CN112506742B - Intelligent power management system - Google Patents

Abstract

The invention discloses an intelligent power supply management system which comprises an interaction module, a management unit and an intelligent control center. The intelligent control center is used for receiving a power management signal sent by the mainboard of the target server through the interaction module, calling the management unit to correspondingly manage the power system of the target server according to the power management signal, and sending the management processing information fed back by the management unit to the mainboard of the target server through the interaction module. Therefore, the intelligent power management system independent of the server processing unit is arranged, and can uniformly and intelligently manage each power supply of the server group, so that the operation and maintenance efficiency is improved, and the operation and maintenance difficulty and cost are reduced.

Description

Intelligent power management system

Technical Field

The invention relates to the field of power management of a server group, in particular to an intelligent power management system.

Background

As an autonomously developed domestic CPU, a Loongson CPU (central processing unit) has the advantages of autonomous controllability, safety and credibility of a server of a platform. However, the conventional Loongson CPU is not internally provided with a special power management module, so that operation and maintenance personnel can not conveniently perform power batch management on the Loongson CPU platform server group in the machine room, the operation and maintenance efficiency is reduced, and the operation and maintenance difficulty and cost are increased.

Therefore, how to provide a solution to the above technical problem is a problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The invention aims to provide an intelligent power management system which is independent of a server processing unit and can uniformly and effectively and intelligently manage each power supply of a server group, so that the operation and maintenance efficiency is improved, and the operation and maintenance difficulty and cost are reduced.

In order to solve the above technical problem, the present invention provides an intelligent power management system, including:

the interaction module is connected with the main board of each server in the server group;

a management unit connected to the power supply system of each server;

the intelligent control center is respectively connected with the management unit and the interaction module and is used for receiving a power supply management signal sent by a mainboard of a target server through the interaction module, calling the management unit to correspondingly manage a power supply system of the target server according to the power supply management signal and sending management processing information fed back by the management unit to the mainboard of the target server through the interaction module; wherein, the target server is any server.

Preferably, the management unit includes:

the power supply detection management unit is used for detecting the voltage and the current of the power supply system of each server according to a preset detection mode;

correspondingly, the intelligent control center is specifically configured to receive a power detection request signal sent by the main board of the target server through the interaction module, correspondingly transmit the power detection request signal to the power detection management unit, call the power detection management unit to detect the voltage and the current of the power system of the target server, and send a voltage detection value and a current detection value fed back by the power detection management unit to the main board of the target server through the interaction module.

Preferably, the management unit further includes:

the real-time power consumption management unit is used for acquiring the power consumption information of the power supply systems of the servers and correspondingly adjusting the load operation frequency of each power supply system according to the power consumption information so as to enable the power consumption information of each power supply system not to exceed a preset power consumption limit value;

correspondingly, the intelligent control center is specifically configured to receive a power target power consumption signal sent by the target server main board through the interaction module, correspondingly transmit the power target power consumption signal to the real-time power consumption management unit, call the real-time power consumption management unit to perform current throttling or voltage reduction processing on the power supply system of the target server according to the power target power consumption signal, and send power consumption information of the power supply system of the target server, which is fed back by the real-time power consumption management unit, to the target server main board through the interaction module.

Preferably, the management unit further includes:

the power protection management unit is used for acquiring fault information of the power supply system of each server, performing fault protection processing on the power supply system of the target server when the power supply system of the target server fails, and reporting the fault information of the power supply system of the target server to the intelligent control center so that the intelligent control center reports the fault information to the operation and maintenance system through the interaction module;

correspondingly, the intelligent control center is specifically configured to receive a power shutdown signal sent by the main board of the target server through the interaction module, and correspondingly transmit the power shutdown signal to the power protection management unit, so as to call the power protection management unit to shut down power supply of the power system of the target server.

Preferably, the management unit further comprises:

the heat dissipation strategy management unit is used for acquiring the temperature information of the power supply system of each server and the fan rotating speed information of each server;

correspondingly, the intelligent control center is specifically configured to obtain temperature information of the target server from the heat dissipation strategy management unit, determine target fan rotation speed information corresponding to the target server under the current temperature information according to a preset heat dissipation strategy, correspondingly transmit the target fan rotation speed information to the heat dissipation strategy management unit, call the heat dissipation strategy management unit to perform PWM rotation speed regulation and control on the fan module of the target server according to the target fan rotation speed information, and read back the temperature information and the fan rotation speed information corresponding to the target server after cooling from the heat dissipation strategy management unit, so as to send the temperature information and the fan rotation speed information to the main board of the target server through the interaction module.

