KR19980036706A - Call Processing Module (CPM) Redundancy Unit of ATM Switching System - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Call Processing Module Redundancy of ATM Switching System

2. The technical problem to be solved by the invention

In the call processing module applied to the conventional ATM exchanger, if the CPM fails, the entire system becomes inoperable and the state of each board is impossible to check and control.

3. Summary of Solution to Invention

A switching module 7 for transmitting ATM chips obtained from a plurality of rimboards on one side to the call processing module and switching the ATM chips processed in the call processing module to other rimboards; The redundant call processing module unit 80 connected to the switching module 7 controls the exchange of information related to the setup and transfers to the call processing module 82 which is waiting when a failure occurs in the call processing module 81 in operation. It is characterized by consisting of.

4. Important uses of the invention

It is applied to redundancy of call processing module in ATM switch.

Description

Call Processing Module (CPM) Redundancy Unit of ATM Switching System

In general, the ISDN ATM exchanger integrates the existing line mode digital and packet mode communication schemes, loads the information signal on the ATM 을, forms a virtual channel, and then transfers the information.

A call processor module (CPM) applied to such an ATM exchanger controls signaling, subscriber number registration, and information exchange functions related to setup by interfacing with a line interface module (LIM) in the ATM layer. .

The main functions of the call processing module (CPM) include the function of initializing the entire system by processing the setup signal and the user confirmation signal from each lim board, and controlling the switching module (SWM). Function to make it happen.

However, when the conventional call processing module CPM fails, the entire system becomes inoperable. Also, since the call processing module does not have a function to control each board, it is impossible to check and control the state of each board. There was also.

Here, when the call processing module checks and controls the state of each board, it is possible to reduce the overload of the rim board and to efficiently manage the entire system.

Therefore, the present invention has been proposed to solve the above problems of the conventional call processing module, and an object of the present invention is to improve the efficiency and quality of the system by improving the call processing module to control the system in the call processing module. The present invention provides a call processing module redundancy device of an ATM exchanger to improve the safety of a system by redundancy of a call processing module in preparation for a failure.

Technical means for achieving the object of the present invention, the switching module for transmitting the ATM 얻어지는 obtained from a plurality of rimboards on one side to the call processing module and switching the ATM 된 processed in the call processing module to another rimboard and; It is composed of a redundant call processing module connected to the switching module to control the exchange of information related to the setup and to switch over to a waiting call processing module when a failure occurs in an active call processing module.

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

1 is a block diagram of a call processing module redundancy block of an ATM switch system according to the present invention;

2 is a detailed block diagram of a call processing module applied to FIG.

* Description of the symbols for the main parts of the drawings *

7: switching module 80: call processing module

81: first processing module 82: second processing module

1 is a block diagram of a call processing module redundancy block of an ATM switch system according to the present invention.

As shown, a video terminal adapter (1) for interfacing the subscriber's video, a plurality of digital terminal adapters (2) (3) connected to a telephone to interface the subscriber's voice data, and the video terminal adapter (1). And the first to third line interface modules 4-6 connected to the digital terminal adapters 2 and 3 to perform a line interface, respectively, and the first to third line interface modules 4-6, respectively. The fourth to fifth line interface modules 9 connected to other subscribers by transmitting the obtained subscriber data to the redundant call processing module unit 80 and switching the ATM chips processed by the duplicated call processing module unit 80 ( 10) and a switching module 7 which transmits to the switching module 7, which is connected to the switching module 7 to control the exchange of information related to the setup, and when the call processing module in operation fails, the waiting call processing module It consisted of a call processing module unit 80 for performing redundancy switching.

In the above, one call processing module 81 in the call processing module 80 has a clock generator 81a for generating an operating clock of the system and the call processing module as an initial value, as shown in FIG. The initialization unit 81b for initializing and the modified routing tag of the ATM 얻어지는 obtained through the VME bus 81c are transferred to the microprocessor 81d, and the local RAM 81e is controlled by the microprocessor 81d. An adaptation layer controller 81f for inserting new virtual path identification number / virtual channel identification number information and routing tag information into the payload portion of the ATM cell based on the stored data table to form an internal packet, and through the VME bus 81c A board state detection and control unit 81i for enabling data communication with an interface module and detecting and controlling the states of respective boards under the control of the microprocessor 81d; The bus processor 81h decodes the address of the VME bus 81c, controls the status register, and handles interrupts and data buses under the control of the processor 81i, and each detected by the board state detection and controller 81g. A board state monitoring unit 81i for monitoring a board state, a call processing module switching unit 81j for performing a transfer to a call processing module that is waiting when a call processing module in operation is operated under the control of the microprocessor 81d; And a reset unit 81k for system reset, a local ROM 81m in which a program for operating the microprocessor 81d is stored, and a stream stream 81n.

