KR20020000829A - Method for multiplexing in asynchronous transfer mode cell by using first in first out - Google Patents

Abstract

PURPOSE: A method for multiplexing ATM cells using FIFOs(First In First Out) is provided to increase the line efficiency of a transmission network by reading ATM cell data from FIFOs using their control signals according to priority and multiplexing the ATM cell data in accordance with priority. CONSTITUTION: A control signal read block in a multiplexer reads the control signals of FIFOs and transmits them to a signal retrieval block(201). The signal retrieval block checks the storage state of each FIFO using the transmitted control signals(202). The signal retrieval block finds out an FIFO generating an almost full signal, ignoring the other signals according to priority. The signal retrieval block transmits an FIFO data read signal to a data read block in order to read the ATM cell data of the FIFO(203). The data read block reads ATM cell data from the FIFO according to the FIFO data read signal and outputs them to an ATM switch input part(204). Then the signal retrieval block checks the state of the other FIFOs(202). The signal retrieval block finds out an FIFO generating an almost empty signal according to priority and transmits an FIFO data read signal to the data read block in order to read the ATM cell data of the FIFO(205). The data read block reads ATM cell data from the FIFO according to the FIFO data read signal and outputs them to the ATM switch input part(206).

Description

Multiplexing Method of Asynchronous Transfer Mode Cell Using First-in-First-Out {METHOD FOR MULTIPLEXING IN ASYNCHRONOUS TRANSFER MODE CELL BY USING FIRST IN FIRST OUT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of multiplexing a cell using Asynchronous Transfer Mode (hereinafter referred to as ATM) using first in first out (hereinafter abbreviated as FIFO), in particular, a control signal of a FIFO. The present invention relates to a multiplexing method for performing ATM multiplexing processing by reading ATM cell data in each FIFO according to priority.

In general, a multiplexing device refers to a system that combines two or more signals so that they can be transmitted over a single physical line or radio link, and signals that are combined and transmitted (different forms of signals, such as voice, telegraph, and data). ) Generally uses a wide bandwidth and is divided into the original form on the receiving side.

In other words, the term multiplexing is sometimes used in computers as well as communication, in which case several devices can use the computer at the same time. That is, several printers, card readers, or other input / output devices use a computer through one channel. The channel at this time is called a multiplex channel.

In addition, there is a round robin multiplexing method in which data is read from each device according to a time slot as a multiplexing device. However, this sequential connection method performs a process for a predetermined time and stores a current state. In turn, you need to do the following process in the same way and continue to save the current state. In addition, this sequential connection method has a problem that the line efficiency of the transmission network is lowered because the line is continuously occupied so that other lines cannot transmit data even though there is no data to transmit.

Accordingly, an object of the present invention is to solve the above-described problems, and an object thereof is to read ATM cell data in each FIFO according to a priority using a control signal of a FIFO, and then read an ATM cell through a data line. The present invention provides a multiplexing method of an asynchronous transmission mode cell using first-in, first-out to increase the line efficiency of a transmission network by multiplexing and transmitting data according to priority.

In the present invention for achieving the above object, a multiplexing method of an asynchronous transmission mode cell using a first-in first-out method includes reading a control signal of a FIFO from a FIFO and searching for a state of the control signal; Finding an FIFO in an all-most full state that generates an all-most full signal according to priority in the search step, and reading ATM cell data from the FIFO in an all-most full state and outputting the same to an ATM switch input unit; After outputting the ATM cell data in the all-most full state, find the FIFO in the all-most empty state that generates the most empty signal according to the following priority, and then read the ATM cell data from the FIFO in the all-most empty state. And outputting to the ATM switch input; After outputting ATM cell data of all-most empty state, find empty FIFO which generates empty signal according to the following priority, and read ATM cell data from empty FIFO and then switch ATM Outputting to an input unit.

1 is a block diagram for performing a multiplexing method of an asynchronous transmission mode cell using a first in, first out according to the present invention;

2 is a detailed flowchart illustrating a multiplexing method of an asynchronous transmission mode cell using first in, first out according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10-1 to 10-n: Buffer 20: Multiplexer

21: control signal lead block 23: signal search block

25: data lead block

A: ATM subscriber B: Other AMT exchange

C: ATM switch input

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

Referring to FIG. 1, a block diagram for performing a multiplexing method of an asynchronous transmission mode cell using first-in first-out, according to the present invention, includes FIFOs 10-1 to 10-n and a multiplexer 20. .

The FIFOs 10-1 to 10-n are buffers for storing ATM cell data in a first-in first-out manner, and receive ATM cell data from an ATM subscriber A or another ATM switch B and store them in a first-in first-out manner.

The multiplexer 20 is a block for statistically multiplexing and outputting a plurality of ATM cell data stored in the FIFOs 10-1 to 10-n in a first-in first-out manner. The control signal lead block 21 and the signal search block ( 23 and a data lead block 25 are provided.

The control signal read block 21 reads the control signals of the FIFOs 10-1 to 10-n and transmits them to the signal search block 23 to retrieve this control signal.

The signal search block 23 stores control signals of the FIFOs 10-1 to 10-n from the control signal read block 21, that is, the storage states of the respective FIFOs 10-1 to 10-n. It searches for an all-most full that is stored almost full, an almost-most empty, or an empty empty. When an all-most full signal is detected, the FIFOs 10-1 to 10 that directly generate an all-most full signal while ignoring the remaining signals (almost empty, empty). After finding the FIFO 10-1, the FIFO 10-1 transmits a FIFO data read signal for reading ATM cell data to the data read block 25.

