CN111382163B - Efficiency management system, method for providing and updating efficiency parameter and storage medium - Google Patents

Abstract

The invention relates to a performance management system, a method for providing and updating performance parameters and a storage medium. The method for updating the efficiency parameter is executed on a user host; the user host and a service host establish communication connection; the method comprises the following steps: identifying an existing hardware combination of the subscriber host; loading and executing an existing application software; loading a preset configuration file according to the existing application software to update an existing parameter combination of the existing hardware combination; receiving a self-defined parameter combination to update the existing parameter combination of the existing hardware combination; associating the existing application software, the existing hardware combination and the updated existing parameter combination to generate an existing profile as an updated preset profile; and transmitting the existing profile to the service host as a candidate profile.

Description

Efficiency management system, method for providing and updating efficiency parameter and storage medium

Technical Field

The present invention relates to switching performance modes of a computer host, and more particularly, to a performance management system, a method for providing a performance setting parameter combination, a method for updating performance parameters, computer software and a storage medium.

Background

In order to meet the performance requirement and energy saving, the computer operating system usually provides a Power Mode management function, so that the user can select and load one of different Power Mode profiles (Power Mode profiles) according to the requirement. The power mode setting file is used for enabling the operating system to cooperate with other system management elements to set the power mode or the efficiency mode of each hardware element, so that the efficiency of the hardware elements can be adjusted according to the executed software, the software can be executed smoothly, and excessive power consumption caused by too high efficiency setting can be avoided.

The aforementioned power mode profiles are not optimized for a particular software. Only a few fixed options are provided simply from high to low power. Therefore, the user may need to select the closest power mode profile for the executed software and then manually fine-tune the parameters to serve as the self-defined profile.

Disclosure of Invention

The parameters can be manually adjusted or the self-setting file can be matched with the executed software, so that the requirements of considering execution efficiency and energy consumption are met. However, manually fine-tuning the parameters requires time-consuming iterative testing. Meanwhile, once different software is executed, the self-setting file is not applicable, so that the user must set the self-setting file for the new software and manually enable the different self-setting files when different software is executed.

To address the above technical issues, the present invention provides an efficiency management system, which includes a service host and a user host. The service host is connected to a network and stores at least one available profile; the available configuration file is related to a target application software and a target hardware combination, and a target parameter combination of the target hardware combination is stored; the service host receives a plurality of candidate profiles through the network, and selects one of the candidate profiles as another available profile. The subscriber host is connected to the network and has an existing hardware combination.

The user host loads and executes the prior application software and loads an efficiency setting program code to execute the following steps: when the existing application software conforms to the target application software and the existing hardware combination conforms to the target hardware combination, the user host loads the available profile from the service host through the network and updates an existing parameter combination of the existing hardware combination according to the target parameter combination; and when the current application software and the current hardware combination do not accord with the target application software and the target hardware combination, the user host is associated with the current application software, the current hardware combination and the current parameter combination to generate a current configuration file, and the current configuration file is transmitted to the service host to serve as one of the candidate configuration files.

In at least one embodiment of the present invention, the target hardware assembly may comprise at least a target cpu and a target graphics processor.

The conventional hardware combination at least comprises a central processing unit and a drawing processor.

The target hardware assembly may further include a heat dissipation device, a sound effect device, or a keyboard.

The existing hardware assembly may also include a heat dissipation device, a sound effect device or a keyboard.

In at least one embodiment of the present invention, after the user host executes the existing application software, the user host generates an available profile request and transmits the available profile request to the service host; the available profile request includes existing application software as well as existing hardware combinations.

The existing application software conforms to the target application software, the existing hardware combination conforms to the target hardware combination, and the service host responds to the available profile request by using the corresponding available profile.

In at least one embodiment of the present invention, the user host executes a plurality of application software, and uses the application software executed in the foreground as the existing application software.

