JPS6083155A - Disk controller with cache - Google Patents

Abstract

PURPOSE:To prevent the breakdown of a disk subsystem by having the connection of a disk control part even to a shared part in a device other than own one when the connection is given among plural disk controllers containing caches sharing an electric power supply part and a loader part respectively. CONSTITUTION:A power supply part 7, a loader part 9 and a maintenance panel 11 are shared by a disk control part 1 in a self-housing A and a disk control part 3 in another housing B. In the same way, the disk controllers containing cache memories in the housings A and B are connected to each other so that a disk control part 4 in the housing B and a disk control part 2 in the housing A share a power supply part 8, a loader part 10 and a maintenance panel 12. When a fault occurs at the part 7, the part 9 or the panel 9, the control parts 1 and 3 are not available. However, the control parts 2 and 4 are available since they are connected to the part 8, the part 10 and the panel 12 respectively.

Description

[Detailed Description of the Invention] [Field of Application of the Invention] The present invention relates to a disk control device with a cache, and particularly to a cache device configured such that a disk control section and a cache memory section share a power supply section, a loader section, a maintenance panel section, etc. The present invention relates to a disk control device with an attached disk.

[Background of the invention]

Particularly in large computer systems, information that is accessed relatively frequently in the disk device is stored in a cache memory in order to shorten the access time to the disk device. FIG. 1 shows a disk controller with cache.

Inside the housing A, there are disk control units 1 and 2, a cache memory 5, a power supply unit 7. A loader section 9, a maintenance panel section 11, etc. are incorporated, and the disk control section 1.2 accesses the cache memory 5.

The power supply section 7 is a power supply ○N10FF from the maintenance panel section 11.
According to instructions, the power to the disk control units 1 and 2 and the cache memory 5 is turned on and off. Further, the loader section 9 is for reading an initial microprogram when the disk control sections 1 and 2 are powered on. The disk control units 1 and 2 are connected to an electronic AI calculator and a channel (not shown) is a terminal CI.

It is connected via terminal C2, and is connected to a disk device (not shown) via terminals DI and D2. Note that arrows in the figure indicate information transmission lines.

As shown, the power supply section 7. Loader section9. By configuring the maintenance panel section 11 to be shared by the disk control sections 1 and 2, the cost of the apparatus is reduced. However, if a failure occurs in either of these shared units, both disk control units 1 and 2 become unusable, making it impossible to access the subordinate disk devices and causing the disk subsystem to go down.

By the way, recently there are two disk controllers with cache.
Increasingly, there are cases in which more than one disk subsystem is deployed, but even in such cases, the only way to prevent the disk subsystem from going down is to duplicate the common area, which is expensive. .

[Purpose of the invention]

An object of the present invention is to eliminate the drawbacks of the prior art as described above, and to provide a system in which a disk control section and a cache memory section are connected to a power supply section,
When two or more disk controllers with cache are connected in a configuration that shares the loader section, maintenance panel, etc., it is possible to prevent the disk subsystem from going down due to a failure in the shared section of each disk controller with cache at a low cost. It is an object of the present invention to provide a disk control device with a cache memory that can prevent such occurrences.

[Summary of the invention]

To achieve the above object, the present invention provides a disk control unit, a cache memory unit that stores information read from a magnetic disk device by the disk control unit, and a power supply unit that is shared by the cache memory unit and the disk control unit. In the disk control device with a cache and a loader section, when the disk control section is connected to another disk control device with a cache, the disk control section also has a power supply section and a loader section of the other disk control device with a cache. By being connected, even if a failure occurs in the power supply unit and loader unit, which are shared parts, the disk control unit will be backed up by the power supply unit and loader unit of other cassocket disk control units, and system operation will continue. The feature is that it is possible.

[Embodiments of the invention]

Hereinafter, one embodiment of the present invention will be described based on the drawings.

FIG. 2 is a connection diagram of two cache-equipped disk control devices showing an embodiment of the present invention.

Inside the casing A and the casing B are a disk control unit 1, 2 or 3, 4, and a cache memory 5 or 6, respectively.
．． A power supply section 7 or 8, a loader section 9 or 10, and a maintenance panel section 11 or 12 are incorporated. The disk controllers 1 and 2 are configured to be able to access the cache memory 5, and the disk controllers 3 and 4 are configured to be able to access the cache memory 6. The disk control units 1, 2, 3.4 are connected to the electronic n1 computer main body (not shown) via terminals C1, C2, C3, and C4, respectively. Further, the disk control unit 1.2
The same disk device (
(not shown), and the disk control units 3 and 4 each have nine terminals D3. It is connected to the same disk device (not shown) other than the aforementioned disk device via D4.