In addition, the signal search block 23 may be configured to generate a FIFO (iFO) that immediately generates an all-most empty signal when the next all-most empty signal is detected according to the next priority. After finding the FIFO 10-2 from 10-1 to 10-n, the FIFO 10-2 transmits a FIFO data read signal for reading ATM cell data to the data read block 25.

In addition, the signal search block 23 performs the FIFO 10 of the FIFOs 10-1 to 10-n that immediately generates an empty signal when an empty signal is detected according to the next priority. After finding -3), the FIFO 10-3 transmits a FIFO data read signal to the data read block 25 for reading ATM cell data. Here, if an all-most full signal for the state of several FIFOs among the FIFOs 10-1 to 10-n is detected, the ATM cell data in the FIFO currently read and the next FIFO for fairness. The FIFO data read signal for reading the data is transmitted to the data read block 25.

The data read block 25 reads ATM cell data from the corresponding FIFO according to the FIFO read signal provided from the signal search block 23 and outputs the ATM cell data to the ATM switch input unit C.

A multiplexing method of an asynchronous transmission mode cell using first-in first-out according to an embodiment of the present invention having the above-described configuration will be described with reference to the flowchart of FIG. 2.

First, ATM cell data provided from an ATM subscriber A or another ATM switch B is stored in a plurality of FIFOs 10-1 to 10-n on a first-in first-out basis, of which ATM is stored in the FIFO 10-1. Almost full state in which the cell data is stored to be almost full, and FIFO 10-2 has an all-most empty state in which the ATM cell data is stored almost empty. -3 to 10-n) assume that ATM cell data is stored in an empty state.

In the state of being stored as described above, the control signal lead block 21 in the multiplexer 20 reads the control signals of the FIFOs 10-1 to 10-n to retrieve the control signals. To the signal search block 23 (step 201).

The signal search block 23 is a control signal of the FIFOs 10-1 to 10-n provided from the control signal lead block 21, i.e., each of the FIFOs 10-1 to 10-n. The storage state (i.e., all-most full, all-most empty, empty) is retrieved (step 202).

In the search step 202, after finding the FIFO 10-1 generating the most full signal, ignoring the remaining signals (almost empty, empty) according to the priorities, The FIFO 10-1 data read signal for reading ATM cell data from the FIFO 10-1 is transmitted to the data read block 25 (step 203).

The data read block 25 reads ATM cell data from the FIFO 10-1 according to the FIFO 10-1 data read signal provided from the signal search block 23 and outputs the ATM cell data to the ATM switch input unit C ( Step 204).

After the ATM cell data of the FIFO 10-1 is outputted, the signal retrieval block 23 is in the storage state of the FIFOs 10-2 to 10-n (i.e., all-most full or not). almost empty) or empty (step 202).

In the search step 202, the FIFO 10-2 generating the most empty signal while ignoring the remaining signals (empty) according to the priority is found, and then the FIFO 10-2. In step 205, the FIFO 10-2 data read signal for reading ATM cell data is transmitted to the data read block 25.

The data read block 25 reads ATM cell data from the FIFO 10-2 according to the FIFO 10-2 data read signal provided from the signal search block 23 and outputs the ATM cell data to the ATM switch input unit C ( Step 206).

After the ATM cell data of the FIFO 10-2 is outputted, the signal retrieval block 23 is in the storage state of the FIFOs 10-3 to 10-n (i.e., all-most full or not). almost empty) or empty (step 202).

In the search step 202, the FIFOs 10-3 to 10-n generating empty signals according to the priorities are found, and the ATM cell data is read from the FIFOs 10-3 to 10-n. The FIFOs 10-3 to 10-n data read signals for input are sent to the data read block 25 (step 207).

The data read block 25 reads the ATM cell data from the FIFOs 10-3 to 10-n according to the FIFOs 10-3 to 10-n data read signals provided from the signal search block 23 to switch the ATM. Output to input unit C (step 208).

If an all-most full signal for the states of several FIFOs among the FIFOs 10-1 to 10-n is detected, rather than the above-described assumption state, the FIFO currently being read for fairness. And a FIFO data read signal for reading ATM cell data from the next FIFO to the data read block 25.

Then, the data read block 25 reads the ATM cell data from the currently read FIFO and outputs it to the corresponding block, and then reads the ATM cell data from the next FIFO and outputs it to the ATM switch input unit C.

Therefore, the present invention reads ATM cell data in each FIFO according to the priority using the control signal of the FIFO, and then multiplexes the ATM cell data read through the data line according to the priority and transmits the same to the ATM switch input unit. Accordingly, the efficiency of the line of the transmission network can be increased, and the FIFO overflow can be prevented in advance as the FIFO is read by giving priority to the read of the ATM cell data.

Claims (2)

In the multiplexing method using a first-in, first-out (FIFO) having an asynchronous transfer mode (ATM) switch input, Retrieving a control signal of a FIFO from the FIFO to retrieve a state of the control signal; Finding an FIFO in an all-most full state that generates an all-most full signal according to priority in the searching step, and reading ATM cell data from the FIFO in the all-most full state and outputting the same to the ATM switch input unit; After outputting the ATM cell data in the all-most full state, finding an FIFO in an all-most empty state that generates an all empty empty signal according to the next priority, and then, ATM cell data in the FIFO in the all-most empty state. Reading and outputting the read to the ATM switch input unit; After outputting the ATM cell data of the all-most empty state, finding an empty FIFO which generates an empty signal according to the next priority, and then reading the ATM cell data from the empty FIFO. And outputting to the ATM switch input unit. The method of claim 1, wherein the state of the control signal, Asynchronous transmission using first-in-first-out, wherein the ATM cell data is a signal indicating a state that the plurality of FIFOs are stored in an all-most full, almost empty, and empty. Multiplexing method of mode cells.