CN111973993A

CN111973993A - Game configuration obtaining method, device, server, terminal and storage medium

Info

Publication number: CN111973993A
Application number: CN202010938388.5A
Authority: CN
Inventors: 邵栋; 包振兵
Original assignee: Netease Hangzhou Network Co Ltd
Current assignee: Netease Hangzhou Network Co Ltd
Priority date: 2020-09-08
Filing date: 2020-09-08
Publication date: 2020-11-24

Abstract

The method, the device, the server, the terminal and the storage medium for acquiring the game configuration provided by the embodiment of the application comprise the following steps: the method comprises the steps of sending an initial configuration set of game application to a first terminal, receiving running data sent by the first terminal, obtaining performance labels of the initial configuration set according to the running data, obtaining performance labels of other configuration sets in each configuration set of the game application according to the performance labels of the initial configuration set, obtaining at least one configuration set meeting preset conditions from each configuration set according to the performance labels of each configuration set, filtering out at least one configuration set from each configuration set, and obtaining optimal game configuration of a target terminal according to the filtered configuration sets. According to the performance labels of the initial configuration sets, the performance labels of all the configuration sets can be obtained without testing all the configuration sets, so that the testing cost is reduced, the optimal configuration set of the target terminal is obtained according to the filtered configuration sets, and the accuracy of optimal game configuration is improved.

Description

Game configuration obtaining method, device, server, terminal and storage medium

Technical Field

The application relates to the technical field of computers, in particular to a method, a device, a server, a terminal and a storage medium for acquiring game configuration.

Background

In a gaming item, a persistent player refers to a player that begins using a gaming application for a predetermined period of time and continues to use the gaming application after a period of time has elapsed. Among them, in order to increase the number of remaining players, the expression effect of the game is very critical.

In the prior art, a game application often provides multiple configuration options, which represent different performance effects of the game, the performance effect is better, the performance overhead is often higher, generally, before the game is online, default configurations corresponding to different devices are set, for example, the device 1 is a high-configuration machine type, the default configuration of the device 1 is the high-configuration machine type, the device 2 is a poor-performance machine type, the default machine type of the device 2 is the low-configuration machine type, and thus, different devices can be configured differently, so that most devices can perform game experience under more appropriate configurations.

However, in the above method, the devices need to be manually divided, which is rough, so that the accuracy of the acquired optimal game configuration is not high.

Disclosure of Invention

The present application aims to provide a method, an apparatus, a server, a terminal and a storage medium for obtaining a game configuration, so as to solve the problem of low accuracy of an optimal game configuration of a device in the prior art.

In order to achieve the above purpose, the technical solutions adopted in the embodiments of the present application are as follows:

in a first aspect, an embodiment of the present application provides a method for obtaining a game configuration, where the method includes:

sending an initial configuration set of game applications to a first terminal, receiving operation data sent by the first terminal, and obtaining a performance label of the initial configuration set according to the operation data, wherein the initial configuration set comprises initial configuration parameters of the game applications in each preset dimension, and the performance label is used for indicating game performance corresponding to the initial configuration set;

acquiring performance labels of other configuration sets in each configuration set of the game application according to the performance labels of the initial configuration set;

acquiring at least one configuration set meeting preset conditions from each configuration set according to the performance label of each configuration set;

and filtering the at least one configuration set from the configuration sets, and acquiring the optimal game configuration of a target terminal according to the filtered configuration sets, wherein the target terminal comprises the first terminal.

Optionally, before the obtaining of the performance labels of other configuration sets in the configuration sets of the game application according to the performance label of the initial configuration set, the method further includes:

acquiring the performance score of the initial configuration set according to the preset score of the initial configuration parameter of each preset dimension;

acquiring performance scores of the other configuration sets according to the preset scores of the configuration parameters of the preset dimensions;

the obtaining performance labels of other configuration sets in the configuration sets of the game application according to the performance label of the initial configuration set includes:

and acquiring the performance labels of the other configuration sets according to the performance labels of the initial configuration sets, the performance scores of the initial configuration sets and the performance scores of the other configuration sets.

Optionally, the obtaining the performance label of the other configuration set according to the performance label of the initial configuration set, the performance score of the initial configuration set, and the performance score of the other configuration set includes:

sequencing the initial configuration set and the other configuration sets according to the performance scores of the initial configuration set and the performance scores of the other configuration sets to obtain a plurality of configuration ladders, wherein each configuration ladder comprises configuration sets with equal performance scores;

if the performance label of the initial configuration set is a first label, setting each performance label of each first configuration set in the first configuration echelon as a first label; wherein the performance score of each first configuration set is lower than the performance score of the initial configuration set;

sending each second configuration set in a second configuration echelon to the first terminal, and acquiring each performance label of each second configuration set; wherein the performance score of each second configuration set is higher than the performance score of the initial configuration set, and the first configuration echelon is adjacent to the second configuration echelon in each configuration echelon.

Optionally, the method further comprises:

if the performance tag of the initial configuration set is a second tag, sending each third configuration set in a third configuration echelon to the first terminal; wherein the performance score of each third configuration set is higher or lower than the performance score of the initial configuration set, and the third configuration echelon is adjacent to the configuration echelon in which the initial configuration set is located in each configuration echelon, and the performance indicated by the second tag is worse than the performance indicated by the first tag;

and acquiring each performance label of each third configuration set.

Optionally, the method further comprises:

if the performance label of the initial configuration set is a third label, setting each performance label of each fourth configuration set in a fourth configuration echelon as the third label; wherein the performance score of each fourth configuration set is higher than the performance score of the initial configuration set, and the performance indicated by the third label is poorer than the performance indicated by the first label and the second label;

sending each fifth configuration set in a fifth configuration echelon to the first terminal, and acquiring a performance label of each fifth configuration set; and the performance score of each fifth configuration set is lower than that of the initial configuration set, and the fifth configuration echelon is adjacent to the configuration echelon where the initial configuration set is located.

Optionally, the method further comprises:

and if the performance tags of the second configuration sets comprise a first tag and a second tag, setting the performance tags of other configuration sets in the configuration echelon in which the initial configuration set is located as the first tags.

Optionally, the obtaining, according to the performance label of each configuration set, at least one configuration set that meets a preset condition from each configuration set includes:

and acquiring the at least one configuration set meeting preset conditions according to the performance labels and the performance scores of the configuration sets.

Optionally, the preset condition includes at least one of the following conditions:

the performance label is a third label, and the performance indicated by the third label is poorer than the performance indicated by the first label and the second label;

a configuration echelon different from a preset configuration set and a performance score lower than that of the preset configuration set;

and the actual performance index is lower than that of the preset configuration set.

Optionally, the obtaining the optimal game configuration of the target terminal according to the filtered configuration set includes:

acquiring a configuration set corresponding to a plurality of second terminals from the filtered configuration set, wherein the second terminals and the first terminals are terminals with the same model;

sending the corresponding configuration set to each second terminal, and receiving each login data sent by each second terminal and acquired according to the corresponding configuration set;

performing an AB test according to the login data to obtain an AB test result;

and determining the optimal game configuration from the filtered configuration set according to the result of the AB test.

