KR100238749B1 - Auto configuration changing apparatus for module type system - Google Patents

Abstract

The present invention is a module (Module) and a sub-module (Sub) when using a system of a module type type consisting of various combinations of a main module and a plurality of sub-modules (Sub-Module) For the system of module type to automatically process without any action for the new configuration when the combination of module is changed during operation. It is about an auto-configuration changer.

To this end, the present invention relates to whether the first to third submodules, the main module, the first to third submodules are inserted or deleted, and the current first inserted when the first to third submodules are inserted into the main module. First to third registers storing board characteristics of the third to third sub-modules, a state latch indicating an environment value of a previously stored previous state of the first to third registers when the system is reconfigured, and a previous environment of the state latch And a comparator for comparing the value with the environmental value of the current state of the first to third registers to detect that the configuration of the system has changed.

Description

Auto-Configuration Changer for Modular Type System

The present invention relates to an auto-configuration changer for a system of a modular type, and more particularly to a main module and a plurality of sub-modules. When using a system of a modular type composed of various combinations, when a combination of a module and a sub-module is changed during operation, a new environment ( This is to automatically process without any action.

As shown in FIG. 1, the apparatus for changing an environment for a system of a conventional module type is a main module and a plurality of sub-modules. In the system of a modular type consisting of various combinations of the first to third sub-modules (1) and the main module (4).

The operation of the apparatus for changing an environment (Auto-Configuration) for a system of a conventional modular type configured as described above is as follows.

When a sub-module is pulled out or inserted in a system of a module type type including the first to third sub-modules 1 and the main module 4 The operation of is as follows.

First, the power supplied to the first to third submodules 1 and the main module 4 is turned off to change the system configuration.

Then, the first to third submodules 1 are newly extracted or inserted into the main module 4.

Thereafter, hardware setting is performed for a new configuration.

When the new configuration is set in hardware, the power is supplied.

In addition, the system (System) performs the operation according to the new configuration (Configuration).

However, such a system (Auto-Configuration) changer for the system of the modular type (Type) is the system (System) because the power must be turned off during the reconfiguration of the system (System) Service should be interrupted, but in case of network equipment, it should cause any problem because it should always operate without interruption of service.

In addition, when changing the system to a new configuration, there is an inconvenient problem in that setting of hardware or software should be performed at that time.

Therefore, the present invention is a module (Module) and a sub-module (Module) when using a system (Module) type type system composed of various combinations of the main module (Main Module) and several sub-modules When a combination of Sub-Modules needs to be changed during the operation state, a system of module type type to automatically process without any action for a new configuration is needed. Its purpose is to provide an auto-configuration changer.

1 is a configuration diagram of an apparatus for changing an environment (Auto-Configuration) for a system of a conventional modular type.

2 is a configuration diagram of an auto-configuration changing device for a system of a modular type according to the present invention.

3 is a detailed block diagram of FIG.

<Explanation of symbols for main parts of drawing>

101 to 103: first to third sub-module 104: main module

105 to 107: First to third register 108: State latch

109: comparator

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram of an apparatus for changing an auto-configuration for a system of a modular type according to the present invention. The first to third sub-modules 101 to 103 are shown. ), The main module 104, whether the first to third sub-modules 101 to 103 are inserted or deleted, and when the first to third sub-modules 101 to 103 are inserted into the main module 104. First to third registers 105 to 107 which store the board characteristics of the current inserted first to third sub-modules 101 to 103 and the first to third registers 105 to 107 upon system reconfiguration. A state latch 108 indicating an environment value of a predetermined previous state of the state 107 and a previous environment value of the state latch 108 and an environment value of the present state of the first to third registers 105 to 107 are compared. It consists of a comparator 109 for detecting that the configuration of the system has changed.

Referring to Figure 3 attached to the operation and effect of the present invention configured as described above is as follows.

First, the first to third sub-modules 101 to 103 are newly extracted or inserted into the main module 104.

Then, the first to third registers 105 to 108 in the main module 104 determine whether the first to third submodules 101 to 103 are inserted or deleted, and the first to third submodules 101 to 103. In the case of inserting the main module 104 into the main module 104, the board characteristics of the current first to third sub-modules 101 to 103 inserted are determined.

That is, the first to third registers 105 to 108 in the main module 104 store the previous environment value in advance in case the first to third submodules 101 to 103 are deleted. The environment value is output to the comparator 109 according to the control signal to the connected central processing unit.

In addition, when the first to third sub-modules 101 to 103 are newly inserted, the first to third registers 105 to 108 in the main module 104 identify their current environment and recall the current environmental characteristic values. The comparator 109 outputs the control signal to the connected central processing unit.

In addition, the state latch 108 outputs the previously stored environment values of the first to third registers 105 to 107 to the comparator 109 according to a control signal to the connected central processing unit when the system is reconfigured. Done.

Then, the comparator 109 stores the environment values of the previously stored previous states of the first to third registers 105 to 107 output from the state latch 108 and the newly inserted first to third registers 105 to 107. When the current environment characteristic value is changed and a change occurs, an interrupt is generated to inform the central processing unit of the change status of the system.

Referring to Figure 3 in more detail as follows.

First, the register unit 110 of the main module 104 grasps and stores an environmental state of the first to third submodules 101 to 103 and outputs the same to be read by the central processing unit 111. (CPU-DATA Read).

Then, the central processing unit 111 outputs a signal (CPU-DATA Write) for storing the environmental state data (CPU-DATA Read) output from the register unit 110 in the state latch 108.

Here, the register unit 110 is constituted by the first to third registers 105 to 107.

Thereafter, the first to third sub-modules 101 to 103 are newly extracted or inserted into the main module 104.

Then, in the register unit 110 of the main module 104, whether the first to third submodules 101 to 103 are inserted or deleted, and the first to third submodules 101 to 103 are the main module 104. In this case, the board characteristics of the current first to third sub-modules 101 to 103 inserted are determined.

That is, the register unit 110 of the main module 104 stores the previous environment value in advance in case the first to third sub-modules 101 to 103 are deleted, and stores the stored environment value in the connected center. The output is output to the state latch 108 according to the control signal of the processing apparatus 111.

In addition, if the first to third sub-modules 101 to 103 are newly inserted, the register unit 110 in the main module 104 may grasp their current environment and output the current environment characteristic value to the comparator 109. do.

In addition, the state latch 108 compares an environment value of the previously set state of the register unit 110 with a current environment state value output from the first to third sub-modules 101 to 103 during system reconfiguration. In order to output to the comparator 109.

Then, the comparator 109 stores the environment values of the previously stored previous states of the first to third registers 105 to 107 output from the state latch 108 and the newly inserted first to third registers 105 to 107. When a change occurs by comparing the current environment characteristic value, an interrupt is generated to inform the central processing unit of the change status of the system.

As described above, the present invention is a module when using a system of a module type type composed of various combinations of a main module and a plurality of sub-modules. When the combination of and sub-module is changed during the operation state and needs to be configured, there is an effect that it can be processed automatically without any action for the new configuration.

Claims (1)

Whether the first to third submodules 101 to 103 are inserted or deleted, and the current first to third submodules inserted when the first to third submodules 101 to 103 are inserted into the main module 104. First to third registers 105 to 107 storing board characteristics of 101 to 103, and previously stored environment values of the first to third registers 105 to 107 upon system reconfiguration. A comparator for detecting that the configuration of the system has been changed by comparing the state latch 108 indicating the state and the environment value of the current state of the first to third registers 105 to 107 with the previous environment value of the state latch 108 ( Auto-configuration changing device for a modular type system, characterized in that configured to include.