JPS63187749A - Circuit connection system - Google Patents

Abstract

PURPOSE:To efficiently distribute load to lines and shorten the switching time by preliminarily storing connection pattern data, which indicate forecastable mutual connection states between host systems and communication lines, in a storage means. CONSTITUTION:Line connection pattern data indicating forecastable mutual connection states between respective host systems and respective communication lines are preliminarily stored and registered in a PROM 11, and line connection pattern data are temporarily stored in a RAM 13 from the PROM 11 when a common control part 6 is started. Next, a line connection command is sent from a host system 1 to the common control part 6, and simultaneously, the line connection command is sent from a host system 2 also. Corresponding line connection pattern data are read cut of the RAM 13 in accordance with sent line connection commands and are read by the common control part 6, and all communication line numbers of groups constituting these pattern data are indicated to control corresponding line switching parts. Thus, the load is efficiently distributed to lines and the line switching time is shortened.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a line connection system, and particularly to a line connection system for interconnecting a host system such as a host computer and a plurality of communication lines.

2. Description of the Related Art When data communication processing is performed between a host system having a host computer or the like and a plurality of terminals using a plurality of communication lines, switching control of the communication lines is required. In this case, conventionally only a line switching section is provided to control switching between the host computer system and the communication line.

Such conventional methods have the disadvantage that they cannot effectively distribute the line load or shorten the switching time in a multi-system online system, and as a result, it is not possible to construct an efficient multi-system online system.

Therefore, the present invention was made to eliminate the drawbacks of the conventional devices as described above, and its purpose is to improve the performance by making it possible to efficiently distribute the load on the line and shorten the switching time. The purpose of the present invention is to provide a line switching method that enables the construction of a multi-system online system with good performance.

According to the present invention, there is provided a line connection system for mutually connecting a host system and a plurality of communication lines, the line connection method being a method for interconnecting a host system and a plurality of communication lines, wherein Connection pattern data indicating the mode of interconnection is stored in a storage means in advance, the connection pattern data is read from the storage means according to the data processing status in the host system, and the connection pattern data is read out from the storage means according to the read connection pattern data. A line connection system characterized in that interconnection between the host system and the communication line is controlled.

Example Hereinafter, the present invention will be explained in detail using the drawings.

The figure is a block diagram of an embodiment of the invention. In the figure,
Duplicated host computer systems 1 and 2 and #
A line connection control device 100 is provided that switches and controls mutual connections with N communication lines numbered 1 to #N.

This line connection control device 100 includes a driver/receiver 3 for the host system 1, a driver/receiver 4 for the host system 2, a PIO section 5 for the host system, a common control section 6, and a P2O section 7 for the line switching system. , line #1 system switching unit 8, line #N system switching unit 9, PROM
(Programmable read-only memory>10.11,
RAM (random access memory>12.13) and power supply section 29.However, other lines #2~
The #N-1 switching unit is omitted.

PROM 10 is a memory that stores a control program in advance, and PROMI 1 is a memory that stores line connection pattern data in advance. The RAM 12 is a storage section for temporarily storing the FROMIO control program and various control data, and the RAM 13 is a storage section for temporarily storing the line connection pattern data of the PROM 11.

In addition, 14 to 26 indicate data lines and control lines,
30 indicates an AC (alternating current) power line.

Here, the line connection pattern data stored in the PROM 11 in advance is such that the communication lines #1 to #N are grouped together into multiple groups (each communication line belongs to multiple groups redundantly). ), the line numbers assigned to each group are converted into data and used as pattern data. That is, it is pattern data that indicates the expected interconnection mode between each host system and each communication line. For example, when certain pattern data is specified, all communications belonging to the group corresponding to this pattern data This is data indicating that the line is connected to host system 1 or 2. It is assumed that such line connection pattern data is stored and registered in the PROM 11 in advance.

In the above configuration, when DC power is supplied from the power supply unit 29, the common control unit 6 is activated and starts up, and the FROM l
A control program is loaded from line 23 through line 23, and the control program and control data are temporarily stored in RAM 12 through line 25. Also, line connection pattern data is loaded from PROM 11 via line 24, and line 2
This pattern data is temporarily stored in the RAM 13 via 6.

Thereafter, a line connection command is sent from the host system 1 to the common controller 6 via the line 14 → driver/receiver 3 → line 18 → PIO unit 5 → line 20, and at the same time, the host system From 2, line 15 → driver/
A line connection command is sent to the common control unit 6 via the path of receiver 4 → 15119 → PIO unit 5 → line 20.

These line connection commands sent from the host systems 1 and 2 are equivalent to address commands for reading line connection pattern data temporarily stored in the RAM 13.
Therefore, corresponding line connection pattern data is read out from the RAM 13 via the line 26 in accordance with each address command information from the host systems 1 and 2.

The read pattern data is read by the common III control section 6, all communication times to numbers of the group constituting this pattern data are specified, and the corresponding line switching sections are controlled via the line 21 and the PI0 section 7. The communication lines specified by each host for host systems 1 and 2 are connected to the corresponding hosts via lines 16 and 17.

When the data processing situation changes in each host system and a change in connection of the communication line becomes necessary, different address command information is generated from the host system. The common control unit 6 that received this address command information stores the RAM1
3, the line connection pattern data corresponding to this address is read out and interpreted. In this way, all communication lines of the group to be reconnected are specified and these lines are connected to the host system.

With the above configuration, according to the present invention, connection pattern data indicating the expected interconnection mode between the host system and each of the plurality of communication lines is stored in the memory in advance. The necessary connection pattern data is read from this memory according to the data processing status of the host system, and the connection pattern with the communication line is determined according to this pattern data, so the load on the line is efficiently distributed. This has the effect of reducing line switching time. As a result, it becomes possible to easily construct an efficient multi-system online system.

[Brief explanation of the drawing]

The figure is a system block diagram of an embodiment of the present invention. Explanation of symbols of main parts 1.2...Host computer system 6...
...Common control section 8.9...Line switching section 10-13...Memory

Claims (1)

[Claims] A line connection method for interconnecting a host system and a plurality of communication lines, wherein connection pattern data indicating a predicted mode of interconnection between the host system and each of the communication lines is provided in advance. The connection pattern data is stored in a storage means, the connection pattern data is read from the storage means according to the data processing status in the host system, and the connection pattern data between the host system and the communication line is determined according to the read connection pattern data. A line connection method characterized by controlling interconnection.