Optionally, the determining, according to the result of the AB test, the optimal game configuration from the filtered configuration set includes:

determining a configuration set corresponding to the highest player retention rate from the filtered configuration sets;

and taking the configuration set corresponding to the highest player retention rate as the optimal game configuration.

Optionally, if the performance tag of the initial configuration set is a first tag, before setting each performance tag of each first configuration set in the first configuration echelon as the first tag, the method further includes:

and adjusting the sorting of the partial label configuration sets and/or deleting the configuration sets which do not meet the preset combination.

Optionally, each preset dimension includes at least one of the following dimensions: image quality, frame rate, number of people on screen.

In a second aspect, another embodiment of the present application provides a method for obtaining a game configuration, including:

receiving an initial configuration set of game applications sent by a server; wherein the initial configuration set comprises initial configuration parameters of the game application in each preset dimension;

carrying out game performance test according to the initial configuration set, and acquiring operation data corresponding to the initial configuration set;

and sending the operation data to the server, wherein the server is used for acquiring the game configuration of a target terminal according to the operation data, and the target terminal comprises the first terminal.

In a third aspect, another embodiment of the present application provides an apparatus for acquiring a game configuration, including:

the system comprises a sending module, a receiving module and an obtaining module, wherein the sending module is used for sending an initial configuration set of game applications to a first terminal, the receiving module is used for receiving running data sent by the first terminal, the obtaining module is used for obtaining performance labels of the initial configuration set according to the running data, the initial configuration set comprises initial configuration parameters of the game applications in all preset dimensions, and the performance labels are used for indicating game performances corresponding to the initial configuration set;

the obtaining module is further configured to obtain performance tags of other configuration sets in each configuration set of the game application according to the performance tags of the initial configuration set; acquiring at least one configuration set meeting preset conditions from each configuration set according to the performance label of each configuration set;

the processing module is further configured to filter the at least one configuration set from the configuration sets, and obtain an optimal game configuration of a target terminal according to the filtered configuration sets, where the target terminal includes the first terminal.

Optionally, the obtaining module is further configured to:

acquiring the performance score of the initial configuration set according to the preset score of the initial configuration parameter of each preset dimension; acquiring performance scores of the other configuration sets according to the preset scores of the configuration parameters of the preset dimensions;

optionally, the obtaining module is specifically configured to:

Optionally, the obtaining module is specifically configured to:

and acquiring each performance label of each third configuration set.

Optionally, the obtaining module is specifically configured to:

performing an AB test according to the login data to obtain an AB test result;

Optionally, the result of the AB test includes a retention rate of each player corresponding to the filtered configuration set, and the obtaining module is specifically configured to:

Optionally, the processing module is further configured to:

the receiving module is used for receiving an initial configuration set of the game application sent by the server; wherein the initial configuration set comprises initial configuration parameters of the game application in each preset dimension;

the acquisition module is used for carrying out game performance test according to the initial configuration set and acquiring the running data corresponding to the initial configuration set;

and the sending module is used for sending the running data to the server, the server is used for obtaining the game configuration of a target terminal according to the running data, and the target terminal comprises the first terminal.

In a fourth aspect, another embodiment of the present application provides a server, including: a processor, a memory and a bus, wherein the storage medium stores program instructions executable by the processor, the processor and the memory communicate with each other through the bus when the server runs, and the processor executes the program instructions to execute the method for acquiring the game configuration according to any one of the first aspect.

In a fifth aspect, another embodiment of the present application provides a terminal, including: a processor, a memory and a bus, wherein the memory stores program instructions executable by the processor, the processor and the memory communicate with each other through the bus when the terminal runs, and the processor executes the program instructions to execute the method for acquiring the game configuration according to the second aspect.

In a fourth aspect, another embodiment of the present application provides a computer-readable storage medium, where a computer program is stored on the computer-readable storage medium, and when the computer program is executed by a processor, the method for obtaining a game configuration according to any one of the first and second aspects is performed.

The game configuration acquisition method, the game configuration acquisition device, the server, the terminal and the storage medium are provided by the embodiment of the application, wherein the method comprises the following steps: the method comprises the steps that a server sends an initial configuration set of game applications to a first terminal, receives operation data sent by the first terminal, and obtains performance labels of the initial configuration set according to the operation data, wherein the initial configuration set comprises initial configuration parameters of the game applications in each preset dimension, the performance labels are used for indicating game performances corresponding to the initial configuration set, the performance labels of other configuration sets in each configuration set of the game applications are obtained according to the performance labels of the initial configuration set, at least one configuration set meeting preset conditions is obtained from each configuration set according to the performance labels of each configuration set, at least one configuration set is filtered from each configuration set, the optimal game configuration of a target terminal is obtained according to the filtered configuration sets, and the target terminal comprises the first terminal. The application has the following beneficial effects: according to the performance labels of the initial configuration sets, the performance labels of all the configuration sets can be obtained without testing all the configuration sets, so that the testing cost is reduced, the optimal configuration set of the target terminal is obtained according to the filtered configuration sets, and the accuracy of optimal game configuration is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic diagram of an architecture of a system for acquiring a game configuration provided in an embodiment of the present application;

fig. 2 is a first flowchart illustrating a method for acquiring a game configuration according to an embodiment of the present disclosure;

fig. 3 is a second flowchart illustrating a method for acquiring a game configuration according to an embodiment of the present application;

fig. 4 is a schematic flowchart illustrating a third method for acquiring a game configuration according to an embodiment of the present application;

fig. 5 is a fourth schematic flowchart of a method for acquiring a game configuration according to an embodiment of the present application;

fig. 6 is a schematic flowchart of a method for acquiring a game configuration according to an embodiment of the present application;

FIG. 7 is a first schematic structural diagram of an apparatus for obtaining a game configuration according to an embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of a second acquisition device of a game configuration according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a server according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a terminal according to an embodiment of the present application.

Detailed Description

In order to make the purpose, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it should be understood that the drawings in the present application are for illustrative and descriptive purposes only and are not used to limit the scope of protection of the present application. Additionally, it should be understood that the schematic drawings are not necessarily drawn to scale. The flowcharts used in this application illustrate operations implemented according to some embodiments of the present application. It should be understood that the operations of the flow diagrams may be performed out of order, and steps without logical context may be performed in reverse order or simultaneously. One skilled in the art, under the guidance of this application, may add one or more other operations to, or remove one or more operations from, the flowchart.

In addition, the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, presented in the accompanying drawings, is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present application without making any creative effort, shall fall within the protection scope of the present application.

In order to enable those skilled in the art to use the present disclosure, the following embodiments are given in conjunction with a specific application scenario "obtaining a game optimal configuration of a device". It will be apparent to those skilled in the art that the general principles defined herein may be applied to other embodiments and applications without departing from the spirit and scope of the application. Although the present application is described primarily in terms of how to obtain an optimal configuration of a device, it should be understood that this is merely one exemplary embodiment.

