KR101273875B1 - Data transmission control method and the device - Google Patents

Abstract

The present invention relates to a data transmission control method and apparatus for performing data transmission normally through an auxiliary line when a transmission line fails. In the present invention, two or more devices are connected to a transmission line to transmit and receive data. If a failure occurs in the transmission line to which the two or more devices are connected during the data transmission, any one device requests to perform data transmission and reception through the auxiliary line. That is, it notifies the counterpart device connected to the transmission line in which the failure occurred, and requests data transmission and reception through the auxiliary line. Then, the two or more devices perform data transmission and reception through the auxiliary line. Accordingly, even if a failure occurs in the transmission line, there is an advantage that the line is replaced with the auxiliary line to continuously perform data transmission.

1st, 2nd device, PCI_Express module, determination part, processing part

Description

Data transmission control method and the device

1 is a schematic configuration diagram of a data transmission control apparatus according to a preferred embodiment of the present invention.

2 is a flowchart illustrating a data transmission control method according to an exemplary embodiment of the present invention.

Description of the Related Art [0002]

10: first device 12, 22: processing unit

20: second device 30: PCI_Express module

32: error register 40: determination unit

The present invention relates to data transmission, and more particularly, to a data transmission control method and apparatus for performing data transmission using an auxiliary line when a failure occurs in a transmission line.

As electronic / electrical technologies have developed, the functions of each device have been gradually expanded, and the amount of data provided or processed by the device has also increased. Accordingly, the PCI (Peripheral Component Interconnect) bus, which is generally used for data transmission between devices, is being turned over to the PCI Express (PCI_Express). Here, the functions of the PCI_Express are as follows.

The PCI_Express is a serial bus that supports a point-to-point connection and is an interface for performing data transmission between devices. Such PCI_Express has a relatively large data transmission bandwidth of X1, X2, X4, X8, X16 and the like. In addition, it has a faster transmission speed than the existing PCI bus. That is, the PCI bus has a speed of about 133 MB / S, and the PCI_Express bus has a speed of 250 MB / S per 1X.

However, when a transmission line fails when performing data transmission between devices connected by the PCI_Express bus, a problem occurs that data transmission can no longer be performed. That is, the PCI_Express bus is provided with a plurality of lanes having a predetermined bandwidth, but all the lanes are allocated for data transmission.

Accordingly, an object of the present invention is to provide a data transmission control method and apparatus for configuring a secondary line in addition to a transmission line connected to each other, so that data transmission is continuously performed through the secondary line when a failure occurs in the transmission line.

According to a feature of the present invention for achieving the above object, the present invention provides a transmission line and an auxiliary line for data transmission between two or more devices; A determination unit to determine whether the transmission line is damaged; And a processor configured to continuously perform data transmission to the auxiliary line when the transmission line fails.

It is preferable that the said processing part is each provided in the said device.

It is configured to further include a storage having a data indicating whether the failure.

Preferably, the transmission line and the auxiliary line are PCI_Express transmission lanes having a predetermined transmission bandwidth.

Preferably, the auxiliary line is at least one.

According to another feature of the invention, the present invention comprises the steps of performing data transmission through a transmission line; Determining whether the transmission line is faulty; Replacing a transmission line with an auxiliary line when a failure occurs as a result of the determination; And continuing to transmit data through the auxiliary line.

The transmission line replacement step may include: notifying a failure to a device connected to a transmission line having a failure; Requesting to transmit data through an auxiliary line connected to the device; It is preferable to include the step of activating the auxiliary line in accordance with the request.

It is desirable to continuously monitor whether the transmission line has failed.

It is preferable to check the status information of the transmission line whether the failure.

In the present invention having such a configuration, even if a failure occurs in a transmission line for transmitting data by connecting the first and second devices, there is an advantage that the data transmission can be continuously performed through the auxiliary line.

Hereinafter, a data transmission control method and apparatus thereof according to the present invention having the above configuration will be described in detail with reference to the accompanying drawings.

1 is a schematic configuration diagram of a data transmission control apparatus according to a preferred embodiment of the present invention.

According to this, transmission lanes A and A 'as transmission lines for performing data transmission between the first device 10 and the second device 20 are provided through the PCI_Express module 30. In addition to the transmission lanes A and A ′, an auxiliary lane as an auxiliary line is further provided in the PCI_Express module 30 to interconnect the first device 10 and the second device 20.

The transmission lanes A and A ′ and the auxiliary lanes have a predetermined transmission bandwidth to enable data transmission through the PCI_Express bus. Accordingly, the transmission lanes A and A 'are not limited to the PCI_Express module 30 but include transmission lines capable of data transmission. In addition, one or more auxiliary lanes may be provided.

The PCI_Express module 30 includes a storage unit for storing state information of the transmission lanes A and A 'connected to the first and second devices 10 and 20. Here, the storage unit is preferably an error register 32, and the error register 32 stores data indicating normal / fault according to the transmission lanes A and A 'states. For example, if data transmission is normally performed, it has data information of '1', and if data transmission is not successful, it has data information of '0'.

In addition, the determination unit 40 receives the state information stored in the error register 32 and determines whether the transmission lanes A and A 'are normal or faulty.

