JPS6211951A - Channel device - Google Patents

Abstract

PURPOSE:To separate freely a memory device from an input/output device by changing the internal interface of the channel device into a serial interface. CONSTITUTION:A center channel unit 12 reads the control information on a command code, a device address, etc. out of the memory device 11 of a CPU via the memory bus 16 of a parallel data transfer type. Then the unit 12 transmits only the data necessary for input/output interface control to a remote channel unit 13 via a serial data line 17 and in the frame of a serial data type. When receiving this frame, the unit 13 starts an input/output interface action starting with a ADR.OUT signal to an input/output controller 14 by the input/ output interface 18 of a parallel data transfer type. Then the unit 13 receives a STA.IN signal from the device 14 and sends the frame of the serial data type back to the unit 12.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Application of the Invention] The present invention relates to a channel device for a data processing device, and more particularly, to a channel device that enables remote input/output devices and a highly flexible computer system configuration. .

[Background of the invention]

Conventionally, in order to connect a channel device and an input/output control device over a long distance, it was inserted between the channel device and the input/output control device, the input/output interface was converted to serial data, transferred via optical fiber or cable, and then input/output was performed again. There was an adapter device that converted the optical channel into an interface. The startup sequence of the input/output control device using this method will be explained with reference to FIGS. 1 to 5. Optical channel adapter device
For example, it is disclosed in Japanese Patent Publication No. 59-15585.

The channel device 2 is activated via the input/output interface 8 in the parallel data transfer format using commands, codes, and their control information read out from the memory device 1 of the central processing unit through the memory in the parallel data transfer format and the bus 7. The input/output device address instructed by the channel device 2 that starts the sequence is X42'. First, ADHOU
When the T signal is raised by the channel device 2, the optical channel adapter 3 creates a frame in the serial data format as shown in FIG. 2, and sends it to the optical channel adapter 4 via the serial data line 9. The data format of this frame is byte o=xso, byte 1=X42. The meaning of each bit within the frame is shown in FIG.

Note that in FIG. 3, the symbols * are not directly related to the present invention, and their explanation will be omitted.

When the optical channel adapter 4 receives this framer,
The ADH and OUT signal lines of the parallel data transfer type input/output interface 10 are raised again, and the signal is propagated to the input/output control device (IOC) 5. In other words, the signals of the input/output interface 8 are directly transmitted to the input/output interface 10.
This means that it has been propagated to The signal output from the input/output control device 5 is converted into serial data and frames by the optical channel adapter 4, sent to the optical channel adapter 3, converted again to an input/output interface signal, and sent to the channel device 2. It will be done.

The above method uses an optical serial input/output interface.
Because it is a method that converts data into data and sends and receives it, it has the disadvantage that as the distance of the interface increases, the overhead of the interface and protocol increases proportionally. In the example of FIG. 4, the time for exchanging signals five times back and forth between the channel device and the input/output control device increases in proportion to the distance.

[Purpose of the invention]

An object of the present invention is to provide a channel device in which a memory device and an input/output control device can be freely separated, thereby increasing the degree of freedom in system configuration.

[Summary of the invention]

The present invention is characterized in that the internal interface of the channel device is a serial interface so that no overhead is applied to the input/output interface.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to FIG. Read control information such as command codes and device addresses from the memory device 11 of the central processing unit via the parallel data transfer format memory and bus 16,
7 to the remote channel 13, only data necessary for input/output interface control is transmitted in serial data format frames shown in FIG. (■ in Figure 9)
When the remote channel unit 13 receives the frame, it sends the ADH, OUT via the parallel data transfer format input/output interface 18, as shown in FIG.
The input/output interface operation initiated by the signal is started with the input/output control device 14. When the remote channel unit 13 receives the STA, IN signal from the input/output control device 14, it transmits the frame in the serial data format shown in FIG. 8 to the center channel. Return to unit 12. (9th
@) The startup sequence is completed in this way, but the serial
Center, channel, unit 12 and remote, which are distanced by data. Transfer of information between the channels and units 16 is one round trip, and the longer distance of the serial interface is required.

- The overhead will be one-fifth of the conventional technology. In the above embodiment, only the part related to sequence control of the input/output interface is separated from the central processing unit side, but it can be implemented using another implementation method. For example, a buffer memory is provided in the channel section on the input/output control device side, and the memory address for transferring data, the number of transfer bytes, and other control information are provided, and multiple input/output interfaces are controlled in the channel section on the input/output control device side. It is also possible to have a channel configuration in which:

〔Effect of the invention〕

According to the present invention, even if the interface between the memory device and the input/output control device is made longer distance, the time increase can be suppressed compared to the conventional method. This has the advantage that the output device can be connected separately from the memory device.

[Brief explanation of drawings]

Figure 1 is a block diagram of the conventional system, Figure 2 is a diagram showing serial and data format frames in Figure 1, and Figure 3 is a table showing the meaning of each bit in the frame in Figure 2. , Figure 4 is a diagram showing the correspondence between the conventional input/output interface sequence serial and data frame.
4 is a table showing detailed data of the frame in FIG. 4, FIG. 6 is a configuration diagram of an embodiment of the present invention, and FIG. 7 is a diagram showing serial and data format frames in FIG. 6. FIG. 8 is a diagram showing a response frame returned from the remote channel unit to the center channel unit during startup processing of the input/output control device, and FIG. 9 shows the ink 7 ace sequence and serial according to the present invention. FIG. 3 is a diagram showing correspondence between data frames. Explanation of symbols 11...Memory device 12...Center, channel, unit 13...Remote, channel, unit 14...I/O control device 15...I/O device 16...Memory, bus

Claims (1)

[Claims] A channel device located between a memory device of a central processing unit and an input/output control device, and configured to issue commands to the input/output control device and transfer data between the memory device and the input/output control device, A channel device characterized in that a part that performs interface control between the two parts and a part that performs interface control with the input/output control device are separated, and configured to serially transfer data between the two parts. .