It should be noted that in the embodiments of the present application, the term "comprising" is used to indicate the presence of the features stated hereinafter, but does not exclude the addition of further features.

Before the technical solution of the present application is introduced, the prior art related to the present application is first explained:

in order to increase the number of retained players, the applicant finds that modifying the game configuration of the device is helpful for increasing the number of retained players, in general, the game application provides multiple configuration options, different configuration options represent different game performance effects, the better the effect is, the higher the performance overhead is, the higher the requirements on the device are, generally before the game is on line, default configurations corresponding to different devices are set, for example, the device 1 is a high-configuration type, the default configuration of the device 1 is a high-configuration type, the device 2 is a poor-performance type, and the default type of the device 2 is a low-configuration type, so that different devices can be configured differently, and most devices can perform game experience under a relatively suitable configuration.

However, in practical situations, there are many kinds of devices, and it is difficult to set an optimal default configuration for each device one by one, and often, the devices are layered according to models of a Central Processing Unit (CPU) and a Graphics Processing Unit (GPU) of the device, and then different default configurations are set for devices of different levels. However, this approach has the following drawbacks: firstly, the layering of the equipment is carried out manually, and is rough, which means that some equipment can be divided incorrectly, but the types of the equipment are too many, and even if problems occur, the equipment is difficult to be found; secondly, with continuous updating of games, performance requirements of equipment can change, for example, a data piece is updated with a new playing method, the performance requirements become higher, or performance is optimized after an engine is upgraded, the equipment requirements become lower, but because default configuration is written dead before, updating is often not achieved, and some equipment is not suitable for the default configuration; thirdly, even if the same equipment is used, the performance of the equipment is inconsistent due to individual differences of the equipment, for example, the equipment is seriously aged and has insufficient memory, so that the equipment is clearly a high-end machine but has poor performance, and the problem cannot be solved due to the previous mode of cutting.

Therefore, the frame rate of the client device is often monitored by the background server, and when the frame rate is lower than a preset threshold, the player is prompted to change the configuration. However, this has the following drawbacks: first, the configuration can only be changed from high to low, and when the player's device performs well and can operate smoothly even with a high configuration, but when the default configuration is low, the change from low to high cannot be realized; second, for poor performance determination, it cannot be determined from device to device, and in fact, the performance expectation of different devices is different, that is, it is possible that device a is configured with 20 frames high, and 21 frames medium, and device B is configured with 25 frames high, and 30 frames medium. From the existing performance analysis, actually, a needs to change the configuration more, but actually, B changes the configuration to bring higher profit, and a does not need to change the configuration.

Based on this, the application provides a method for acquiring game configuration, which screens out at least one configuration set meeting preset conditions through performance tags, then filters out at least one configuration set from each configuration set, and acquires an optimal configuration set of a target terminal according to the filtered configuration set, so that the performance tags of each configuration set can be acquired without testing all configuration sets, thereby reducing the testing cost, acquiring the optimal configuration set of the target terminal according to the filtered configuration set, and improving the accuracy of optimal game configuration.

Fig. 1 is a schematic architecture diagram of an acquisition system of a game configuration provided in an embodiment of the present application, and as shown in fig. 1, the system includes a server 100, a first terminal 200, and a second terminal 300 that are connected in a communication manner. In fig. 1, the number of the first terminal 200 and the second terminal 300 is 1 as an example, but in practical application, the number of the first terminal 200 and the second terminal 300 may be multiple.

Illustratively, the first terminal 200 may be a device of an old user of a game application, and the second terminal 300 may be a device of a newly joined user of the game application.

The first terminal 200 and the second terminal may be model and configured with the same terminal, such as the device 1 or the device 2 in the background art, that is, the target terminal includes two types, one is the first terminal 200 and the other is the second terminal 300.

The game application may be any game, and this embodiment is not particularly limited thereto.

Fig. 2 is a first flowchart of a method for acquiring a game configuration according to an embodiment of the present application, and as shown in fig. 2, the method includes the following steps:

s101, the server sends an initial configuration set of game applications to the first terminal, receives operation data sent by the first terminal, and obtains a performance label of the initial configuration set according to the operation data.

For one game application, a plurality of different configuration sets exist, each configuration set comprises configuration parameters of the game application in each preset dimension, and the configuration sets have different preset dimensions for different game applications.

In this embodiment, the initial configuration set of the game application may be any one of the configuration sets, for example, a default configuration set.

The server sends the initial configuration set of the game application to the first terminal, and correspondingly, the first terminal receives the initial configuration set of the game application sent by the server, wherein the initial configuration set includes initial configuration parameters of the game application in each preset dimension, and then the first terminal can further execute: and carrying out game performance test according to the initial configuration set, acquiring operation data corresponding to the initial configuration set, and sending the operation data to a server, wherein the server is used for acquiring the game configuration of a target terminal according to the operation data, and the target terminal comprises a first terminal.

The first terminal may perform a game performance test according to the initial configuration set, and then obtain operation data corresponding to the initial configuration set, and send the operation data to the server, and correspondingly, the server receives the operation data sent by the first terminal, where the operation data may include a stuck value, a CPU occupancy rate, a GPU occupancy rate, a frame rate, and the like.

And then, the server acquires a performance label corresponding to the initial configuration set according to the running data, wherein the performance label is used for indicating the game performance corresponding to the initial configuration set.

Illustratively, the performance tag may be a first tag, a second tag, a third tag.

Alternatively, the first tag may be, for example, better, the second tag may be, for example, normal, and the third tag may be, for example, worse.

In an optional embodiment, when the operation data is greater than the preset threshold, the server determines that the performance tag corresponding to the initial configuration set is poor; when the operation data is equal to a preset threshold value, the server judges that the performance label corresponding to the initial configuration set is general; and when the operation data is smaller than the preset threshold value, the server judges that the performance label corresponding to the initial configuration set is poor.

S102, the server obtains performance labels of other configuration sets in each configuration set of the game application according to the performance labels of the initial configuration set.

The other configuration sets are all configuration sets except the initial configuration set in each configuration set of the game application, and the number of the other configuration sets may be multiple.

Specifically, when the performance label of the initial configuration set is better, the performance label of the configuration set lower than the initial configuration set in each configuration set of the game application is also better; when the performance label of the initial configuration set is poor, the performance labels of other configuration sets higher than the initial configuration set in each configuration set are also poor, then the corresponding configuration set can be sent to the terminal device, the corresponding configuration set is used as the initial configuration set, and the step is repeated until the performance labels of other configuration sets in each game configuration are obtained.

The configuration sets may be determined according to a configuration score normalization scheme, that is, the configuration sets may be represented by normalized scores.

Optionally, step S102 is preceded by:

acquiring performance scores of the initial configuration set according to preset scores of initial configuration parameters of all preset dimensions;

and acquiring the performance scores of other configuration sets according to the preset scores of the configuration parameters of the preset dimensions.

