KR100231458B1 - Board control method using generic flow control in atm switch - Google Patents

Abstract

The present invention relates to a method for controlling a board in an ATM switch using a general flow control (GFC), and transmits a cell by writing a predetermined value in a general flow control area when transmitting information from one board mounted on a backplane to another. And processing the information by checking whether the boards receiving the transmitted cells are general data or control information by inspecting a general flow control region, thereby improving hardware count and complexity.

Description

Board control method in ATM switch using general flow control (GFC).

1 shows the structure of an exchanger.

2 illustrates a logical configuration of a backplane.

3 is a diagram showing a cell shape of an asynchronous transmission mode.

* Explanation of symbols for main parts of the drawings

1: backplane 2: function board

3: data bus 4: control bus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for controlling a board in an ATM exchange using a general flow control (GFC). In particular, the present invention relates to a general flow control (GFC) for transmitting control information on a backplane of an ATM exchange using a cell transfer bus. The present invention relates to a board control method in an ATM switch.

In general, Asynchronous Transfer Mode (ATM) is a technology for switching a fixed cell of 53 bytes for information transfer. It provides a transmission rate of several tens of Mbps to several Gbps and provides video, voice, and data communication. This method can be multiplexed using one connection line.

Here, the cell is composed of a 5-byte header and a 48-byte payload, and the channel setting or clearing for transmitting a cell is performed by a virtual path identifier (VPI) and a virtual channel identifier in the cell header. (VCI), where the virtual path identifier and the virtual channel identifier are logical channel numbers used for cell identification and routing. The channel number is allocated by a subscriber or a network negotiated between the network and the subscriber, the network and the subscriber during signaling, and made of a combination of bits specified in the cell header format except for a few values used for a special purpose. Losing is a sequential value.

Conventional exchanges are made of independent boards separated by function, and the back-plane of the exchange includes a data exchange bus for exchanging data at high speed, and a control bus for controlling each board. It consists of. In an exchange for asynchronous transfer mode, this data exchange bus becomes the cell bus. In order for the exchange of this structure to operate at a high speed, a high-speed cell bus is mounted on the backplane. In addition, a separate control bus for control is used to control boards mounted on the backplane. In addition, since the control bus mounted on the backplane is a bus only for control that is not directly related to data transmission, there is a problem in that the number of hardware elements is increased and the structure is complicated.

In order to solve the above problems, an object of the present invention is to insert a control cell into a cell bus without using a control bus separately, and to use only the inside of an exchange to simplify a backplane.

In order to achieve the above object, the present invention provides a method of transmitting a cell by writing a predetermined value in a general flow control area when transmitting information from one board mounted on a backplane to another board, and the boards receiving the transmitted cell. Examining the general flow control area to distinguish whether it is general data or control information, characterized in that it comprises the step of processing the information.

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

FIG. 1 is a diagram showing the structure of an exchanger, and shows that the switchboard is composed of a backplane (1) and a functional board (2) which is used independently by function.

FIG. 2 is a diagram illustrating a logical configuration of a backplane. A back-plane of a switch includes a cell bus 3 for exchanging cells at high speed, and a control bus for transferring respective control information. 4) is shown.

3 is a diagram illustrating a cell shape of an asynchronous transmission mode, and includes a general flow control unit, a virtual path identifier unit, a virtual channel identifier unit, and a payload type. It consists of Cell Loss Priority and Header Error Control, where the general flow control field is not currently defined and is only filled with zeros. Therefore, you can write a non-zero value in this area to send control information to the desired board.

The functional board 2 mounted on the backplane 1 is capable of transmitting and receiving data on the cell bus, so that when one of the functional boards 2 wants to transmit information to the other board, a predetermined value is set in the general flow control area. Send a cell by writing Next, the boards receiving the cell only check the general flow control of the cell to see if it is normal data. The information may be processed by distinguishing whether it is control information. At this time, if the general flow control value is 0, general data is represented, and if 1, control information is represented. Next, when the general flow control is 1, if the virtual path identifier is used as an identifier indicating each board, the board sending control information inserts the identifier number of the receiving board into the virtual path identifier, sets the general flow control to 1, and then Communication between the boards is possible by inserting and transmitting control information promised in the main body.

In addition, as another embodiment of the present invention, the exchanger is composed of a subscriber board, a switching board, a control board, the switching board and the control board has one per one exchanger and has eight subscriber boards so that the general flow control value is 0 If 1 indicates general data and 1 indicates control information. If general flow control is 1, the virtual path identifier is used as an identifier indicating each board. For each board, the control board is 1, the switching board is 2, and the subscriber board is 3-10 times. If the control board is to transmit the control information to the number 5 of the subscriber board, the general flow control is number 1, the virtual path identifier has a number 5 and put the control information in the body of the cell to make and transmit the cell. Subscriber board No. 5 receives this cell, looks at the general control flow, and distinguishes whether it is a data cell or a control cell.

The present invention eliminates the hardware logic for the control bus by not using the control bus on the backplane.

Claims (2)

Transmitting cells by writing a predetermined value in a general flow control area when transmitting information from one of the boards mounted on the backplane to the other boards, and the boards receiving the transmitted cells examine the general flow control area to check general data. A method for controlling a board in an ATM switch using a general flow control (GFC), characterized in that it comprises the steps of processing the information by distinguishing whether it is control information. 2. The board control method according to claim 1, wherein the general flow control value is 0 for general data and 1 for control information.