CN113411212A - BIOS control system of intelligent network card and BIOS control method of intelligent network card - Google Patents

Abstract

The invention provides a BIOS control system of an intelligent network card and a BIOS control method of the intelligent network card. The BIOS control method of the intelligent network card firstly provides an operation interface which comprises a network card pre-starting execution environment switch option. Then, when the network card pre-boot execution environment switch option is clicked, a PXE switching drive signal is sent to a complex programmable logic device module. Finally, when the complex programmable logic device module receives the PXE switching driving signal, a PXE switching control signal is sent to a pre-starting execution environment unit, so that the pre-starting execution environment unit is switched from one of a pre-starting execution environment starting mode and a pre-starting execution environment closing mode to the other. By the invention, the BIOS setting of the intelligent network card can be quickly reset without restarting a server or reinstalling the intelligent network card, so that the intelligent network card can be restarted in real time.

Description

BIOS control system of intelligent network card and BIOS control method of intelligent network card

Technical Field

The present invention relates to a BIOS control system and a BIOS control method, and more particularly, to a BIOS control system and a BIOS control method for an intelligent network card.

Background

In recent years, due to the vigorous development of the internet, more and more electronic products need to provide better services through the network, such as cloud computing services, cloud storage services, video streaming platforms or online conferences, and the workload of the server is increasing, and the existing server mainly relies on the CPU to process a large amount of data transmission, so that the processing resources of the server are occupied and cannot process other tasks.

In order to reduce the processing capacity of the server that is affected by the CPU resources used for network data transmission, the prior art has developed an intelligent network card that can process high-speed network data traffic and can be programmed in a customized manner, thereby effectively reducing the CPU load of the server. The intelligent network card mainly utilizes the processing module comprising the CPU to process network data, so the BIOS setting of the processing module is very important, various problems can be caused if the setting is wrong, however, if the BIOS setting of the existing intelligent network card needs to be carried out again, the intelligent network card is often required to be removed for restarting, even the whole server needs to be restarted, great inconvenience is caused, particularly, the server is usually arranged in a machine room, when the BIOS needs to be reset, workers need to be sent to the machine room for processing, time and labor are consumed, and the service provided by the server to users can be influenced.

Disclosure of Invention

In view of the fact that in the prior art, because the BIOS setting of the intelligent network card has a great influence on whether the intelligent network card can normally operate, when the BIOS setting of the intelligent network card has a problem, the BIOS setting of the intelligent network card is often required to be reset as soon as possible to enable the server to normally operate, but the BIOS resetting mode of the existing intelligent network card mostly requires a worker to go to a machine room in person to restart the server or reinstall the intelligent network card, which wastes time and prevents the server from being brought online again in real time to operate; therefore, the main objective of the present invention is to provide a BIOS control system and a BIOS control method for an intelligent network card, which can quickly reset the BIOS setting of the intelligent network card.

The invention aims to solve the problems in the prior art, and provides a BIOS control system of an intelligent network card by adopting a necessary technical means. The host comprises an operation module and a basic management controller module.

The operation module has an operation interface, and the operation interface displays a network card pre-starting execution environment switch option. The basic management controller module is electrically connected to the operation module and is used for sending a PXE switching driving signal when the network card pre-starting execution environment switch option is clicked.

The intelligent network card comprises a complex programmable logic device module and a processing module. The complex programmable logic device module is electrically connected to the basic management controller module and used for sending a PXE switching control signal according to the PXE switching driving signal.

The processing module is electrically connected to the complex programmable logic device module, and is preset in one of a pre-boot execution environment starting mode and a pre-boot execution environment closing mode, and is used for switching the pre-boot execution environment starting mode or the pre-boot execution environment closing mode to the other according to the PXE switching control signal.

Optionally, the complex programmable logic device module includes a pre-boot execution environment control unit, and the pre-boot execution environment control unit sends a PXE switch control signal to the processing module according to the PXE switch driving signal.

Optionally, the processing module includes a pre-boot execution environment unit, where the pre-boot execution environment unit is preset in one of a pre-boot execution environment start mode and a pre-boot execution environment shutdown mode, and is configured to switch the pre-boot execution environment start mode or the pre-boot execution environment shutdown mode to the other according to the PXE switch control signal.

