CN103297614B - Method and device for operating two-system intelligent terminal - Google Patents

Abstract

The invention relates to a method and device for operating a two-system intelligent terminal. The method includes the steps of detecting application programs started by the intelligent terminal, determining a working state of an intelligent terminal multi-core CPU based on the application programs started by the intelligent terminal and determining an operating system according to the working state of the multi-core CPU. For the method and device for operating the two-system intelligent terminal, due to the fact that when the intelligent terminal operates simple application programs, a CPU with small power consumption is used and a simple operation system is operated, and when the intelligent terminal operates complex application programs, CPUs with good performance but large power consumption are started and a complex operation system is operated, switching can be conducted between the two systems in a natural and smooth mode. Therefore, power consumption of the intelligent terminal is reduced, and the continuous cruising capacity of the intelligent terminal is improved. Furthermore, due to the fact that a plurality of CPUs are started when the intelligent terminal operates the complex application programs, the operation process of the intelligent terminal for the application programs is optimized.

Description

A kind of two-system intelligent terminal operation method and device

Technical field

The present invention relates to mobile communication technology field, be specifically related to a kind of two-system intelligent terminal operation method and device.

Background technology

Along with the development of technology, intelligent terminal particularly smart mobile phone has become a kind of product of everybody indispensability, promotes interpersonal interchange, also enriches daily life simultaneously.Because intelligent terminal makes battery-powered mode, so at minimizing intelligent terminal power consumption, the improvement extending the aspects such as its flying power just seems very important.

In prior art, multiple method is attempted to the flying power extending intelligent terminal.For chip for cell phone factory, in order to extend the flying power of intelligent terminal, adopt changes integrated chip size more.By to the improvement of intelligent terminal chip structure to arriving the power consumption reducing intelligent terminal, and then extend the flying power of intelligent terminal.For intelligent terminal producer, then adopting the flying powers of mode to intelligent terminal such as double-core asynchronous process to improve, to reducing the power consumption of intelligent terminal, and then promoting the flying power of intelligent terminal.In addition, the flying power in order to extend intelligent terminal also has the charge capacity increasing battery.

For the flying power promoting intelligent terminal, though prior art proposes multiple technologies scheme, effect is not remarkable.Such as, because the difference of the system architecture Design and implementation algorithm of operating system, cause identical hardware current difference when running different operating system obvious, so prior art does not just have due effect when reducing intelligent terminal power consumption.With this, make prior art in the power consumption reducing intelligent terminal, prolongation intelligent terminal flying power effect is not too remarkable.

Summary of the invention

The flying power difference of intelligent terminal is that intelligent terminal designs and ubiquitous problem in use procedure.In view of this, the embodiment of the present invention proposes a kind of two-system intelligent terminal operation method and device.

A kind of two-system intelligent terminal operation method, comprising:

Intelligent terminal detects the application of opening;

Based on the application that intelligent terminal is opened, determine the operating state of intelligent terminal polycaryon processor;

And, the operating system run is determined according to polycaryon processor operating state.

Further, described a kind of two-system intelligent terminal operation method, the described operating state determining intelligent terminal polycaryon processor, comprising:

When complicated applications being detected, make two or more processor in polycaryon processor in running order;

When complicated applications not detected, make in polycaryon processor, only to keep a processor in running order.

Further, described a kind of two-system intelligent terminal operation method, described complicated applications comprises first kind complicated applications and Equations of The Second Kind complicated applications.

Further, described a kind of two-system intelligent terminal operation method, described when complicated applications being detected, make two or more processor in polycaryon processor in running order, comprising:

When first kind complicated applications being detected, make two or more in polycaryon processor and not all processor is in running order;

When Equations of The Second Kind complicated applications being detected, make whole processor in polycaryon processor in running order.

Further, described a kind of two-system intelligent terminal operation method, only keeps processor in running order for keeping processor least in power-consuming in polycaryon processor in running order in described polycaryon processor.