The invention also provides a method for providing a combination of performance setting parameters, comprising the following steps: receiving a plurality of candidate profiles, wherein each candidate profile is associated with a candidate application software and a candidate hardware combination, and stores candidate parameter combinations of the candidate hardware combinations; classifying the candidate profiles into a plurality of groups according to the candidate application software and the candidate hardware combination; selecting one of the candidate profiles in each group as an available profile, and using the corresponding candidate application software, candidate hardware combination and candidate parameter combination as a target application software, a target hardware combination and a target parameter combination of the available profile; receiving an available profile request; wherein the available profile request is associated with an existing application software and an existing hardware combination; and responding the available profile request with the available profile when the existing application software and the existing hardware combination conform to the target application software and the target hardware combination.

In at least one embodiment of the present invention, the step of selecting one of the candidate profiles as the available profile comprises: classifying the candidate profiles into a plurality of groups, wherein the candidate profiles of each group have the same candidate application software and candidate hardware combination; and in each group, selecting one of the candidate profiles as an available profile according to the receiving frequency of each candidate parameter combination.

In at least one embodiment of the present invention, the step of selecting one of the candidate profiles as the available profile further includes: and selecting the candidate parameter combination with the highest receiving frequency in each group, and taking the corresponding candidate profile as an available profile.

In at least one embodiment of the present invention, if there is no available profile matching the comparison, a request failure message is responded.

The invention provides a method for updating efficiency parameters, which is executed in a user host; the user host and a service host establish communication connection; the method comprises the following steps: identifying an existing hardware combination of the subscriber host; loading and executing an existing application software; loading a preset configuration file according to the existing application software to update an existing parameter combination of the existing hardware combination; receiving a self-defined parameter combination to update the existing parameter combination of the existing hardware combination; associating the existing application software, the existing hardware combination and the updated existing parameter combination to generate an existing profile as an updated preset profile; and transmitting the existing profile to the service host as a candidate profile.

In at least one embodiment of the present invention, the step of loading the default profile includes: generating an available profile request and transmitting the available profile request to the service host; wherein the available profile request comprises an existing application software and an existing hardware combination; receiving a response of the service host; and when the response is an available configuration file, using the available configuration file as the update of each preset configuration file; the available profile comprises a target application software, a target hardware combination and a target parameter combination, wherein the existing application software and the existing hardware combination conform to the target application software and the target hardware combination, and the target parameter combination is used for updating the existing parameter combination of the existing hardware combination.

In at least one embodiment of the present invention, the user host executes a plurality of application software, and uses the application software executed in the foreground as the existing application software.

In at least one embodiment of the present invention, the present invention provides a computer software for a user host to load to execute a method for updating performance parameters.

In at least one embodiment of the present invention, a storage medium is provided for a user host to read to execute a method for updating performance parameters.

Through the cooperation of the service host and the user host, the user host can request the corresponding available profile from the service host at any time according to the difference of the existing application software. Therefore, the performance profile is not limited to a specific application in the client host. The service host can also add or update the available configuration files through the uploading of the user host, thereby avoiding the problem that the available configuration files cannot be provided because the database is not provided with the related configuration files.

Drawings

Fig. 1 is a block diagram of a performance management system according to an embodiment of the invention.

FIG. 2 is a block diagram of a service host according to an embodiment of the present invention.

FIG. 3 is a diagram illustrating the association of available profiles in accordance with an embodiment of the present invention.

Fig. 4 is a block diagram of a subscriber host according to an embodiment of the present invention.

FIG. 5 is a flowchart of a method for updating performance parameters according to an embodiment of the present invention.

Fig. 6 is a detailed flowchart of a portion of the process of fig. 5.

Fig. 7 is a detailed flowchart of a portion of the process of fig. 5.

FIG. 8 is a flowchart of a method for providing a combination of performance setting parameters according to an embodiment of the present invention.

FIG. 9 is another flowchart of a method for updating performance parameters according to an embodiment of the present invention.

Description of the reference numerals:

100. service host

110. First network interface

120. Operation core module

130. Database with a plurality of databases

200. User host

210. Central processing unit

220. Drawing processor

230. Memory cell

240. Second network interface

300. Network

S110 to S170

S210-S220

S310 to S370 steps

S410 to S450 steps

Detailed Description

Referring to fig. 1, fig. 2 and fig. 3, a performance management system according to an embodiment of the present invention includes a service host 100 and a user host 200 that establish a communication connection through a network 300. The user hosts 200 are plural in number and located at different sites. The subscriber hosts 200 can upload the customized profiles corresponding to their existing application software and existing hardware combinations to the service host 100 as candidate profiles, respectively. The service host 100 may classify the candidate profiles, and then select one of the candidate profiles as an available profile for the user host 200 to download as an available profile corresponding to the existing application software.