Optionally, the operation interface displays a network card BIOS reset option, the basic management controller module sends a BIOS reset driving signal when the network card BIOS reset option is clicked, the complex programmable logic device module sends a BIOS reset control signal according to the BIOS reset driving signal, and the processing module reloads a BIOS setting data according to the BIOS reset control signal.

Optionally, the complex programmable logic device module includes a BIOS reset unit electrically connected to the basic management controller module for sending a BIOS reset control signal to the processing module according to the BIOS reset driver signal. In addition, the processing module comprises a BIOS unit which is electrically connected with the BIOS resetting unit and used for reloading the BIOS setting data according to the BIOS resetting control signal.

Another necessary technical means for solving the problems of the prior art in the present invention is to provide a BIOS control method for an intelligent network card, comprising the following steps (a) to (C).

Step (A) is to provide an operation interface, and the operation interface comprises a network card pre-starting execution environment switch option.

And (B) sending a PXE switching drive signal to a complex programmable logic device module when the network card pre-boot execution environment switch option is clicked.

Step (C) is to send a PXE switch control signal to a pre-boot execution environment unit when the complex programmable logic device module receives the PXE switch driving signal, so that the pre-boot execution environment unit is switched from one of a pre-boot execution environment starting mode and a pre-boot execution environment closing mode to the other.

Optionally, the operation interface in step (a) includes a network card BIOS reset option, step (B) sends a BIOS reset driving signal to the complex programmable logic device module when the network card BIOS reset option is clicked, step (C) sends a BIOS reset control signal to a BIOS unit when the complex programmable logic device module receives the BIOS reset driving signal, so that the BIOS unit reloads a BIOS setting data according to the BIOS reset control signal.

As mentioned above, since the present invention utilizes the operation interface of the operation module to provide the switch option of the network card pre-boot execution environment for the user to click, and when the switch option of the network card pre-boot execution environment is clicked, the PXE switching driving signal is sent to the complex programmable logic device module of the intelligent network card through the basic management controller module, so that the complex programmable logic device module controls the processing module to switch from one of the pre-boot execution environment startup mode and the pre-boot execution environment shutdown mode to the other, therefore, the user can simply switch the processing module between the pre-boot execution environment startup mode and the pre-boot execution environment shutdown mode through clicking the network card pre-boot execution environment switch option, and further easily control the intelligent network card to start or shut down the pre-boot execution environment, and when the intelligent network card starts the network card pre-boot execution environment, the user can open the server through the network interface, thereby effectively improving the convenience in use.

On the other hand, because the invention also utilizes the operation interface of the operation module to provide the network card BIOS reset option for the user to click, and when the network card BIOS reset option is clicked, the BIOS reset drive signal is sent to the complex programmable logic device module of the intelligent network card through the basic management controller module, so that the complex programmable logic device module controls the processing module to reload the BIOS set data, therefore, the user can reset the BIOS setting of the intelligent network card rapidly without restarting the server or reinstalling the intelligent network card, the intelligent network card can be operated again in real time, and the convenience in use is effectively improved.

The present invention will be further described with reference to the following embodiments and drawings.

Drawings

Fig. 1 is a system block diagram of a BIOS control system of an intelligent network card according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating steps of a BIOS control method for an intelligent network card according to an embodiment of the present invention.

Labeled as: 100-BIOS control system of intelligent network card, 1-host, 11-operation module, 111-operation interface, 12-basic management controller module, 121-first connection port, 2-intelligent network card, 21-complex programmable logic device module, 211-second connection port, 212-BIOS reset unit, 213-pre-boot execution environment control unit, 22-processing module, 221-BIOS unit, 222-storage unit, 223-pre-boot execution environment unit.

Detailed Description

Referring to fig. 1, fig. 1 is a system block diagram of a BIOS control system of an intelligent network card according to an embodiment of the present invention. As shown in fig. 1, a BIOS control system 100 for an intelligent network card includes a host 1 and an intelligent network card 2. The host 1 includes an operation module 11 and a basic management controller module 12.

The operation module 11 has an operation interface 111, and the operation interface 111 displays a network card BIOS reset option (not shown) and a network card pre-boot eXecution Environment (PXE) switch option (not shown).