Further, described a kind of two-system intelligent terminal operation method, the described operating state according to polycaryon processor determines the operating system run, and comprising:

When two or more processor is in running order in polycaryon processor, import complex operations system, derive simple operations system;

When only having a processor in running order in polycaryon processor, importing simple operations system, deriving complex operations system.

Further, the operation method of described a kind of two-system intelligent terminal, described intelligent terminal polycaryon processor selects primary polycaryon processor.

For the method that the embodiment of the present invention is addressed, because using when intelligent terminal runs simple application the processor that power consumption is little, and run simple operations system; The just good but processor that power consumption is larger of unlatching performance when intelligent terminal runs complicated applications, and run complex operations system.With this, reduce the power consumption of intelligent terminal, improve the flying power of intelligent terminal.Further, because opening multiple processor when intelligent terminal runs complicated applications, the operation of intelligent terminal to application is optimized.

The embodiment of the present invention additionally provides a kind of two-system intelligent terminal running gear, comprising:

Detection module, detects the application of opening for intelligent terminal;

Determination module, for the application of opening based on intelligent terminal, determines the operating state of intelligent terminal polycaryon processor;

Select module, for determining the operating system run according to the operating state of polycaryon processor.

Further, described a kind of two-system intelligent terminal running gear, described determination module, comprising:

First determines subelement, for when complicated applications being detected, makes two or more processor in polycaryon processor in running order;

Second determines subelement, for when complicated applications not detected, makes only to keep a processor in running order in polycaryon processor.

Further, described a kind of two-system intelligent terminal running gear, described first determines subelement, comprising:

3rd determines subelement, for when first kind complicated applications being detected, makes two or more in polycaryon processor and not all processor is in running order.

4th determines subelement, for when Equations of The Second Kind complicated applications being detected, makes whole processor in polycaryon processor in running order.

Further, described a kind of two-system intelligent terminal running gear, described selection module, comprising:

First chooser unit, for when two or more processor is in running order in polycaryon processor, imports complex operations system, derives simple operations system;

Second chooser unit, for when only having a processor in running order in polycaryon processor, importing simple operations system, deriving complex operations system.

For the device that the embodiment of the present invention is addressed, because configuring multiple processor, only running the processor of low-power consumption when running simple application, running simple operations system; When running complicated applications, performance is good but the processor that power consumption is also high is just in running order, runs complex operations system, improves the flying power of device and intelligent terminal.Further, because opening multiple processor when intelligent terminal runs complicated applications, the operating characteristics of intelligent terminal is also optimized further.

Accompanying drawing explanation

Fig. 1 is smart-phone device module diagram in the embodiment of the present invention.

Fig. 2 is first embodiment of the invention schematic flow sheet.

Fig. 3 is smart mobile phone start process schematic diagram in the embodiment of the present invention.

Fig. 4 is second embodiment of the invention schematic flow sheet.

Fig. 5 is third embodiment of the invention schematic flow sheet.

Embodiment

The realization of the inventive method needs the support of intelligent terminal hardware.Before introducing the specific embodiment of the invention, in order to more complete, clearly understand the present invention and be necessary to do necessary introduction to fractional hardware of the present invention.The smart mobile phone generally used in the embodiment of this and following part is all for intelligent terminal is described, but examples cited are several execution mode of the present invention, are not limited to scope of the present invention and use field.Further, following embodiment is illustrated in technical for making the elaboration of embodiment have more, processor (CPU) with English abbreviation CPU replace set forth, replace herein and do not produce other implications.

Be illustrated in figure 1 smart mobile phone main device module diagram.Wherein multi-core CPU device 101, communicator 102, storage arrangement 103, display unit 104 and I/O device 105.Communicator 102, storage arrangement 103, display unit 104 and I/O device 105 are connected with multi-core CPU device 101 respectively.