The following description refers to a hardware combination, which at least includes a combination of a cpu and a graphic processor, and particularly may also include a distinction between detailed models; in one or more embodiments, the hardware combination may include a heat sink, a sound effect device, or a keyboard, and may also include a distinction between detailed models. The following description refers to parameter combinations including the aforementioned cpu, gpu, heat sink, audio device and/or keyboard operation parameter settings, which may be detailed values, such as cpu or gpu operation frequency, upper power limit, or mode number, such as the number of sound field mode of audio device or the number of backlight layout mode of keyboard.

As shown in fig. 1 and fig. 2, the service host 100 is connected to the network 300, and the service host 100 includes a first network interface 110, a computational core module 120, and a database 130. The operation core module 120 has at least one processor and a memory module. The memory module is a combination of a volatile memory and a nonvolatile memory, and is used as a storage space of an operating system, a service program and data and as a temporary storage space for program code execution.

The following steps are steps executed after the service host 100 and the user host 200 load necessary program codes. The performance of these steps does not exclude the presence of other elements or combinations of elements in the hardware or software. The modules may be asics, microprocessors, single processors, or groups of processors, which perform specific functions or steps in conjunction with memory executing code and specific algorithms.

As shown in fig. 1 and fig. 2, the first network interface 110 is configured to connect to a network 300 for the user host 200 to establish a communication connection according to a service address. The database 130 may be a single hard disk, an array of hard disks, or a data center comprising a mainframe computer. Alternatively, the computational core module 120 and the database 130 may be virtual machines, which are mounted on the mainframe and connected to the network 300 through the network 300 interface of the mainframe as the first network interface 110.

As shown in fig. 1, 2 and 3, the database 130 stores a plurality of available profiles. The available profile is associated with a target application software and a target hardware combination, and stores a target parameter combination of the target hardware combination.

The target hardware combination may include at least a target cpu and a target gpu, and the target parameter combination may include operating parameter settings of the target cpu and the target gpu. Specifically, the available profile may be, for example, a text file, or other file (document, file) format, which records the detailed models of the target cpu and the target gpu as the record format of the target hardware combination, and records the name and version number of the target application as the record format of the target application.

The detailed model further includes identification information of functional details such as operating speed, buffer memory size, supportable instruction set, etc., in addition to the product family. Typically, such detailed models are provided by the vendor and allow the operating system to be read by the cpu 210 and the gpu 220 of the user host 200 through a hardware manager or driver. In addition, the target hardware combination may also include other hardware, such as a target heat dissipation device, a sound effect device and/or a keyboard, and the target parameter combination includes operation parameter settings such as an upper limit of heat dissipation power, a sound field mode setting, a keyboard backlight layout mode setting (making a specific key emit light to be conspicuous), and the like.

As shown in fig. 2, the service host 100 receives a plurality of candidate profiles from the network 300 through the first network interface 110. These candidate profiles may be from a single subscriber host 200, but associated with different candidate applications; it is also possible to come from different user hosts 200 but all associated with the same candidate application.

The candidate profile is associated with a candidate application software and a candidate hardware combination, and stores a candidate parameter combination. The target hardware combination at least comprises a target central processing unit and a target graphic processor, and the target parameter combination comprises the operation parameter settings of the target central processing unit and the target graphic processor. The candidate hardware combination may also include other hardware, such as a target heat sink, a sound effect device, and/or a keyboard. The candidate parameter combinations may include the operational parameter settings of the hardware. The candidate profile may also be, for example, a text file, or other file format, the recording format of which is the same as the target profile. In practice, the content of the candidate profile record is the same as the available profile, with the difference that the information recorded by the candidate profile is the actual state of the subscriber host 200, and in particular, the candidate parameter combination is usually the self-defined parameter combination set by the user.

