KR100299145B1 - Method for using switch bandwidth in atm exchange system and apparatus therefor - Google Patents

Abstract

According to the present invention, a subscriber matching device that performs an access function with an actual user also adds some bonding functions to the switch port of the switch module and the subscriber matching device similarly to the control system module to connect to the CMDA which is the control system module matching device. Thus, by sharing the switch port of the switch module, it is possible to utilize the previously wasted bandwidth of 100Mbps or more.

Description

TECHNICAL FIELD AND APPARATUS FOR SWITCHING OF SWITCH BAND IN Asynchronous Transfer Mode Switch

The present invention relates to an asynchronous transfer mode (hereinafter referred to as an 'ATM') switch, and more particularly, to a method and apparatus for utilizing a switch band of a switch module connected to a subscriber matching device.

The system structure of ATM switch is basically composed of ATM Local Switching Subsystem (ALS) and ATM Central Switching Subsystem (ACS). ALS is a subsystem that connects, handles calls, and maintains various speeds of subscriber ports. It can accommodate STM (Synchronous Transfer Module) class 1 32 ports and operates as a concentrator with ACS and constant condensation ratio. It is possible. The ACS acts as a distribution device that is responsible for the interconnection function between the ALSs.

The system structure of such an ATM exchange is disclosed in detail on pages 324 to 227 and 342 to 345 of the book titled 'ATM Exchange' published by the Korean Institute of Communication Sciences on November 9, 1996. Structure drawings are shown on pages 326 and 344. In addition, the structure of such an ATM exchange system is disclosed in detail in Korean Patent Publication No. 1999-002949 (name of the invention: a method for constructing a control system in an ATM switch) published on January 15, 1999.

The control system module in the ATM switch is responsible for call connection processing and operation management of the ATM switch, and includes the ACS Access Switching Control Module (ASS) and ALS Operation and Maintenance Control Module (OMCM). The control module of the ATM switch does not have a separate path for communication with other control modules and other operation modules, and occupies one switch port of the switch module that becomes a user data transmission path. All switch ports in the switch module are implemented to handle 155Mbps data.

On the other hand, the bandwidth required for communication between modules in an ATM switch does not exceed 10Mbps based on 1: 1 communication. Therefore, a large part of the band allocated to the control system module is not used and is wasted. In order to minimize this waste, a cell multiplexer / demultiplexer (hereinafter referred to as CMDA or CMDH), which performs switch port connection between a plurality of control system modules and a switch module, is referred to as 'CMDA'. Four different control module modules are connected at the same time to use cell multiplexing and demultiplexing functions. In other words, the CMDA is located in the ALS or ACS to match an IPC (Inter Processor Communication) cell and a signal cell by matching a switch module with a CCCP (Call Connection Control Processor) block, an OMP (Operation and Maintenance Processor) block, etc. It distributes test cells. Korean Patent Laid-Open Publication No. 1999-002949 also discloses an ATM switch system in which one port is allocated from an ALS and a Call Connection Control Processor (CCCP) is connected through a CMDA.

However, even if the CMDA simultaneously connects four control system modules at a maximum of 10Mbps, the bandwidth above 100Mbps is actually wasted.

Accordingly, an object of the present invention is to provide a method and apparatus for efficiently utilizing a switch band of a switch module connected to a subscriber matching device in an asynchronous transmission mode switch.

In accordance with the above object, the present invention provides a subscriber matching device that performs an access function with a user, a control system device for call processing and operation maintenance, switching between the subscriber matching device and the control system device, and switching between other sub-systems. In the method of utilizing a switch band in an asynchronous transmission mode switch having a switch device that is in charge of the control device, and a control device device matching device that is connected between a plurality of control system devices and the switch device and performs cell multiplexing and demultiplexing for matching the control system devices. And forming a first path between the subscriber matching device and the switch device and a second path between the subscriber matching device and the control system device matching device, and the internal cell processed by the subscriber matching device by the subscriber matching device. According to the function of the inner cell to the first path or the second path Selectively transmitting the control system matching device and the switch device to the control system matching device and the switch device, and multiplexing the internal cells received through the second path by the control system matching device and the cells of the control system device to the switch device; Characterized in that made.

1 is a block diagram illustrating a switch band utilization in an asynchronous transmission mode switch according to an embodiment of the present invention;

2 is a view for explaining a process performed in the subscriber matching apparatus of FIG. 1 to utilize a switch band;

3 is a detailed block diagram of a subscriber matching device of FIG.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a block diagram illustrating a switch band utilization in an asynchronous transmission mode switch according to an exemplary embodiment of the present invention.

