CN103517051B - Control method and electronic equipment - Google Patents

Abstract

Embodiments provide a kind of control method and electronic equipment.Control method according to embodiments of the present invention, is applied to electronic equipment, and wherein electronic equipment includes display unit and 3-D view processing unit.Described control method comprises determining that the current refreshing frequency of display unit；Obtain the first three-dimensional process ability value corresponding with current refreshing frequency；The process parameter of 3-D view processing unit is regulated according to the first three-dimensional process ability value.

Description

Control method and electronic device

Technical Field

The invention relates to a control method and corresponding electronic equipment. More particularly, the present invention relates to a control method for a three-dimensional image processing unit and a corresponding electronic device.

Background

At present, various electronic devices including a display function are widely used, such as a television, a personal computer, a portable computer, a tablet computer, a smart phone, a portable multimedia player, and the like. Through such electronic devices, users may view web pages, videos, pictures, text files, and the like. However, the conventional flat image has become unable to meet the viewing requirements of users, and with the development of technology, many electronic devices include a three-dimensional image processing unit to process image data and generate a three-dimensional display screen, thereby improving the viewing experience of users.

However, in the present electronic apparatus, the processing performance of the three-dimensional image processing unit is generally exerted to the maximum during the three-dimensional image display. On the other hand, the refresh frequency of the display unit is not usually set to a high value in the electronic apparatus for the purpose of reducing power consumption and the like. This results in a slower refresh frequency of the display unit than the processing speed of the three-dimensional image processing unit for each frame of image. In this case, the processing performance of the three-dimensional processing unit is excessive. Since the three-dimensional image processing unit requires a high core voltage when operating with high processing performance, it causes a waste of power consumption of the electronic device.

Disclosure of Invention

An embodiment of the invention provides a control method and an electronic device to solve the above problems.

One embodiment of the invention provides a control method applied to an electronic device, wherein the electronic device comprises a display unit and a three-dimensional image processing unit. The control method comprises the following steps: determining the current refresh frequency of the display unit; obtaining a first three-dimensional processing capacity value corresponding to the current refreshing frequency; and adjusting the processing parameters of the three-dimensional image processing unit according to the first three-dimensional processing capability value.

Another embodiment of the present invention provides an electronic apparatus including a display unit and a three-dimensional image processing unit. The electronic device further includes: a frequency determination unit configured to determine a current refresh frequency of the display unit; an acquisition unit configured to acquire a first three-dimensional processing capability value corresponding to a current refresh frequency; and an adjusting unit configured to adjust a processing parameter of the three-dimensional image processing unit according to the first three-dimensional processing capability value.

According to the scheme provided by the embodiment of the invention, the performance of the three-dimensional image processing unit can be adjusted according to the current refreshing frequency of the display unit, so that the processing capacity of the three-dimensional image processing unit is matched with the current refreshing frequency of the display unit. Therefore, under the condition that the refreshing frequency of the display unit is low, the processing capacity of the three-dimensional image processing unit can be correspondingly reduced, so that the requirement of high core voltage during the operation of the three-dimensional image processing unit is reduced, and the power consumption of the electronic equipment is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below. The drawings in the following description are merely exemplary embodiments of the invention.

Fig. 1 is a flowchart describing a control method according to an embodiment of the present invention.

FIG. 2 is a flow chart illustrating a method of generating a processing power comparison item in a processing power comparison table.

Fig. 3 is a block diagram illustrating an exemplary structure of an electronic device according to an embodiment of the present invention.

Fig. 4 is a block diagram showing an exemplary configuration of the lookup table generation unit of the embodiment of the present invention.

Detailed Description

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that in the present specification and the drawings, steps and elements having substantially the same structure are denoted by the same reference numerals, and repeated explanation of the steps and elements will be omitted.

In the following embodiments of the present invention, an electronic device refers to a device including a display unit and a three-dimensional image processing unit. Specific forms of electronic devices include, but are not limited to, televisions, personal computers, portable computers, tablet computers, smart phones, portable multimedia players, and the like. The display unit may comprise a display screen of the LCD, LED, OLED, etc. type.