Optionally, if the initial configuration parameter of each preset dimension has a preset score, acquiring the performance score of the initial configuration set according to the preset score of the initial configuration parameter of each preset dimension may include the following two implementations:

firstly, adding the preset scores of the initial configuration parameters of all the preset dimensions to obtain the performance score of the initial configuration set.

And secondly, calculating a weighted value according to the preset weight of each preset dimension and the preset score of the initial configuration parameter of each preset dimension, and taking the weighted value as the performance score of the initial configuration combination.

The number of people on the same screen refers to the maximum number of people displayed in one screen at the same time. In an actual game, there may be hundreds of players in the same location due to the large number of players, but if all of them are displayed, there is a significant overhead on the performance of the device, and the probability may cause the device to be stuck. Therefore, games typically set an upper limit on the number of people on the same screen.

For the second implementation, as an example, table 1 is an illustration of a configuration set, and as shown in table 1, the weight of the image quality is 10, the weight of the frame rate is 10, the weight of the number of people on the same screen is 2, and the configuration parameters of the image quality dimension include four levels, which are respectively the first level: extremely, second gear: fine, third gear: normal, fourth gear: the smoothness is realized; the frame rate dimension includes two shelves, the first shelf: 60 frames, second gear: 30 frames; the number of people on the same screen dimension comprises three grades, a first grade: high, second gear, third gear: low. Wherein each gear corresponds to a preset score.

Table 1 then the performance score may be:

wherein n is the number of dimensions, n is equal to 3, and the preset weight of each dimension is W_iThe configuration parameter of each configuration set is S_i。

For an initial configuration set: the extreme image quality +60 frames + the number of high same-screen people, and the performance score of the initial configuration set can be calculated to be 5 × 10+2 × 10+3 × 2 ═ 76 by adopting the formula; for another initial configuration set: fluent picture quality +30 frames + low on-screen people, and the performance score of the initial configuration set was 1 × 10+1 × 2-22.

Correspondingly, the performance scores of other configuration sets are obtained according to the preset scores of the configuration parameters of the preset dimensions, and the method also can be realized by the following two methods:

firstly, adding the preset values of the configuration parameters of each preset dimension to obtain the performance values of other configuration sets.

And secondly, calculating a weighted value according to the preset weight of each preset dimension and the preset value of the configuration parameter of each preset dimension, and taking the weighted value as the performance value of each other configuration set.

Correspondingly, step S102 specifically includes:

and acquiring the performance labels of other configuration sets according to the performance labels of the initial configuration sets, the performance scores of the initial configuration sets and the performance scores of the other configuration sets.

Specifically, when the performance label of the initial configuration set is better, the performance label of the configuration set with the performance score lower than that of the initial configuration set in other configuration sets is set to be better; when the performance label of the initial configuration set is poor, setting the performance label of the configuration set with the performance score higher than that of the initial configuration set in other configuration sets to be poor; then, a corresponding configuration set can be sent to the terminal device, the corresponding configuration set is used as an initial configuration set, and the step is repeated until the performance tags of other configuration sets are obtained.

S103, the server acquires at least one configuration set meeting preset conditions from the configuration sets according to the performance labels of the configuration sets.

S104, the server filters out at least one configuration set from the configuration sets, and obtains the optimal game configuration of the target terminal according to the filtered configuration sets.

At least one configuration set may be a configuration set to be filtered, and the preset condition may be a filtering condition.

For example, the preset condition may be that the performance tag is poor, the server obtains at least one configuration set with poor performance tag from each configuration set, filters out at least one configuration set from each configuration set, and then obtains the optimal game configuration of the target terminal according to the filtered configuration set.

Wherein, the number of the filtered configuration sets may be multiple.

In an optional implementation manner, the obtaining, by the server, the optimal game configuration of the target terminal according to the filtered configuration set may include: the server sends the filtered configuration sets to the corresponding second terminals respectively, that is, each second terminal runs the game based on the corresponding filtered configuration set to obtain running data and sends the running data to the server, the server performs an AB test according to the running data to obtain the result of the AB test, and then the result of the AB test obtains the optimal game configuration of the target terminal.

And the AB test refers to that a plurality of second terminals respectively run games according to the corresponding configuration sets, and the game effect of which configuration set is the best is judged according to the fed-back login data.

Wherein, the result of the AB test may include the retention rate of each player corresponding to the filtered configuration set. In this way, the server can take the configuration set corresponding to the highest value in the player retention rate as the optimal game configuration of the target terminal.

In this embodiment, through the convergence mode based on score normalization, can reduce the configuration set that follow-up AB test carried out effectively to promote AB test efficiency, reduced the cost of AB test, and when each preset dimension was more, convergence rate was still very fast, and the income is more obvious, can help fine follow-up AB test link of carrying out.

The method for acquiring the game configuration provided by the embodiment comprises the following steps: the method comprises the steps that a server sends an initial configuration set of game applications to a first terminal, receives operation data sent by the first terminal, and obtains performance labels of the initial configuration set according to the operation data, wherein the initial configuration set comprises initial configuration parameters of the game applications in each preset dimension, the performance labels are used for indicating game performances corresponding to the initial configuration set, the performance labels of other configuration sets in each configuration set of the game applications are obtained according to the performance labels of the initial configuration set, at least one configuration set meeting preset conditions is obtained from each configuration set according to the performance labels of each configuration set, at least one configuration set is filtered from each configuration set, the optimal game configuration of a target terminal is obtained according to the filtered configuration sets, and the target terminal comprises the first terminal. The application has the following beneficial effects: according to the performance labels of the initial configuration sets, the performance labels of all the configuration sets can be obtained without testing all the configuration sets, so that the testing cost is reduced, the optimal configuration set of the target terminal is obtained according to the filtered configuration sets, and the accuracy of optimal game configuration is improved.

On the basis of the above embodiment, the following specifically describes, with reference to the embodiment of fig. 3, obtaining the performance labels of other configuration sets according to the performance labels of the initial configuration sets, the performance scores of the initial configuration sets, and the performance scores of the other configuration sets.

Fig. 3 is a schematic flowchart of a second method for acquiring a game configuration according to an embodiment of the present application, where as shown in fig. 3, the method includes the following steps:

s201, the server sorts the initial configuration set and other configuration sets according to the performance scores of the initial configuration set and the performance scores of the other configuration sets, and a plurality of configuration echelons are obtained.

And sequencing the initial configuration set and other configuration sets according to the performance scores of the initial configuration set and the performance scores of the other configuration sets to obtain a plurality of configuration ladders, wherein each configuration ladder comprises configuration sets with equal performance scores.

Optionally, the sorting may be performed in a descending order or a descending order, which is not particularly limited in this embodiment.

As an example, Table 2 is an illustration of a plurality of configuration ladders, and as shown in Table 2, the configuration ladders are sorted in descending order of performance scores, and include 15 configuration ladders, and each of the configuration ladders 4-12 includes two configuration sets with equal performance scores.