In an embodiment of the present invention, as shown in FIG. 1, the subscriber matching device 10 that performs an access function with an actual user also has a subscriber port matching with the switch port of the switch module 12 similarly to the control system module 16. Some bonding functions are added to the device 10 to connect to the CMDA 14 which is a control system module matching device. That is, a path 20 is formed between the CMDA 14 and the subscriber matching device 10, and the path 20 is partially joined to the path 19 between the switch port of the switch module 12 previously formed and the CMDA 14. To be controlled. So, by sharing the switch port of the switch module 12 can utilize the bandwidth of more than 100Mbps previously wasted. In FIG. 1, the path 18 between the subscriber matching device 10 and the switch module 12 and the path 19 between the switch module 12 and the CMDA 14 occupy one switch port in the switch module 12. Existing user data transmission path.

FIG. 2 is a view for explaining a process performed by the subscriber matching device 10 of FIG. 1 to utilize a switch band, and FIG. 3 is a detailed block diagram of the subscriber matching device 10 of FIG.

First, the operation in the subscriber matching apparatus 10 will be described with reference to FIG. 3. The physical layer interface unit 32 receives various frame signals provided from the physical layer unit 30, processes various maintenance signals included in the overhead of the frame, extracts an ATM cell, and transfers the ATM cells to the ATM layer processing unit 34. In addition, the ATM cell received from the ATM layer processor 34 is loaded on the frame, and the frame is delivered to the subscriber with the maintenance signal. If the ATM cell received from the physical layer interface unit 32 is a user cell, the ATM layer processing unit 34 transfers the inner cell to the switch link matching unit 36 by making it an inner cell to which routing information (3 bytes) is added. The internal cell received from the switch link matching unit 36 is converted into an ATM cell and transferred to the physical layer interface 32. In addition, when the ATM cell received from the physical layer interface unit 32 is a signal processing cell or an OAM (Operation Administration and Maintenance) cell, it is transmitted to the control unit 38, and the OAM cell or signal processing cell provided by the control unit 38 is provided. To the physical layer interface 32.

The switch link matching unit 36 converts the internal cells output from the ATM layer processing unit 34 according to the control of the control unit 38 in accordance with the switch internal cell format (add 8 bytes to match the internal format of the switch). The module 12 transmits the cell received from the switch module 12 to the original format, and transfers the cell to the ATM layer processor 34. Under the control of the control unit 38, the internal cell output from the ATM layer processing unit 34 is converted into the internal cell format of the CMDA 14, transferred to the CMDA 14, and received from the CMAD 14. The cell is converted into its original format and transmitted to the ATM layer processor 34. In addition, the internal cell provided by the control unit 38 is multiplexed with the user cell and transmitted to the switch module 12 of FIG. 1, and the internal message cell is transmitted to the control unit 38 among the cells received from the switch module 12.

The controller 38 performs various OAM functions and connection management functions of the subscriber matching device, and communicates with an upper control module through an internal message. In addition, by monitoring the state of the board using the hardware alarm signal to tell the ATM layer processor 34 so that the ATM layer processor 34 performs a function corresponding thereto. In addition, according to an embodiment of the present invention, the path selection control for utilizing the switch band is performed.

According to an embodiment of the present invention, the switch link matching unit 36 of the subscriber matching device 10 is connected to the switch module 12 through the first path 18 and the CMDA 14 through the second path 20. Connected with In addition, the subscriber matching device 10 increases the switch band efficiency of the switch module 12 by performing the steps S100 to S120 shown in FIG. 2. The process S100 of FIG. 2 is an operation performed by the physical layer unit 30, the physical layer interface unit 32, and the ATM layer processing unit 34 of FIG. 3, and the processes S110 to S120 are performed by the controller 38 and the switch link matching unit. It should be understood that the operation is performed at (36). 2 processes the user data received from the subscriber and is transmitted to the switch port of the switch module 12. Therefore, the cell flowing from the switch port of the switch module 12 will be delivered to the subscriber after the reverse process of the process of FIG.

Referring to Figure 2 describes the process performed by the subscriber matching device 10 for the use of the switch band, when the user data flows in the subscriber matching device 10 as in the process S100 physical layer processing, ATM layer processing and physical layer Routing information performed by the interface unit 32, that is, an operation of adding 3 bytes of a routing tag is performed. So it is reassembled into the internal format of the ATM switch (56-byte cell). Then, in step S110, whether the current cell should be transmitted to the switch port of the switch module 12 or directly to the control system module 16 is determined based on the function of the cell. This determination is performed by the controller 38 of the subscriber matching device 10. If the cell is to be transmitted to the switch module 12, the process proceeds to step S120, and after performing the existing internal processing, and transfers the cell to the switch module 12 through the path (18). That is, the switch matching link section 36 adds 8 bytes for the internal format of the switch to 56 bytes of cells, and transfers the 64 bytes of cells to the switch module 12. On the other hand, if the cell to be transmitted to the control system module 16 proceeds to step S130, and performs the added internal processing function and transfers the cell to the switch module 12 via the path (18). In other words, the 56-byte cell is processed by the switch matching link unit 36 to match the CMDA format and transferred to the CMDA 14 through the path 20.