FIG. 1 is a flow chart depicting a control method 100 according to an embodiment of the invention. Next, a control method according to an embodiment of the present invention will be described with reference to fig. 1. As shown in fig. 1, in step S101, the current refresh frequency of the display unit is determined. According to one example of the present invention, the display unit may display at a fixed refresh frequency. Alternatively, the screen refresh frequency of the display unit may be different when running different applications. For example, when running a video playback application, the frequency refresh rate of the display unit may be 60 frames/second, while when running a gaming application, the display unit may be displayed at a frequency refresh rate of 70 frames/second. The current refresh frequency of the display unit may be determined according to an application currently running in the electronic device in step S101. Specifically, the method shown in fig. 1 may further include running the target application. And in step S101, the current refresh frequency of the display unit is determined according to the target application.

In step S102, a first three-dimensional processing capability value corresponding to the current refresh frequency is obtained. And, in step S103, the processing parameters of the three-dimensional image processing unit are adjusted according to the first three-dimensional processing capability value. In an embodiment according to the invention, the first three-dimensional throughput value is proportional to the current refresh frequency. That is, the higher the current refresh frequency, the larger the first three-dimensional processing capability value obtained in step S102, and the processing parameters of the three-dimensional image processing unit are adjusted in step S103 so that the processing capability of the three-dimensional image processing unit is higher. Conversely, the smaller the current refresh frequency, the smaller the first three-dimensional processing capability value obtained in step S102, and the lower the processing capability of the three-dimensional image processing unit is made by adjusting the processing parameters of the three-dimensional image processing unit in step S103.

According to an example of the present invention, a processing capability lookup table indicating a correspondence relationship between a reference three-dimensional processing capability value of the three-dimensional image processing unit and a refresh frequency of the display unit may be generated in advance. In step S102, a pre-generated processing capability lookup table may be searched to obtain a first three-dimensional processing capability value of the three-dimensional image processing unit corresponding to the current refresh frequency.

Alternatively, in step S102, a time interval of the display unit when two adjacent frames of pictures are displayed may be determined according to the current refresh frequency obtained in step S101, and the first three-dimensional processing capability value may be determined according to the time interval such that the processing time of the three-dimensional image processing unit for the image in one frame of picture matches the time interval.

As described above, the processing parameters of the three-dimensional image processing unit may be adjusted according to the first three-dimensional processing capability value at step S103. According to an example of the present invention, the first three-dimensional processing capability value may correspond to one or more processing parameters such as an operating frequency of the three-dimensional image processing unit, an external bus frequency, and the like. For example, the operating frequency of the three-dimensional image processing unit may be adjusted according to the three-dimensional processing capability value.

In the control method according to the present embodiment, the performance of the three-dimensional image processing unit may be adjusted according to the current refresh frequency of the display unit so that the processing capability of the three-dimensional image processing unit matches the current refresh frequency of the display unit. Therefore, under the condition that the refreshing frequency of the display unit is low, the processing capacity of the three-dimensional image processing unit can be correspondingly reduced, so that the requirement of high core voltage during the operation of the three-dimensional image processing unit is reduced, and the power consumption of the electronic equipment is reduced.

As described above, the processing capability lookup table indicating the correspondence between the reference three-dimensional processing capability value of the three-dimensional image processing unit and the refresh frequency of the display unit may be generated in advance. According to an example of the present invention, the processing capability comparison table may include at least one processing capability comparison item. Generating the processing capability comparison table may include generating processing capability comparison items in the processing capability comparison table, respectively, and generating the processing capability comparison table according to the generated processing capability comparison items. And in step S102, the processing capability lookup table may be searched, a first reference three-dimensional processing capability value matching the current refresh frequency is obtained, and the first reference three-dimensional processing capability value is taken as the first three-dimensional processing capability value.

FIG. 2 is a flow chart illustrating a method of generating a processing power comparison item in a processing power comparison table. Next, a method of generating a processing capability comparison item in the processing capability comparison table according to an embodiment of the present invention will be described with reference to fig. 2. As shown in fig. 2, in step S201, the three-dimensional image processing unit is set not to be vertically synchronized with the refresh frequency of the display unit. In the vertical synchronization mode, the three-dimensional image processing unit waits for a vertical synchronization signal, and starts drawing a three-dimensional graphic when the vertical synchronization signal is received. Therefore, if the three-dimensional image processing unit has a high processing capability and finishes rendering the current frame before receiving the next vertical synchronization signal, the three-dimensional image processing unit suspends the processing and starts rendering the next frame after receiving the next vertical synchronization signal. Therefore, in the vertical synchronization mode, the performance of the three-dimensional image processing unit is limited due to the limitation of the refresh frequency of the display unit. The three-dimensional image processing unit is set not to be vertically synchronized with the refresh frequency of the display unit in step S201, so that the three-dimensional image processing unit does not need to wait for a vertical synchronization signal when performing three-dimensional graphics processing.