The basic management controller module 12 is electrically connected to the operation module 11 and has a first connection port 121; the bmc module 12 is configured to send a BIOS reset driver signal when the network card BIOS reset option is clicked, and send a PXE switch driver signal when the network card pre-boot execution environment switch option is clicked.

The smart card 2 includes a Complex Programmable Logic Device (CPLD) module 21 and a processing module 22. The complex programmable logic device module 21 comprises a second port 211, a BIOS reset unit 212 and a pre-boot execution environment control unit 213.

The second connection port 211 is electrically connected to the first connection port 121 of the basic management controller module 12, and is used for receiving a BIOS reset driving signal or a PXE switch driving signal sent by the basic management controller module 12; in this embodiment, the first connection port 121 and the second connection port 211 are I²C (Inter-Integrated Circuit) port.

The BIOS reset unit 212 is electrically connected to the second port 211, and is configured to send a BIOS reset control signal (not shown) when the second port 211 receives the BIOS reset driving signal. The pre-boot execution environment control unit 213 is electrically connected to the second port 211 for sending out the PXE switch control signal when the second port 211 receives the PXE switch driving signal.

The processing module 22 includes a BIOS unit 221, a storage unit 222, and a pre-boot execution environment unit 223.

The BIOS unit 221 is electrically connected to the BIOS reset unit 212 of the complex programmable logic device module 21, and the storage unit 222 stores BIOS setting data; thus, when the BIOS unit 221 receives the BIOS reset control signal sent by the BIOS reset unit 212, the BIOS setup data is reloaded from the storage unit 222 according to the BIOS reset control signal.

The pre-boot execution environment unit 223 is electrically connected to the pre-boot execution environment control unit 213 of the complex programmable logic device module 21, and is preset in one of a pre-boot execution environment start mode and a pre-boot execution environment shutdown mode, so as to switch the pre-boot execution environment start mode to the pre-boot execution environment shutdown mode or switch the pre-boot execution environment shutdown mode to the pre-boot execution environment start mode according to the PXE switch control signal when receiving the PXE switch control signal sent by the pre-boot execution environment control unit 213.

Referring to fig. 2, fig. 2 is a flowchart illustrating steps of a BIOS control method for an intelligent network card according to an embodiment of the present invention. As shown in fig. 1 and fig. 2, based on the BIOS control system 100 of the intelligent network card, the BIOS control method of the intelligent network card includes the following steps S101 to S103.

First, in step S101, an operation interface 111 is provided, where the operation interface 111 includes a network card BIOS reset option and a network card pre-boot execution environment switch option.

Next, in step S102, when the network card BIOS reset option is clicked, a BIOS reset driving signal is sent to the complex programmable logic device module 21, and when the network card pre-boot execution environment switch option is clicked, a PXE switch driving signal is sent to the complex programmable logic device module 21.

Finally, in step S103, when the complex programmable logic device module 21 receives the BIOS reset driving signal, the BIOS reset control signal is sent to the BIOS unit 221, so that the BIOS unit 221 reloads the BIOS setting data according to the BIOS reset control signal, and when the complex programmable logic device module 21 receives the PXE switch driving signal, the PXE switch control signal is sent to the pre-boot execution environment unit 223, so that the pre-boot execution environment unit 223 is switched from one of the pre-boot execution environment start mode and the pre-boot execution environment shutdown mode to the other.

In summary, in the prior art, when a problem is set in the BIOS of the intelligent network card, a worker needs to go to the machine room in person to restart the server or reinstall the intelligent network card, which is very time-consuming and cannot make the server operate online again in real time; compared with the prior art, the invention provides the network card pre-starting execution environment switch option for the user to click by using the operation interface of the operation module, and when the network card pre-starting execution environment switch option is clicked, the PXE switching driving signal is sent to the complex programmable logic device module of the intelligent network card through the basic management controller module, so that the complex programmable logic device module controls the processing module to be switched from one of the pre-starting execution environment starting mode and the pre-starting execution environment closing mode to the other, therefore, the user can simply switch the processing module between the pre-starting execution environment starting mode and the pre-starting execution environment closing mode through clicking the network card pre-starting execution environment switch option, thereby easily controlling the intelligent network card to start or close the network card pre-starting execution environment, and when the intelligent network card starts the network card pre-starting execution environment, the user can restart the server through the network interface, thereby effectively improving the convenience in use.

