JPS58169649A - Control system of storage device - Google Patents

Abstract

PURPOSE:To improve the efficiency for transfer of information, by selecting a storage device having high using efficiency to transmit the information by a request given from an host device and by means of a controller for available factor. CONSTITUTION:An available factor controller 2 is set between a data processor 1 and storage devices 3A and 3B. The controller 2 is provided with a transfer processing part 4, a storage device selecting part 5, an available factor arithmetic part 6, and factor registers 7A and 7B and then selects a storage device having high available factor to an information transfer request given from the processor 1 to transfer the information.

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Technical Field of the Invention The present invention relates to a storage management system, especially when storage information is duplicated in case of a failure, or when speedy data and evening access is required. This is a book about an inspection equipment management system that transfers information from the storage device with the highest availability rate when there are multiple storage devices with the same information.

(2) Background and problems In data processing systems, in order to be able to continue services even if a failure occurs in the i-layer device,
There is pressure to memorize particularly important data by duplicating it, etc. Also, 4! - When access to data must be quick.

A plurality of storage devices having the same information are prepared, and data is transferred from the storage device that is not in use. When there are multiple storage devices that hold the same information, such as when writing information, the same information is written to each storage device in order to ensure that each storage device holds the same information. need to be transferred. However, when reading information from these storage devices, it is sufficient to select any storage device and read information only from that storage device, since each storage device holds the same information. .

Conventionally, when there are multiple storage devices that have the same information, when transferring information from those storage devices, the method of determining which storage device to transfer information from is always in a certain order. A selection method and a method of cyclic selection of storage devices were used. However, these methods lack consideration for the characteristics of each individual storage device, so the load is concentrated only on a specific storage device, and the information transfer efficiency is not necessarily good. There was a problem.

(3) Purpose of the Invention The present invention aims to solve the above-mentioned problems and improve the efficiency of information transfer.

(4) Structure of the Invention Therefore, in the present invention, a storage device with a high usability rate is automatically selected based on statistical information regarding the usability expansion rate of each storage device.

In other words, the storage device management system of the present invention includes a plurality of storage devices having the same information, selects one of the storage devices in response to an information transfer request from a host device,
In a system configured to notify the storage device of a transfer request and transfer information from the storage device, the plurality of storage devices are connected between the host device that makes the information transfer request and the plurality of storage devices. Usage rate calculation means for calculating the availability rate for each storage device based on statistical information of information transfer processing, and selecting one of the plurality of storage devices based on the calculation result of the availability rate calculation means. An availability rate management device equipped with a storage device selection means for selecting a storage device is interposed, and the availability rate management device selects a storage device with a high availability rate in response to an information transfer request from the above-mentioned host device and transfers the information. It is characterized by what it does.

(5) Embodiments of the invention The following will describe embodiments of the invention with reference to the drawings. FIG. 1 is a configuration of an embodiment of the present invention, FIG. 2 is a configuration of a buttocks according to an embodiment of the present invention, and FIG. 3 is an explanatory diagram of processing of an embodiment of the present invention.

FIG. 4 shows an example of a system to which the present invention is applied.

In the figure, l is the data processing device, 2 is the availability rate management #snow,
3A and 3B are storage devices, and 4 is a transfer processing unit.

5 storage device selection section, 6 a usability ratio calculation section, 7A.

7B is a usage rate register, 8A and 8B are plus 1 circuits, 9A and 9B are I10 count registers, and IOA.

10B is a counter, IIA, 11"B is an arithmetic circuit, 12
13 represents a clock, and 13 represents a comparator circuit. In FIG. Books, that is, information that is essential for system control and for the continuation of services, are stored in multiplexes, and even if one of them has a failure, it will not be possible to use other normal storage devices. Therefore.

It is designed to work by continuing processing without interrupting the system. In Figure 1.

The storage device 3A and the storage device 3B hold the same information,
This example shows a case where the data is duplicated.

A usability rate management device t2 is interposed between the data processing device 1 and the storage devices F3A and 3B. The transfer processing unit 4 of the available rate management device 2 is.

Interprets the information transfer request from the data processing device 1.

The storage device selection unit 5 is activated as necessary. Also.

At the start and end of the information transfer, the usable rate calculation section 6 is notified of this fact, and the usable rate calculation section 6 receives statistical information for calculating the usable weight of each storage device 3A or 3B. This provides an opportunity to collect and calculate usable egg weight.

The storage device selection unit 5 selects the storage device 3A from the transfer processing unit 4.
Or by requesting selection regarding 3B.

Referring to the contents of availability rate registers 7A and 7B provided corresponding to storage devices 3'A and 3B, select either storage device 3A or 3B with a high availability rate, and send it to transfer processing unit 4. Perform the notification process.

Availability rate calculation unit 6r! 1. For example, the availability and efficiency of each storage device 3At or 3B are calculated sequentially by means as shown in FIG.
Store in B.

In FIG. 2, the availability rate calculation section 6 includes a storage device 3.
and a calculation unit 6A that calculates the availability rate of A.