The service host 100 selects one of the candidate profiles as another available profile as follows. The service host 100 classifies the candidate profiles into a plurality of groups according to the associated candidate application software and candidate hardware combinations. The candidate profiles of each group have the same candidate software applications and candidate hardware combinations. The service host 100 finds the most suitable candidate parameter combination in the candidate profiles of each group to select the corresponding candidate profile as an available profile. The most suitable candidate parameter combination is a candidate parameter combination which can enable the candidate application software to be executed normally without the energy consumption of the user host 200 being too high based on the specific candidate application software and the candidate hardware combination. Such a most appropriate candidate parameter combination is not necessarily determined directly by the service host 100, but may be analyzed by the reception of the candidate parameter combination.

Therefore, in the selection, the receiving frequency of each candidate parameter combination is related to whether the corresponding candidate profile is selected. The service host 100 can simply use a statistical mechanism to find the candidate parameter combination with the highest receiving frequency (the highest number of times of uploading) from the candidate profiles in each group, and then use the corresponding candidate profile as the available profile. The service host 100 may also analyze the receiving frequency through a Convolutional Neural Network 300 (CNN) or other learning algorithms to find a candidate parameter combination most likely to be accepted by the user, and use the corresponding candidate profile as an available profile.

As shown in fig. 1 and 4, the user host 200 at least comprises a cpu 210, a graphic processor 220, a storage unit 230 and a second network interface 240. The cpu 210, the graphic processor 220 and other hardware capable of changing the operation parameter setting may be implemented as a hardware combination of the user host. The user host 200 is used for loading and executing an existing application software, and loading a program segment (program segment) to execute the step combination of updating the performance setting.

As shown in fig. 4, the graphic processor 220, the memory unit 230 and the second network interface 240 are electrically connected to the central processor 210. The cpu 210 loads and executes the existing application software from the storage unit 230, loads the performance setting program code to perform the corresponding combination of steps, and connects to the network 300 through the second network interface 240 to establish a communication connection with the service host 100.

As shown in fig. 6, the cpu 210 loads the performance setting program code from the storage unit 230 to execute a method for updating performance parameters. The storage unit 230 is not limited to a single nonvolatile memory or a single volatile memory, but may be a combination of a nonvolatile memory and a volatile memory required for data storage and program code operation. In one embodiment, the performance setting program code is stored as computer software on a storage medium for the user host 200 to load to perform the method for updating the performance parameter.

As shown in fig. 5, after any application software (e.g., game program, browser, media player, document editor, drawing software) of the user host 200 is started and executed in the foreground to become the existing application software, the user host 200 identifies the existing application software and the existing hardware combination to generate an available profile request, and transmits the available profile request to the service host 100 through the network 300 to request the corresponding available profile, as shown in step S110. The available profile request includes existing application software as well as existing hardware combinations.

In response to the service host 100, the subscriber host 200 determines whether there is a profile available that conforms to the existing application software and the existing hardware combination, as shown in step S120.

If there is an available profile, i.e. the existing application software conforms to the target application software of the available profile and the existing hardware combination conforms to the target hardware combination of the available profile, the service host 100 responds to the request for the available profile with the corresponding available profile, and the user host 200 loads the available profile from the service host 100 through the network 300, as shown in step S130.

The user host 200 then updates an existing parameter combination of the existing hardware combinations according to the available profile; for example, the operation parameter settings of the cpu 210 and the gpu 220 are adjusted, so as to change the overall performance of the user host 200 to meet the requirements of the existing application software, as shown in step S140.

When the service host 100 responds that there is no available profile, i.e. the existing application and existing hardware combination, and the target application and target hardware combination do not match any available profile, the subscriber host 200 may wait for the user to enter the self-defined parameter combination.

After the subscriber host 200 receives the customized parameter combination, the existing parameter combination of the existing hardware combination is updated according to the customized parameter combination, so as to change the performance parameter settings of the subscriber host 200, as shown in steps S150 and S140.

Then, the subscriber host 200 associates the existing application software, the existing hardware combination and the customized parameter combination, generates an existing profile for storage as an updated default profile, and transmits the existing profile to the service host 100 as one of the candidate profiles, as shown in steps S160 and S170.