For multi-core CPU device 101, comprise running gear and multi-core CPU, preferred multi-core CPU is primary multi-core CPU, completely independently between each core of primary multi-core CPU, all have the Front Side Bus of oneself, can not cause conflict, even if under high load condition, each core can ensure that the performance of oneself is not by too much influence.Wherein running gear comprises, detection module, detects the application of opening for intelligent terminal; Determination module, for the application of opening based on intelligent terminal, determines the operating state of intelligent terminal multi-core CPU; Select module, for determining the operating system run according to the operating state of multi-core CPU.Multi-core CPU comprises, and run the CPU of simple application and run the CPU of complicated applications, the CPU wherein running simple application is CPU least in power-consuming in multi-core CPU.

To communicator 102, comprise transmitter module and receiver module.The two composition communicator, by realizing the communication function of smart mobile phone to the launching and receiving of signal of communication.

For storage arrangement 103, comprise internal memory and external memory.Save as DDR class in preferred, preferred external memory is eMMC class.

Display unit 104, is mainly used in showing smart mobile phone information.

I/O device 105, comprises output module and input module.Realize inputting the output of cellphone information by output module and input module, realize the operation to smart mobile phone.

On this basis, following part will be described the embodiment of technical solution of the present invention by reference to the accompanying drawings.

Embodiment one

As shown in Figure 2, intelligent terminal operation method overall procedure schematic diagram of the present invention.

In the present embodiment for smart mobile phone, in conjunction with the above-mentioned explanation to smart-phone device module, comparatively recapitulative execution mode explanation is made to the present invention.For the execution mode of comparatively refinement of the present invention, will introduce in following several embodiment.

Step 201, smart mobile phone detects the application of opening.Smart mobile phone in process of production design configurations time the application in mobile phone is classified.Based on the specific nature of application, simple application and complicated applications can be divided into.For these two kinds classification, smart mobile phone manufacturer in design configurations process to this has been setting; When opening application, smart mobile phone can detect the application of opening, identify, and then tells simple application or complicated applications.

In this step, smart mobile phone detects the application of opening, and carry out Division identification to simple application and the application of this two class of complicated applications exactly, whether the application identifying smart mobile phone operation has complicated applications to exist.

Step 202, the operating state of multi-core CPU is determined in the application based on smart mobile phone unlatching.According to smart mobile phone detect open application, multi-core CPU operating state is adjusted.

In this step, when complicated applications being detected, make two or more CPU in multi-core CPU in running order.

When complicated applications not detected, make in multi-core CPU, only to keep a CPU in running order.

Step 203, determines the operating system run according to the operating state of multi-core CPU.For operating system, before dispatching from the factory, be embedded with two operating systems in configuration according in the corresponding smart mobile phone of division to application, be namely complex operations system and simple operations system.Simple operations system is that autgmentability is poor, and the expanded function of support is limited, and simple process scheduling can only run simple application function; Complex operations system, autgmentability is strong, can support that multiple process is run simultaneously, can carry out real-time upgrading, can run complex software and complicated applications, the operating systems such as such as linux, ios.

In this step, when two or more CPU is in running order in multi-core CPU, import complex operations system, derive simple operations system.

When only having a CPU in running order in multi-core CPU, importing simple operations system, deriving complex operations system.

For the method that the embodiment of the present invention is addressed, because using when intelligent terminal runs simple application the CPU that power consumption is little, and run simple operations system; The just good but CPU that power consumption is larger of unlatching performance when intelligent terminal runs complicated applications, and run complex operations system.With this, reduce the power consumption of intelligent terminal, improve the flying power of intelligent terminal.Further, because opening multiple CPU when intelligent terminal runs complicated applications, the operation of intelligent terminal to application is optimized.

Embodiment two

As shown in Figure 4, the present embodiment schematic flow sheet.

For multi-core CPU smart mobile phone involved in the present embodiment, wherein multi-core CPU comprises two CPU.In order to make the description of this invention more accurate, clear, called after CPU1, the CPU2 respectively of two CPU in multi-core CPU; Wherein CPU1 is the CPU running simple application, CPU2 is the CPU running complicated applications.Further, CPU1 is low in energy consumption, but the CPU that performance is also poor simultaneously; CPU2 is the good CPU of Performance Ratio, but is also the CPU that power consumption is larger in running simultaneously.

