JPS58115520A - Cross call controlling system in data processing device - Google Patents

Abstract

PURPOSE:To equalize the load of I/O controllers, by making it possible to connect plural upper devices to optional one of plural I/O controllers. CONSTITUTION:All upper devices can be connected to an I/O controller E1 as well as an I/O controller E2 through route switching parts A'-D', and controllers E1 and E2 are shared among upper devices. A cross call information exchange part 17 reports use information of controllers E1 and E2 and I/O devices O1-On to upper devices through switching parts 11-14 to make it possible that the route switching part having the use request to an I/O device discriminate the available controller. If one upper device issues the use request to the device On through the switching part B' when another upper device is operated through a path of the switching part A'- the controller E1- the I/O device O1, the use impossibility of the controller E1 is warned to the upper device from the exchange part 17 through the switching part B' when the upper device tries to execute the processing through a path of the switching part B'- the controller E1- the I/O device O2, and the upper device executes the processing through a path passing through the controller E2. If the controller E2 cannot be used also at this time, the upper device is held.

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Technical Field of the Invention The present invention relates to multiple access requests issued by higher-level devices such as a plurality of CPUs to use a shared 110 device in a data processing device. This invention relates to a control method for handling cross calls.

(2) Prior Art and Problems FIG. 1 shows an example of a cross-call control system in a conventional data processing device.

In the same figure, 1. 1' is an I10 loss device such as one disk device 01. ...indicates On. Also 213
are each 110 devices 01. . . . is an I10 control device E1t"'1 that commonly controls On, 4.5 is each power supply section, 6 is a cross-call information exchange section provided between the control device "It81, and 7 and 8 are The μ-to switching units A and B are used to connect either of the two upper-level devices of the I system to the control device E1, respectively.
Reference numeral 10 designates switching units C and D for connecting two IT-based host devices to the control device E. Also, what is the power supply for the to-to switching sections 7 and 8?

Power is supplied from the power supply unit 4 of the control device E1, and power to the route switching units 9 and 10 is supplied from the power supply unit 5 of the control device E.

When a host device executes an input/output command, a specific 110
If you capture one I10 control device (for example, B) to use the device, its higher-level device will
I1 in the control device E1 determines whether the 10 devices are usable or not.
0 The other control device E cannot be determined based only on the device usage information.

110 equipment usage information, that is, cross-call information is also required. At this time, the cross-call information exchange unit 6 communicates with I1 of the control device E via the control device E1.
This function is to transfer 0 device usage information to a higher-level device.

Any higher-level device that executes input/output instructions is thus connected to one of the control devices Elt or E.

You can obtain usage information for all I10 devices.

Accordingly, processing is started or waits.

However, in the above-mentioned system, there is a
When a large load imbalance occurs.

For example, if route switching section A is used very frequently, but routes C and D are used very rarely, control device E will be occupied more than /L/- route switching section AK. , on the other hand, the control device E! are often vacant. At this time, requests to use the specific I10 device via the /L/-) switching unit B will frequently wait for use due to the load neck state of s''l even if E is vacant.

The above-mentioned situation resulted in a reduction in the connection processing efficiency of the entire Crossco μ system, resulting in nine problems.

Furthermore, since each route switching section receives a common power supply from the power supply section of the control device to which it is connected,
If one power supply section is disconnected for some reason,
If it is assumed that the IT system is a different CPU system, the CPU of the system connected to the route switching unit on the power-off side will be unable to use the disk device at all, and the reliability will suffer. There was a problem.

(3) Purpose of the Invention The purpose of the present invention is to provide a rip squall system.
Use ambush 0 based on load imbalance for each yv-b
Another object of the present invention is to provide a cross-call system that avoids the occurrence of an unusable state due to a power outage and has high processing efficiency and reliability.

(4) Structure of the Invention The present invention improves the usage efficiency and reliability of the input/output system by enabling each host device to use a plurality of I10 control devices.

The configuration for this includes one or more 110 devices, a plurality of I10 control devices multiplexed to the 110 devices, and a plurality of host devices using the 110 devices,
In order to selectively set a route between each of the plurality of host devices and the plurality of I10 control devices, a plurality of route switching means for multiplexly connecting these two devices, and a plurality of route switching means of the plurality of route switching means are provided. and a cross-call information exchange means coupled to each of them, so that when any higher-level device executes an instruction to use the 110 equipment, cross-call information is obtained via the route switching means coupled to the higher-level device. , which is characterized by identifying whether an instruction can be executed.