A calculation unit 6B is provided to calculate the availability rate of the storage device 13B. That is, when information is transferred from the storage device 3A, the calculation section 6A is activated by a notification from the transfer processing section 4, and when information is transferred from the storage device 3B, the calculation section 6B is activated. Now, the case where information is transferred from the storage device 3A will be explained. The same applies to the case from the storage device 3B.

The I10 count register 9A is 0. For example, the input/output to the storage device 3A from the time of system startup to the current time 5 (Ilo
) is stored and maintained. The counter IOA stores the total time required for input/output operations with respect to the storage device 3A from the time of system startup to the present time. These statistical information are collected, for example, as follows. When the activation of Ilo for the storage device 3AK is notified by the arithmetic unit 6AK, the contents of the I10 count register 9A are first counted up by "1" by the plus 1 circuit 8A. Further, the counter IOA, which had been stopped until then, starts to operate, and in addition to the values held until then, it sequentially counts the constant cycle signal supplied from the clock 12. Next, when the end of the input/output operation is notified by a channel end signal, device end signal, etc. from the storage device 3A, the collection of time information by the counter IOA is stopped. At this time, the contents of the I10 count register 9A and the contents of the counter IOA are loaded into the arithmetic circuit 11A. The arithmetic circuit 11A divides the contents of the counter IOA by 1, for example, the contents of the I10 count register 9A, and stores the result in the available rate register 7AK. That is, until the number of I10 for the storage device 31, the input/output operation time for each of -〒Ashi and 1000〇 is il,,t
! ,is,...2. If so, the next value V will be stored in the available rate register smear A.

V = (difference 1 + 12 + is + ... + i%) 7% The smaller the value V of this availability rate register 7A or 7B is, the
It can be said that the average time required for each input/output operation is short, and the usable egg weight is high.

In addition, if the input/output operation time at a certain point (for example, a value of +4) is abnormally high, the average value determined by the above formula ■
, lacks the high Shimasashima character due to the influence of +4. To resolve this situation, weighting may be performed as shown in the example below.

(K: constant for weighting) The contents of these availability rate registers 7A and 7B are 1.
When the next information transfer request is received, the storage device selection unit 5
The comparison circuit 13 compares the magnitude. Then, the storage device 3A or 3B with the smaller value
is selected and notified to the transfer processing unit 4.

The outline of the process when there is an information transfer request from the data processing device 1 is shown in FIG. 3. Availability rate calculation unit #2 first processes the transfer request as REA.
Decode whether it is D or WRITE. If the transfer request is WRITE, the same information must be written to the storage devices 3A and 3BK, so Ilo is activated for both by process (2). If the transfer request is READ, the storage device 3A is
Oj and 3B (7) both NOT ACTIVE +7
) Checks the status, that is, whether it is not busy or out of order. One is ACTIVE.

If it is in the state, Ilo is activated for the storage device 3A or 3BK on the N0TACTIVE side by process (2).

When both are in the 41NOT ACTIVE state, the storage device selection unit 5 is first activated by process ①,
Ilo is activated for the storage device 3A or 3B with a high usability rate selected by the storage device selection unit 5.

The present invention can be used, for example, for page management in virtual memory control as shown in FIG. If the content has been updated, the external page data server) 1 is sent under the control of the paging control unit 15.
It will be evacuated to 6. Particularly important data is evacuated to multiple storage lots 19A and 19B, stored in duplicate, and when page-in is required, it is read from the storage device with higher usable weight. . Also.

Depending on the information required by the system, some books may be read-only but stored in duplicate in the external page data set 16 in advance. For example, in slots 20 and 20 of 16 external page data cells, such information is
When reading from slot B and page-in as the real page 18, it may be read from slot 20A or slot 20B. Therefore, if the system is configured as shown in FIG. 4 with the availability management device 2 interposed, efficient processing can be performed.

(6) As described in detail, according to the present invention, the efficiency of transferring multiplexed information from a storage device is improved. Especially regarding magnetic disk devices, etc.

There may be variations in transfer time, including seek time, depending on the purchase of the book, so it is highly effective when used in paging processing for external page data sets where input/output is frequently performed.

[Brief explanation of the drawing]

FIG. 1 is a configuration of an embodiment of the present invention, FIG. 2 is a configuration of main parts of an embodiment of the present invention, and FIG. 3 is an explanatory diagram of processing of an embodiment of the present invention.
FIG. 4 shows an example of a system to which the present invention is applied. In the figure, l is a data processing device, 2 is an availability management device,
3A and 3B are storage devices, 5 is a storage device selection section, 6 is a usable rate calculation section, and 7A and 7B are available rate registers. Patent applicant Fujitsu Limited

Claims (1)

[Scope of Claims] There are multiple storage devices that have the same information, and in response to an information transfer request from a host device, select one of the storage devices and notify the storage device of the transfer request. 2. In a system configured to transfer information from the storage device, 1. between the host device that makes the information transfer request and the plurality of storage devices. a usable rate calculating means for calculating the usable rate for each of the plurality of storage devices based on the statistical information of the information transfer process; The availability rate management device is provided with a storage device selection means for selecting one of the storage devices, and is used by the availability rate management device in response to an information transfer request from the above-mentioned upper device, etc. 5 storage devices with high probability
A storage device management system characterized in that information is selectively transferred.