In step S202, a reference three-dimensional processing capability value of the three-dimensional image processing unit is set. The reference three-dimensional processing capability value may be greater than or equal to a predetermined lowest processing capability value of the three-dimensional image processing unit and less than or equal to a maximum processing capability value of the three-dimensional image processing unit. Then, in step S203, the reference processing parameters of the three-dimensional image processing unit are adjusted according to the reference three-dimensional processing capability value.

In step S204, the three-dimensional image processing unit runs the three-dimensional processing test application with the adjusted reference processing parameters, and obtains a test result. And in step S205, a reference refresh frequency corresponding to the set reference three-dimensional processing capability value is determined according to the test result. According to an example of the present invention, the reference processing parameter of the three-dimensional image processing unit may include a reference operating frequency of the three-dimensional image processing unit. In step S204, the three-dimensional image processing unit runs the three-dimensional processing test application at the adjusted reference operating frequency, and obtains the time required for the three-dimensional image processing unit to process the image data of one frame of picture at the reference operating frequency. And in step S205, a reference refresh frequency of the display unit corresponding to a time required for the three-dimensional image processing unit to process the image data of one frame screen at the reference operating frequency is determined.

Finally, in step S206, the set reference three-dimensional processing capability value is stored in correspondence with the determined reference refresh frequency as a processing capability collation item.

The method shown in fig. 2 may be repeatedly performed until the throughput control items corresponding to all the reference three-dimensional throughput values desired are obtained.

Further, according to another example of the present invention, a comparison table of the three-dimensional processing capability value and the processing parameter of the three-dimensional image processing unit may also be stored in advance. Alternatively, the processing capability lookup table may directly store a correspondence between the processing parameters of the three-dimensional image processing unit and the refresh frequency of the display unit. And after the current refreshing frequency is obtained, the processing parameters of the three-dimensional image processing unit can be directly set according to the corresponding relation between the processing parameters of the three-dimensional image processing unit and the refreshing frequency of the display unit.

Next, an electronic apparatus according to an embodiment of the present invention is described with reference to fig. 3. Fig. 3 is a block diagram illustrating an exemplary structure of an electronic device 300 according to an embodiment of the present invention. As shown in fig. 3, the electronic apparatus 300 of the present embodiment includes a display unit 310 and a three-dimensional image processing unit 320. Furthermore, the electronic device 300 further comprises a frequency determination unit 330, an acquisition unit 340 and an adjustment unit 350. The various units of the electronic device 300 perform the various steps/functions of the display method of fig. 1 described above, and therefore, for brevity of description, will not be described in detail.

For example, the frequency determination unit 330 may determine the current refresh frequency of the display unit 310. According to an example of the present invention, the display unit 310 may display at a fixed refresh frequency. Alternatively, the screen refresh frequency of the display unit 310 may be different when different applications are run. For example, when running a video playback application, the frequency refresh rate of the display unit 310 may be 60 frames/second, while when running a gaming application, the display unit 310 may be displayed at a frequency refresh rate of 70 frames/second. The frequency determination unit 330 may determine a current refresh frequency of the display unit according to an application currently running in the electronic device. Specifically, the electronic device 300 shown in fig. 3 may further include an application execution unit. The application execution unit executes the target application. And the frequency determination unit 330 may determine the current refresh frequency of the display unit according to the target application.

The obtaining unit 340 may obtain a first three-dimensional processing capability value corresponding to a current refresh frequency. Then, the adjusting unit 350 may adjust the processing parameter of the three-dimensional image processing unit according to the first three-dimensional processing capability value. In an embodiment according to the invention, the first three-dimensional throughput value is proportional to the current refresh frequency. That is, the higher the current refresh frequency is, the larger the first three-dimensional processing capability value obtained by the acquisition unit 340 is, and the adjustment unit 350 adjusts the processing parameters of the three-dimensional image processing unit so that the processing capability of the three-dimensional image processing unit is higher. Conversely, the smaller the current refresh frequency is, the smaller the first three-dimensional processing capability value obtained by the obtaining unit 340 is, and the adjusting unit 350 adjusts the processing parameters of the three-dimensional image processing unit such that the processing capability of the three-dimensional image processing unit is lower.