Step 401, the start process of smart mobile phone, as shown in Figure 3.After start, smart mobile phone multi-core CPU electrification reset, bootload program (bootloader) from memory; Run boot, load and start the minimum system of ease of Use system and complex operations system, running in smart mobile phone internal memory simultaneously, to reach the smoothness switching between dual system; Now the minimum system of two operating systems has imported to smart mobile phone internal memory and has suffered, the existence of minimum system ensure that and the minimum condition of work of ease of Use system or complex operations system that is to say the normal work that ensure that simple operations system and complex operations system; Then ease of Use system carries out initialization peripheral hardware work (display screen, input equipment, MODEM etc.); After having started shooting, CPU2 quits work, and in smart mobile phone, CPU1 runs ease of Use system, that is to say that smart mobile phone start runs rear multi-core CPU and only keeps a CPU in running order, and in running order CPU runs simple application, and be CPU least in power-consuming in multi-core CPU.

Step 402, smart mobile phone detects whether open complicated applications.Smart mobile phone in process of production design configurations time the application in mobile phone is classified.Based on the specific nature of application, simple application and complicated applications can be divided into.For these two kinds classification, smart mobile phone manufacturer in design configurations process to this has been setting; When opening application, smart mobile phone can detect the application of opening, identify, and then tells simple application or complicated applications.

In the present embodiment, call, sends short messages, listens to the music, see e-book, upper QQ, online, and upper microblogging, is set as simple application; QQ plays, online game, and seeing a film etc. is set to complicated applications.

In this step, smart mobile phone detects the application of opening, and carry out Division identification to simple application and the application of this two class of complicated applications exactly, whether the application identifying smart mobile phone operation has complicated applications to exist, that is to say and identify user whether in operation QQ game, online game or see a film.

Step 403, according to smart mobile phone detect open application, multi-core CPU operating state is adjusted.When complicated applications being detected, such as smart mobile phone opens QQ game.Go because needing complex operations system for complicated applications to perform, at this moment CPU1 continues to keep operating state; CPU2 opens, CPU1 and CPU2 is simultaneously in running order.

When can't detect the just simple application of complicated applications or detection, such as smart mobile phone is just being conversed; In running order CPU1 works on, and CPU2 does not open.

When smart mobile phone closes complicated applications such as QQ game, and also do not open other complicated applications and such as see a film, smart mobile phone is not also just in operation complicated applications, and this is that CPU1 keeps operating state, and CPU2 closes.

Step 404, according to the operating state of multi-core CPU, determines the operating system run.For operating system, before dispatching from the factory, be embedded with two operating systems in configuration according in the corresponding smart mobile phone of division to application, be namely complex operations system and simple operations system.Simple operations system is that autgmentability is poor, and the expanded function of support is limited, and simple process scheduling can only run simple application function; Complex operations system, autgmentability is strong, can support that multiple process is run simultaneously, can carry out real-time upgrading, can run complex software and complicated applications, the operating systems such as such as linux, ios.

According to the application run that smart mobile phone detects, in multi-core CPU, CPU2 is in unlatching or closed condition.According to unlatching or the closedown of CPU2, boot guides complex operations system or simple operations system introducing or derives multi-core CPU.

Time in running order when CPU1 and CPU2 in multi-core CPU being detected while, determine to run complex operations system.Now, boot guides lower multi-core CPU to import complex operations system, derives simple operations system.

When detecting that in multi-core CPU, CPU1 is in running order, when CPU2 is in closed condition, determine to run simple operations system.Now, boot guides lower multi-core CPU to import simple operations system, derives complex operations system.

