KR20030024380A - Method and Apparetus for Transferring Loading Data Using Response Delay In ATM Switch - Google Patents

Abstract

PURPOSE: A method and an apparatus for transmitting loading data by using a response standby delay in an ATM(Asynchronous Transfer Mode) switch are provided to minimize a system stop time and a service stop time by instantly transmitting a successive data frame without waiting for response about a previously transmitted data frame in a response standby delay time and shortening a data loading time. CONSTITUTION: If a loading procedure is started, a transmitting unit generates loading information such as a software block name to be loaded to a receiving unit, and transmits loading information to the receiving unit(S201). The receiving unit receives loading information, activates a data frame receiver and a response transmitter, and transmits a loading request to the transmitting unit according to loading information(S203). The transmitting unit receives the loading request, and activates a data frame transmitter and a response receiver. The data frame transmitter transmits a data frame to the data frame receiver of the receiving unit until the data frame does not exists(S205). The data frame receiver receives the data frame transmitted from the data frame transmitter, confirms the integrity of the data frame, and informs whether the data frame transmitted through the response transmitter is successfully transmitted(S207). The response receiver of the transmitting unit receives the response transmitted from the response transmitter, stores a response number included in the received response in a response number buffer, and updates the response number buffer whenever the response is received(S209).

Description

Method and Apparatus for Transferring Loading Data using Response Wait Delay in Asynchronous Transfer Exchange {Method and Apparetus for Transferring Loading Data Using Response Delay In ATM Switch}

The present invention relates to an asynchronous transfer mode (ATM) exchange that processes a large amount of data, and more particularly, to a failure or hardware / software exchange in an ATM exchange that is applied to a public network to guarantee high reliability and real time. The present invention relates to a loading data transmission method and apparatus for improving performance of a procedure of replacing a software package.

In the conventional software package loading method, when a data frame is transmitted to a receiver, the receiver responds appropriately, and when the transmitter confirms the response, the next data frame is transmitted. Response waiting delay time until receiving a response to the transmission data frame reception, that is, the transmitting side waits without transmitting the next data frame while storing the transmitted loading data frame in the buffer and processing the data loading time. The longer the data loading time, the longer the overall system downtime and the service downtime.

Accordingly, the present invention has been made to solve the above-mentioned problem, and shortens the data loading time by allowing the sender to immediately transmit the next data frame without waiting for a response to the previously transmitted data frame even in response waiting time delay. Accordingly, an object of the present invention is to provide a loading data transmission method and apparatus capable of minimizing system downtime and service downtime.

Those skilled in the art to which the present invention pertains can easily recognize other objects and advantages of the present invention from the drawings, the detailed description of the invention, and the claims.

1 is a schematic block diagram of an ATM switch in accordance with the present invention;

2 is a flowchart showing a loading procedure according to the present invention;

3 is a procedure flow diagram in a data frame transmitter according to the present invention;

4 is a flow chart of the procedure in the response receiver according to the present invention;

5 is a conceptual diagram showing a data frame transmission and confirmation procedure according to the prior art;

6 is a conceptual diagram illustrating a data frame transmission and confirmation procedure according to the present invention.

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

101: ATM Switch 103: External Device

105: transmitting unit 107: receiving unit

109: data frame transmitter 111: response number buffer

113: response receiver 115: data frame receiver

117: response transmitter 119: auxiliary storage

In order to achieve the above object, the present invention provides a loading data transmission apparatus of an asynchronous transfer mode switch including a receiving unit for receiving loading data, comprising: a response receiver for receiving a loading data frame reception response from the receiving unit, the loading data A response number buffer in which a received data frame number included in a frame reception response is stored, and a loading data frame is transmitted without waiting for a reception response from the reception unit, and the loading has already been transmitted based on the reception data frame number stored in the response number buffer. If it is determined that the transmission of the data frame has failed, the present invention provides a loading data transmission apparatus including a data frame transmitter for retransmitting a failed transmission data frame.

In addition, in order to achieve the above object, the present invention provides a method for transmitting loading data in response to a data loading request of a receiver in a loading data transmission apparatus, the first step of transmitting the loading data to the receiver, the received data A second step of determining whether the transmission of the already loaded loading data frame is successful based on the frame number; and a third step of setting a current transmission number as the failed loading data frame number if transmission fails as a result of the determination of the second step. A fourth step of setting a current transmission number to a new loading data frame number if the transmission is successful as a result of the determination of the second step; and the first to second loading data frames corresponding to the current transmission number and subsequent loading data frames. It provides a loading data transmission method comprising a fifth step of repeating the fourth step The.