According to an example of the present invention, the electronic device 300 may further include a comparison table generating unit. The comparison table generating unit may generate in advance a processing capability comparison table indicating a correspondence between a reference three-dimensional processing capability value of the three-dimensional image processing unit and a refresh frequency of the display unit. The obtaining unit 340 may search a pre-generated processing capability comparison table to obtain a first three-dimensional processing capability value of the three-dimensional image processing unit corresponding to the current refresh frequency.

Alternatively, the obtaining unit 340 may determine a time interval of the display unit when two adjacent frames of pictures are displayed according to the current refresh frequency obtained by the frequency determining unit 330, and determine the first three-dimensional processing capability value according to the time interval so that the processing time of the three-dimensional image processing unit for the image in one frame of picture matches the time interval.

As described above, the adjustment unit 350 may adjust the processing parameter of the three-dimensional image processing unit 320 according to the first three-dimensional processing capability value. According to an example of the present invention, the first three-dimensional processing capability value may correspond to one or more processing parameters such as an operating frequency of the three-dimensional image processing unit 320, an external bus frequency, and the like. For example, the operating frequency of the three-dimensional image processing unit 320 may be adjusted according to the three-dimensional processing capability value.

In the electronic device according to the present embodiment, the performance of the three-dimensional image processing unit may be adjusted according to the current refresh frequency of the display unit such that the processing power of the three-dimensional image processing unit matches the current refresh frequency of the display unit. Therefore, under the condition that the refreshing frequency of the display unit is low, the processing capacity of the three-dimensional image processing unit can be correspondingly reduced, so that the requirement of high core voltage during the operation of the three-dimensional image processing unit is reduced, and the power consumption of the electronic equipment is reduced.

As described above, the electronic apparatus 300 may include the lookup table generation unit to generate the processing capability lookup table indicating the correspondence relationship between the reference three-dimensional processing capability value of the three-dimensional image processing unit and the refresh frequency of the display unit in advance. According to an example of the present invention, the processing capability comparison table may include at least one processing capability comparison item. The comparison table generating unit may generate the processing capability comparison table may include generating processing capability comparison items in the processing capability comparison table, respectively, and generating the processing capability comparison table according to the generated processing capability comparison items. The obtaining unit can search the processing capacity comparison table, obtain a first reference three-dimensional processing capacity value matched with the current refreshing frequency, and use the first reference three-dimensional processing capacity value as the first three-dimensional processing capacity value.

Fig. 4 is a block diagram showing an exemplary configuration of the lookup table generation unit 400 according to the embodiment of the present invention. Next, a collation table generation unit according to an embodiment of the present invention will be described with reference to fig. 4. In this embodiment, the processing capability comparison table includes at least one processing capability comparison item. And the comparison table generating unit 400 generates the processing capability comparison items in the processing capability comparison table, respectively, and generates the processing capability comparison table according to the generated processing capability comparison items. As shown in fig. 4, the map generation unit 400 includes a processing capability setting module 410, a test module 420, a refresh frequency determination module 430, and a storage control module 440. The respective modules of the comparison table generating unit 400 perform the respective steps/functions of the display method in fig. 2 described above, and thus, for brevity of description, will not be described in detail.