The above, because of when smart mobile phone runs simple application, only have the CPU that power consumption is little in running order, decrease the electric energy loss of smart mobile phone, improve the flying power of mobile phone in multi-core CPU.Further, because CPU1 and CPU2 in multi-core CPU in the mobile phone when opening complicated applications is simultaneously in running order, also improve the operating characteristics of mobile phone simultaneously.

Embodiment three

Also give an account of above based on the smart-phone device module continued in the present embodiment, below in conjunction with accompanying drawing, the present embodiment is described.

As shown in Figure 5, the present embodiment schematic flow sheet.

Four CPU are comprised for the multi-core CPU in the present embodiment involved by smart mobile phone.In order to make the description of this invention more accurate, clear, called after CPU1, CPU2, CPU3 and the CPU4 respectively of four CPU in multi-core CPU; Wherein CPU1 is the CPU of application simple application, and CPU2, CPU3 and CPU4 are the CPU of application complicated applications.Further, CPU1 is that in multi-core CPU, power consumption is minimum, the CPU that Performance comparision is low; CPU2, CPU3 and CPU4 refer to that Performance Ratio is better, but are also the CPU that power consumption is larger in running simultaneously.CPU quantity in this example in multi-core CPU is not limited to the present invention, and the quantity of the CPU in multi-core CPU can do corresponding adjustment according to the needs of design and use.

Step 501, the start process of smart mobile phone, as shown in Figure 3.After start, smart mobile phone multi-core CPU electrification reset, bootload routine data from memory; Run boot, load and start the minimum system of ease of Use system and complex operations system, while, is run in smart mobile phone internal memory; Now the minimum system of two operating systems has imported to smart mobile phone internal memory and has suffered, the existence of minimum system ensure that and the minimum condition of work of ease of Use system or complex operations system that is to say the normal work that ensure that simple operations system and complex operations system; Then ease of Use system carries out initialization peripheral hardware work (display screen, input equipment, MODEM etc.); After having started shooting, CPU2, CPU3 and CPU4 quit work, and CPU1 is operated in ease of Use system, that is to say that smart mobile phone start runs rear multi-core CPU and only keeps a CPU in running order, and in running order CPU runs simple application, and be CPU least in power-consuming in multi-core CPU.

Step 502, smart mobile phone detects whether open complicated applications.Smart mobile phone is classified to the application in mobile phone when dispatching from the factory configuration.Based on the specific nature of application, simple application and complicated applications can be divided into.For two kinds of classification, smart mobile phone manufacturer dispatch from the factory configuration time to this has been setting; When smart mobile phone opens application, smart mobile phone can detect the application of opening, identify, and then tells simple application or complicated applications.

Further, complicated applications is also divided into first kind complicated applications and Equations of The Second Kind complicated applications in the present embodiment.Dispatch from the factory in the setting of configuration at mobile phone, to carry out complicated applications and simple application in setting identifying on the basis of differentiating, also set simultaneously and the condition that identifies Yu differentiate is carried out to first kind complicated applications and Equations of The Second Kind complicated applications.For this kind of classification, the present invention is not limited to this, can do further classification according to the needs that intelligent terminal design uses.

In the present embodiment, call, sends short messages, listens to the music, see e-book, upper QQ, online, and upper microblogging, is set as simple application; QQ plays, online game, and seeing a film etc. is set to complicated applications.And further, QQ plays, seeing a film is set to first kind complicated applications, and online game is set to Equations of The Second Kind complicated applications.

In this step, smart mobile phone detects the application of opening, and carry out Division identification to simple application and the application of this two class of complicated applications exactly, whether the application identifying smart mobile phone operation has complicated applications to exist, that is to say and identify user whether in operation QQ game, online game or see a film.And identify first kind complicated applications or Equations of The Second Kind complicated applications further.