According to the present invention, the function of transmitting the data frame of the transmitting side and the function of receiving the response of the receiving side are separated and executed in parallel so that the function of transmitting the data frame and the function of validating the data transmission are not interfered with each other. In this case, the transmission efficiency can be improved by continuously transmitting the data frame regardless of the response within the preset connection maintenance time.

In addition, according to the present invention, when an error such as a loss of a data frame occurs, transmission can be started again from the last received response so that the error recovery time is not increased.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same components have the same number as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related known technology may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic block diagram of an ATM switch in accordance with the present invention. As shown in the figure, the software package transmitted through the exchange external device or the network 103 is stored in the auxiliary storage device 119 connected to the transmitting unit 105 of the ATM exchange, and then the receiving unit 107 via the transmitting unit 105. Is sent). The data frame is transmitted by the data frame transmitter 109 of the transmitter 105 to the data frame receiver 115 of the receiver 107, and the response is transmitted by the transmitter 105 of the response transmitter 117 of the receiver 107. Is sent to the receiver 113.

The data frame transmitter 109 and the response receiver 113 of the transmitter 105 operate independently of each other, and share only the response numbers stored in the response number buffer 111.

The data frame receiver 115 and the response transmitter 117 of the receiver 107 are dependent so that they can be sequentially performed. After the data frame receiver 115 receives the data frame and verifies its integrity, the response transmitter 117 Send a response via

2 is a flowchart illustrating a loading procedure according to the present invention. When the loading procedure is started as shown in the drawing, the transmitter 105 generates loading information such as a software block name to be loaded into the receiver 107 and receives the receiver ( 107) (S201).

The receiving unit 107 receiving the loading information activates the data frame receiver 115 and the response transmitter 117 and transmits the loading request to the transmitting unit 105 according to the loading information (S203). Transmitter 105 activates data frame transmitter 109 and response receiver 113.

The data frame transmitter 109 sequentially transmits the data frame to the data frame receiver 115 of the receiver 107 until there are no more data frames to transmit (S205).

The data frame receiver 115 receiving the data frame transmitted from the data frame transmitter 109 checks the integrity of the data frame and notifies whether the data frame transmitted through the response transmitter 117 is successful (S207).

The response receiver 113 of the transmitting unit 105 that has received the response transmitted from the response transmitter 117 stores the data frame number, that is, the response number, included in the response in the response number buffer 111 every time it receives the response. The response number buffer 111 is updated (S209).

3 is a flow chart of the procedure in the data frame transmitter 109 according to the present invention. The activated data frame transmitter 109 determines whether a data frame to be transmitted exists (S301), and terminates the procedure if there is no data frame.

If there is a data frame to be transmitted in step S301, the response number stored in the response number buffer 111 is checked (S303), and it is determined whether the transmission is successful (S305).

The response sent from the response transmitter 117 (including Response, ACK and NAK) contains the number of the data frame to be received by piggybacking and the response receiver 113 receives the number of data frames from the response, i.e. the response. The number is extracted and stored in the response number buffer 111.

In addition, in the present invention, error control is performed by an N-frame automatic repeat request (Go-back-N Automatic Repeat reQuest, Go-back-N ARQ). Accordingly, the number of data frames included in the success response ACK means the number of data frames to be received by the receiver 107.

Therefore, the data frame transmitter 109 checks the response number stored in the response number buffer 111, and compares the previously received / stored response number with the recently received / stored response number to transfer the recently received / stored response number. If it is larger than '1' than the response number received / stored, it can be determined that the transmission is successful. For example, a transmission failure may include a damaged data frame (Damaged Data Frame) or a lost data frame (Lost Data Frame).

When the response transmitted from the response transmitter is lost (Lost Response), the next number of the response number currently stored in the response number buffer 111 is transmitted by using a timer (not shown) included in the data frame transmitter 109. The transmission error can be controlled by renumbering the data frame corresponding to the number.

If the transmission fails in step S305, the failed response number transmitted from the response transmitter 117 is designated as the transmission number (S307), and a data frame corresponding to the transmission number is transmitted (S309). Herein, the transmission number means the number of the data frame to be transmitted by the current data frame transmitter 109.

If the transmission is successful in step S305, it is determined whether the transmission number is larger than the sum of the response number currently stored in the response number buffer 111 and the size of the reception data frame storage buffer of the receiver 107 (S311). Since the receiving data frame storage buffer of the receiving unit 107 means a capacity capable of processing the data frame received by the receiving unit 107, the transmission number is larger than the sum of the response number and the receiving data frame storing buffer size of the receiving unit 107. If large, the data frame processing capacity of the receiving unit 107 is exceeded, and the receiving unit 107 waits until the data frame received and received by the receiving unit 107 is transmitted.