For example, the processing capability setting module 410 may set the three-dimensional image processing unit not to be vertically synchronized with the refresh frequency of the display unit and set a reference three-dimensional processing capability value of the three-dimensional image processing unit. In the vertical synchronization mode, the three-dimensional image processing unit waits for a vertical synchronization signal, and starts drawing a three-dimensional graphic when the vertical synchronization signal is received. Therefore, if the three-dimensional image processing unit has a high processing capability and finishes rendering the current frame before receiving the next vertical synchronization signal, the three-dimensional image processing unit suspends the processing and starts rendering the next frame after receiving the next vertical synchronization signal. Therefore, in the vertical synchronization mode, the performance of the three-dimensional image processing unit is limited due to the limitation of the refresh frequency of the display unit. The processing capability setting module 410 sets the three-dimensional image processing unit not to be vertically synchronized with the refresh frequency of the display unit, so that the three-dimensional image processing unit does not need to wait for a vertical synchronization signal when performing three-dimensional graphics processing. Further, the reference three-dimensional processing capability value set by the processing capability setting module 410 may be greater than or equal to a predetermined lowest processing capability value of the three-dimensional image processing unit and less than or equal to a maximum processing capability value of the three-dimensional image processing unit. The adjusting unit 350 in the electronic apparatus 300 may also adjust the reference processing parameter of the three-dimensional image processing unit according to the reference three-dimensional processing capability value.

The test module 420 runs a three-dimensional processing test application through the three-dimensional image processing unit having the adjusted reference processing parameters and obtains a test result. And the refresh frequency determination module 430 determines a reference refresh frequency corresponding to the set reference three-dimensional processing capability value according to the test result. According to an example of the present invention, the reference processing parameter of the three-dimensional image processing unit may include a reference operating frequency of the three-dimensional image processing unit. For example, the test module 420 runs a three-dimensional processing test application through the three-dimensional image processing unit having the adjusted reference operating frequency, and obtains a time required for the three-dimensional image processing unit to process image data of one frame of picture at the reference operating frequency. Then, the refresh frequency determination module 430 determines a reference refresh frequency of the display unit corresponding to a time required for the three-dimensional image processing unit to process the image data of one frame of picture at the reference operating frequency.

Finally, the storage control module 440 correspondingly stores the set reference three-dimensional processing capability value and the determined reference refresh frequency as a processing capability comparison item.

Further, according to another example of the present invention, the electronic apparatus may further store a lookup table of the three-dimensional processing capability value and the processing parameter of the three-dimensional image processing unit in advance. Alternatively, the comparison table generating unit 400 may also directly store a processing capability comparison table of the correspondence between the processing parameters of the three-dimensional image processing unit and the refresh frequency of the display unit. And after the current refreshing frequency is obtained, the processing parameters of the three-dimensional image processing unit can be directly set according to the corresponding relation between the processing parameters of the three-dimensional image processing unit and the refreshing frequency of the display unit.

Those of ordinary skill in the art would appreciate that the various illustrative modules, elements, and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both. And the software modules may be disposed in any form of computer storage media. To clearly illustrate this interchangeability of hardware and software, various illustrative components and steps have been described above generally in terms of their functionality. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

It should be understood by those skilled in the art that various modifications, combinations, partial combinations and substitutions may be made in the present invention depending on design requirements and other factors as long as they are within the scope of the appended claims and their equivalents.

Claims (12)

1. A control method applied to an electronic device including a display unit and a three-dimensional image processing unit, the method comprising:

determining a current refresh frequency of the display unit;

obtaining a first three-dimensional processing capacity value corresponding to the current refreshing frequency;

adjusting the processing parameters of the three-dimensional image processing unit according to the first three-dimensional processing capability value;

wherein,

the first three-dimensional processing capability value is directly proportional to the current refresh frequency;

the method further comprises the following steps:

the target application is run and the application is run,

the determining the current refresh frequency of the display unit comprises:

and determining the current refresh frequency of the display unit according to the target application.

2. The method of claim 1, further comprising, prior to determining a current refresh frequency of the display unit:

generating a processing capability comparison table, wherein the capability comparison table indicates a correspondence between a reference three-dimensional processing capability value of the three-dimensional image processing unit and a refresh frequency of the display unit;

the obtaining a first three-dimensional processing capability value corresponding to the current refresh frequency comprises:

and searching the processing capacity comparison table to obtain a first three-dimensional processing capacity value of the three-dimensional image processing unit corresponding to the current refreshing frequency.

