JPS6048565A - Input/output control method - Google Patents

Abstract

PURPOSE:To equalize a service by constituting so that an input/output control device which is processing an instruction of one input/output system rejects an instruction of other input/output system, and also rejects the same kind of instruction as that of the system which is being executed at present, too, after rejecting that of other system. CONSTITUTION:An input/outout instruction is discriminated by a device type decoding circuit 8, and for instance, whether it is a magnetic disk system DKU or a magnetic tape system MT is recognized. Subsequently, whether the input/output instruction is received by a start discriminating circuit 10, or it is answered by a control unit busy CUB is discriminated, and in case it is received, whether the device type is DKU or MT is informed to an I/O status circuit 9, and an operation to this input/output instruction is started. At the time of CUB, the CUB is outputted from a circuit 11, and the device type is informed to a control unit end circuit 12 and the I/O status circuit. When the device type is the same, the instruction is received successively, and when the type is a different kind, the CUB is outputted, and thereafter, the CUB is outputted even in case of the same type as the present one, and a service is equalized.

Description

Detailed Description of the Invention (a) Technical Field of the Invention The present invention relates to an input/output control method, and more particularly to an input/output control method for simultaneously controlling input/output devices with different processing speeds, such as a magnetic disk device and a magnetic tape device. It comes out.

(b) Background of the Technology As information processing systems become more diverse, input/output devices with different processing speeds, such as magnetic disk devices and magnetic tape devices, are controlled by the same input/output control device. The control method in this input/output control device has the following disadvantages. That is, if this input/output control device is executing input/output processing of a magnetic disk device and is requested to perform input/output processing of a magnetic tape device from a host device, the magnetic disk device is separated and is under control (the magnetic disk device is not being controlled by the control device). For example, when the head is positioned, it receives the input/output processing of the magnetic tape device, but the input/output processing of the magnetic tape device is When the control device starts output processing, the control device is exclusively used for processing the magnetic tape device for a long time, and the input/output processing of the magnetic disk device is stopped. That is, even if the magnetic disk device completes its independent processing and connects with the rotation control device and attempts to move on to the next operation, it will not receive L-+4=t4-1 and a timeout will occur.

Figure 1 shows the same magnetic disk device and magnetic tape device.
An example of an information processing system configured using an input/output control device is shown below. An input/output command is sent from the central processing unit 1 to the control unit 3 via the channel 2 in order to transfer data to, for example, a magnetic disk device 5.

The control device 3 checks the connection state with the magnetic disk devices 5, 6 and the magnetic tape device 7, and if it is not connected to any of the devices, selects and connects the magnetic disk 5 via the adapter 4. The control device 3 analyzes the input/output command from the channel 2, and if the cylinder number and head number of the magnetic disk device 5 are different from the intended ones, a seek operation (head position adjustment operation) is required. Enter sudden control.

At this point, when an input/output command for the magnetic disk device 6 is given to the control device 3 from the channel 2, even if the control device 3 selects and connects the magnetic disk device 6 via the adapter 4, the control device 3 There is no problem because the time dedicated to controlling the device 6 is short.

However, if the input/output command is for the magnetic tape device 7, when the control device 3 selects and connects the magnetic tape device 7, the operation time of the magnetic cape device 7 will be slow (the control device will not be able to control the magnetic tape device 7 for a long time). Therefore, the magnetic disk device 5 times out and stops input/output processing.This is a big problem for magnetic disk devices that are supposed to perform input/output processing at high speed.

In addition, because the control device was executing input/output processing for the input/output command sent when the receiving side Lj of the input/output command was in a state where it was possible to receive the input/output command, Input/output processing was not executed for input/output commands that were received, and services were not equalized.

(C) Object of the Invention The object of the present invention is to solve the above-mentioned conventional drawbacks, and to prevent the control device from delaying the input/output processing for each input/output device being executed, and to provide equal service to each input/output device. The object of the present invention is to provide an input/output control method that can be used to control input/output.

(d) Structure of the Invention The purpose of the invention is to provide a plurality of input/output devices including those with different processing speeds, an input/output control device that controls these input/output devices, and a predetermined control device for the input/output control device. In an information processing system, the input/output controller sends out input/output commands to perform input/output processing to the input/output device, and the input/output control device performs input/output to the input/output device with a certain processing speed. When processing is in progress and an input/output command is sent from the central processing unit to an input/output device with a processing speed different from that of the input/output device, the input/output control is performed from this point until the end of the input/output processing. This is achieved by providing a human output control method characterized in that the device prohibits reception processing for all input/output commands including this input/output command, and responds to that effect to the central processing unit. .

(f) Embodiments of the Invention In the present invention, when a control device is processing an input/output command for one input/output device, it controls the input/output processing by responding to the input/output processing request of another input/output device. The device is a central processing unit (
BOST) responds with CON 1 to ROLL UNIT HISY (CUBSY in the figure) status. Also, after responding to input/output processing requests of other input/output devices with control unit busy status, it also responds with control unit 1 busy status to input/output processing requests to the same type of input/output device. It is something.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings. Figure 2 shows one magnetic disk controller (DKC).
) with three magnetic disks (DKU・A, DKU・B, D
FIG. 3 is a diagram for explaining the control sequence of the DKU and MT in the case of controlling the magnetic tape devices (MT) of KU-C) and -. In the drawing, diagonal arrows indicate input/output commands to each input/output device such as the post, other arrows indicate status to which the control device responds, and the horizontal axis indicates time.