Step 503, according to smart mobile phone detect open application, operating state in multi-core CPU is adjusted.When complicated applications being detected, when further smart mobile phone configures according to dispatching from the factory, the condition of setting identifies complicated applications, identify first kind complicated applications or Equations of The Second Kind complicated applications, such as, identify that complicated applications is seen a film or played at operational network.Smart mobile phone according to detected be the operating state of first kind complicated applications or Equations of The Second Kind complicated applications determination multi-core CPU.In this embodiment, two kinds of mode classifications are carried out to complicated applications and is not limited to the present invention.After using according to design the further classification needed application, the operating state of corresponding multi-core CPU also carries out adaptive adjustment.When smart mobile phone detect be complicated applications time, the application detected by judging further is first kind complicated applications or Equations of The Second Kind complicated applications.

When being first kind complicated applications, such as, when smart phone user is seen a film, CPU2, CPU3 open and enter operating state, and CPU4 does not open;

When being Equations of The Second Kind complicated applications, such as smart mobile phone is just when operational network is played, and CPU2, CPU3 and CPU4 open simultaneously, and simultaneously in running order.

When smart mobile phone can't detect complicated applications or the complicated applications that detects changes, the operating state of multi-core CPU adjusts accordingly.

When can't detect complicated applications, CPU1 is in running order, and CPU2, CPU3 and CPU4 are in closed condition;

When the complicated applications detected is changed to Equations of The Second Kind complicated applications by first kind complicated applications, such as, when user is changed to object for appreciation online game by seeing a film, CPU1, CPU2, CPU3 work on and CPU4 opens, and four CPU are simultaneously in running order;

When the complicated applications detected is changed to first kind complicated applications by Equations of The Second Kind complicated applications, such as when user by online game be changed to see a film time, CPU1, CPU2 and CPU3 keep operating state, and CPU4 closes, and multi-core CPU only has CPU1, CPU2 and CPU3 simultaneously in running order.

Step 504, according to the operating state of multi-core CPU, determines the operating system run.For operating system, in smart mobile phone production process during design configurations, according to the division to application, being embedded with two operating systems in smart mobile phone, is namely complex operations system and simple operations system.Simple operations system is that autgmentability is poor, and the expanded function of support is limited, and simple process scheduling can only run simple application function; Complex operations system, autgmentability is strong, can support that multiple process is run simultaneously, can carry out real-time upgrading, can run complex software and complicated applications, the operating systems such as such as linux, ios.

According to the application operation conditions that smart mobile phone detects, in multi-core CPU, CPU2, CPU3 and CPU4 are in unlatching or closed condition.According to the unlatching of CPU2, CPU3, CPU4 or the state of closedown, complex operations system or simple operations system import or derive multi-core CPU under boot guides.

When detecting that in multi-core CPU, CPU1, CPU2, CPU3 and CPU4 are simultaneously in running order, determine to run complex operations system.Now, boot guides lower multi-core CPU to import complex operations system, derives simple operations system.

When detecting that in multi-core CPU, CPU1, CPU2 and CPU3 are in running order, determine to run complex operations system.Now, boot guides lower multi-core CPU to import complex operations system, derives simple operations system.

When detecting that in multi-core CPU, CPU1 is in running order, CPU2, CPU3 and CPU4 are in closed condition, determine to run simple operations system.Now, boot guides lower multi-core CPU to import simple operations system, derives complex operations system.

With this, method described in this example runs intelligent mobile phone system, and because of when smart mobile phone runs simple application, the CPU that in multi-core CPU, power consumption is little is in running order, decreases the electric energy loss of smart mobile phone, improves the flying power of mobile phone.Further, because of when opening complicated applications, in running order the while of CPU1, CPU2, CPU3 and CPU4 in mobile phone in multi-core CPU or CPU1, CPU2 and CPU3, improve the performance of mobile phone, make the operation of mobile phone more smooth and convenient.

Embodiment four

The present embodiment be to of the present invention and the execution mode of device.For running gear of the present invention, comprise detection module, determination module and selection module; Detection module, determination module and selection module are connected and form running gear of the present invention.Wherein detection module, detects the application of opening for smart mobile phone; Determination module, for the application of opening based on smart mobile phone, determines the operating state of smart mobile phone multi-core CPU; Select module, for determining the operating system run according to the operating state of multi-core CPU.