Preferably, the management unit further comprises:

the dynamic configuration power supply unit is used for carrying out dynamic configuration management on the power supply conversion chip corresponding to each server;

correspondingly, the intelligent control center is specifically configured to receive a power conversion control signal sent by the main board of the target server through the interaction module, and correspondingly transmit the power conversion control signal to the dynamically configured power supply unit, so as to call the dynamically configured power supply unit to correspondingly control the power conversion chip corresponding to the target server according to the power conversion control signal.

Preferably, the management unit further includes:

the remote monitoring management unit is used for receiving an operation command of a remote operation and maintenance worker and transmitting the operation command to the intelligent control center so that the intelligent control center performs corresponding operation processing according to the operation command;

correspondingly, the intelligent control center is specifically configured to read management information of each unit of the management unit, and transmit the management information of each unit to the remote monitoring management unit, so that the remote monitoring management unit reports the management information of each unit to the operation and maintenance system through the interaction module by means of a network signal.

The invention provides an intelligent power management system which comprises an interaction module, a management unit and an intelligent control center. The intelligent control center is used for receiving a power management signal sent by the mainboard of the target server through the interaction module, calling the management unit to correspondingly manage the power system of the target server according to the power management signal, and sending the management processing information fed back by the management unit to the mainboard of the target server through the interaction module. Therefore, the intelligent power management system independent of the server processing unit is arranged, and can uniformly and intelligently manage each power supply of the server group, so that the operation and maintenance efficiency is improved, and the operation and maintenance difficulty and cost are reduced.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed in the prior art and the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent power management system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an intelligent power management system according to an embodiment of the present invention.

Detailed Description

The core of the invention is to provide an intelligent power management system, which is independent of the server processing unit and can uniformly and effectively and intelligently manage each power supply of the server group, thereby improving the operation and maintenance efficiency and reducing the operation and maintenance difficulty and cost.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent power management system according to an embodiment of the present invention.

This intelligent power management system includes:

the interaction module 1 is connected with the main board of each server in the server group;

a management unit 2 connected to the power supply system of each server;

the intelligent control center 3 is respectively connected with the management unit 2 and the interactive module 1, and is used for receiving a power management signal sent by the mainboard of the target server through the interactive module 1, calling the management unit 2 to correspondingly manage the power system of the target server according to the power management signal, and sending the management processing information fed back by the management unit 2 to the mainboard of the target server through the interactive module 1; wherein, the target server is any server.

Specifically, the intelligent power management system of this application includes interactive module 1, administrative unit 2 and intelligent control center 3, and its theory of operation is:

the interaction module 1 is connected with the main board of each server in the server group and the intelligent control center 3, and is used for information interaction between the main board of each server and the intelligent control center 3. The management unit 2 is connected to the power supply system of each server and the intelligent control center 3, and is used for managing the power supply system of each server under the signal control of the intelligent control center 3. More specifically, taking the target server as an example, the management of the power supply system of the target server will be described: the intelligent control center 3 receives a power management signal sent by a mainboard of the target server through the interaction module 1, and calls the management unit 2 to correspondingly manage a power system of the target server according to the power management signal; the management unit 2 feeds back management processing information to the intelligent control center 3 after correspondingly managing the power supply system of the target server; and the intelligent control center 3 sends the management processing information fed back by the management unit 2 to the mainboard of the target server through the interaction module 1.

It should be noted that, when the motherboard of the target server sends the power management signal, the power management signal includes address information for corresponding to the target server and management requirement information for representing a management requirement for the power system of the target server, so that the intelligent control center 3 learns that the power system of the target server has the management requirement based on the address information, and learns the specific management requirement of the power system of the target server based on the management requirement information, thereby implementing the call management unit 2 to perform corresponding management on the power system of the target server.

