KR20040095026A - Board Location Display Method For System Rack - Google Patents

Abstract

PURPOSE: A method for displaying a board position of a system rack is provided to display a physical position of an optional board according to a board position display operation through IPC(Inter Process Communication) by using an MMC(Man Machine Command), so that an operator can immediately recognize physical positions of boards without accessing system shape information. CONSTITUTION: A system operator inputs a board position display MMC including a logical number assigned to a board by using an operator terminal(S31). An MCP(Maintenance and administration Control processor) receiving the MMC drives an MMC processor for processing the MMC(S32). The MMC processor analyzes the MMC, and obtains an IPC address assigned to the corresponding board(S33). The MMC processor transmits an IPC message for executing a specific board position display operation(S34). The board receiving the IPC message drives an LED driver, so that the LED driver can drive a flickering of a specific LED mounted on the board to visually display a physical position of the board(S35).

Description

Board location display method for system rack

The present invention relates to a system consisting of a plurality of boards, in particular, a board position display method of the system rack so that the operator can recognize the physical location of any board mounted in the corresponding system rack without accessing the system shape information It is about.

In general, when a plurality of boards are mounted in a cabinet-shaped rack frame such as an exchange system to configure a single system, in operation and management of the system, each board has a physically mounted position. It is assigned a logical number rather than being accessed and managed.

In addition, referring to the above-described system rack, one or more shelf (Shelf) is configured in one system rack, a slot is provided in the shelf so that a plurality of boards for performing various functions can be mounted It is.

If you want to know the physical location of any board mounted in such a conventional system rack, access the shape information DB (DataBase) using the logical number assigned to the board, the rack on which the board is physically mounted The physical location information of the rack / shelf / slot is obtained, and the physical location of the board mounted in the system rack can be recognized.

For example, in the case of a subscriber board mounted in a conventional switching system, a plurality of subscriber boards of the same type may be mounted according to system capacity, and each subscriber board has a specific logical number to perform various functions such as resource allocation. In this case, if the boards that are numbered by logical numbers are actually identified with the physically mounted positions, and the physical state of the boards, for example, LED (Light Emitting Diode) or external phenomenon, is determined, The actual physical position must be found with the board position information obtained by accessing the geometry information DB.

That is, when a specific board is to be found in a rack frame of a conventional exchange system as shown in FIG. In this case, by executing the shape related application in the maintenance & administration control processor (MCP) processor, the configuration information DB is accessed using the logical number received from the operator, and thus the board position information corresponding to the logical number is extracted. By outputting the extracted board position information to the operator terminal, the system administrator finds the actual position of the specific board that the system operator wants to find according to the rack / shelf / slot configuration of the system.

As described above, in operation and management of an exchange system, a rack / shelf / slot number, which is physical location information of a corresponding board, is required in order to determine locations of boards mounted in a system rack. In order to get the data, it is troublesome to find the logical number of the board and access the geometry information DB. Also, to determine the actual board position with the rack / shelf / slot number, the physical position information obtained by accessing the geometry information DB. In order to solve the problem, an inefficient procedure for the system operator to directly examine the actual shape of the system was required.

The present invention is to solve the problems as described above, the purpose is to display the physical location of any board mounted in the system rack through the board position display operation such as LED flashing as MMC command and IPC message It is.

Another object of the present invention is to display the physical position of any board mounted in the system rack through a board position display operation, such as LED flashing, so as to handle the status of the boards, change, addition, etc. The physical location (ie rack / shelf / slot number) can be immediately recognized by the operator, which makes it easier for the operator to maintain and manage the system.

1 is a view schematically showing a configuration relationship for locating a specific board mounted on a rack frame in a conventional exchange system.

2 is a view schematically showing a configuration relationship for indicating the board position mounted in the system rack in the present invention.

3 is a flowchart illustrating a board position display operation of a system rack according to the present invention.

4 is a diagram illustrating a configuration of a general system rack.

5 is an exemplary view for explaining a board position display method of the system rack according to the present invention.