■First of all, the input/output command for DKU-A is D
When the data is sent to the KC, the DKC engraves it into DKU-8 and executes input/output processing (blacked out area). After that, D.K.
U-A is in push-out control, that is, DKC is in a free state (blank area).

■Next, I) When an input/output command is sent to DKU-B while KC is free, DKC becomes DKU-B.
Executes input/output processing for 8. After that, DKC becomes free again.

0th time, when an input/output command to DKU-C is sent while DKC is free, I) KC is DK
Executes input/output processing in line with U/C. That f! D
KC becomes free again.

■D K U - When input/output processing for B is completed, D
The KC responds to the host with an end status (END in the figure).

■When an input/output command is sent to the MT from the host (host), the DKC is in a free state at this point, but
DK[J and MT are different device types and have different processing speeds, so input/output commands to this MT cannot be received, and ■Reply to the host that the control unit is busy.

(2) Thereafter, the input/output processing for DKU-8 is completed, and a termination status is sent to the post.

(2) Further, input/output commands to DKU-B are sent from the post. At this point, DKC is in a free state, but in ■, DKC once responded with CONTROL UNI NODO BUSY, so this I) K U -
It does not accept input/output commands to B and queues up at the boss and responds with CONI, ROLL, UNI, 1-BUSY.

[Phase] The input/output processing for DKU-C is completed, and a completion status is sent to the post.

■Furthermore, since the input/output processing for all input/output devices has been completely completed, the DKC responds to the post that requested input/output commands to the MT with CON 1 to 1 call unit end (CUEND in the figure).I) To the KUB The control unit end also responds to the host that requests input/output commands.

■Because the control unit end was responded to the boss, the input/output command for the MT that was not accepted in ■ is requested again from the post, and the MT input/output command is sent to the DKC.
is executed.

The input/output command for DKU-B is restarted from the 0 boss. However, since it is the MT that is executing the input/output processing at this point, the input/output instructions of the DKU-B are of different device types.

(2) Therefore, input/output commands to DKU-B are not accepted, and DKC responds to the post with control unit busy.

[Phase] When the input/output processing of the MT is completed, a completion status is returned to the post.

[Phase] Since the control unit busy was responded in ①, the control unit will respond once the input/output processing of the DKC is completely completed.

According to the above sequence, DKC communicates with DKU and MT.
Performs input/output processing for. Here, the control unit busy status is sent to the post, and when this command is sent, the host side can recognize the busy state of the DKC. Therefore, multiple D
If equipped with KC, another DK at the discretion of the boss
When the number is sent by C, DKC sends the control unit ent status when the input/output processing is completely completed, and informs the post that I) KC's input/output processing is completely completed. Let me know. The termination status is simply a code that notifies that the input/output processing for one input/output device of the post has been completed.

Therefore, the boss can grasp the execution status of each input/output command, and can execute input/output processing in the order in which the input/output commands are sent to the DKC.

Figure 3 shows that when an input/output command is received from a post, this input/output command is received, but the controller 1 is not connected to the post.
FIG. 3 is a configuration diagram of a circuit for determining whether to respond with unit busy. If there is an input/output command, device type decoding circuit 8
Decodes whether this input/output instruction is for DKU or M'F. Then, the activation determination circuit 10 determines whether the input/output command is accepted or the control unit 7 +-/busy is responded. When accepting input/output commands, the device type (DKU is M
T?) and indicates that the DKC is in operation, and starts the operation for this input/output command. If the control unit is busy, it instructs the control unit busy circuit 11 and also notifies the I10 status circuit 9 and the controller 1 to roll unit end circuit 12 of the device type. The I10 status circuit 9 stores the fact that an input/output command has been sent to a device type different from the active device quib, and has responded with control unit busy.
I/O command G for input/output devices of the same type
Even in this case, the activation determination circuit 10 is notified so that the control unit becomes busy. 110 status circuit 9
When there are no more input/output devices running on DKC, Control 1~Roll Unino) End episode! ? Instructs l to respond with control unit end.

(g) Effects of the Invention As explained in detail above, according to the present invention, when an input/output control device is processing an input/output command for one input/output device, the To make a control unit busy respond to an input/output processing request from another different input/output device. Also, by responding with control unit busy to an input/output command to the same input/output device as the device type being executed after responding with control unit busy to a processing request from another input/output device, It is possible to equalize services to other external storage devices of different device types and to prevent delays in ongoing input/output processing.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram of a system to which the present invention is applied. FIG. 2 is a diagram for explaining a control sequence for input/output commands of the input/output control device, and FIG. 3 is a determination circuit for implementing the control sequence of FIG. 2. In the drawing, 11 is a central processing unit, 2 is a channel, 3 is an input/output control device, 4 is an adapter, 5 and 6 are magnetic disk devices, 7 is a magnetic tape device, 8 is a disk drive 2, and is a type device.
- code circuit, 9 I10 status circuit, 10 activation determination circuit, 11 CUBSY response circuit, 12 CU E N
This is a D response circuit. Bud 1 diagram

Claims (1)

[Claims] A plurality of input/output devices including those with different processing speeds, an input/output control device that controls these input/output devices, and an input/output control device that causes the input/output device to execute input/output processing to be recorded on a predetermined input/output device. In an information processing system consisting of a central processing unit that sends input/output commands, the input/output control device has a processing speed different from that of the input/output device during execution of input/output processing for the input/output device with a certain processing speed. When an input/output command to be sent to an input/output device is sent from the central processing unit, from this point until the end of the input/output processing, the input/output control device handles all input/output including this input/output command. 1. An input/output control method, characterized in that processing on a receiving side in response to an instruction is prohibited, and a response to that effect is sent to a central processing unit.