CN112732064A - Power consumption adjusting system, method and medium - Google Patents

Abstract

The invention discloses a power consumption adjusting system, which is arranged between a power supply and a load end of a server, and comprises: the power supply monitoring system comprises an initialization module, a power supply alarm module and a power consumption adjusting module; the initialization module is used for setting power consumption information and alarm information and respectively sending the power consumption information and the alarm information to the power consumption adjusting module and the power supply alarm module; the power supply alarm module is used for detecting the running state of the power supply and sending an alarm signal to the power consumption adjusting module according to the running state and the alarm information; the power consumption adjusting module is used for setting the adjusting priority of the load end according to the alarm signal and executing power consumption adjusting measures according to the adjusting priority and the power consumption information; the invention can set different adjusting priorities for different types of load equipment in the server, and executes corresponding power consumption adjusting measures according to the adjusting priorities when a plurality of power supplies in the server fail, so that the server is not down, and the operation stability of the server and the data safety in the server are greatly improved.

Description

Power consumption adjusting system, method and medium

Technical Field

The present invention relates to the field of power supply management technologies, and in particular, to a power consumption adjustment system, method, and medium.

Background

The existing server power supply scheme adopts a plurality of redundant power supplies for power supply, wherein different numbers of power supplies are selected according to the load condition of a server to carry out power output under the normal condition, when the power supply carrying out the power output fails, one power supply in the redundant power supplies replaces the failed power supply to carry out power supply, the system still works normally, and when two or more power supplies carrying out the power output fail, the system can be automatically shut down, so that data loss and firmware damage in a server system are caused.

Disclosure of Invention

The invention mainly solves the problems of data loss and hardware damage caused by the crash of the server when a plurality of power supplies in the server fail.

In order to solve the technical problems, the invention adopts a technical scheme that: there is provided a power consumption adjustment system provided between a power source and a load side of a server, the system including:

the power supply monitoring system comprises an initialization module, a power supply alarm module and a power consumption adjusting module;

the initialization module is used for setting power consumption information and alarm information and respectively sending the power consumption information and the alarm information to the power consumption adjusting module and the power supply alarm module;

the power supply warning module is used for detecting the running state of the power supply and sending a warning signal to the power consumption adjusting module according to the running state and the warning information;

the power consumption adjusting module is used for setting the adjusting priority of the load end according to the alarm signal, and the power consumption adjusting module executes power consumption adjusting measures according to the adjusting priority and the power consumption information.

Further, the power consumption adjusting module includes: the system comprises a mechanism control module, a statistical module and a priority analysis module; the statistical module is configured with statistical measures, and the priority analysis module is configured with analysis measures;

the mechanism control module is used for receiving the alarm signal and triggering the statistical measures of the statistical module and the analytical measures of the priority analysis module;

the statistical module is used for executing the statistical measures to obtain statistical information and sending the statistical information to the priority analysis module;

the priority analysis module is used for executing the analysis measures on the statistical information, setting the adjustment priority of the load end according to the analysis measures and executing the power consumption adjustment measures on the load end according to the adjustment priority and the power consumption information.

Further, the statistical information includes: operating power consumption, total required power consumption, and total existing power consumption;

the statistical measures comprise: the statistical module is used for counting the operation power consumption of the load end according to the type of the load end and adding the operation power consumption to obtain the total required power consumption; the counting module counts the existing power consumption of the power supply and adds the existing power consumption to obtain the total existing power consumption.

Further, the priority analyzing module comprises a processing module, a comparing module and an executing module; the adjusting the priority comprises: calling back the priority and lowering the energy priority;

the processing module is used for executing analysis measures on the running power consumption and setting the callback priority and the energy reduction priority of the load end according to the analysis measures;

the comparison module is used for comparing whether the total existing power consumption is larger than the total required power consumption, if so, the comparison module sends a first execution signal to the execution module, and if not, the comparison module sends a second execution signal to the execution module;

the execution module is used for executing the power consumption regulation measure on the load equipment at the load end according to the regulation priority, the power consumption information, the first execution signal and the second execution signal.