In this embodiment, as shown in the figure, the power supply section 7. Loader section 9
．． The maintenance panel 11 is shared by the disk control unit 1 in its own chassis A and the disk control unit 3 in another chassis B, and is also shared by the power supply unit 8. Loader section】0. The maintenance panel 12 also has a disk control device with cache memory in the case A and case B so that the disk control unit 1 in the own case B and the disk control unit 2 in the other case A can be shared. It is connected.

As a result, the power supply section 7 supplies power to the disk control sections 1 and 3 and the cache memory 5, and also supplies power to the maintenance panel 1.
According to the power ON/OFF instructions from 1, the disk control units 1 and 3 and the cache memory 5 are powered on and off. In addition, the power supply section 8 supplies power to the disk control sections 2 and 4 and the cache memory 6, and in response to a power 0N10FF instruction from the maintenance panel 12, the power supply section 8 supplies power to the disk control sections 2 and 4 and the cache memory 6.
4 and the cache memory 6 are turned on and off.

The loader section 9 loads a microprogram into the disk control sections 1 and 3 when the power is turned on, and also loads the microprogram into the disk control sections 1 and 3 when the power is turned on.
reads the microprogram into the disk control units 2 and 4 when the power is turned on.

Now, let us consider a case where a failure occurs in the power supply section 7, the loader section 9, or the maintenance panel 11 that is shared by the disk control section 1 in the case A and the disk control section 3 in the case B. . In this case, both the disk controller 1 and the disk controller 3 become unusable. However, the disk control units 2 and 4 are connected to the power supply unit 8. Loader section 10. Since it is connected to the maintenance panel 12, it is operable. Therefore, although the disk control unit 2 cannot access the cache memory 5, it can access the subordinate disk devices. The disk control unit 4 also includes a cache memory 6.
It is possible to access the underlying disk device using . Therefore, although the access speed will drop somewhat due to the cache memory 5 not being available, the disk subsystem will not go down due to a failure in the shared area.

A power supply section 8 and a loader section 10 shared by the disk control sections 2 and 4. The same applies when a failure occurs in any of the maintenance panels 12.

In this way, even if a failure occurs in any one of the shared units, the disk subsystem can be operated by the first system of the disk control unit, which is effective in improving the reliability of the disk subsystem. Furthermore, without duplicating the shared area, by simply changing the connection between the shared area and the disk control unit, a system down due to a failure in the shared area can be avoided, and the IT solution is inexpensive.

In this embodiment, a case has been described in which two cache memory EJ disk control devices each having two disk control units in one housing are installed. A disk controller with a cache memory (even when connecting two or more controllers).

The present invention is applicable.

A cage with two or more disk control units in one housing! When connecting two or more devices, at least one of the multiple disk control units in the same housing should be connected to the tool part inside the white cylinder, and the other disk control units should be connected to the device inside one of the other housings. If you connect it to the common section of any chassis, even if a failure occurs in the common section of any chassis, at least one of the multiple disk control sections in that chassis will be backed up by the common section of another chassis. Disk subsystem failure can be avoided.

〔Effect of the invention〕

As explained above, according to the present invention, when two or more cache-equipped disk control devices configured such that the disk control unit and the cache memory unit share the power supply unit and the loader unit are connected, the power supply unit which is the shared unit By connecting the disk control unit to a shared part in a device other than its own without duplicating the server and loader part, it is possible to prevent the disk control system from going down due to a failure in the shared part at low cost. Therefore, it is possible to realize a disk control device with a cache that prevents this from occurring.

[Brief explanation of drawings]

FIG. 1 is a schematic diagram showing a conventional cache-equipped disk controller, and FIG. 2 is a diagram showing how two cache-equipped disk controllers are connected according to an embodiment of the present invention. 1.2, 3, 4: disk control unit, 5, 6: cache memory, 7, 8: power supply unit, 9. to: loader section, 11,
12: Maintenance panel section.

Claims (1)

[Claims] (1) A cache comprising a disk control unit, a cache memory unit that stores information read from a magnetic disk device by the disk control unit, and a power supply unit and a loader unit that are shared by the cache memory unit and the disk control unit. In the disk control device with cache, when the disk control unit is connected to another disk control device with cache, it is also connected to a power supply unit and a loader unit of the other disk control device with cache. Disk controller.