Explanation of symbols on the main parts of the drawings

10: operator terminal 11: HMI interface

20: MCP processor 21: MMC processing unit

31: LED driver

A feature of the present invention for achieving the above object is the process of receiving a board position indication MMC command including the logical number of the board in the MCP processor; Obtaining an IPC address assigned to a corresponding board using a board type and a logical number included in the MMC command; The present invention provides a method for displaying a board position of a system rack including transmitting a IPC message for performing a board position display operation to the obtained IPC address and visually displaying a physical position of a corresponding board.

Here, the board position display MMC command, the type of the board to display the physical location, the logical number assigned to the board, the command for performing a specific display operation for recognizing the position of the board and the execution time of the operation And an input parameter.

In addition, the process of visually displaying the physical position of the board, by driving a specific LED mounted on one side of the board flashes at the time of performing the required board position display operation in accordance with the IPC message to perform the board position display operation It displays the physical location of the board.

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

In the present invention, if you want to find any board position mounted in the system rack using the logical number assigned to the board and the Man Machine Command (MMC) command LED blinks to the board currently looking for through IPC (Inter Process Communication) By performing a specific display operation, such as, it is possible to immediately recognize the physical position of the board that the system operator is looking for without accessing the shape information DB or looking at the actual shape of the system.

Thus, the configuration for displaying the board position mounted in the system rack as shown in the accompanying drawings, Figure 2, the operator terminal 10 to provide an operator interface for managing the status of each board mounted in the system rack, MMC processing unit 21, which is an application program loaded in the MCP processor 20, which is a physical processor implemented in the system, receives and processes MMC commands from the operator terminal 10, and a firmware block in the processor of each board mounted in the system. Implemented to control the LED driving unit 31 to drive the LED has a configuration that interlocks with each other.

The operator terminal 10 provides an HMI interface 11 and receives an MMC command including a logical number of a board for which a physical location is to be determined and transmits the received MMC command to the MMC processor 21 in the MCP processor 20. In this case, the MMC The command serves as an interface to the system for the operator. It is composed of two or more Verbs and Nouns (for example, 'Verb-Noun-Noun') and identifies a number of input parameters, ie physical locations. It includes parameters such as the type of board, a logical number assigned to the board, a command for performing a specific display operation such as blinking an LED for recognizing the position of the board, and an operation execution time.

The MMC processor 21 analyzes an MMC command for locating a board transmitted from an operator terminal 10 and performs an IPC message for performing a specific display operation such as LED blinking to a board corresponding to a logical number included in a corresponding MMC command. To pass.

The LED driver 31 flashes and drives a specific LED mounted on the board according to the IPC message transmitted from the MMC processor 21 for the required specific time (operation time received as a parameter when the MMC command is input). Visually mark the location of the

The physical position display operation of the board mounted in the system according to the present invention based on the configuration as described above will be described with reference to FIG.

First, the system operator (or administrator) needs to know the physical location of the board in order to check the status of the board physically mounted on the system, change, add, etc. For this purpose, the operator terminal 10 must first be identified. The board position indication MMC command including the logical number assigned to the board is inputted (step S31).

In this case, the operator terminal 10 provides the HMI interface 11 and receives the corresponding board position indication MMC command and then transfers it to the MCP processor 20 which is a physical processor implemented in the system. The MMC command includes parameters such as the type of board for which the physical location is to be determined, the logical number assigned to the board, the command for performing a specific display operation such as blinking an LED for recognizing the location of the board, and the time for performing the operation. do.

In addition, the MCP processor 20 receiving the board position indication MMC command from the operator terminal 10 drives the MMC processor 21, which is an application program for processing the corresponding MMC command, (step S32). (21) analyzes the board position indication MMC command and obtains the IPC address assigned to the corresponding board in the system configuration using the board type information and the logical number included in the corresponding MMC command (step S33). A board having an address, that is, a board having a logical number included in an MMC command, transmits an IPC message to perform a specific board position display operation such as LED blinking at a specific operation execution time (step S34).

Then, the board receiving the IPC message is driven by driving the LED driver 31, so that the specific LED (typically mounted on the front of the board) mounted on one side of the board according to the IPC message in the LED driver 31 board position required By blinking and driving at the display operation time, the physical position of the board is visually displayed (step S35). This allows the system operator to recognize the physical position of the board by seeing the blinking LED of a specific board. .