TABLE 2

After a plurality of configuration ladders are generated, the sequencing of the configuration ladders can be adjusted according to the actual test result so as to match the actual situation. Optionally, before the step S202, the method further includes:

Taking table 2 as an example, the configuration set: the performance score of fine +30 frames + low on-screen people is 42, and a set is configured: the performance score of fluency +60 frames + high on-screen people is 36, according to actual test finding, the latter is better, then the configuration set can be adjusted: fine +30 frames + low number of people with same screen, and smooth +60 frames + high number of people with same screen of the configuration set, arrange 36 points of smooth +60 frames + high number of people with same screen in front of 42 points of fine +30 frames + low number of people with same screen.

In addition, in practical situations there may be special combinations that cannot be used, for example: if the combination of the fluent image quality +60 frames is not allowed, configurations that do not satisfy the preset combination may be combined, where the preset combination is a combination that can be used.

S202, if the performance label of the initial configuration set is a first label, the server sets each performance label of each first configuration set in the first configuration echelon as the first label, wherein the performance score of each first configuration set is lower than that of the initial configuration set.

Wherein, each first configuration set is included in the first configuration echelon.

Table 3 shows that a plurality of configuration echelons are included, as shown in table 3, the configuration echelons 2 to 5 include two configuration sets, each of the configuration echelons 2 to 5 includes a second configuration set, the initial configuration set is a second configuration set in the configuration echelon 4, the number of the remaining devices is the number of the first terminals, and the number of the remaining devices in table 3 is 20, that is, the 20 first terminals are used to perform a game performance test according to the initial configuration sets, the server determines the performance tags of the initial configuration sets according to the operation data sent by the 20 first terminals, if the performance tags corresponding to the first terminals which are greater than or equal to the preset threshold are the first tags, the performance tags of the initial configuration sets are determined to be the first tags, and the remaining devices are 0, which means that the performance test has not been performed by the first terminals according to the configuration sets corresponding to the remaining devices of 0.

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	Not tested	0	/
2	Not tested	0	/
				2	Not tested	0	/
3	Not tested	0	/
				3	Not tested	0	/
4	Not tested	0	/
				4	In the test	20	/
4	Not tested	0	/
				5	Not tested	0	/
5	Not tested	0	/
				6	Not tested	0	/

TABLE 3

Illustratively, the first label is better.

Referring to table 4, the performance scores are sorted in descending order, with the performance score being smaller the further down. If the performance tag of the initial configuration set is a first tag, then each performance tag of each first configuration set in the first configuration echelon is set as the first tag, where the performance score of each first configuration set is lower than the performance score of the initial configuration set, referring to table 4, the first configuration echelon includes configuration echelons 5-6, configuration echelon 5 includes two configuration sets, i.e., two first configuration sets, and configuration echelon 6 includes one configuration set, i.e., one first configuration set.

TABLE 4

S203, the server sends each second configuration set in the second configuration echelon to the first terminal, and acquires each performance label of each second configuration set; and the performance score of each second configuration set is higher than that of the initial configuration set, and the first configuration echelon and the second configuration echelon in each configuration echelon are adjacent.

And the second configuration echelons comprise second configuration sets. The server sends each second configuration set to the first terminal, the first terminal can perform game performance testing according to the second configuration sets, obtains operation data corresponding to the second configuration sets, sends the operation data to the server, and the server can obtain performance labels of the corresponding second configuration sets according to the operation data.

In an optional implementation manner, the server may divide the first terminals into a plurality of groups, where the number of the groups is the same as the number of the second configuration sets, that is, the server sends each second configuration set to the first terminals in different groups, the first terminals in different groups perform game performance tests according to the corresponding second configuration sets, and the first terminals in different groups send respective operation data to the server, so that the server may obtain each performance tag of each second configuration set.

Referring to table 5, each performance tag of each first configuration set in the first configuration echelon is set as a first tag, the first configuration echelon includes configuration echelon 5 and configuration echelon 6, and then each second configuration set in the second configuration echelon is sent to the first terminal, referring to table 4, the second configuration echelon is configuration echelon 3, and configuration echelon 3 includes two configuration sets, i.e., two second configuration sets.

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	Not tested	0	/
2	Not tested	0	/
				2	Not tested	0	/
3	In the test	20	/
				3	In the test	20	/
4	Not tested	0	/
				4	End of test	0	Is preferably used
4	Not tested	0	/
				5	Not tested	0	Is preferably used
5	Not tested	0	Is preferably used
				6	Not tested	0	Is preferably used

TABLE 5

If the performance tag of each configuration set in the second configuration echelon is the first tag, the performance tags may be set for the configuration echelons in table 5 in the manner of steps S202-S203.

Optionally, if each performance tag of each second configuration set includes a first tag and a second tag, the performance tags of other configuration sets in the configuration echelon in which the initial configuration set is located are set as the first tags.

Illustratively, the second label is generic.

Specifically, if the performance labels of the second configuration set are the first label and the second label, that is, referring to table 6, the performance labels of two configuration sets in the configuration echelon 3 are better and general, the optimal configuration in the same type of echelon is taken, the performance label of the configuration echelon 3 is determined to be better, the performance labels of the other configuration sets in the configuration echelon in which the initial configuration set is located are set as the first labels, referring to table 7, the configuration echelon in which the initial configuration set is located is the configuration echelon 4, and the other configuration sets are the first configuration set in the configuration echelon.

Then, each configuration set in configuration ladder 2 may be sent to the first terminal, and a performance tag of each configuration set in configuration ladder 2 may be obtained.

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	Not tested	0	/
2	Not tested	0	/
				2	Not tested	0	/
3	End of test	0	Is preferably used
				3	End of test	0	In general
4	Not tested	0	/
				4	End of test	0	Is preferably used
4	Not tested	0	/
				5	Not tested	0	Is preferably used
5	Not tested	0	Is preferably used
				6	Not tested	0	Is preferably used

TABLE 6

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	Not tested	0	/
2	In the test	20	/
				2	In the test	20	/
3	End of test	0	Is preferably used
				3	End of test	0	In general
4	Not tested	0	/
				4	End of test	0	Is preferably used
4	Not tested	0	/
				5	Not tested	0	Is preferably used
5	Not tested	0	Is preferably used
				6	Not tested	0	Is preferably used

TABLE 7

The method for acquiring the game configuration provided by the embodiment comprises the following steps: sequencing the initial configuration set and other configuration sets according to the performance scores of the initial configuration set and the performance scores of the other configuration sets to obtain a plurality of configuration ladders, wherein each configuration ladder comprises configuration sets with equal performance scores; if the performance label of the initial configuration set is a first label, setting each performance label of each first configuration set in the first configuration echelon as a first label; wherein the performance score of each first configuration set is lower than the performance score of the initial configuration set; sending each second configuration set in the second configuration echelon to the first terminal, and acquiring each performance label of each second configuration set; and the performance score of each second configuration set is higher than that of the initial configuration set, and the first configuration echelon and the second configuration echelon in each configuration echelon are adjacent. Therefore, the performance label can be set for the configuration set with the performance score lower than that of the initial configuration set without testing a large number of configuration sets, and the testing cost is reduced.