Further, the power consumption adjustment measure includes a first adjustment measure and a second adjustment measure; the power consumption information includes: demand power consumption, maintenance power consumption, and a low power consumption threshold;

the execution module is configured to execute the first adjustment measure according to the first execution signal, the adjustment priority, and the power consumption information, where the first adjustment measure includes: the execution module reduces the power consumption of the load device to the low power consumption threshold, and increases the power consumption of the load device in the load side with the adjusting priority as the callback priority to the demand power consumption.

Further, the execution module is configured to execute the second adjustment measure according to the second execution signal, the adjustment priority, and the power consumption information, where the second adjustment measure includes: the execution module reduces the power consumption of the load equipment to the low power consumption threshold, reduces the power consumption of the load equipment in the load terminal with the adjustment priority of the energy reduction priority to the maintenance power consumption, and increases the power consumption of the load equipment in the load terminal with the adjustment priority of the call-back priority to the demand power consumption.

Further, the analytical measures include: the processing module sets a first threshold and a second threshold, analyzes the operation power consumption according to the first threshold and the second threshold, sets the adjustment priority of the load end of the type corresponding to the operation power consumption larger than the first threshold as a callback priority, and sets the adjustment priority of the load end of the type corresponding to the operation power consumption smaller than the second threshold as a de-energizing priority.

Further, the alarm information comprises first power supply information and a first power supply alarm threshold value; the running state comprises a normal state and an abnormal state;

the power supply warning module is used for detecting whether a power supply with an abnormal operation state exists in the power supply, if so, the power supply warning module counts the number of power supplies matched with the first power supply information in the power supply with the abnormal operation state, compares whether the number is greater than or equal to a first power supply warning threshold value, and if so, the power supply warning module sends a warning signal to the power consumption adjusting module.

The invention also provides a power consumption adjusting method, which is applied to a power supply and a load end in a server, and the method comprises the following steps:

setting power consumption information and alarm information according to the type of the load end and the specification of the server;

detecting the running state of the power supply and sending an alarm signal according to the running state and the alarm information;

setting the adjusting priority of the load end according to the alarm signal, and executing power consumption adjusting measures on the load end according to the adjusting priority and the power consumption information.

The present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the power consumption adjustment method.

The invention has the beneficial effects that:

1. the power consumption adjusting system can set different adjusting priorities for different types of load equipment in the server through the mutual cooperation of the initialization module, the power supply alarm module and the power consumption adjusting module, and executes corresponding power consumption adjusting measures according to the adjusting priorities when a plurality of power supplies in the server fail, so that more important load equipment in the server can normally work, less important load equipment in the server can maintain running, the server is not down, and the running stability of the server and the safety of data in the server are greatly improved.

2. The power consumption adjusting method can set different adjusting priorities for different types of load equipment in the server, and when a plurality of power supplies in the server fail, corresponding power consumption adjusting measures are executed according to the adjusting priorities, so that more important load equipment in the server can work normally, and less important load equipment in the server can keep running, the server is not down, and the running stability of the server and the data safety in the server are greatly improved.

3. The computer readable storage medium can realize the mutual cooperation of the guide initialization module, the power supply alarm module and the power consumption adjusting module, further realize the setting of different adjusting priorities for different types of load equipment in the server, and execute corresponding power consumption adjusting measures according to the adjusting priorities when a plurality of power supplies in the server fail, so that the server does not crash, and the operability of the power consumption adjusting method is effectively improved.

Drawings

Fig. 1 is an architecture diagram of a power consumption adjustment system according to embodiment 1 of the present invention;

fig. 2 is a flowchart of a power consumption adjustment method according to embodiment 2 of the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

In the description of the present invention, it should be noted that the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that cpld (complex Programming Logic device) is a complex Programmable Logic device, cpu (central Processing unit) is a central Processing unit, bmc (base board Management Controller) is a substrate Management Controller, pch (platform Controller hub) is an integrated south bridge, cmc (sessions Management Controller) is a chassis Management Controller, psu (power Supply unit) is a power Supply unit, fpga (field Programmable Gate array) is a field Programmable Gate array, and web world Wide web is a global Wide area network.