For example, as illustrated in FIG. 4, two shelves (up / down) are configured in one system rack, and 14 slots (slots 0 to 13) capable of mounting an arbitrary board on each shelf are provided. ), The corresponding system has different slots according to the size of each board, and boards mounted in each slot, for example, subscriber boards may be of the same type, and boards having different functions may be mixed, but physically Consists of the same size and shape.

And, as shown in FIG. 4, each subscriber board does not have to be logically mounted in sequence as shown in FIG. 4, and therefore, in order to find a physical location with a logical number assigned to each board in a system in which multiple subscriber boards are mounted, rack / Although shelf / slot numbers are required, the present invention uses the logical numbers and MMC commands assigned to each board to control the blinking of a particular board's LEDs through IPC communication to instantly locate the physical location of a particular board the system operator is looking for. Can be recognized.

For example, in the exemplary drawing for explaining a board position display method of a system rack according to the present invention as shown in FIG. 5, the physical position of the board is provided through the HMI interface 11 provided by the operator terminal 10. The board position indication MMC command inputted for identification has the form 'TEST-IM: IM_A, 1, 5;'. Looking at each input parameter, 'IM_A' indicates that the type of board 'A' means, '1' means the logical number of the board, '5' means the execution time to flash the specific LED mounted on the board for 5 seconds.

In addition, in order to control LED blinking of a specific board through IPC communication without accessing the shape information DB, an IPC address allocated to a corresponding board must be obtained, which is obtained by the MMC processor 21 implemented in the MCP processor 20. Location Mark It is obtained by using board type information and logical number included in MMC command. For example, the IPC address 'Addr [logical number]' of board type A is obtained using '0x1000000 + logical number * 0x1000000'. At this time, the IPC address of the board is not defined separately to process the MMC command, but is set at system structure definition (define), the address is fixed according to the type of board and the logical number of the board.

Subsequently, by requesting to drive a specific LED flashes during the required operation time through the IPC communication using the IPC address '0x1000000 + logical number * 0x1000000' obtained above, the LED driver 31 in the board is a specific LED By blinking and displaying the board position, the system operator can find the physical location of the board he is looking for by looking at the blinking LED of a specific board without accessing the shape information DB or looking at the actual shape of the system.

In addition, in the MMC processing unit 21 in the MCP processor 20, as described above, assuming that there is a board type B that is dependent on the board type A, the board type B is assumed to be dependent on the board type A. IPC address can be obtained by using '0x10000 * ((0x100 * (Logical Number of Board A + 1)) + (0x10 * (Logical Number of Board B) + 0x8)').

On the other hand, the embodiment according to the present invention is not limited to the above, it can be carried out by various alternatives, modifications and changes within the scope apparent to those skilled in the art with respect to the present invention.

As described above, the present invention mounts the physical location of any board mounted in a system rack to a board through IPC (Inter Process Communication) using a logical number assigned to the board and a Man Machine Command (MMC) command. By displaying through the board position display operation such as LED blinking, the physical position of the boards (ie rack / shelf / slot number) without accessing the system shape information in the process of checking, changing and adding the board status ) Can be immediately recognized by the operator, which makes it easier for the operator to maintain and manage the system.

Claims (3)

Receiving and analyzing a board position indication MMC command including a logical number of a board in an MCP processor; Obtaining an IPC address assigned to a corresponding board using a board type and a logical number included in the MMC command; And displaying a physical position of a corresponding board visually by transmitting an IPC message for performing a board position display operation to the obtained IPC address. The method of claim 1, The board position display MMC command may include a type of a board for which a physical position is to be displayed, a logical number assigned to the board, a command for performing a specific display operation for recognizing the position of the board, and an input execution time for the operation execution time. Board position display method of a system rack comprising a. The method of claim 1, The process of visually displaying the physical location of the board, in accordance with the IPC message to perform the board position display operation, the LED driver to drive a specific LED mounted on one side of the board flashes at the time of performing the required board position display operation Method of displaying the board position of the system rack, characterized in that it displays the physical location of the board.