Returning to FIG. 1 again, the CMDA format cell delivered to the CMDA 14 adds 8 bytes for the internal format of the switch in the CMAD 14, and is multiplexed together with the cell delivered by the control system module 16. Is sent to the corresponding switch port of the module 12.

The subscriber matching device 10 according to the embodiment of the present invention is preferably implemented as a subscriber matching device that accommodates 45 Mbps or less, considering that the switch spare band of the switch port connected to the CMDA 14 is 100 Mbps or more. However, it can be used for subscriber matching devices with speeds higher than that.

In the above description of the present invention, specific embodiments have been described, but various modifications may be made without departing from the scope of the present invention. Therefore, the scope of the present invention should not be defined by the described embodiments, but should be determined by the equivalent of claims and claims.

As described above, according to the present invention, the subscriber matching device that performs the connection function with the actual user also adds some bonding functions to the switch port of the switch module and the subscriber matching device similarly to the control system module to connect to the CMDA which is the control system module matching device. . Thus, by sharing the switch port of the switch module, it is possible to utilize the previously wasted bandwidth of 100Mbps or more.

Claims (7)

A subscriber matching device that performs a connection function with a user, a control system device for call processing and operation maintenance, a switching device for switching between the subscriber matching device and a control device and switching between other sub-systems, and a plurality of control systems A method of utilizing a switch band in an asynchronous transmission mode switch having a control device device matching device connected between a device and the switch device and performing cell multiplexing and demultiplexing for control device matching, Forming a first path between the subscriber matching device and the switch device and a second path between the subscriber matching device and the control system device matching device; Selectively transmitting the inner cell to the control system matching device and the switch device through the first path or the second path based on the function of the inner cell processed by the subscriber matching device by the subscriber matching device; , And multiplexing the internal cells received through the second path by the control system matching device and the cells of the control system device and transmitting the multiplexed cells to the switch device. The method of claim 1, Converting the inner cell to the switch internal format by the subscriber matching device before the inner cell is transmitted through the first path; And converting the inner cell to the control system matching device format by the subscriber matching device before the inner cell is transmitted through the second path. The asynchronous transmission according to claim 1 or 2, further comprising converting an internal cell received through the second path according to a switch internal format by the control system matching device before multiplexing the cells. How to use switch band in mode switch. 2. The method of claim 1, wherein the subscriber matching device is a subscriber matching device accommodating a few tens of Mbps bands. A subscriber matching device that performs a connection function with a user, a control system device for call processing and operation maintenance, a switching device for switching between the subscriber matching device and a control device and switching between other sub-systems, and a plurality of control systems A method for utilizing a switch band in an asynchronous transmission mode switch having a control system device matching device connected between devices and the switch device and performing cell multiplexing and demultiplexing for control device matching, Selectively transmitting the inner cell to the control system matching device and the switch device based on the function of the inner cell processed by the subscriber matching device by the subscriber matching device; Converting the transmitted internal cell to a switch internal format by the control system matching device; And converting the cell converted to the internal format of the switch by the control system matching device and the cell of the control system device and transferring the converted cells to the switch device. The method of claim 5, Converting the inner cell to the switch internal format by the subscriber matching device before the inner cell is transmitted to the switch device; And converting, by the subscriber matching device, the internal cell according to the format of the control system matching device before the internal cell is transmitted to the control system matching device. A subscriber matching device that performs a connection function with a user, a control system device for call processing and operation maintenance, a switching device for switching between the subscriber matching device and a control device and switching between other sub-systems, and a plurality of control systems A device for utilization of a switch band in an asynchronous transmission mode switch having a control system device matching device connected between a device and the switch device and performing cell multiplexing and demultiplexing for control system device matching: A first path formed between the subscriber matching device and the switch port of the switch device; A second path formed between the subscriber matching device and the control system device matching device; The subscriber matching device; Receive data from a user and process the data into an inner cell and selectively transmit the inner cell to the control system matching device and the switch device via the first path or the second path based on the function of the processed inner cell; Perform the reverse process, The control system matching device; And multiplexing the internal cells received through the second path and the cells of the control system device to the switch device, and performing the reverse process.