In the continuous execution of the application software, the steps executed by the user host 200 may return to step S150 at any time to wait for receiving the self-defined parameter combination.

As shown in fig. 6, considering that the subscriber host 200 executes a plurality of application software, such that different application software is switched to the foreground execution to become the existing application software, the subscriber host 200 may simultaneously execute an interrupt trigger program to monitor whether the existing application software executed in the foreground is changed, as shown in step S210.

If the existing application software executed by the foreground is changed, for example, the media player switches to the game program, the flow from step S110 to S170 is reset, so that the existing application software in the foreground is re-identified from step S110, as shown in step S220. The foreground application is an application that is switched by the user to be displayed on the uppermost layer of the display screen among a plurality of applications being executed.

As shown in fig. 7, since the user host 200 has generated the existing profile as the preset profile after receiving the self-defined parameter combination in step S150 of fig. 5; or the user host 200 originally stores the preset profile; or the user host 200 may have downloaded other available profiles and then store them as profiles. In this case, other steps should be added between steps S120 and S130.

After the service host 100 responds with the available profile in step S120, the user host 200 determines whether there is a default profile that is stored in compliance with the existing application software, as shown in step S122.

If there is a default profile, the subscriber host 200 determines whether the default profile is loaded, as shown in step S124. If so, the user host 200 loads the default profile as the existing profile, and updates the existing parameter combination of the existing hardware combination accordingly, as shown in steps S124, S126 and S140. If the self-defined profile is not loaded, the available profile is downloaded through the network 300 according to step S130. The downloaded available profile is set as the updated existing profile in step S140 and stored in the storage unit 230, so as to become the updated default profile.

The above-mentioned manner of determining whether to load the self-defined profile includes setting the performance management mode to a default usage profile, asking the user whether to load the default profile, and so on. It is also possible to completely interrupt steps S120 to S130, and set the user host 200 to load only the default profile, instead of connecting the service host 100 to request the available profile. Alternatively, in step S120, the user host 200 determines that there is no available profile, or may enter step S124 of determining whether to load a profile. If the user host 200 determines in step S124 that the default profile is not loaded or is not available, step S150 is performed to enable the user host 200 to wait for receiving the self-defined parameter combination.

As shown in fig. 8, in step S170, the user host 200 uploads the existing profile to the service host 100 as a candidate profile. At this time, the service host 100 executes a method for providing a combination of performance setting parameters.

As described above, the service host 100 actually establishes connection with a plurality of subscriber hosts 200, and therefore, the service host 100 receives a plurality of candidate profiles from different subscriber hosts 200 through the network 300, as shown in step S310.

Each of the candidate profiles is associated with a candidate application software and a candidate hardware combination, and stores candidate parameter combinations of the candidate hardware combinations. The candidate hardware combination may include at least identification information of a candidate cpu and a candidate gpu. In one embodiment, the candidate profile is a text file, and records the name and version number of the candidate application software, the detailed model of the candidate cpu, and the detailed model of the candidate graphic processor. The candidate parameter combinations are parameters set for the cpu 210 and the gpu 220 according to the user experience when each user operates the application software in each of the user hosts 200. The CPU 210 and the GPU 220 become candidate CPUs and candidate GPUs.

Then, the service host 100 classifies the candidate profiles according to the candidate application software and the candidate hardware combination, as shown in step S320. I.e., candidate profiles having the same candidate application, candidate cpu, and candidate gpu, are classified as candidate profiles of the same group.

According to the classified candidate profiles, the service host 100 selects one of the candidate profiles in each group as an available profile, as shown in step S330. The selection method is as described above, and will not be described in detail below.

The available profile at this time is a target application software, a target hardware combination and a target parameter combination which are used as the available profile by using the corresponding candidate application software, candidate hardware combination and candidate parameter combination.

The service host 100 receives an available profile request from any of the subscriber hosts 200 through the network 300, as shown in step S340. The available profile request is associated with an existing software application and an existing hardware combination, that is, the available profile request at least includes the detailed model numbers of the cpu 210 and the graphic processor 220 of the user host 200, and the name and version number of the software application in execution.