Example 1

The present embodiment provides a power consumption adjustment system, as shown in fig. 1, including:

the power supply monitoring system comprises an initialization module, a power supply alarm module and a power consumption adjusting module;

an initialization module: according to the type of a load end in a server, setting the required power consumption of load equipment in the load end corresponding to the type, wherein the load equipment comprises: CPLD, CPU, BMC, PCH, etc.; setting first power supply information, a first power supply alarm threshold, maintenance power consumption and a low power consumption threshold according to the specification of the server; sending the maintenance power consumption, the required power consumption and the low power consumption threshold value to a power consumption adjusting module; sending the first power supply information and the first power supply alarm threshold value to a power supply alarm module;

the first power supply information is basic information of a more important PSU in the server that supplies power to the firmware of the server, for example: PSU number or PSU model or PSU special specification;

the first power alarm threshold is the number of failures of the more important PSUs allowable in the server;

the required power consumption is standard power consumption of normal work of load equipment in each class of load terminals;

maintaining the power consumption as the lowest power consumption of the load equipment in each class of load ends;

the low power threshold is the lowest power consumption which can enable the load equipment in the load end not to be powered off;

the power supply warning module: the power supply alarm module is provided with a CMC, the CMC detects the running states of all PSUs in the server, when a PSU with an abnormal running state appears in a plurality of PSUs, the number of power supplies matched with the first power supply information in the PSU with the abnormal running state in the server is counted, whether the number is greater than or equal to the first power supply alarm threshold value or not is compared, and if yes, an alarm signal is sent to the power consumption regulation module;

the power consumption adjusting module: the power consumption adjusting module is provided with an FPGA (mechanism control module), so that equipment which mainly works in the server can be embodied only by considering the running power consumption of each load equipment in the server when the power supply is abnormal, when an alarm signal is received, a power consumption adjusting mechanism of the FPGA is triggered, and the FPGA executes power consumption adjusting measures according to the power consumption adjusting mechanism;

the power consumption adjustment mechanism includes:

the FPGA is provided with a statistical module and a priority analysis module;

the statistical module is used for counting the operation power consumption of a load end in the server according to the category to obtain calculation type operation power consumption, storage type operation power consumption and comprehensive type operation power consumption, and adding the operation power consumption to obtain total required power consumption;

the statistical module is also used for counting the existing power consumption of the power supply in the server, wherein the running state of the power supply is a normal state, and adding the existing power consumption to obtain the total existing power consumption;

the statistic module is also used for sending the calculation type operation power consumption, the storage type operation power consumption, the comprehensive type operation power consumption, the total demand power consumption and the total existing power consumption to the priority analysis module;

the priority analysis module comprises: the device comprises a processing module, a comparison module and an execution module;

the processing module is internally provided with a Web system, and executes analysis measures on the calculation type operation power consumption, the storage type operation power consumption and the comprehensive type operation power consumption through the Web system, and specifically comprises the following steps: setting a first threshold and a second threshold according to the total required power consumption, comparing the operation power consumption with the first threshold and the second threshold, and setting the regulation priority of the load end of the type corresponding to the operation power consumption larger than the first threshold as a callback priority; setting the regulation priority of the load end of the category corresponding to the running power consumption smaller than the second threshold value as an energy reduction priority;

the comparison module is used for comparing whether the total current power consumption is larger than the total required power consumption or not, and if so, sending a first execution signal to the execution module; if not, sending a second execution signal to the execution module;

after receiving the first execution signal, the execution module executes a first adjustment measure: the execution module pulls down the CPU overheat signals and the memory overheat signals of each load end, reduces the running power consumption of the load equipment in all the load ends to a low power consumption threshold value, and increases the power consumption of the load equipment in the load end with the adjusted priority as the callback priority to the required power consumption;

after receiving the second execution signal, the execution module executes a second regulation measure; and reducing the CPU overheat signals and the memory overheat signals of each load end, reducing the running power of the load devices in all the load ends to a low power consumption threshold value, reducing the running power consumption of the load devices in the load ends with the priority adjusted to be the descending priority to be the maintaining power consumption, and increasing the power consumption of the load devices in the load ends with the priority adjusted to be the call-back priority to be the required power consumption.