On the basis of the above embodiment, if the performance tag of the initial configuration set is the second tag, the steps shown in the embodiment of fig. 4 may be performed. Fig. 4 is a schematic flowchart of a third method for acquiring a game configuration according to an embodiment of the present application, where as shown in fig. 4, the method includes the following steps:

s301, if the performance tag of the initial configuration set is a second tag, the server sends each third configuration set in a third configuration echelon to the first terminal; and the performance score of each third configuration set is higher or lower than that of the initial configuration set, and the third configuration echelon in each configuration echelon is adjacent to the configuration echelon in which the initial configuration set is positioned.

Wherein the second label indicates a performance that is worse than the performance indicated by the first label.

Illustratively, the second tag may be generic, for example.

And the third configuration echelons comprise third configuration sets.

As shown in table 8, the performance scores are sorted in descending order, and the performance score is smaller the lower the performance score is, that is, the priority is lower the performance score is. If the performance tag of the initial configuration set is the second tag, then an attempt may be made to test a high configuration or a low configuration, and specifically, each third configuration set in a third configuration echelon is sent to the second terminal, where the performance score of each third configuration set is higher or lower than the performance score of the initial configuration set, and the third configuration echelon is adjacent to the configuration echelon where the initial configuration echelon is located. Referring to table 8, the third configuration echelon may be either configuration echelon 3 or configuration echelon 5.

TABLE 8

S302, the server acquires each performance label of each third configuration set.

And the server sends each third configuration set to the first terminal, receives each operation data sent by the first terminal, and then acquires each performance label of each third configuration set according to each operation data.

In an optional implementation manner, the number of each third configuration set is multiple, the server may divide the first terminal into multiple groups, and the number of the groups is the same as the number of each third configuration set, that is, the server sends each third configuration set to the first terminals in different groups, the first terminals in different groups perform game performance tests according to the corresponding second configuration sets, the first terminals in different groups send respective operation data to the server, and the server may obtain each performance label combined with each third configuration based on each operation data.

The method for acquiring the game configuration provided by the embodiment comprises the following steps: if the performance label of the initial configuration set is a second label, each third configuration set in a third configuration echelon is sent to the first terminal; and the performance score of each third configuration set is higher or lower than that of the initial configuration set, the third configuration echelons in each configuration echelon are adjacent to the configuration echelons where the initial configuration set is located, the performance indicated by the second label is poorer than that indicated by the first label, and each performance label of each third configuration set is obtained. Therefore, when the initial configuration set is the second label, the performance label is set for the third configuration set with the performance score higher or lower than that of the initial configuration set.

On the basis of the above embodiment, if the performance tag of the initial configuration set is the third tag, the steps shown in the embodiment of fig. 5 may be performed. Fig. 5 is a fourth schematic flowchart of a method for acquiring a game configuration according to an embodiment of the present application, where as shown in fig. 5, the method includes the following steps:

s401, if the performance label of the initial configuration set is a third label, the server sets each performance label of each fourth configuration set in the fourth configuration echelon as the third label; and the performance score of each fourth configuration set is higher than that of the initial configuration set.

And the performance indicated by the third label is poorer than the performance indicated by the first label and the second label.

Illustratively, the third label may be poor.

And the fourth configuration echelon comprises each fourth configuration set.

As shown in table 9, the performance scores are sorted in descending order, and the performance score decreases as going down. If the performance label of the initial configuration set is the third label, then an attempt to test a low configuration may be made, specifically, each performance label of each fourth configuration set in a fourth configuration echelon is set as the third label, where the performance score of each fourth configuration set is higher than the performance score of the initial configuration set, referring to table 9, the fourth configuration echelon includes configuration echelons 1-3, configuration echelons 2-3 include two configuration sets, and configuration echelon 1 includes 1 configuration set, that is, five fourth configuration sets.

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	End of test	0	Is poor
2	End of test	0	Is poor
				2	End of test	0	Is poor
3	End of test	0	Is poor
				3	End of test	0	Is poor
4	Not tested	0	/
				4	End of test	0	Is poor
4	Not tested	0	/
				5	Not tested	0	/
5	Not tested	0	/
				6	Not tested	0	/

TABLE 9

S402, the server sends each fifth configuration set in the fifth configuration echelon to the first terminal, and obtains a performance label of each fifth configuration set; and the performance score of each fifth configuration set is lower than that of the initial configuration set, and the fifth configuration echelon is adjacent to the configuration echelon in which the initial configuration set is positioned.

And the fifth configuration echelons comprise fifth configuration sets. And the server sends each fifth configuration set to the first terminal, the first terminal can perform game performance test according to the fifth configuration set and acquire operation data corresponding to the fifth configuration set, the server sends the operation data, and the server can acquire the performance label of the corresponding fifth configuration set according to the operation data.

In an optional implementation manner, the server may divide the first terminal into a plurality of groups, where the number of the groups is the same as the number of the fifth configuration sets, that is, the server sends each fifth configuration set to the first terminals in different groups, the first terminals in different groups perform game performance tests according to the corresponding fifth configuration sets, and the first terminals in different groups send respective operation data to the server, so that the server may obtain each performance tag of each fifth configuration set.

The method for acquiring the game configuration provided by the embodiment comprises the following steps: if the performance label of the initial configuration set is a third label, setting each performance label of each fourth configuration set in a fourth configuration echelon as the third label; the performance score of each fourth configuration set is higher than that of the initial configuration set, the performance indicated by the third label is poorer than that indicated by the first label and the second label, and each fifth configuration set in a fifth configuration echelon is sent to the first terminal; and the performance score of each fifth configuration set is lower than that of the initial configuration set, and the fifth configuration echelon is adjacent to the configuration echelon in which the initial configuration set is positioned. Therefore, the performance label can be set for the fifth configuration set with the performance score higher than that of the initial configuration set without testing a large number of configuration sets, and the testing cost is reduced.

It should be noted that fig. 3 to fig. 5 show a manner of setting performance labels for some other configuration sets in each configuration echelon when the performance labels of the initial configuration set are the first label, the second label, and the third label, and in order to set performance labels for all configuration sets in each configuration echelon, corresponding steps in fig. 3 to fig. 5 may be further executed repeatedly by judging the performance labels in the manner of fig. 3 to fig. 5 until performance labels are set for all configuration sets in each configuration echelon. Table 10 is an illustration of the labels for each configuration set.

On the basis of the above embodiment, after the performance labels and the performance scores of the configuration sets are obtained, at least one configuration set meeting the preset condition may be obtained, and step S104 is executed to filter out the at least one configuration set from the configuration sets.