Referring to the operation of the call processing module duplication apparatus of the ATM switch according to the present invention configured as described above is as follows.

First, the image data transmitted from the pressurized paper is interfaced to the line interface module 4 through the video terminal adapter 1, and voice digital data such as a telephone is passed through the digital terminal adapter 2 and 3, and then the line interface module. (5) (6).

The ATM 인터페이스 respectively interfaced to the line interface module 4-6 is switched by the switching module 7 to the call processing module 80, and the call processing module 80 is activated call processing module 81. In the following example, the modified routing tag is controlled to control information related to the setup.

That is, the activated call processing module 81 loads the new virtual path identification number / virtual channel identification number information and the routing tag information into the payload portion of the ATM 을 to make an internal packet for retransmission to the switching module 7 described above. Then, the switching module 7 transmits to the line interface module (9) 10 of the subscriber side to be switched to receive the transmission.

Here, the call processing module unit 80 is composed of an active call processing module 81 and a standby call processing module 82 to replace the function when a failure occurs in the active call processing module 81.

In this case, the internal configuration of each of the duplicated call processing module is the same as the configuration of FIG. 2 described above, and the operation of the activated call processing module 81 will be described as follows.

That is, when power is supplied to the call processing module, the initialization unit 81b initializes the board itself to an initial value obtained from the microprocessor 81d.

In this state, the clock generator 81a generates a clock required by the call processing module using an internal clock oscillator and supplies it to each part. The ATM chip through the switching module in the rim board is connected to the VME bus. When it arrives, this ATM packet is delivered to the adaptation layer controller 81f in a packet stream. The adaptation layer controller 81f then converts the ATM 쎌 into a general one, extracts the modified routing tag, and delivers the modified routing tag to the microprocessor 81d.

Accordingly, the microprocessor 81d retrieves the modified routing tag, retrieves the data table stored in the local RAM 81e, and delivers the data table to the adaptation layer controller 81f. The adaptation layer controller 81f transmits the data table. According to the new virtual path identification number (VPI) / virtual channel identification number (VCI) information and routing tag information in the payload portion of the ATM 전송 retransmitted to the VME bus (81c) as an internal packet to the rimboard . Meanwhile, the board state detection and control unit 81g performs various operations for communicating with a board on which a microprocessor is mounted. The board state detection and control unit 81g includes an address / data decoder for decoding an address / data; It consists of a VME master controller and a local bus arbiter that arbitrates the local bus, enabling data communication with the rimboard through the VME bus 81c, and detecting the state of each board to control the microprocessor 81d. By controlling each board.

The state of each of the boards detected above is monitored by the board state monitoring unit 81i. At this time, if a failure occurs in the call processing module in motion, the call processing module switching unit 81j is under the control of the microprocessor 81d. The call processing module 82 is transferred.

The bus processing unit 81h decodes an address or controls a status register, and serves to process an interrupt or a data bus.

As described above, the present invention can switch to a waiting call processing module when an unexpected failure occurs in a currently operating call processing module, thereby enabling continuous service of data, thereby improving reliability and safety.

In addition, since the ability to communicate with each other between the boards is added, there is an effect that can detect and control the state of the other boards in operation.

In addition, since the entire system can be controlled by the call processing module, the performance of the system can be improved.

The present invention relates to a call processing module of an ATM exchange for an ISDN, and in particular, by improving the call processing module to control the entire system from the call processing module, to improve the efficiency and quality of the system and to duplicate the call processing module in case of failure. The present invention relates to a call processing module redundancy device of an ATM exchanger to improve the safety of the system.

Claims (1)

In the call processing module of the ATM switch, which functions to initialize the whole system by processing setup signals and user-defined signals from each LIM board and to control the switching module (SWM) to be internally switched. In A switching module (7) for transmitting ATM chips obtained from a plurality of rimboards on one side to the call processing module and for switching the ATM chips processed in the call processing module to other rimboards; The redundant call processing module unit 80 connected to the switching module 7 controls the exchange of information related to the setup and transfers to the call processing module 82 which is waiting when a failure occurs in the call processing module 81 in operation. Call processing module duplication apparatus of the ATM switch, characterized in that configured to include.