(5) Examples of the invention The present invention will be explained in detail below based on examples.

FIG. 2 is a configuration diagram of nine embodiments of the present invention.

In the same figure, 1 to 5 correspond to the elements of the conventional system shown in FIG. 1, and similarly, 1°1' is I10 equipment 01. ...On, 2 and 3 are I10 control device "It"
ENt '*'' is a power supply section of each control device.Next, 11 to 18 are elements related to the present invention hb, and 11 to 14 are route switching units A', B', C', respectively.
15 indicates each route switching unit and control unit E1.
16 is a signal line connecting each route switching unit and the control unit E.

Reference numeral 17 indicates a cross-call information exchange unit that connects the respective route switching units, and 18 indicates a power supply line.

According to this configuration, each host device is controlled by the control device E.
1 and E! The two control devices are shared by each host device.

The cross-call information exchange unit 17 exchanges usage information between the control unit and the I10 device in each route switching unit.

Notify the higher-level device via each route switching unit.

A route switching unit has a usage request for Ilo.

Allows you to identify available control devices.

To explain the operation using a specific example, it is assumed that one host device is operating on the bus A/-El-01. Here, when another higher-level device requests the use of On through the /L'-) switching unit B., the route switching unit B' receives B.-gl-o.

and B/-E, -0! There are two possible bus options. However, if the host device attempts to execute on the bus B'-El-0, the cross-call information exchange unit 17
to the host device via B'.

It is reported that El is unavailable. The host device receives this report and executes it on the bus passing through E3 in the ninth place. The execution on this bus is successful, but if
, is also unavailable, the request to use the higher-level device is placed in a waiting state.

What are the conditions for the host device to be in a wait state?

- Another host device is using the same I10 via another bus.

■ I10 control device E□t EN are both in use.

It falls under any of the following. For this reason, El.

g, e”1 when there is an unbalance of the load between KjlL
Netsuku or E, waiting for use based on neck.

It can be resolved.

Furthermore, even if a power failure or other failure occurs in one of the control devices E1 or Es, the remaining control devices can maintain a certain operating level.

(6) Effects of the Invention According to the present invention, any host device can also
Since the O3 device can also be connected to any one of the two I10 control devices, it is possible to equalize the load when one of the I10 control devices is under high load, and even when one of the I10 control devices has a failure. , because the system can be operated by Zanmyo's control device.

It is possible to improve the processing efficiency and reliability of the system.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a cross-call system in a conventional device, and FIG. 2 is a block diagram of a cross-call system according to an embodiment of the present invention. In the figure, 1.1' is an I10 device, 2.3 is an I10 control device, 4.5 is a power supply unit, 11 to 14 are route switching units, and 17 is a cross-call information exchange unit. Reference numeral 18 indicates a power supply line to each route switching section. Patent Applicant: Fujitsu Limited Representative Patent Attorney, Written by Yo Hase (1 other person)

Claims (1)

[Claims] (11 or more 110 devices, and a plurality of I10 control devices multiplexed to the 110 devices; a plurality of host devices using the 110 devices; and a plurality of host devices) and the plurality of I10 controllers. The apparatus includes a plurality of route switching means for multiplexly connecting the same devices, and a Roscoe information exchange means coupled to each of the plurality of route switching means. Data characterized in that when an arbitrary higher-level device executes an instruction using 110 equipment, cross-call information is obtained through a 9-route switching means coupled to the higher-level device to identify whether or not the instruction can be executed. Cross-call control method in processing equipment. (2) one or more 110 devices and a plurality of I10 controllers multiplexed to the 110 devices; To selectively set routes between a plurality of host devices using the above-mentioned I10 devices, and each of the plurality of host devices and the above-mentioned plurality of I10 control devices. A plurality of route switching means that multiplexly connect the same devices, a cross call information exchange means coupled to each of the plurality of route switching means, and an output from each of the power supply units of the plurality of I10 control devices. and a means for commonly supplying to each route switching means, and when an arbitrary higher-level device executes an instruction to use the 110 equipment, the route switching means ,
A cross-call control method in a data processing device characterized by obtaining cross-call information and identifying whether instructions can be executed.