3. The method of claim 2, wherein

The processing capacity comparison table comprises at least one processing capacity comparison item;

the generating of the processing capacity comparison table comprises:

respectively generating processing capacity comparison items in the processing capacity comparison table;

generating the processing capacity comparison table according to the generated processing capacity comparison item,

wherein generating the processing capability comparison item in the processing capability comparison table comprises:

setting the three-dimensional image processing unit not to be vertically synchronized with a refresh frequency of the display unit;

setting a reference three-dimensional processing capability value of the three-dimensional image processing unit;

adjusting a reference processing parameter of the three-dimensional image processing unit according to the reference three-dimensional processing capability value;

running a three-dimensional processing test application through the three-dimensional image processing unit with the reference processing parameters, and obtaining a test result;

determining a reference refreshing frequency corresponding to the set reference three-dimensional processing capacity value according to the test result; and

and correspondingly storing the set reference three-dimensional processing capacity value and the determined reference refreshing frequency as the processing capacity contrast item.

4. The method of claim 3, wherein said looking up the processing power lookup table to obtain a first three-dimensional processing power value of the three-dimensional image processing unit corresponding to the current refresh frequency comprises:

searching the processing capacity comparison table;

obtaining a first reference three-dimensional processing capacity value matched with the current refreshing frequency; and

and taking the first reference three-dimensional processing capacity value as the first three-dimensional processing capacity value.

5. The method of claim 1, wherein said adjusting processing parameters of the three-dimensional image processing unit according to the first three-dimensional processing capability value comprises:

and adjusting the working frequency of the three-dimensional image processing unit according to the three-dimensional processing capacity value.

6. The method of claim 1, wherein said obtaining a first three-dimensional processing power value corresponding to said current refresh frequency comprises:

determining the time interval of the display unit when displaying two adjacent frames of pictures according to the current refresh frequency,

and determining the first three-dimensional processing capacity value according to the time interval.

7. An electronic device including a display unit and a three-dimensional image processing unit, the electronic device further comprising:

a frequency determination unit configured to determine a current refresh frequency of the display unit;

an obtaining unit configured to obtain a first three-dimensional processing capability value corresponding to the current refresh frequency; and

an adjusting unit configured to adjust a processing parameter of the three-dimensional image processing unit according to the first three-dimensional processing capability value;

wherein,

the first three-dimensional processing capability value is directly proportional to the current refresh frequency;

the electronic device further includes:

an application execution unit configured to execute a target application,

the frequency determination unit determines the current refresh frequency of the display unit according to the target application.

8. The electronic device of claim 7, further comprising:

a lookup table generation unit configured to generate a processing capability lookup table indicating a correspondence between a reference three-dimensional processing capability value of the three-dimensional image processing unit and a refresh frequency of the display unit before the frequency determination unit determines the current refresh frequency of the display unit;

the obtaining unit searches the processing capacity comparison table to obtain a first three-dimensional processing capacity value of the three-dimensional image processing unit corresponding to the current refreshing frequency.

9. The electronic device of claim 8, wherein

The processing capacity comparison table comprises at least one processing capacity comparison item;

the comparison table generating unit generates processing capability comparison items in the processing capability comparison table respectively, and generates the processing capability comparison table according to the generated processing capability comparison items,

wherein the look-up table generating unit includes:

a processing capability setting module configured to set the three-dimensional image processing unit not to be vertically synchronized with a refresh frequency of the display unit and to set a reference three-dimensional processing capability value of the three-dimensional image processing unit,

the adjusting unit is further configured to adjust a reference processing parameter of the three-dimensional image processing unit according to the reference three-dimensional processing capability value;

the comparison table generation unit further includes:

a test module configured to run a three-dimensional processing test application through the three-dimensional image processing unit having the adjusted reference processing parameter and obtain a test result; and

the refresh frequency determining module is configured to determine a reference refresh frequency corresponding to the set reference three-dimensional processing capability value according to the test result; and

and the storage control module is configured to correspondingly store the set reference three-dimensional processing capacity value and the determined reference refresh frequency as the processing capacity comparison item.

10. The electronic device of claim 9, wherein

The obtaining unit searches the processing capacity comparison table, obtains a first reference three-dimensional processing capacity value matched with the current refreshing frequency, and takes the first reference three-dimensional processing capacity value as the first three-dimensional processing capacity value.

11. The electronic device of claim 7, wherein

The adjusting unit adjusts the working frequency of the three-dimensional image processing unit according to the three-dimensional processing capacity value.

12. The electronic device of claim 7, wherein

The obtaining unit determines the time interval of the display unit when the display unit displays two adjacent frames of pictures according to the current refreshing frequency, and obtains the first three-dimensional processing capability value according to the time interval.