In step S311, when the transmission number is smaller than the sum of the response number stored in the current response number buffer 111 and the size of the reception data frame storage buffer of the reception unit 107, the current reception unit 107 processes the new data frame. In this state, the transmission number is updated by adding '1' to the previous transmission number (S313), and the data frame corresponding to the transmission number is transmitted (S309).

After transmitting one data frame, steps S301 to S309 are repeated to transmit all data frames to be transmitted.

4 is a procedure flow diagram in the response receiver 113 according to the present invention. As shown in the figure, the response receiver 113 receives the response transmitted from the response transmitter 117 of the reception unit 107 (S401) and transmits the data frame transmitter 109 by referring to the response number included in the response. It is determined whether one data frame has been successfully transmitted (S403), and if it is a successful response, a success response number is stored (S407), and if it is a failure response, a failure response number is stored (S405).

5 is a conceptual diagram illustrating a data frame transmission and confirmation procedure according to the prior art, and FIG. 6 is a conceptual diagram illustrating a data frame transmission and confirmation procedure according to the present invention. As shown in FIG. 5, the time required for transmitting a data frame and performing a verification procedure according to the related art is as follows.

here,

The time required for performing the data frame transmission and verification procedure according to the prior art, Is a transmission delay time 505 for transmitting a data frame from the transmitting means 501 to the receiving means 502, The data frame storage delay time 506 required to process the data frame received by the receiving means 502, After receiving the response from the receiving means 502, the transmission preparation delay time 504 required to prepare a data frame to be transmitted next, Denotes the number of transmitted data frames, respectively.

On the other hand, as shown in FIG. 6, the time required for transmitting the data frame and performing the verification procedure according to the present invention is shown in Equation 2 below.

here,

The time required for performing the data frame transmission and verification procedure according to the present invention.

Therefore, according to the present invention, the time shortened in comparison with the prior art is as shown in Equation 3 below.

That is, according to the present invention, as shown in Equation 3, the loading time is the number of data frames ( It is shortened in proportion to).

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the technical field of the present invention without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

As described above, the present invention significantly reduces the loading time by transmitting the data frame even in the response waiting delay time of the asynchronous transmission type switch, and the loading time is shortened as the number of data frames to be loaded increases.

Therefore, there is an effect that can reduce the downtime of the system and the downtime of the service which is directly connected to the shortening of the loading execution time for recovering the functional interruption of the whole or a part of the system and further improve the safety of the system.

Claims (5)

In the loading data transmission apparatus of the asynchronous transmission mode switch including a receiving unit for receiving the loading data, A response receiver for receiving a loading data frame reception response from the reception unit; A response number buffer in which a reception data frame number included in the loading data frame reception response is stored; And When the loading data frame is transmitted without waiting for the reception response from the receiving unit, and it is determined that the transmission of the loading data frame that has already been transmitted has failed, based on the reception data frame number stored in the response number buffer, the loading data frame is transmitted. Retransmitting Data Frame Transmitter Loading data transmission device comprising a. A method of transmitting loading data in response to a data loading request of the receiving unit in the loading data transmitting apparatus of claim 1, Transmitting a loading data to the receiving unit; A second step of determining whether transmission of a loading data frame that has already been transmitted is successful based on the received data frame number; A third step of setting a current transmission number as the failed loading data frame number when transmission fails as a result of the determination in the second step; A fourth step of setting a current transmission number as a new loading data frame number if transmission is successful as a result of the determination in the second step; And A fifth step of repeating the first to fourth steps for a loading data frame corresponding to the current transmission number and a subsequent loading data frame; Loading data transmission method comprising a. The method of claim 2, The fourth step is Determining whether the previous transmission number is smaller than the sum of the reception data frame number and the reception data frame storage buffer size of the reception unit; A seventh step of repeating the second to sixth steps when the previous transmission number is not smaller than the sum of the data frame number transmitted from the receiver and the received data frame storage buffer size of the receiver; And An eighth step of setting the current transmission number one greater than the previous transmission number if the previous transmission number is smaller than the sum of the data frame number transmitted from the receiver and the reception data frame storage buffer size of the receiver; Loading data transmission method further comprising. The method according to claim 2 or 3, A ninth step of receiving a message including the number field of the data frame received by the receiver from the receiver; And Extracting the number of the received data frame from the message and storing it in the response number buffer to update the number of the received data frame each time the message is received; The loading method of the asynchronous transfer mode switch further comprising. The method of claim 4, wherein The second step is If the number of the currently updated data frame is greater than the previous data frame number by referring to the number of the data frame updated in the tenth step, it is determined that the already transmitted data frame has been successfully received by the receiving unit. A method of loading an asynchronous transfer mode switch, characterized in that.