Optionally, step S103 specifically includes: and acquiring at least one configuration set meeting preset conditions according to the performance labels and the performance scores of the configuration sets.

Optionally, the preset condition comprises at least one of the following conditions:

the configuration echelons are in different configuration echelons from the preset configuration set, and the performance score is lower than that of the preset configuration set;

Illustratively, the third label may be poor, and when the performance label is poor, the configuration set may be regarded as at least one configuration set so as to be filtered out in step S104.

If the configuration echelon is in a different configuration echelon from the preset configuration set and the performance score is lower than the performance score of the preset configuration set, indicating that the preset configuration set is better than the configuration set, the configuration set may be used as at least one configuration set so as to be filtered out in step S104.

When the configuration echelon is in a different configuration echelon from the preset configuration set and the actual performance index is lower than the actual performance index of the preset configuration set, indicating that the preset configuration set is superior to the configuration set, the configuration set may be used as at least one configuration set, so as to filter the configuration set in step S104.

Alternatively, the server may send the two optimal game configurations to the target terminal in the background so that the target terminal adjusts to the optimal game configurations.

Based on the foregoing embodiment, the following specifically describes, with reference to fig. 6, an embodiment of obtaining an optimal game configuration of a target terminal according to a filtered configuration set, where fig. 6 is a flowchart of a method for obtaining a game configuration according to an embodiment of the present application, and as shown in fig. 6, obtaining an optimal game configuration of a target terminal according to a filtered configuration set specifically includes:

s501, the server acquires a plurality of configuration sets corresponding to the second terminals from the filtered configuration sets.

The second terminal and the first terminal are terminals of the same type, and the second terminal can be game equipment of a newly added user.

If the number of the filtered configuration sets is multiple, the configuration sets corresponding to the multiple second terminals may be obtained from the filtered configuration sets. One configuration set may correspond to at least one second terminal, that is, the second terminal and the configuration set may be in a one-to-one relationship or a many-to-one relationship.

S502, the server sends the corresponding configuration sets to the second terminals and receives the login data sent by the second terminals and acquired according to the corresponding configuration sets.

And the server sends the corresponding configuration set to each second terminal, and each second terminal runs the game according to the corresponding configuration set and acquires login data of the corresponding configuration set, wherein the login data comprises login times of the user within preset time.

And S503, the server performs AB test according to the login data to obtain the AB test result.

S504, the server determines the optimal game configuration from the filtered configuration set according to the result of the AB test.

In an optional embodiment, an AB test is performed according to each login data, so as to obtain an average login frequency corresponding to each configuration set within a preset time, and each average login frequency is used as an AB test result. And then according to the result of the AB test, determining a configuration set with the maximum average login times from the filtered configuration sets, and taking the configuration set with the maximum average login times as the optimal game configuration.

Optionally, the results of the AB test include respective player retention rates corresponding to the filtered configuration set. Step S504 specifically includes:

s5041, determining a configuration set corresponding to the highest player retention rate from the filtered configuration sets.

S5042, taking the configuration set corresponding to the highest player retention rate as the optimal game configuration.

The player retention rate refers to a player who starts using the game application within a preset time and continues using the game application after a period of time.

Illustratively, the login data further includes an identifier of the login user, and then, according to the login data, the retention rate of each player corresponding to the filtered configuration set can be obtained, and then, the configuration set corresponding to the highest retention rate of the player is used as the optimal game configuration.

The preset time may be 3 days, and the server may first obtain an identifier of a player who logs in the game application on the first day, then obtain an identifier of a user who logs in the game on the third day, and then calculate a player retention rate within 3 days.

Of course, the preset time may also be one week, one month, etc., which is not particularly limited in this embodiment.

And then, the server acquires the configuration set with the highest player retention rate, and takes the configuration set corresponding to the highest value in the player retention rate as the optimal game configuration of the target terminal.

The key of this embodiment lies in, the configuration set after adopting the filtration carries out the AB test, reduces the sample size of AB test, has simplified the test cost for the convergence process, has improved efficiency of software testing to when the predetermined dimension of configuration set is more, convergence rate is still very fast, and the income is obvious.

The method for acquiring the game configuration provided by the embodiment comprises the following steps: the server acquires a configuration set corresponding to the second terminal from the filtered configuration sets, sends the configuration set to the second terminal, receives an AB test result sent by the second terminal, calculates a player retention rate of the second terminal in a preset time according to the AB test result, and takes the configuration set corresponding to the highest value in the player retention rate as the optimal game configuration of the target terminal, wherein the AB test result comprises the identification of a login user in the preset time. The embodiment adopts the filtered configuration set to carry out the AB test, reduces the sample size of the AB test, simplifies the test cost, accelerates the convergence process, improves the test efficiency and simultaneously improves the acquisition speed of the optimal game configuration.

The following is a detailed description of a specific embodiment in which the performance label of the initial configuration set is taken as a better example, and a manner of setting the performance label for each configuration set is described.

In the first step, if the performance label of the initial configuration set is better, the performance labels of the configuration echelons 5-6 are set to be better.

Second, configuration echelon 3 is tested.

The step of testing the configuration echelon 3 is to send each configuration set in the configuration echelon 3 to the first terminal, obtain the performance label of each configuration set in the configuration echelon 3 according to the running data sent by the first terminal, and if the performance labels of two configuration sets in the configuration echelon 3 are good and general respectively, determine that the optimal label in the same configuration echelon is good, and set the performance label of the first configuration set in the configuration echelon 4 as good.

The implementation processes of the first step and the second step are detailed in the related descriptions in tables 4, 5, and 6, and are not described herein again.

And thirdly, testing and configuring the echelon 2.

As shown in Table 10, the performance tags for both configuration sets in configuration echelon 2 are generic.

Configuring a fleet of ladders	Test status	Residual equipment	Performance label
				1	In the test	20	/
2	End of test	0	In general
				2	End of test	0	In general
3	End of test	0	Is preferably used
				3	End of test	0	In general
4	End of test	0	Is preferably used
				4	End of test	0	Is preferably used
4	End of test	0	Is preferably used
				5	End of test	0	Is preferably used
5	End of test	0	Is preferably used
				6	End of test	0	Is preferably used

Watch 10

And step four, testing and configuring the echelon 1.

As shown in Table 11, the performance tag of the configuration set in configuration echelon 1 is poor.

TABLE 11

Referring to table 11, according to the preset condition, the configuration set in configuration echelon 1 may be filtered out; if the performance label of the first configuration set in configuration echelon 3 is better, then the configuration echelon with the performance score lower than that of configuration echelon 3 is filtered, that is, the configuration sets in configuration echelons 4-6 are filtered, and configuration echelons 2 and 3 are left, then, because the actual performance index of configuration echelon 2 is higher than that of configuration echelon 3, then two configuration sets in configuration echelon 3 can be filtered, and correspondingly, two configuration sets in configuration echelon 2 are the optimal game configuration.

