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CN-122027375-A - Intelligent network card management system

CN122027375ACN 122027375 ACN122027375 ACN 122027375ACN-122027375-A

Abstract

The disclosure relates to an intelligent network card management system, which comprises remote control equipment, at least one power control module and at least one remote equipment, wherein the remote control equipment is connected with the power control module, the power control module is connected with the remote equipment, the remote equipment is connected with the controlled intelligent network card equipment, the remote control equipment is used for sending a power control instruction to the power control module, the power control module is used for receiving the power control instruction and sending a power control command to the remote equipment indicated by the power control instruction, and the power control command is used for executing power control on the indicated intelligent network card. By using the system in the disclosure, the operation and maintenance efficiency can be improved, the maintenance cost can be reduced, and the automatic management of the intelligent network card can be realized.

Inventors

  • GUO WEIFENG

Assignees

  • 益思芯科技(杭州)有限公司

Dates

Publication Date
20260512
Application Date
20241112

Claims (10)

  1. 1. An intelligent network card management system is characterized by comprising a remote control device, at least one power control module and at least one remote device, wherein: The remote control device is connected with the power control module, the power control module is connected with the remote device, and the remote device is connected with the controlled intelligent network card device; the remote control device is used for sending a power control instruction to the power control module; The power control module is used for receiving the power control instruction, sending a power control command to the remote equipment indicated by the power control instruction, and the power control command is used for executing power control on the indicated intelligent network card.
  2. 2. The system of claim 1, wherein said power control module comprises at least one controller, each of said controllers being connected to at least one of said remote devices; The power control module is used for sending a power control command to a controller connected with target remote equipment, wherein the target remote equipment is the remote equipment indicated by the power control command; And the controller sends the power control command to the corresponding target remote equipment under the condition of receiving the power control command.
  3. 3. The system of claim 1, wherein the network card management system further comprises: And the at least one USB serial port module is used for establishing communication between the remote control equipment and the power supply control module.
  4. 4. The system of claim 3, wherein the USB serial port module is connected with the remote control device through a serial port line, and wherein the USB serial port module is connected with the power control module through a PCB circuit board.
  5. 5. The system of claim 1, wherein the intelligent network card device is connected to the remote device through a PCIE interface.
  6. 6. The system of claim 1, wherein the remote control device comprises: the instruction generation module is used for responding to the user operation to generate a power control instruction and sending the power control instruction to the power control module.
  7. 7. The system of claim 6, wherein the instruction generation module is configured to scan a power control module connected to the remote control device, and a remote device and a controlled intelligent network card device connected to the power control module; the instruction generation module displays the scanned power supply control module, the remote equipment and the controlled intelligent network card equipment through a user interaction interface; The instruction generation module receives the power control module, the remote equipment and the controlled intelligent network card equipment selected by the user based on the user interaction interface and generates corresponding power control instructions.
  8. 8. The system of claim 1, the remote control device further comprising: and the state detection module is used for detecting whether the power control instruction is successfully acted on the intelligent network card after sending the power control instruction to the power control module.
  9. 9. The system of claim 8, wherein the power control instructions comprise a power-up instruction, a power-down instruction, and a restart instruction; The state detection module is used for detecting whether a network between the remote control equipment and target remote equipment corresponding to the power-on instruction is communicated after the power-on instruction is sent; the state detection module is used for detecting whether the network between the remote control equipment and the target remote equipment corresponding to the power-on instruction is disconnected after the power-on instruction is sent; the state detection module is used for detecting that the network between the remote control equipment and the target remote equipment corresponding to the power-on instruction is disconnected after the restart instruction is sent, and reconnecting after the disconnection.
  10. 10. The system of claim 9, wherein the system further comprises a controller configured to control the controller, The state detection module is used for detecting whether a network between the remote control device and an intelligent network card connected with the target remote device corresponding to the power-on instruction is communicated after the power-on instruction is sent; The state detection module is used for detecting whether the network between the remote control device and the intelligent network card connected with the target remote device corresponding to the power-on instruction is disconnected after the power-on instruction is sent; And the state detection module is used for detecting that the network between the remote control equipment and the intelligent network card connected with the target remote equipment corresponding to the power-on instruction is disconnected after the restart instruction is sent, and reconnecting after the disconnection.

Description

Intelligent network card management system Technical Field The present disclosure relates to the field of data center network architecture, and in particular, to an intelligent network card management system. Background In the current digital age, with the rapid development of technologies such as cloud computing, big data, artificial intelligence and the like, the data processing business demands are explosively increased. This trend has driven the widespread construction and scaling of data centers directly to meet the ever-increasing data storage, processing and analysis demands. The data center is used as a foundation stone of the information society, and the efficient, stable and safe operation of the data center is important. The intelligent network card is used as a key component for network connection and data processing in a data center, and the application scene of the intelligent network card is increasingly complex and diversified in recent years. They are not only capable of providing high-speed network communication capabilities, but also integrate advanced functions such as packet processing, encryption and decryption, load balancing, etc. However, with the large scale deployment of intelligent network cards in large data centers, their management and maintenance work is also challenged. Particularly, when the intelligent network card is abnormal or needs to be debugged and tested, the traditional mode often requires related personnel to go to the site to perform operations such as power-on, power-off, restarting (reboot) and the like. This mode is not only inefficient, but also presents significant inconvenience to the operation and maintenance of the data center during holidays or personal vacations. Disclosure of Invention In view of this, the present disclosure proposes an intelligent network card management system. According to an aspect of the present disclosure, there is provided an intelligent network card management system, including: A remote control device, at least one power control module, and at least one remote device, wherein: The remote control device is connected with the power control module, the power control module is connected with the remote device, and the remote device is connected with the controlled intelligent network card device; the remote control device is used for sending a power control instruction to the power control module; The power control module is used for receiving the power control instruction, sending a power control command to the remote equipment indicated by the power control instruction, and the power control command is used for executing power control on the indicated intelligent network card. In one possible implementation, the power control module includes at least one controller, each of the controllers being connected to at least one of the remote devices; The power control module is used for sending a power control command to a controller connected with target remote equipment, wherein the target remote equipment is the remote equipment indicated by the power control command; And the controller sends the power control command to the corresponding target remote equipment under the condition of receiving the power control command. In one possible implementation manner, the network card management system further includes: And the at least one USB serial port module is used for establishing communication between the remote control equipment and the power supply control module. In one possible implementation manner, the USB serial port module is connected with the remote control device through a serial port line, and the USB serial port module is connected with the power supply control module through a PCB circuit board. In one possible implementation manner, the intelligent network card device is connected to the remote device through a PCIE interface. In one possible implementation, the remote control device includes a command generation module for generating a power control command in response to a user operation and sending the power control command to the power control module. In one possible implementation manner, the instruction generating module is configured to scan a power control module connected to the remote control device, and a remote device and a controlled intelligent network card device connected to the power control module; the instruction generation module displays the scanned power supply control module, the remote equipment and the controlled intelligent network card equipment through a user interaction interface; The instruction generation module receives the power control module, the remote equipment and the controlled intelligent network card equipment selected by the user based on the user interaction interface and generates corresponding power control instructions. In one possible implementation, the remote control device further includes a status detection module configured to detect whether the power control command