Example 2

The embodiment provides a power consumption adjusting method, as shown in fig. 2, including the following steps:

s100, setting the required power consumption of load equipment in the load end of the corresponding type according to the type of the load end in the server; the method specifically comprises the following steps: a computing class load terminal, wherein the load device comprises: CPU, BMC, PCH, etc.; a storage class load terminal, wherein the load device comprises: a memory and a hard disk; synthesize class load end, load equipment wherein have: a CPLD;

s200, setting first power supply information and a first power supply alarm threshold value, detecting the running states of all power supplies in the server, counting the number of power supplies matched with the first power supply information in the power supplies in the abnormal state in the server when the power supplies in the abnormal state appear in the power supplies, comparing whether the number is greater than or equal to the first power supply alarm threshold value, and if yes, triggering a power consumption regulation mechanism;

and S300, executing power consumption regulation measures according to the power consumption regulation mechanism.

The power consumption regulating mechanism is as follows:

s301, firstly, counting the operation power consumption of a load end in a server according to categories to obtain calculation type operation power consumption, storage type operation power consumption and comprehensive type operation power consumption; adding the various running power consumptions to obtain total required power consumption; setting a first threshold value and a second threshold value according to the total required power consumption, comparing the running power consumption with the first threshold value and the second threshold value, setting the regulation priority of load equipment in a load end of a category corresponding to the running power consumption according to a comparison result, and setting maintenance power consumption, wherein the maintenance power consumption is the power consumption capable of maintaining the running of the load equipment in the load end;

for example: the regulation priority of the load end of the category corresponding to the maximum operation power consumption is the callback priority; the adjustment priority of the load end of the category corresponding to the minimum running power consumption is the energy reduction priority;

s302, counting the existing power consumption of the power supply in the server, wherein the running state of the power supply is a normal state, and adding the existing power consumption to obtain the total existing power consumption;

s303, setting a low power consumption threshold, comparing whether the total current power consumption is larger than the total required power consumption, if so, reducing the CPU overheat signals and the memory overheat signals of each load end, reducing the operation power consumption of all the load ends to the low power consumption threshold, and increasing the power consumption of the load equipment in the load end corresponding to the call-back priority according to the call-back priority and the required power consumption; if not, pulling down the CPU overheat signals and the memory overheat signals of each load end, reducing the operation power consumption of all the load ends to a low power consumption threshold value, reducing the power consumption of the load end corresponding to the energy reduction priority according to the energy reduction priority and the maintenance power consumption, and increasing the operation power consumption of the load end corresponding to the call-back priority according to the call-back priority and the required power consumption.

Based on the same inventive concept as the power consumption adjusting method in the foregoing embodiments, embodiments of the present specification further provide a computer-readable storage medium having a computer program stored thereon, where the computer program, when executed by a processor, implements the steps of the power consumption adjusting method.

Different from the prior art, the power consumption adjusting system, method and medium can detect the running state of the power supply through the initialization module and the power supply alarm module, set different adjusting priorities for different types of load equipment in the server through the power consumption adjusting module, and execute corresponding power consumption adjusting measures according to the adjusting priorities when a plurality of power supplies in the server fail, so that more important load equipment in the server can work normally, less important load equipment in the server can maintain running, the server can further keep running under the condition that the plurality of power supplies fail, and the running stability of the server and the data security in the server are greatly improved.

The numbers of the embodiments disclosed in the embodiments of the present invention are merely for description, and do not represent the merits of the embodiments.

It will be understood by those skilled in the art that all or part of the steps of implementing the above embodiments may be implemented by hardware, and a program that can be implemented by the hardware and can be instructed by the program to be executed by the relevant hardware may be stored in a computer readable storage medium, where the storage medium may be a read-only memory, a magnetic or optical disk, and the like.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A power consumption adjustment system provided between a power source and a load side of a server, the system comprising: the power supply monitoring system comprises an initialization module, a power supply alarm module and a power consumption adjusting module;

the initialization module is used for setting power consumption information and alarm information and respectively sending the power consumption information and the alarm information to the power consumption adjusting module and the power supply alarm module;

the power supply warning module is used for detecting the running state of the power supply and sending a warning signal to the power consumption adjusting module according to the running state and the warning information;

the power consumption adjusting module is used for setting the adjusting priority of the load end according to the alarm signal, and the power consumption adjusting module executes power consumption adjusting measures according to the adjusting priority and the power consumption information.