Fig. 7 is a schematic structural diagram of an acquisition device of a game configuration according to an embodiment of the present application, where the acquisition device 60 of the game configuration may be integrated in the server shown in fig. 9. As shown in fig. 7, the acquisition means 60 of the game configuration includes:

a sending module 601, configured to send an initial configuration set of a game application to a first terminal, a receiving module 602, configured to receive operation data sent by the first terminal, and an obtaining module 603, configured to obtain a performance tag of the initial configuration set according to the operation data, where the initial configuration set includes initial configuration parameters of the game application in each preset dimension, and the performance tag is used to indicate game performance corresponding to the initial configuration set;

the obtaining module 603 is further configured to obtain, according to the performance tag of the initial configuration set, performance tags of other configuration sets in each configuration set of the game application; acquiring at least one configuration set meeting preset conditions from each configuration set according to the performance label of each configuration set;

the processing module 604 is further configured to filter the at least one configuration set from the configuration sets, and obtain an optimal game configuration of a target terminal according to the filtered configuration sets, where the target terminal includes the first terminal.

Optionally, the obtaining module 603 is further configured to:

optionally, the obtaining module 603 is specifically configured to:

Optionally, the obtaining module 603 is specifically configured to:

sending each second configuration set in a second configuration echelon to the first terminal, and acquiring each performance label of each second configuration set; wherein the performance score of each second configuration set is higher than the performance score of the initial configuration set.

Optionally, the obtaining module 603 is specifically configured to:

and acquiring each performance label of each third configuration set.

Optionally, the obtaining module 603 is specifically configured to:

performing an AB test according to the login data to obtain an AB test result;

Optionally, the result of the AB test includes a retention rate of each player corresponding to the filtered configuration set, and the obtaining module 603 is specifically configured to:

Optionally, the processing module 604 is further configured to:

The description of the processing flow of each module in the device and the interaction flow between the modules may refer to the related description of the method executed by the server in the above method embodiment, and will not be described in detail here.

Fig. 8 is a schematic structural diagram of an acquisition device of a game configuration according to an embodiment of the present application, where the acquisition device 70 of the game configuration may be integrated in the terminal shown in fig. 10. As shown in fig. 8, the acquisition means 70 of the game configuration includes:

a receiving module 701, configured to receive an initial configuration set of a game application sent by a server; wherein the initial configuration set comprises initial configuration parameters of the game application in each preset dimension;

an obtaining module 702, configured to perform a game performance test according to the initial configuration set, and obtain operation data corresponding to the initial configuration set;

a sending module 703, configured to send the operation data to the server, where the server is configured to obtain a game configuration of a target terminal according to the operation data, where the target terminal includes the first terminal.

The description of the processing flow of each module in the device and the interaction flow between the modules may refer to the related description of the method executed by the first terminal in the above method embodiment, and will not be described in detail here.

Fig. 9 is a schematic structural diagram of a server according to an embodiment of the present application, and as shown in fig. 9, a server 80 includes:

a processor 801, a memory 802 and a bus 804, wherein the storage medium stores program instructions executable by the processor, when the server runs, the processor 801 communicates with the memory 802 through the bus 804, and the processor 801 executes the program instructions to execute the acquisition method of the game configuration executed by the server.

Optionally, the server 80 may further include a transceiver 803, and the processor 801, the memory 802 and the transceiver 803 communicate with each other through a bus 804 to transmit and receive data.

Fig. 10 is a schematic structural diagram of a terminal according to an embodiment of the present application, and as shown in fig. 10, a terminal 90 includes:

a processor 901, a memory 902 and a bus 904, wherein the memory 902 stores program instructions executable by the processor 901, the processor 901 and the memory 902 communicate with each other via the bus 904 when the terminal 90 runs, and the processor 901 executes the program instructions to execute the method for acquiring the game configuration executed by the first terminal.

Optionally, the terminal 90 may further include a transceiver 903, and the processor 901, the memory 902 and the transceiver 903 communicate with each other through the bus 804 for transceiving data.

The embodiment of the application also provides a computer readable storage medium, wherein a computer program is stored on the computer readable storage medium, and when the computer program is executed by a processor, the computer program executes the method for acquiring the game configuration.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the system and the apparatus described above may refer to corresponding processes in the method embodiments, and are not described in detail in this application. In the several embodiments provided in the present application, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. The above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is merely a logical division, and there may be other divisions in actual implementation, and for example, a plurality of modules or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection of devices or modules through some communication interfaces, and may be in an electrical, mechanical or other form.

In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application.

Claims

1. A method for obtaining a game configuration, the method comprising:

2. The method of claim 1, wherein before obtaining the performance labels of the other configuration sets of the game application according to the performance labels of the initial configuration set, the method further comprises:

3. The method of claim 2, wherein obtaining the performance labels of the other configuration sets according to the performance labels of the initial configuration sets, the performance scores of the initial configuration sets, and the performance scores of the other configuration sets comprises:

4. The method of claim 3, further comprising:

and acquiring each performance label of each third configuration set.

5. The method of claim 3, further comprising:

6. The method of claim 3, further comprising:

7. The method according to claim 2, wherein the obtaining at least one configuration set satisfying a preset condition from the configuration sets according to the performance label of each configuration set comprises:

8. The method of claim 7, wherein the preset condition comprises at least one of the following conditions:

9. The method of claim 1, wherein obtaining the optimal game configuration of the target terminal according to the filtered configuration set comprises:

performing an AB test according to the login data to obtain an AB test result;

10. The method of claim 9, wherein the results of the AB test include player retention rates for respective filtered configuration sets, and wherein determining the optimal game configuration from the filtered configuration sets based on the results of the AB test comprises:

11. The method of claim 3, wherein before setting the performance tags of the first configuration sets in the first configuration echelon to be the first tags if the performance tags of the initial configuration sets are the first tags, further comprising:

12. The method of claim 1, wherein the preset dimensions include at least one of the following dimensions: image quality, frame rate, number of people on screen.

13. A method for obtaining a game configuration, the method comprising:

and sending the operation data to the server, wherein the server is used for acquiring the game configuration of a target terminal according to the operation data, and the target terminal comprises a first terminal.

14. An apparatus for obtaining a game configuration, comprising:

15. An apparatus for obtaining a game configuration, comprising:

and the sending module is used for sending the running data to the server, the server is used for obtaining the game configuration of a target terminal according to the running data, and the target terminal comprises a first terminal.

16. A server, comprising: a processor, a memory and a bus, the storage medium storing program instructions executable by the processor, the processor and the memory communicating via the bus when the server is running, the processor executing the program instructions to perform the method of obtaining a game configuration according to any one of claims 1 to 12.

17. A terminal, comprising: a processor, a memory and a bus, the memory storing program instructions executable by the processor, the processor and the memory communicating via the bus when the terminal is running, the processor executing the program instructions to perform the method of obtaining a game configuration according to claim 13.

18. A computer-readable storage medium, having stored thereon a computer program which, when executed by a processor, performs the method of obtaining a game configuration according to any one of claims 1 to 12.