In addition, because the invention also utilizes the operation interface of the operation module to provide the network card BIOS reset option for the user to click, and when the network card BIOS reset option is clicked, the BIOS reset driving signal is sent to the complex programmable logic device module of the intelligent network card through the basic management controller module, so that the complex programmable logic device module controls the processing module to reload the BIOS setting data according to the BIOS reset driving signal, therefore, the user can reset the BIOS setting of the intelligent network card rapidly without restarting a server or reinstalling the intelligent network card, the intelligent network card can be operated again in real time, and the convenience in use is effectively improved.

The above detailed description of the preferred embodiments is intended to more clearly illustrate the features and spirit of the present invention, and is not intended to limit the scope of the present invention by the preferred embodiments disclosed above. On the contrary, it is intended to cover various modifications and equivalent arrangements included within the scope of the claims.

Claims (8)

1. A BIOS control system of an intelligent network card comprises:

a host, comprising: the operation module is provided with an operation interface, and the operation interface displays a network card pre-starting execution environment switch option; the basic management controller module is electrically connected with the operation module and used for sending a PXE switching driving signal when the network card pre-starting execution environment switch option is clicked; and

an intelligent network card, comprising: a complex programmable logic device module electrically connected to the basic management controller module for sending a PXE switching control signal according to the PXE switching driving signal; and a processing module electrically connected to the complex programmable logic device module and preset in one of a pre-boot execution environment start mode and a pre-boot execution environment shutdown mode, for switching the pre-boot execution environment start mode or the pre-boot execution environment shutdown mode to the other according to the PXE switching control signal.

2. The BIOS control system of claim 1, wherein the complex programmable logic device modules comprise a pre-boot execution environment control unit, the pre-boot execution environment control unit sending a PXE switch control signal to the processing module according to the PXE switch driver signal.

3. The BIOS control system of claim 2, wherein the processing module comprises a pre-boot execution environment unit, the pre-boot execution environment unit is preset in one of the pre-boot execution environment start-up mode and the pre-boot execution environment shutdown mode, and is configured to switch the pre-boot execution environment start-up mode or the pre-boot execution environment shutdown mode to the other according to the PXE switch control signal.

4. The BIOS control system of claim 1, wherein the os displays a network card BIOS reset option, the bmc module sends a BIOS reset driver signal when the network card BIOS reset option is clicked, the plc module sends a BIOS reset control signal according to the BIOS reset driver signal, and the processing module reloads a BIOS setup data according to the BIOS reset control signal.

5. The BIOS control system of claim 4, wherein the complex programmable logic device module comprises a BIOS reset unit electrically connected to the BIOS reset driver module for sending the BIOS reset control signal to the processing module according to the BIOS reset driver signal.

6. The BIOS control system of claim 5, wherein the processing module comprises a BIOS unit electrically connected to the BIOS reset unit for reloading the BIOS setting data according to the BIOS reset control signal.

7. A BIOS control method of an intelligent network card comprises the following steps:

(A) providing an operation interface, wherein the operation interface comprises a network card pre-starting execution environment switch option;

(B) when the network card pre-starting execution environment switch option is clicked, sending a PXE switching drive signal to a complex programmable logic device module; and

(C) when the complex programmable logic device module receives the PXE switch driving signal, a PXE switch control signal is sent to a pre-boot execution environment unit, so that the pre-boot execution environment unit is switched from one of a pre-boot execution environment starting mode and a pre-boot execution environment closing mode to the other.

8. The BIOS control method of an intelligent network card of claim 7, wherein the operating interface in step (a) includes a network card BIOS reset option, step (B) sends a BIOS reset driver signal to the complex programmable logic device module when the network card BIOS reset option is clicked, and step (C) sends a BIOS reset control signal to a BIOS unit when the complex programmable logic device module receives the BIOS reset driver signal, so that the BIOS unit reloads a BIOS setup data according to the BIOS reset control signal.

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