The invention provides an intelligent power supply management system which comprises an interaction module, a management unit and an intelligent control center. The intelligent control center is used for receiving a power management signal sent by the mainboard of the target server through the interaction module, calling the management unit to correspondingly manage the power system of the target server according to the power management signal, and sending the management processing information fed back by the management unit to the mainboard of the target server through the interaction module. Therefore, the intelligent power management system independent of the server processing unit is arranged, and can uniformly and intelligently manage each power supply of the server group, so that the operation and maintenance efficiency is improved, and the operation and maintenance difficulty and cost are reduced.

On the basis of the above-described embodiment:

referring to fig. 2, fig. 2 is a schematic structural diagram of an intelligent power management system according to an embodiment of the present invention.

As an alternative embodiment, the management unit 2 includes:

the power supply detection management unit 21 is configured to detect the voltage and the current of the power supply system of each server according to a preset detection mode;

correspondingly, the intelligent control center 3 is specifically configured to receive a power detection request signal sent by the main board of the target server through the interaction module 1, and correspondingly transmit the power detection request signal to the power detection management unit 21, so as to call the power detection management unit 21 to detect the voltage and the current of the power system of the target server, and send the voltage detection value and the current detection value fed back by the power detection management unit 21 to the main board of the target server through the interaction module 1.

Specifically, the management unit 2 of the present application includes a power detection management unit 21, and the working principle thereof is as follows:

the power detection management unit 21 is mainly used for detecting the voltage and the current of the power system of each server, and specifically, the voltage and the current of the power system of each server can be detected according to a preset detection method (such as a polling detection method, an interval detection method, and the like).

Based on this, the intelligent control center 3 receives the power detection request signal sent by the main board of the target server through the interactive module 1 for analysis, and correspondingly transmits the analyzed power detection request signal to the power detection management unit 21 after converting the digital signal into the analog signal; the power detection management unit 21 detects the voltage and current of the power system of the target server after receiving the power detection request signal, converts the voltage detection value and current detection value of the power system of the target server into digital signals (ADC) through analog signals, and feeds the ADC back to the intelligent control center 3; the intelligent control center 3 internally encodes the voltage detection value and the current detection value fed back by the power detection management unit 21, and then transmits the encoded voltage detection value and current detection value to the main board of the target server through the interactive module 1, thereby completing the voltage and current detection of the power system of the target server.

As an alternative embodiment, the management unit 2 further includes:

the real-time power consumption management unit 22 is configured to obtain power consumption information of the power systems of the servers, and correspondingly adjust load operating frequencies of the power systems according to the power consumption information, so that the power consumption information of the power systems does not exceed a preset power consumption limit value;

correspondingly, the intelligent control center 3 is specifically configured to receive a power target power consumption signal sent by the main board of the target server through the interaction module 1, and correspondingly transmit the power target power consumption signal to the real-time power consumption management unit 22, so as to call the real-time power consumption management unit 22 to perform current throttling or voltage reduction processing on the power system of the target server according to the power target power consumption signal, and send the power consumption information of the power system of the target server, which is fed back by the real-time power consumption management unit 22, to the main board of the target server through the interaction module 1.

Further, the management unit 2 of the present application further includes a real-time power consumption management unit 22, and the working principle thereof is as follows:

the real-time power consumption management unit 22 is mainly used for monitoring and managing power consumption of the power systems of the servers, and can obtain power consumption information of the power systems of the servers, and correspondingly adjust load operating frequencies of the power systems according to the power consumption information, so that the power consumption information of the power systems does not exceed a preset power consumption limit value.

In addition, the intelligent control center 3 receives and analyzes the Power target Power consumption signal sent by the mainboard of the target server through the interaction module 1, and correspondingly transmits the analyzed Power target Power consumption signal to the real-time Power consumption Management unit 22 through a Power Management Bus (PMBUS); after receiving the power target power consumption signal, the real-time power consumption management unit 22 performs current throttling or voltage reduction processing on the power supply system of the target server according to the power target power consumption signal, so that the actual power consumption of the power supply system of the target server is reduced to the target power consumption corresponding to the power target power consumption signal; the real-time power consumption management unit 22 feeds back the processed power consumption information of the power supply system of the target server to the intelligent control center 3 through the PMBUS; the intelligent control center 3 internally encodes the power consumption information of the power system of the target server fed back by the real-time power consumption management unit 22, and then sends the encoded power consumption information to the mainboard of the target server through the interaction module 1, so that the target server end can know the power consumption management result of the real-time power consumption management unit 22 on the power system of the target server, and further perform power consumption management on the power system of the target server.