At this time, the service host 100 compares whether the available profile request matches any available profile, as shown in step S350.

When the existing application software and the existing hardware combination of the available profile request conform to the target application software and the target hardware combination of any available profile, the service host 100 responds to the available profile request with the available profile conforming to the comparison, as shown in step S360. At this time, the subscriber host 200 may receive the available profile and perform the steps after step S130 of fig. 6. If there is no profile available that matches the comparison, a response is made to the request failure message, as shown in step S370.

Referring to fig. 9, the method for updating performance parameters executed by the subscriber host 200 assists the service host 100 in collecting candidate profiles. In one embodiment, the performance setting program code is stored as computer software on a storage medium for the user host 200 to load to perform the method for updating the performance parameter.

After the user host 200 is powered on, an existing hardware combination for identifying the user host 200 is executed, and an existing application software is loaded and executed, as shown in step S410. Next, the user host 200 loads a preset profile, and sets each hardware performance mode in the existing hardware combination according to the preset performance parameters of the preset profile, as shown in step S420. The order of the foregoing steps S410 and S420 may be reversed. For example, the step S420 is executed after the user host 200 is powered on, and the step S410 is executed after the user operation.

The default profile may be provided by the operating system or by random performance management software installed by the manufacturer of the client host 200. The default profile may also be a combination of parameters that the user has previously performed a manual adjustment, or an available profile that was previously downloaded by the service host 100.

Then, the subscriber host 200 receives the customized parameter combination through the user' S adjustment of the performance setting to update the existing parameter combination of the existing hardware combination, as shown in step S430.

Then, the subscriber host 200 generates an existing profile as an updated default profile in association with the existing application software and the existing hardware combination, in step S440. The subscriber host 200 transmits the existing profile to the service host 100 as a candidate profile, as shown in step S450.

According to the user operation, the subscriber host 200 may also perform the steps after step S110 in fig. 5.

In the aforementioned embodiment, the candidate profile, the existing profile, the default profile or the available profile are different profiles, and only the associated application software, the cpu 210 and the gpu 220 are described. However, the associated hardware may also include the hardware of the user host 200 that can change the combination of the performance setting parameters, including but not limited to the heat dissipation device (the rotation speed of the fan or the cooling fluid pump can be adjusted), the sound effect device (the equalizer or the sound field mode setting), the keyboard backlight setting (the specific key is lighted and highlighted).

The parameter or performance setting parameter combination is not limited to the input of precise physical quantity, and may be a drop-down menu or a scroll bar (scroll bar) for the user to select between different levels (levels) or modes (modes).

For example, the performance setting parameter combinations of the cpu 210 or the graphic processor 220 can be classified into three to five levels from the down-conversion operation to the over-conversion operation, so that the user can select a desired level. For example, the settings of the audio device can be selected by the user directly in different sound stage modes without fine-tuning the values of the equalizer. The keypad backlight settings may also be provided for the user for certain several operating modes, e.g. fully off or only dim light when in a text mode, and backlight for certain keys (e.g. arrow keys) when in a game mode.

Through the cooperation between the service host 100 and the user host 200, the user host 200 can request the corresponding available profile from the service host 100 at any time according to the difference of the existing application software. Therefore, the performance profile of the client 200 is not limited to a specific application. The service host 100 can also add or update the available profile by uploading the user host 200, thereby avoiding the problem that the available profile cannot be provided because the database does not have the relevant profile.

Claims (13)

1. A performance management system, comprising:

a service host computer connected to a network and storing at least one available profile; the available profile is associated with a target application software and a target hardware combination, and a target parameter combination of the target hardware combination is stored; the service host receives a plurality of candidate profiles through the network, wherein each candidate profile is associated with a candidate application software and a candidate hardware combination and stores a candidate parameter combination of the candidate hardware combination; the service host selects a candidate parameter combination with the highest receiving frequency according to the receiving frequency of each candidate parameter combination in the candidate profiles, takes the corresponding candidate profile as the available profile, and takes the corresponding candidate application software, the candidate hardware combination and the candidate parameter combination as the target application software, the target hardware combination and the target parameter combination of the available profile; and