First is comprised for determination module and determines that subelement determined by subelement and second.Wherein, first determines subelement, for when complicated applications being detected, makes two or more CPU in multi-core CPU in running order; Second determines subelement, for when complicated applications not detected, makes only to keep a CPU in running order in multi-core CPU.

Further, determine that subelement comprises the 3rd and determines that subelement determined by subelement and the 4th for first.Wherein, the 3rd determines subelement, when first kind complicated applications being detected, makes two or more in multi-core CPU and not all CPU is in running order; 4th determines subelement, when Equations of The Second Kind complicated applications being detected, makes whole CPU in polycaryon processor in running order.

First chooser unit and the second chooser unit are comprised for selection module.Wherein, the first chooser unit, for when two or more CPU is in running order in multi-core CPU, imports complex operations system, derives simple operations system; Second chooser unit, for when only having a CPU in running order in multi-core CPU, importing simple operations system, deriving complex operations system.

For the device that the embodiment of the present invention is addressed, because configuring multiple CPU, only running the CPU of low-power consumption when running simple application, running simple operations system; When running complicated applications, performance is good but the CPU that power consumption is also high is just in running order, runs complex operations system, improves the flying power of device and intelligent terminal.Further, because opening multiple CPU when intelligent terminal runs complicated applications, the operating characteristics of intelligent terminal is also optimized further.

The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, to those skilled in the art, the present invention can have various change and change.All do within spirit of the present invention and principle any amendment, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (7)

1. a two-system intelligent terminal operation method, is characterized in that, comprising:

Intelligent terminal detects the application of opening, and whether comprises complicated applications to detect the application run in intelligent terminal;

When complicated applications being detected, make two or more processor in polycaryon processor in running order;

When complicated applications not detected, make in polycaryon processor, only to keep a processor in running order;

And, when two or more processor is in running order in polycaryon processor, import complex operations system, derive simple operations system;

When only having a processor in running order in polycaryon processor, importing simple operations system, deriving complex operations system.

2. a kind of two-system intelligent terminal operation method as claimed in claim 1, is characterized in that, described complicated applications comprises first kind complicated applications and Equations of The Second Kind complicated applications.

3. a kind of two-system intelligent terminal operation method as claimed in claim 2, is characterized in that, described when complicated applications being detected, makes two or more processor in polycaryon processor in running order, comprising:

When first kind complicated applications being detected, make two or more in polycaryon processor and not all processor is in running order;

When Equations of The Second Kind complicated applications being detected, make whole processor in polycaryon processor in running order.

4. a kind of two-system intelligent terminal operation method as claimed in claim 1, is characterized in that, only keeps processor in running order for keeping processor least in power-consuming in polycaryon processor in running order in described polycaryon processor.

5. the operation method of a kind of two-system intelligent terminal as claimed in claim 1, is characterized in that, described intelligent terminal polycaryon processor selects primary polycaryon processor.

6. a two-system intelligent terminal running gear, is characterized in that, comprising:

Detection module, detects the application of opening, whether comprises complicated applications to detect the application run in intelligent terminal for intelligent terminal;

First determination module, for when complicated applications being detected, makes two or more processor in polycaryon processor in running order;

Second determination module, for when complicated applications not detected, makes only to keep a processor in running order in polycaryon processor;

First chooser unit, for when two or more processor is in running order in polycaryon processor, imports complex operations system, derives simple operations system;

Second chooser unit, for when only having a processor in running order in polycaryon processor, importing simple operations system, deriving complex operations system.

7. a kind of two-system intelligent terminal running gear as claimed in claim 6, is characterized in that, described first determination module, comprising:

3rd determines subelement, for when first kind complicated applications being detected, makes two or more in polycaryon processor and not all processor is in running order;

4th determines subelement, for when Equations of The Second Kind complicated applications being detected, makes whole processor in polycaryon processor in running order.