As an alternative embodiment, the management unit 2 further includes:

the power protection management unit 23 is configured to acquire fault information of the power systems of the servers, perform fault protection processing on the power systems of the target servers when the power systems of the target servers have faults, and report the fault information of the power systems of the target servers to the intelligent control center 3, so that the intelligent control center 3 reports the fault information to the operation and maintenance system through the interaction module 1;

correspondingly, the intelligent control center 3 is specifically configured to receive a power shutdown signal sent by the motherboard of the target server through the interaction module 1, and correspondingly transmit the power shutdown signal to the power protection management unit 23, so as to call the power protection management unit 23 to shut down the power supply of the power system of the target server.

Further, the management unit 2 of the present application further includes a power protection management unit 23, and the working principle thereof is as follows:

the power protection management unit 23 is mainly used for performing power safety protection (such as overvoltage protection and overcurrent protection) and power failure recovery processing on the power system of each server, and the like, and can acquire failure information (such as power short circuit, open circuit, board burning, electronic part damage and the like) of the power system of each server, perform failure protection processing (such as power off, isolation, restart repair and the like) on the power system of the target server when the power system of the target server fails, and report the failure information of the power system of the target server to the intelligent control center 3 through the I2C, so that the intelligent control center 3 records a failure log and reports the failure log to the operation and maintenance system through the interaction module 1 to notify operation and maintenance personnel.

In addition, the intelligent control center 3 receives and analyzes a power shutdown signal sent by the main board of the target server through the interaction module 1, and correspondingly transmits the analyzed power shutdown signal to the power protection management unit 23 through a General-purpose input/output (GPIO) interface; the power protection management unit 23 turns off the power supply of the power system of the target server after receiving the power off signal, for example, when the power system of the target server fails, the operation can be performed, so as to avoid the situations of data loss of the target server, work interruption of the target server, and fire hazard of board burning.

As an alternative embodiment, the management unit 2 further includes:

a heat dissipation policy management unit 24, configured to obtain temperature information of a power supply system of each server and fan rotation speed information of each server;

correspondingly, the intelligent control center 3 is specifically configured to obtain temperature information of the target server from the heat dissipation policy management unit 24, determine target fan rotation speed information corresponding to the target server under the current temperature information according to a preset heat dissipation policy, and correspondingly transmit the target fan rotation speed information to the heat dissipation policy management unit 24, so as to call the heat dissipation policy management unit 24 to perform PWM rotation speed regulation on the fan module of the target server according to the target fan rotation speed information, and read back, from the heat dissipation policy management unit 24, the temperature information and the fan rotation speed information corresponding to the cooled target server, so as to send the temperature information and the fan rotation speed information to the motherboard of the target server through the interaction module 1.

Further, the management unit 2 of the present application further includes a heat dissipation policy management unit 24, and the working principle thereof is as follows:

the heat dissipation policy management unit 24 is mainly used for monitoring and managing a heat dissipation scheme of the power supply system of each server, and may acquire temperature information of the power supply system of each server through a sensor signal and acquire fan rotation speed information of each server through a TACH (rotation speed) signal. Based on this, the heat dissipation policy management unit 24 transmits the temperature information of the target server to the intelligent control center 3 through the I2C bus; after acquiring the temperature information of the target server from the heat dissipation policy management unit 24, the intelligent control center 3 determines target fan rotation speed information corresponding to the target server under the current temperature information according to a preset heat dissipation policy, and correspondingly transmits the target fan rotation speed information to the heat dissipation policy management unit 24, specifically, transmits a PWM (Pulse width modulation) signal corresponding to the target fan rotation speed information to the heat dissipation policy management unit 24; after receiving the PWM signal, the heat dissipation policy management unit 24 performs PWM rotation speed control on the fan module of the target server based on the PWM signal; the intelligent control center 3 reads back the temperature information and the fan speed information corresponding to the cooled target server from the heat dissipation policy management unit 24, internally encodes the temperature information and the fan speed information corresponding to the target server, and sends the encoded temperature information and the encoded fan speed information to the motherboard of the target server through the interaction module 1, so that the target server end can know the heat dissipation management result of the heat dissipation policy management unit 24 on the power supply system of the target server, and further manage the heat dissipation policy on the power supply system of the target server.