2. The power consumption adjustment system according to claim 1, characterized in that: the power consumption adjusting module includes: the system comprises a mechanism control module, a statistical module and a priority analysis module; the statistical module is configured with statistical measures, and the priority analysis module is configured with analysis measures;

the mechanism control module is used for receiving the alarm signal and triggering the statistical measures of the statistical module and the analytical measures of the priority analysis module;

the statistical module is used for executing the statistical measures to obtain statistical information and sending the statistical information to the priority analysis module;

the priority analysis module is used for executing the analysis measures on the statistical information, setting the adjustment priority of the load end according to the analysis measures and executing the power consumption adjustment measures on the load end according to the adjustment priority and the power consumption information.

3. The power consumption adjustment system according to claim 2, characterized in that: the statistical information includes: operating power consumption, total required power consumption, and total existing power consumption;

the statistical measures comprise: the statistical module is used for counting the operation power consumption of the load end according to the type of the load end and adding the operation power consumption to obtain the total required power consumption; the counting module counts the existing power consumption of the power supply and adds the existing power consumption to obtain the total existing power consumption.

4. A power consumption adjustment system as claimed in claim 3, characterized in that: the priority analysis module comprises a processing module, a comparison module and an execution module; the adjusting the priority comprises: calling back the priority and lowering the energy priority;

the processing module is used for executing analysis measures on the running power consumption and setting the callback priority and the energy reduction priority of the load end according to the analysis measures;

the comparison module is used for comparing whether the total existing power consumption is larger than the total required power consumption, if so, the comparison module sends a first execution signal to the execution module, and if not, the comparison module sends a second execution signal to the execution module;

the execution module is used for executing the power consumption regulation measure on the load equipment at the load end according to the regulation priority, the power consumption information, the first execution signal and the second execution signal.

5. The power consumption adjustment system according to claim 4, wherein: the power consumption adjustment measures include a first adjustment measure and a second adjustment measure; the power consumption information includes: demand power consumption, maintenance power consumption, and a low power consumption threshold;

the execution module is configured to execute the first adjustment measure according to the first execution signal, the adjustment priority, and the power consumption information, where the first adjustment measure includes: the execution module reduces the power consumption of the load device to the low power consumption threshold, and increases the power consumption of the load device in the load side with the adjusting priority as the callback priority to the demand power consumption.

6. The power consumption adjustment system according to claim 5, characterized in that: the execution module is configured to execute the second adjustment measure according to the second execution signal, the adjustment priority, and the power consumption information, where the second adjustment measure includes: the execution module reduces the power consumption of the load equipment to the low power consumption threshold, reduces the power consumption of the load equipment in the load terminal with the adjustment priority of the energy reduction priority to the maintenance power consumption, and increases the power consumption of the load equipment in the load terminal with the adjustment priority of the call-back priority to the demand power consumption.

7. The power consumption adjustment system according to any one of claims 4 to 6, characterized in that: the analytical measures include: the processing module sets a first threshold and a second threshold, analyzes the operation power consumption according to the first threshold and the second threshold, sets the adjustment priority of the load end of the type corresponding to the operation power consumption larger than the first threshold as a callback priority, and sets the adjustment priority of the load end of the type corresponding to the operation power consumption smaller than the second threshold as a de-energizing priority.

8. The power consumption adjustment system according to claim 1, characterized in that: the alarm information comprises first power supply information and a first power supply alarm threshold value; the running state comprises a normal state and an abnormal state;

the power supply warning module is used for detecting whether a power supply with an abnormal operation state exists in the power supply, if so, the power supply warning module counts the number of power supplies matched with the first power supply information in the power supply with the abnormal operation state, compares whether the number is greater than or equal to a first power supply warning threshold value, and if so, the power supply warning module sends a warning signal to the power consumption adjusting module.

9. A power consumption adjusting method is applied to a power supply and a load end in a server, and is characterized by comprising the following steps:

setting power consumption information and alarm information according to the type of the load end and the specification of the server;

detecting the running state of the power supply and sending an alarm signal according to the running state and the alarm information;

setting the adjusting priority of the load end according to the alarm signal, and executing power consumption adjusting measures on the load end according to the adjusting priority and the power consumption information.

10. A computer-readable storage medium, characterized in that the computer-readable storage medium has stored thereon a computer program which, when being executed by a processor, carries out the steps of the power consumption adjustment method as claimed in claim 9.

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