of physical volume PV1,
Q2i indicates each queue element of physical volume PV2. In Figure 2 A, the number of requests count1 for physical volume PV1 is 3, and the last access cylinder number for physical volume PV1 is
Assume that LASTC1 is y, the number of requests for physical volume PV2 is 3, and the last access cylinder number of physical volume PV is z. Furthermore, the cylinder number accessed by the READ acceptance request is assumed to be x.
Now, if the absolute value of the value obtained by subtracting x from y is smaller than the absolute value of the value obtained by subtracting x from z, physical volume PV1 is selected, and the accepted request is sent to the waiting queue of physical volume PV1 as queue request Q13. connected to. In this manner, under the condition of equal load (equal number of accepted requests), when executing a newly accepted request, the side with the smaller seek amount is selected. Note that the number of accepted requests and the final seek address for each physical volume can be updated by
The same thing is done for WRITE requests.

FIG. 3 is a diagram showing an outline of input/output control processing according to the present invention. In Figure 3, BIOS represents the basic input/output supervisor, and DVCF represents the duplex volume control program.
Issuing a SIOF instruction causes an input/output interrupt,
indicate completion notifications of input/output requests, respectively.
The duplex volume control program DVCF manages all input/output requests for data on logical volumes and input/output events on physical volumes resulting from these requests. The present invention performs physical volume selection processing when accepting a READ request in the input/output request accepting section of the DVCF. The DVCF input/output request receiving unit accepts input/output requests for data on a logical volume (synonymous with a redundant volume), converts them into physical volume input/output requests, and starts input/output operations using basic input/output. supervisor
Performs processing requested to BIOS.

〔Effect of the invention〕

As is clear from the above description, according to the present invention, under a state in which the number of accepted requests of physical volumes making up a multiplexed volume is unequal, newly accepted READ requests are placed in the waiting queue of the physical volume with fewer requests. Under conditions where the number of accepted requests for physical volumes is equal, newly accepted READ requests are connected to the waiting queue of the physical volume where the seek amount is smaller, making the process of reading data from multiplexed volumes more efficient. It can be done.

[Brief explanation of drawings]

FIG. 1 shows a second embodiment of the present invention executed in a central processing unit.
FIG. 2 is a diagram illustrating a main part of a weighted volume control program, FIG. 2 is a diagram illustrating a specific example of selecting a physical volume to be used according to the present invention, and FIG. 3 is a diagram illustrating input/output control processing according to the present invention. PV1 and PV2... physical volume, Q11 to Q13... cue element, Q21 and Q22... cue element.

Claims (1)

[Scope of Claims] 1. A multiplexed volume management table having a request number field for each physical volume that configures a multiplexed volume, and a last access cylinder number field for each physical volume that configures a multiplexed volume, and a physical volume. and a multiplexing volume control means, when the multiplexing volume control means connects an input/output request to the waiting queue of the physical volume, it increments the content of the corresponding request number field by 1, and Writes the last access cylinder number specified in the I/O request in the applicable last access cylinder number field, sends the I/O request connected to the waiting queue to the corresponding I/O device, and performs the input/output based on the I/O request. A physical volume selection method for use in a multiplexed volume system configured to reduce the contents of a corresponding request number field by 1 at the end of an output operation, wherein the multiplexed volume control means requests read requests for the multiplexed volume. When the is sent,
Reads the contents of the request number field and last access cylinder number field of the applicable multiplexed volume management table, and if the contents of the read request number fields are different, selects the physical volume with the least number of requests, and Connects the read request to the waiting queue of the physical volume, updates the contents of the corresponding request number field and last access cylinder number field, and if the contents of the read request number fields are equal, the read request specifies the one specified in the read request. access/
Selecting the physical volume for which the absolute value of the difference between the cylinder number and the contents of the last accessed cylinder number field is the smallest, connecting the read request to the waiting queue of the selected physical volume, and
A method for selecting a physical volume to be used in a multiplexed volume system, the method being configured to update the contents of a corresponding request number field and a last access cylinder number field.