As an alternative embodiment, the management unit 2 further includes:

a dynamic configuration power supply unit 25, configured to perform dynamic configuration management on the power conversion chip corresponding to each server;

correspondingly, the intelligent control center 3 is specifically configured to receive a power conversion control signal sent by the motherboard of the target server through the interaction module 1, and correspondingly transmit the power conversion control signal to the dynamic configuration power supply unit 25, so as to call the dynamic configuration power supply unit 25 to correspondingly control the power conversion chip corresponding to the target server according to the power conversion control signal.

Further, the management unit 2 of the present application further includes a dynamically configured power supply unit 25, and its operating principle is:

the dynamic configuration power supply unit 25 is mainly used for performing dynamic configuration management on the power conversion chip corresponding to each server, for example, performing phase (stage) on/off of the power conversion chip, and adjusting the conversion frequency of the power conversion chip, thereby completing efficient and energy-saving processing of power conversion.

Based on this, the intelligent control center 3 receives and analyzes the power conversion control signal sent by the main board of the target server through the interactive module 1, and correspondingly transmits the analyzed power conversion control signal to the dynamic configuration power supply unit 25 through an SVID (serial VID, a protocol of bus type) bus; after receiving the power conversion control signal, the dynamic configuration power supply unit 25 correspondingly controls the power conversion chip corresponding to the target server according to the power conversion control signal (for example, controls the phase on and off of the power conversion chip, and controls the conversion frequency of the power conversion chip), so as to maximally utilize the conversion efficiency of the power conversion chip, and implement energy-saving and efficient control.

As an alternative embodiment, the management unit 2 further includes:

the remote monitoring management unit 26 is configured to receive an operation command of a remote operation and maintenance worker, and transmit the operation command to the intelligent control center 3, so that the intelligent control center 3 performs corresponding operation processing according to the operation command;

correspondingly, the intelligent control center 3 is specifically configured to read the management information of each unit of the management unit 2, and transmit the management information of each unit to the remote monitoring management unit 26, so that the remote monitoring management unit 26 reports the management information of each unit to the operation and maintenance system through the interaction module 1 by means of a network signal.

Further, the management unit 2 of the present application further includes a remote monitoring management unit 26, and its working principle is:

the remote monitoring management unit 26 can receive an operation command of a remote operation and maintenance worker, and transmit the operation command to the intelligent control center 3, so that the intelligent control center 3 performs corresponding operation processing according to the operation command, thereby completing real-time and efficient management of the power supply system of each server. The intelligent control center 3 can read the management information of each unit of the management unit 2, and transmit the management information of each unit to the remote monitoring management unit 26 through an RGMII (Reduced Gigabit Media Independent Interface), so that the remote monitoring management unit 26 reports the management information of each unit to the operation and maintenance system through the interaction module 1 by means of a network signal, and notifies the operation and maintenance personnel.

In addition, the remote monitoring management unit 26 can perform remote network monitoring management on the original power control system of the server, mainly playing a role of network routing transmission, and can report a plurality of information such as health conditions, fault record logs and the like of the power control system of each server to the operation and maintenance system through network signals, so that operation and maintenance personnel can know the power operation condition of each server remotely and at the first time.

In summary, the intelligent power management system of the present application integrates six functions of a power detection management unit 21, a real-time power consumption management unit 22, a power protection management unit 23, a heat dissipation policy management unit 24, a dynamic configuration power supply unit 25, and a remote monitoring management unit 26, and can perform effective intelligent management on the power supply of the whole machine better.