The determination unit 40 determines the data stored by the error register 32 for each of the transmission lanes A and A '. According to the determination result, the processing units 12 and 22 for processing whether to replace the transmission lanes A and A 'with the auxiliary lanes are provided in the first and second devices 10 and 20, respectively. The processing units 12 and 22 have a function of notifying failure information to any device connected to the transmission lanes A and A 'where a failure occurs. For example, when a failure occurs in the transmission lane A connected to the first device 10 side, the second device 20 notifies the first device 10 of the failure information through the auxiliary lane.

Next, a data transmission control method and apparatus thereof according to an embodiment of the present invention will be described in detail.

2 is a flowchart illustrating a data transmission control method according to an exemplary embodiment of the present invention.

As shown, the first device 10 and the second device 20 are driven on and data transmission is performed through transmission lines, that is, transmission lanes A and A '(step 200).

If a failure occurs in the transmission lanes A and A 'connected to one of the devices 10 and 20 during the data transmission (step 202), the data transmission is stopped. Thus, data transmission is performed using the auxiliary lane.

Specifically, if a failure occurs in the transmission lane A connected to the first device 10 side during data transmission between the first and second devices 10 and 20 (step 204), the PCI_Express module 30 ) Error register 32 stores the failure information generated in the transmission lane A because the data transfer is not normally performed to the first device 10. The stored failure information is transmitted to the determination unit 40. At this time, the first and second devices 10 and 20 periodically access the determination unit 40 to check the determination information. In this case, the second device 20 has a failure in the transmission lane A. (Step 206).

Thereafter, in step 208, the processor 22 of the second device 20 recognizes that data cannot be transmitted through the transmission lane A, and performs lane replacement to use the auxiliary lane.

In the lane replacement, the second device 20 notifies the first device 10 of the failure information through the auxiliary lane to inform that the data transmission using the transmission lanes A and A 'cannot be performed. Accordingly, the processor 22 of the second device 20 requests to perform data transmission using the auxiliary lane (operation 210).

As a result of the request, the first device 10 transmits a response to the request to the second device 20 by using the auxiliary lane. Thus, the auxiliary lane is activated. Accordingly, data is continuously transmitted through the activated auxiliary lane (steps 212 and 214).

Similarly, in step 202, if a failure occurs in the transmission lane A 'connected to the second device 20 side during data transmission between the first and second devices 10 and 20 (step 216), The error register 32 of the PCI_Express module 30 stores the failure information generated in the transmission lane A 'because data transfer is not normally performed to the second device 20. The stored failure information is transmitted to the determination unit 40. At this time, the first and second devices 10 and 20 periodically access the determination unit 40 to check the determination information. In this case, the first device 10 may cause a failure in the transmission lane A '. It is recognized that the operation (step 218).

Thereafter, in step 220, the processor 12 of the first device 10 knows that data cannot be transmitted through the transmission lane A ′, and performs lane replacement to use an auxiliary lane.

 In the lane replacement, the first device 10 notifies the second device 20 of the failure information through the auxiliary lane to inform that the data transmission using the transmission lanes A and A 'is not possible. In operation 222, a request is made to perform data transmission using the auxiliary lane.

As a result of the request, the second device 20 transmits a response to the request to the first device 10 by using the auxiliary lane and then activates the auxiliary lane. The data is continuously transmitted through the activated auxiliary lane (step 224 and step 226).

The configured data transmission apparatus has an advantage that data transmission can be performed through the auxiliary lane when a failure occurs in the transmission lanes A and A 'during data transmission of the first and second devices 10 and 20.

As described above, it has been described with reference to the illustrated embodiment of the present invention, which is merely exemplary, and those skilled in the art to which the present invention pertains various modifications without departing from the spirit and scope of the present invention. It will be apparent that other variations and equivalent embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

Data transmission control method and apparatus according to the present invention as described in detail above, even if two or more devices are connected to the transmission line and the auxiliary line to continue the data transmission through the auxiliary line even if a failure occurs in the transmission line during data transmission There is an advantage to this.

Claims (9)

As a data transmission control device for data transmission between a first device and a second device: A transmission line for data transmission between the first device and the second device; An auxiliary line for data transmission between the first device and the second device; A PCI_Express module installed in the transmission line and the auxiliary line and having a storage unit for storing state information of the transmission line; A determination unit determining whether a transmission line is disturbed based on a signal of the storage unit; And Upon failure of the transmission line, the first device and the second device are configured to transmit and receive data between the first device and the second device through the auxiliary line and change the transmission path to the auxiliary line based on the signal of the determination unit. Data transmission control device comprising a processing unit provided. delete delete delete The method of claim 1, And at least one auxiliary line. Performing data transmission through a transmission line; Determining whether the transmission line is faulty; If a failure occurs as a result of the determination, requesting data transmission between the first device and the second device through the auxiliary line, thereby activating the auxiliary data line to replace the data line between the first device and the second device; And And continuously performing data transmission through the auxiliary line. . delete The method of claim 6, Data transmission control method characterized in that for continuously monitoring whether the transmission line failure. 9. The method of claim 8, The control method of the data transmission, characterized in that for confirming whether the failure status information of the transmission line.

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