a user host connected to the network and having an existing hardware combination, the user host loading and executing an existing application software and loading an efficiency setting program code to execute the following steps:

when the existing application software conforms to the target application software and the existing hardware combination conforms to the target hardware combination, the user host loads the available profile from the service host through the network and updates an existing parameter combination of the existing hardware combination according to the target parameter combination; and

when the current application software and the current hardware combination do not conform to the target application software and the target hardware combination, the user host associates the current application software, the current hardware combination and the current parameter combination to generate a current profile, and transmits the current profile to the service host to serve as one of the candidate profiles.

2. The performance management system of claim 1, wherein the target hardware set comprises a target cpu and a target gpu.

3. The performance management system of claim 2 wherein the conventional hardware set comprises a cpu and a graphics processor.

4. The performance management system of claim 2, wherein the target hardware assembly further comprises a heat sink, a sound effect device, or a keyboard.

5. The performance management system of claim 4, wherein the existing hardware set further comprises a heat sink, a sound effect device, or a keyboard.

6. The performance management system of claim 1, wherein the client host generates an available profile request to the server host after the client host executes the existing application software; the available profile request includes the existing application software and the existing hardware combination.

7. The performance management system of claim 6 wherein the service host responds to the available profile request with the corresponding available profile when the existing application software conforms to the target application software and the existing hardware combination conforms to the target hardware combination.

8. The performance management system of claim 1, wherein the client host executes a plurality of applications and uses the application executed in the foreground as the existing application.

9. A method for providing a combination of performance setting parameters, comprising:

receiving a plurality of candidate profiles, wherein each candidate profile is associated with a candidate application software and a candidate hardware combination, and stores a candidate parameter combination of the candidate hardware combination;

classifying the plurality of candidate profiles into a plurality of groups according to the candidate application software and the candidate hardware combination;

selecting one of the candidate profiles of each group as an available profile, and using the corresponding candidate application software, the candidate hardware combination and the candidate parameter combination as a target application software, a target hardware combination and a target parameter combination of the available profile;

receiving an available profile request; wherein the available profile request is associated with an existing software application and an existing hardware combination; and

when the existing application software and the existing hardware combination conform to the target application software and the target hardware combination, the available profile responds to the available profile request,

the step of selecting one of the candidate profiles as the available profile comprises:

classifying the plurality of candidate profiles into a plurality of groups, wherein the plurality of candidate profiles of each group have the same candidate application software and candidate hardware combination; and

in each group, selecting the candidate parameter combination with the highest receiving frequency according to the receiving frequency of each candidate parameter combination, and taking the corresponding candidate profile as the available profile.

10. The method of claim 9, wherein a request failure message is responded if there is no available profile matching the comparison.

11. A method for updating performance parameters is executed on a user host; the user host and a service host establish communication connection; the method is characterized by comprising the following steps:

identifying an existing hardware combination of the subscriber host;

loading and executing an existing application software;

loading a preset configuration file according to the existing application software to update an existing parameter combination of the existing hardware combination;

receiving a self-defined parameter combination to update the existing parameter combination of the existing hardware combination;

associating the existing application software, the existing hardware combination and the updated existing parameter combination to generate an existing profile as an updated preset profile; and

transmitting the existing profile to the service host as a candidate profile,

wherein, the step of loading the preset profile comprises:

generating an available profile request and transmitting the available profile request to the service host; wherein the available profile request includes the existing application software and the existing hardware combination;

receiving a response of the service host; and

when the response is an available configuration file, the available configuration file is used as an update of each preset configuration file; the available profile comprises a target application software, a target hardware combination and a target parameter combination, wherein the existing application software and the existing hardware combination conform to the target application software and the target hardware combination, and the target parameter combination is used for updating the existing parameter combination of the existing hardware combination.

12. The method of claim 11, wherein the client host executes a plurality of application software, and uses the foreground executed application software as the existing application software, wherein the foreground executed application software is the application software switched by a user to be displayed on the top layer of the display screen among the plurality of executing application software.

13. A storage medium readable by a user host for performing the method of claim 11.

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