It should also be noted that, in this specification, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of additional like elements in a process, method, article, or apparatus that comprises the element.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. An intelligent power management system, comprising:

the interaction module is connected with the main boards of the servers in the server group and is used for the information interaction between the main boards of the servers and the intelligent control center;

the management unit is connected with the power supply systems of the servers and is used for managing the power supply systems of the servers under the signal control of the intelligent control center;

the intelligent control center is respectively connected with the management unit and the interaction module and is used for receiving a power supply management signal sent by a mainboard of a target server through the interaction module, calling the management unit to correspondingly manage a power supply system of the target server according to the power supply management signal, and sending management processing information fed back by the management unit to the mainboard of the target server through the interaction module; wherein, the target server is any server.

2. The intelligent power management system of claim 1, wherein the management unit comprises:

the power supply detection management unit is used for detecting the voltage and the current of the power supply system of each server according to a preset detection mode;

correspondingly, the intelligent control center is specifically configured to receive a power detection request signal sent by the main board of the target server through the interaction module, correspondingly transmit the power detection request signal to the power detection management unit, call the power detection management unit to detect the voltage and the current of the power system of the target server, and send a voltage detection value and a current detection value fed back by the power detection management unit to the main board of the target server through the interaction module.

3. The intelligent power management system of claim 2, wherein the management unit further comprises:

the real-time power consumption management unit is used for acquiring power consumption information of the power supply systems of the servers and correspondingly adjusting the load operation frequency of each power supply system according to the power consumption information so as to enable the power consumption information of each power supply system not to exceed a preset power consumption limit value;

correspondingly, the intelligent control center is specifically configured to receive a power target power consumption signal sent by the target server main board through the interaction module, correspondingly transmit the power target power consumption signal to the real-time power consumption management unit, call the real-time power consumption management unit to perform current throttling or voltage reduction processing on the power supply system of the target server according to the power target power consumption signal, and send power consumption information of the power supply system of the target server, which is fed back by the real-time power consumption management unit, to the target server main board through the interaction module.

4. The intelligent power management system of claim 3, wherein the management unit further comprises:

the power protection management unit is used for acquiring fault information of the power supply system of each server, performing fault protection processing on the power supply system of the target server when the power supply system of the target server fails, and reporting the fault information of the power supply system of the target server to the intelligent control center so that the intelligent control center reports the fault information to the operation and maintenance system through the interaction module;

correspondingly, the intelligent control center is specifically configured to receive a power shutdown signal sent by the main board of the target server through the interaction module, and correspondingly transmit the power shutdown signal to the power protection management unit, so as to call the power protection management unit to shut down power supply of the power system of the target server.

5. The intelligent power management system of claim 4, wherein the management unit further comprises:

the heat dissipation strategy management unit is used for acquiring the temperature information of the power supply system of each server and the fan rotating speed information of each server;

correspondingly, the intelligent control center is specifically configured to obtain temperature information of the target server from the heat dissipation strategy management unit, determine target fan rotation speed information corresponding to the target server under the current temperature information according to a preset heat dissipation strategy, correspondingly transmit the target fan rotation speed information to the heat dissipation strategy management unit, call the heat dissipation strategy management unit to perform PWM rotation speed regulation and control on the fan module of the target server according to the target fan rotation speed information, and read back the temperature information and the fan rotation speed information corresponding to the target server after cooling from the heat dissipation strategy management unit, so as to send the temperature information and the fan rotation speed information to the main board of the target server through the interaction module.

6. The intelligent power management system of claim 5, wherein the management unit further comprises:

the dynamic configuration power supply unit is used for carrying out dynamic configuration management on the power supply conversion chip corresponding to each server;

correspondingly, the intelligent control center is specifically configured to receive a power conversion control signal sent by the main board of the target server through the interaction module, and correspondingly transmit the power conversion control signal to the dynamically configured power supply unit, so as to call the dynamically configured power supply unit to correspondingly control the power conversion chip corresponding to the target server according to the power conversion control signal.

7. The intelligent power management system of claim 6, wherein the management unit further comprises:

the remote monitoring management unit is used for receiving an operation command of a remote operation and maintenance worker and transmitting the operation command to the intelligent control center so that the intelligent control center performs corresponding operation processing according to the operation command;

correspondingly, the intelligent control center is specifically configured to read the management information of each unit of the management units, and transmit the management information of each unit to the remote monitoring management unit, so that the remote monitoring management unit reports the management information of each unit to the operation and maintenance system through the interaction module by means of a network signal.

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